ORF » Species Summary » Homo sapiens » NRCAM cDNA ORF clone

NRCAM cDNA ORF clone, Homo sapiens(human)

The following NRCAM gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NRCAM cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu108617 NM_001371137.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 50, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu108615 NM_001371154.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 43, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu108616 NM_001371140.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 52, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu108621 NM_001371180.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 40, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu108621 NM_001371179.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 39, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu108622 NM_001371138.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 51, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu108623 NM_001371175.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 66, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu108624 NM_001371125.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 29, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu108625 NM_001371132.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 32, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu108627 NM_001371141.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 53, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu108628 NM_001371170.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 63, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu108631 NM_001371173.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 64, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu108635 NM_001371136.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 49, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97271 NM_001371169.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 62, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97272 NM_001371119.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 45, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97274 NM_001371126.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 27, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97274 NM_001371124.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 26, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97276 NM_001371146.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 56, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97283 NM_001371135.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 48, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97286 NM_001371159.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 68, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97288 NM_001371174.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 65, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97289 NM_001371143.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 36, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97291 NM_001371150.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 57, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu97292 NM_001371157.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 59, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu105887 XM_024446778.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X42, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu105888 XM_024446779.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X43, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97270 XM_017012236.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97273 XM_017012239.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97274 XM_017012240.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97275 XM_024446773.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97275 XM_017012241.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97276 XM_024446774.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97277 XM_017012243.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97278 XM_017012244.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97279 XM_017012245.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97280 XM_017012246.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X29, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97281 XM_017012247.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X30, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97282 XM_017012248.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X34, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97283 XM_017012249.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X35, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97284 XM_024446775.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X33, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97285 XM_017012251.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X34, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97286 XM_017012252.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X38, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97287 XM_017012253.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X39, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97288 XM_017012254.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X37, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97289 XM_017012255.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X38, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97290 XM_017012256.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X42, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97290 XM_024446777.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X39, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97291 XM_024446781.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X45, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu97291 XM_017012258.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X45, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu97292 XM_024446782.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X46, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu97292 XM_017012259.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X46, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu04641 NM_001037132.3
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu04736 NM_001371133.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $832.30
$1189.00
OHu04736 NM_001371178.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $832.30
$1189.00
OHu04736 NM_001371151.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $832.30
$1189.00
OHu04736 NM_001371171.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $832.30
$1189.00
OHu05428 NM_001371163.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $384.30
$549.00
OHu05428 NM_001193583.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $384.30
$549.00
OHu05428 NM_001371155.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $384.30
$549.00
OHu05428 NM_001371181.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $384.30
$549.00
OHu05428 NM_001371139.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $384.30
$549.00
OHu18564 NM_001193582.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $853.30
$1219.00
OHu18564 NM_001371168.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $853.30
$1219.00
OHu18564 NM_001371128.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $853.30
$1219.00
OHu41582 NM_001371149.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu41585 NM_001371161.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 42, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59327 NM_001371156.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 58, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59341 NM_001371130.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 33, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59341 NM_001371152.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 34, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu04641 XM_005250373.3
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu05428 XM_017012257.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X40, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $384.30
$549.00
OHu41572 XM_006716003.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu41575 XM_006716007.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu41581 XM_006716012.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu41582 XM_005250383.3
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X24, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu41584 XM_006716014.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X30, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu41585 XM_005250385.3
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X29, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59326 XM_011516253.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59327 XM_011516256.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59328 XM_011516258.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59328 XM_011516257.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59329 XM_011516259.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59331 XM_011516261.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59332 XM_011516262.1
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59335 XM_011516265.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59336 XM_011516266.3
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59337 XM_011516267.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59338 XM_011516268.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu59339 XM_011516269.2
Latest version!		 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
View Old Accession Versions >>
OHu97273 XM_017012239.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97285 XM_017012251.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X37, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu41572 XM_006716003.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu97270 XM_017012236.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu59337 XM_011516267.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X24, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu97274 XM_017012240.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97288 XM_017012254.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X40, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu97289 XM_017012255.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X41, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu59329 XM_011516259.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu41575 XM_006716007.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu97281 XM_017012247.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X33, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
Hide Old Accession Versions >>

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***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    NRCAM ( NM_001371137.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358066.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 50, mRNA.
    Price & Availability↑
    CloneID OHu108617
    Clone ID Related Accession (Same CDS sequence) NM_001371137.1
    Accession Version NM_001371137.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2643bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform U
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.245387.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
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    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    ATGCTACCCA AAAACAGGAC AGTTTATAAG AACTTTGAGA AAACCTTGCA GATCATTCAT 
    GTTTCAGAAG CAGACTCTGG AAATTACCAA TGTATAGCAA AAAACGCATT AGGAGCCATC 
    CACCATACCA TTTCTGTTAG AGTTAAAGCG GCTCCATACT GGATCACAGC CCCTCAAAAT 
    CTTGTGCTGT CCCCAGGAGA GGATGGGACC TTGATCTGCA GAGCTAATGG CAACCCCAAA 
    CCCAGAATTA GCTGGTTAAC AAATGGAGTC CCAATAGAAA TTGCCCCTGA TGACCCCAGC 
    AGAAAAATAG ATGGCGATAC CATTATTTTT TCAAATGTTC AAGAAAGATC AAGTGCAGTC 
    TATCAGTGCA ATGCCTCTAA TGAATATGGA TATTTACTGG CAAACGCATT TGTAAATGTG 
    CTGGCTGAGC CACCACGAAT CCTCACACCT GCAAACACAC TCTACCAGGT CATTGCAAAC 
    AGGCCTGCTT TACTAGACTG TGCCTTCTTT GGGTCTCCTC TCCCAACCAT CGAGTGGTTT 
    AAAGGAGCTA AAGGAAGTGC TCTTCATGAA GATATTTATG TTTTACATGA AAATGGAACT 
    TTGGAAATTC CTGTGGCCCA AAAGGACAGT ACAGGAACTT ATACGTGTGT TGCAAGGAAT 
    AAATTAGGGA TGGCGAAGAA TGAAGTTCAC TTAGAAATCA AAGATCCTAC ATGGATCGTT 
    AAACAGCCCG AATATGCAGT TGTGCAAAGA GGGAGCATGG TGTCCTTTGA ATGCAAAGTG 
    AAACATGATC ACACCTTATC CCTCACTGTC CTGTGGCTGA AGGACAACAG GGAACTGCCC 
    AGTGATGAAA GGTTCACTGT TGACAAGGAT CATCTAGTGG TAGCTGATGT CAGTGACGAT 
    GACAGCGGGA CCTACACGTG TGTGGCCAAC ACCACTCTGG ACAGCGTCTC CGCCAGCGCT 
    GTGCTTAGCG TTGTTGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCGATGG CAAGCCGGCA GGTGGATATT 
    GCAACTCAGG GCTGGTTCAT TGGTCTGATG TGTGCTGTTG CTCTCCTTAT CTTAATTTTG 
    CTGATTGTTT GCTTCATCAG AAGAAACAAG GGTGGTAAAT ATCCAGTTAA AGAAAAGGAA 
    GATGCCCATG CTGACCCTGA AATCCAGCCT ATGAAGGAAG ATGATGGGAC ATTTGGAGAA 
    TACAGTGATG CAGAAGACCA CAAGCCTTTG AAAAAAGGAA GTCGAACTCC TTCAGACAGG 
    ACTGTGAAAA AAGAAGATAG TGACGACAGC CTAGTTGACT ATGGAGAAGG GGTTAATGGC 
    CAGTTCAATG AGGATGGCTC CTTTATTGGA CAATACAGTG GTAAGAAAGA GAAAGAGCCG 
    GCTGAAGGAA ACGAAAGCTC AGAGGCACCT TCTCCTGTCA ACGCCATGAA TTCCTTTGTT 
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358066.1
    CDS1266..3908
    Translation

    Target ORF information:

    RefSeq Version NM_001371137.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 50, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371137.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    ATGCTACCCA AAAACAGGAC AGTTTATAAG AACTTTGAGA AAACCTTGCA GATCATTCAT 
    GTTTCAGAAG CAGACTCTGG AAATTACCAA TGTATAGCAA AAAACGCATT AGGAGCCATC 
    CACCATACCA TTTCTGTTAG AGTTAAAGCG GCTCCATACT GGATCACAGC CCCTCAAAAT 
    CTTGTGCTGT CCCCAGGAGA GGATGGGACC TTGATCTGCA GAGCTAATGG CAACCCCAAA 
    CCCAGAATTA GCTGGTTAAC AAATGGAGTC CCAATAGAAA TTGCCCCTGA TGACCCCAGC 
    AGAAAAATAG ATGGCGATAC CATTATTTTT TCAAATGTTC AAGAAAGATC AAGTGCAGTC 
    TATCAGTGCA ATGCCTCTAA TGAATATGGA TATTTACTGG CAAACGCATT TGTAAATGTG 
    CTGGCTGAGC CACCACGAAT CCTCACACCT GCAAACACAC TCTACCAGGT CATTGCAAAC 
    AGGCCTGCTT TACTAGACTG TGCCTTCTTT GGGTCTCCTC TCCCAACCAT CGAGTGGTTT 
    AAAGGAGCTA AAGGAAGTGC TCTTCATGAA GATATTTATG TTTTACATGA AAATGGAACT 
    TTGGAAATTC CTGTGGCCCA AAAGGACAGT ACAGGAACTT ATACGTGTGT TGCAAGGAAT 
    AAATTAGGGA TGGCGAAGAA TGAAGTTCAC TTAGAAATCA AAGATCCTAC ATGGATCGTT 
    AAACAGCCCG AATATGCAGT TGTGCAAAGA GGGAGCATGG TGTCCTTTGA ATGCAAAGTG 
    AAACATGATC ACACCTTATC CCTCACTGTC CTGTGGCTGA AGGACAACAG GGAACTGCCC 
    AGTGATGAAA GGTTCACTGT TGACAAGGAT CATCTAGTGG TAGCTGATGT CAGTGACGAT 
    GACAGCGGGA CCTACACGTG TGTGGCCAAC ACCACTCTGG ACAGCGTCTC CGCCAGCGCT 
    GTGCTTAGCG TTGTTGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCGATGG CAAGCCGGCA GGTGGATATT 
    GCAACTCAGG GCTGGTTCAT TGGTCTGATG TGTGCTGTTG CTCTCCTTAT CTTAATTTTG 
    CTGATTGTTT GCTTCATCAG AAGAAACAAG GGTGGTAAAT ATCCAGTTAA AGAAAAGGAA 
    GATGCCCATG CTGACCCTGA AATCCAGCCT ATGAAGGAAG ATGATGGGAC ATTTGGAGAA 
    TACAGTGATG CAGAAGACCA CAAGCCTTTG AAAAAAGGAA GTCGAACTCC TTCAGACAGG 
    ACTGTGAAAA AAGAAGATAG TGACGACAGC CTAGTTGACT ATGGAGAAGG GGTTAATGGC 
    CAGTTCAATG AGGATGGCTC CTTTATTGGA CAATACAGTG GTAAGAAAGA GAAAGAGCCG 
    GCTGAAGGAA ACGAAAGCTC AGAGGCACCT TCTCCTGTCA ACGCCATGAA TTCCTTTGTT 
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371154.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358083.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 43, mRNA.
    Price & Availability↑
    CloneID OHu108615
    Clone ID Related Accession (Same CDS sequence) NM_001371154.1
    Accession Version NM_001371154.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform O precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (43), as well as variant 44, encodes isoform O. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803611.29671.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAACGA TGGCAAGCCG GCAGGTGGAT 
    ATTGCAACTC AGGGCTGGTT CATTGGTCTG ATGTGTGCTG TTGCTCTCCT TATCTTAATT 
    TTGCTGATTG TTTGCTTCAT CAGAAGAAAC AAGGGTGGTA AATATCCAGT TAAAGAAAAG 
    GAAGATGCCC ATGCTGACCC TGAAATCCAG CCTATGAAGG AAGATGATGG GACATTTGGA 
    GAATACAGTG ATGCAGAAGA CCACAAGCCT TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC 
    AGGACTGTGA AAAAAGAAGA TAGTGACGAC AGCCTAGTTG ACTATGGAGA AGGGGTTAAT 
    GGCCAGTTCA ATGAGGATGG CTCCTTTATT GGACAATACA GTGGTAAGAA AGAGAAAGAG 
    CCGGCTGAAG GAAACGAAAG CTCAGAGGCA CCTTCTCCTG TCAACGCCAT GAATTCCTTT 
    GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358083.1
    CDS526..3891
    Translation

    Target ORF information:

    RefSeq Version NM_001371154.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 43, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371154.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAACGA TGGCAAGCCG GCAGGTGGAT 
    ATTGCAACTC AGGGCTGGTT CATTGGTCTG ATGTGTGCTG TTGCTCTCCT TATCTTAATT 
    TTGCTGATTG TTTGCTTCAT CAGAAGAAAC AAGGGTGGTA AATATCCAGT TAAAGAAAAG 
    GAAGATGCCC ATGCTGACCC TGAAATCCAG CCTATGAAGG AAGATGATGG GACATTTGGA 
    GAATACAGTG ATGCAGAAGA CCACAAGCCT TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC 
    AGGACTGTGA AAAAAGAAGA TAGTGACGAC AGCCTAGTTG ACTATGGAGA AGGGGTTAAT 
    GGCCAGTTCA ATGAGGATGG CTCCTTTATT GGACAATACA GTGGTAAGAA AGAGAAAGAG 
    CCGGCTGAAG GAAACGAAAG CTCAGAGGCA CCTTCTCCTG TCAACGCCAT GAATTCCTTT 
    GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371140.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358069.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 52, mRNA.
    Price & Availability↑
    CloneID OHu108616
    Clone ID Related Accession (Same CDS sequence) NM_001371140.1
    Accession Version NM_001371140.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3669bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform W precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.66651.1, SRR1803614.158109.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGTTCAAG CAGTAAATCC CAGGATCAGC 
    AATCTTACTG CTGCAGCTGC TGAGACCTAT GCCAATATCA GTTGGGAATA TGAGGGACCA 
    GAGCATGTGA ACTTTTATGT TGAATATGGT GTAGCAGGCA CGATGGCAAG CCGGCAGGTG 
    GATATTGCAA CTCAGGGCTG GTTCATTGGT CTGATGTGTG CTGTTGCTCT CCTTATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATATCC AGTTAAAGAA 
    AAGGAAGATG CCCATGCTGA CCCTGAAATC CAGCCTATGA AGGAAGATGA TGGGACATTT 
    GGAGAATACA GTGATGCAGA AGACCACAAG CCTTTGAAAA AAGGAAGTCG AACTCCTTCA 
    GACAGGACTG TGAAAAAAGA AGATAGTGAC GACAGCCTAG TTGACTATGG AGAAGGGGTT 
    AATGGCCAGT TCAATGAGGA TGGCTCCTTT ATTGGACAAT ACAGTGGTAA GAAAGAGAAA 
    GAGCCGGCTG AAGGAAACGA AAGCTCAGAG GCACCTTCTC CTGTCAACGC CATGAATTCC 
    TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358069.1
    CDS526..4194
    Translation

    Target ORF information:

    RefSeq Version NM_001371140.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 52, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371140.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGTTCAAG CAGTAAATCC CAGGATCAGC 
    AATCTTACTG CTGCAGCTGC TGAGACCTAT GCCAATATCA GTTGGGAATA TGAGGGACCA 
    GAGCATGTGA ACTTTTATGT TGAATATGGT GTAGCAGGCA CGATGGCAAG CCGGCAGGTG 
    GATATTGCAA CTCAGGGCTG GTTCATTGGT CTGATGTGTG CTGTTGCTCT CCTTATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATATCC AGTTAAAGAA 
    AAGGAAGATG CCCATGCTGA CCCTGAAATC CAGCCTATGA AGGAAGATGA TGGGACATTT 
    GGAGAATACA GTGATGCAGA AGACCACAAG CCTTTGAAAA AAGGAAGTCG AACTCCTTCA 
    GACAGGACTG TGAAAAAAGA AGATAGTGAC GACAGCCTAG TTGACTATGG AGAAGGGGTT 
    AATGGCCAGT TCAATGAGGA TGGCTCCTTT ATTGGACAAT ACAGTGGTAA GAAAGAGAAA 
    GAGCCGGCTG AAGGAAACGA AAGCTCAGAG GCACCTTCTC CTGTCAACGC CATGAATTCC 
    TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371179.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358108.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 39, mRNA.
    Price & Availability↑
    CloneID OHu108621
    Clone ID Related Accession (Same CDS sequence) NM_001371179.1 , NM_001371180.1
    Accession Version NM_001371179.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3282bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform M
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC007567.2 and AC005683.2. Transcript Variant: This variant (39), as well as variants 38 and 40, encodes isoform M. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.251384.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGTGGATGA ATTGAATGAC ACTATAGCTG CTAATTTGAG TGACACTGAG 
    TTTTATGGTG CTAAATCAAG TAGAGAGAGG CCACCAACAT TTTTAACTCC AGAAGGCAAT 
    GCAAGTAACA AAGAGGAATT AAGAGGAAAT GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA 
    CTGCCTACCC CAATTATTTA CTGGGCAAAG GAAGATGGAA TGCTACCCAA AAACAGGACA 
    GTTTATAAGA ACTTTGAGAA AACCTTGCAG ATCATTCATG TTTCAGAAGC AGACTCTGGA 
    AATTACCAAT GTATAGCAAA AAACGCATTA GGAGCCATCC ACCATACCAT TTCTGTTAGA 
    GTTAAAGCGG CTCCATACTG GATCACAGCC CCTCAAAATC TTGTGCTGTC CCCAGGAGAG 
    GATGGGACCT TGATCTGCAG AGCTAATGGC AACCCCAAAC CCAGAATTAG CTGGTTAACA 
    AATGGAGTCC CAATAGAAAT TGCCCCTGAT GACCCCAGCA GAAAAATAGA TGGCGATACC 
    ATTATTTTTT CAAATGTTCA AGAAAGATCA AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT 
    GAATATGGAT ATTTACTGGC AAACGCATTT GTAAATGTGC TGGCTGAGCC ACCACGAATC 
    CTCACACCTG CAAACACACT CTACCAGGTC ATTGCAAACA GGCCTGCTTT ACTAGACTGT 
    GCCTTCTTTG GGTCTCCTCT CCCAACCATC GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT 
    CTTCATGAAG ATATTTATGT TTTACATGAA AATGGAACTT TGGAAATTCC TGTGGCCCAA 
    AAGGACAGTA CAGGAACTTA TACGTGTGTT GCAAGGAATA AATTAGGGAT GGCGAAGAAT 
    GAAGTTCACT TAGAAATCAA AGATCCTACA TGGATCGTTA AACAGCCCGA ATATGCAGTT 
    GTGCAAAGAG GGAGCATGGT GTCCTTTGAA TGCAAAGTGA AACATGATCA CACCTTATCC 
    CTCACTGTCC TGTGGCTGAA GGACAACAGG GAACTGCCCA GTGATGAAAG GTTCACTGTT 
    GACAAGGATC ATCTAGTGGT AGCTGATGTC AGTGACGATG ACAGCGGGAC CTACACGTGT 
    GTGGCCAACA CCACTCTGGA CAGCGTCTCC GCCAGCGCTG TGCTTAGCGT TGTTGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358108.1
    CDS839..4120
    Translation

    Target ORF information:

    RefSeq Version NM_001371179.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 39, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371179.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGTGGATGA ATTGAATGAC ACTATAGCTG CTAATTTGAG TGACACTGAG 
    TTTTATGGTG CTAAATCAAG TAGAGAGAGG CCACCAACAT TTTTAACTCC AGAAGGCAAT 
    GCAAGTAACA AAGAGGAATT AAGAGGAAAT GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA 
    CTGCCTACCC CAATTATTTA CTGGGCAAAG GAAGATGGAA TGCTACCCAA AAACAGGACA 
    GTTTATAAGA ACTTTGAGAA AACCTTGCAG ATCATTCATG TTTCAGAAGC AGACTCTGGA 
    AATTACCAAT GTATAGCAAA AAACGCATTA GGAGCCATCC ACCATACCAT TTCTGTTAGA 
    GTTAAAGCGG CTCCATACTG GATCACAGCC CCTCAAAATC TTGTGCTGTC CCCAGGAGAG 
    GATGGGACCT TGATCTGCAG AGCTAATGGC AACCCCAAAC CCAGAATTAG CTGGTTAACA 
    AATGGAGTCC CAATAGAAAT TGCCCCTGAT GACCCCAGCA GAAAAATAGA TGGCGATACC 
    ATTATTTTTT CAAATGTTCA AGAAAGATCA AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT 
    GAATATGGAT ATTTACTGGC AAACGCATTT GTAAATGTGC TGGCTGAGCC ACCACGAATC 
    CTCACACCTG CAAACACACT CTACCAGGTC ATTGCAAACA GGCCTGCTTT ACTAGACTGT 
    GCCTTCTTTG GGTCTCCTCT CCCAACCATC GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT 
    CTTCATGAAG ATATTTATGT TTTACATGAA AATGGAACTT TGGAAATTCC TGTGGCCCAA 
    AAGGACAGTA CAGGAACTTA TACGTGTGTT GCAAGGAATA AATTAGGGAT GGCGAAGAAT 
    GAAGTTCACT TAGAAATCAA AGATCCTACA TGGATCGTTA AACAGCCCGA ATATGCAGTT 
    GTGCAAAGAG GGAGCATGGT GTCCTTTGAA TGCAAAGTGA AACATGATCA CACCTTATCC 
    CTCACTGTCC TGTGGCTGAA GGACAACAGG GAACTGCCCA GTGATGAAAG GTTCACTGTT 
    GACAAGGATC ATCTAGTGGT AGCTGATGTC AGTGACGATG ACAGCGGGAC CTACACGTGT 
    GTGGCCAACA CCACTCTGGA CAGCGTCTCC GCCAGCGCTG TGCTTAGCGT TGTTGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371180.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358109.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 40, mRNA.
    Price & Availability↑
    CloneID OHu108621
    Clone ID Related Accession (Same CDS sequence) NM_001371179.1 , NM_001371180.1
    Accession Version NM_001371180.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3282bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform M
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC007567.2 and AC005683.2. Transcript Variant: This variant (40), as well as variants 38 and 39, encodes isoform M. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.239917.1, SRR1803612.66738.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGTGGATGA ATTGAATGAC ACTATAGCTG CTAATTTGAG TGACACTGAG 
    TTTTATGGTG CTAAATCAAG TAGAGAGAGG CCACCAACAT TTTTAACTCC AGAAGGCAAT 
    GCAAGTAACA AAGAGGAATT AAGAGGAAAT GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA 
    CTGCCTACCC CAATTATTTA CTGGGCAAAG GAAGATGGAA TGCTACCCAA AAACAGGACA 
    GTTTATAAGA ACTTTGAGAA AACCTTGCAG ATCATTCATG TTTCAGAAGC AGACTCTGGA 
    AATTACCAAT GTATAGCAAA AAACGCATTA GGAGCCATCC ACCATACCAT TTCTGTTAGA 
    GTTAAAGCGG CTCCATACTG GATCACAGCC CCTCAAAATC TTGTGCTGTC CCCAGGAGAG 
    GATGGGACCT TGATCTGCAG AGCTAATGGC AACCCCAAAC CCAGAATTAG CTGGTTAACA 
    AATGGAGTCC CAATAGAAAT TGCCCCTGAT GACCCCAGCA GAAAAATAGA TGGCGATACC 
    ATTATTTTTT CAAATGTTCA AGAAAGATCA AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT 
    GAATATGGAT ATTTACTGGC AAACGCATTT GTAAATGTGC TGGCTGAGCC ACCACGAATC 
    CTCACACCTG CAAACACACT CTACCAGGTC ATTGCAAACA GGCCTGCTTT ACTAGACTGT 
    GCCTTCTTTG GGTCTCCTCT CCCAACCATC GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT 
    CTTCATGAAG ATATTTATGT TTTACATGAA AATGGAACTT TGGAAATTCC TGTGGCCCAA 
    AAGGACAGTA CAGGAACTTA TACGTGTGTT GCAAGGAATA AATTAGGGAT GGCGAAGAAT 
    GAAGTTCACT TAGAAATCAA AGATCCTACA TGGATCGTTA AACAGCCCGA ATATGCAGTT 
    GTGCAAAGAG GGAGCATGGT GTCCTTTGAA TGCAAAGTGA AACATGATCA CACCTTATCC 
    CTCACTGTCC TGTGGCTGAA GGACAACAGG GAACTGCCCA GTGATGAAAG GTTCACTGTT 
    GACAAGGATC ATCTAGTGGT AGCTGATGTC AGTGACGATG ACAGCGGGAC CTACACGTGT 
    GTGGCCAACA CCACTCTGGA CAGCGTCTCC GCCAGCGCTG TGCTTAGCGT TGTTGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358109.1
    CDS338..3619
    Translation

    Target ORF information:

    RefSeq Version NM_001371180.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 40, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371180.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGTGGATGA ATTGAATGAC ACTATAGCTG CTAATTTGAG TGACACTGAG 
    TTTTATGGTG CTAAATCAAG TAGAGAGAGG CCACCAACAT TTTTAACTCC AGAAGGCAAT 
    GCAAGTAACA AAGAGGAATT AAGAGGAAAT GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA 
    CTGCCTACCC CAATTATTTA CTGGGCAAAG GAAGATGGAA TGCTACCCAA AAACAGGACA 
    GTTTATAAGA ACTTTGAGAA AACCTTGCAG ATCATTCATG TTTCAGAAGC AGACTCTGGA 
    AATTACCAAT GTATAGCAAA AAACGCATTA GGAGCCATCC ACCATACCAT TTCTGTTAGA 
    GTTAAAGCGG CTCCATACTG GATCACAGCC CCTCAAAATC TTGTGCTGTC CCCAGGAGAG 
    GATGGGACCT TGATCTGCAG AGCTAATGGC AACCCCAAAC CCAGAATTAG CTGGTTAACA 
    AATGGAGTCC CAATAGAAAT TGCCCCTGAT GACCCCAGCA GAAAAATAGA TGGCGATACC 
    ATTATTTTTT CAAATGTTCA AGAAAGATCA AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT 
    GAATATGGAT ATTTACTGGC AAACGCATTT GTAAATGTGC TGGCTGAGCC ACCACGAATC 
    CTCACACCTG CAAACACACT CTACCAGGTC ATTGCAAACA GGCCTGCTTT ACTAGACTGT 
    GCCTTCTTTG GGTCTCCTCT CCCAACCATC GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT 
    CTTCATGAAG ATATTTATGT TTTACATGAA AATGGAACTT TGGAAATTCC TGTGGCCCAA 
    AAGGACAGTA CAGGAACTTA TACGTGTGTT GCAAGGAATA AATTAGGGAT GGCGAAGAAT 
    GAAGTTCACT TAGAAATCAA AGATCCTACA TGGATCGTTA AACAGCCCGA ATATGCAGTT 
    GTGCAAAGAG GGAGCATGGT GTCCTTTGAA TGCAAAGTGA AACATGATCA CACCTTATCC 
    CTCACTGTCC TGTGGCTGAA GGACAACAGG GAACTGCCCA GTGATGAAAG GTTCACTGTT 
    GACAAGGATC ATCTAGTGGT AGCTGATGTC AGTGACGATG ACAGCGGGAC CTACACGTGT 
    GTGGCCAACA CCACTCTGGA CAGCGTCTCC GCCAGCGCTG TGCTTAGCGT TGTTGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371138.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358067.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 51, mRNA.
    Price & Availability↑
    CloneID OHu108622
    Clone ID Related Accession (Same CDS sequence) NM_001371138.1
    Accession Version NM_001371138.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3753bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform V precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.32325.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGCAAAGAAG AATGGAGAAA AGAAATTGTA 
    AATGGTTCTC GGAGCTTCTT TGGGTTAAAG GGTCTAATGC CAGGAACAGC ATACAAAGTT 
    CGAGTTGGTG CTGTGGGGGA CTCTGGTTTT GTGAGTTCAG AGGATGTGTT TGAGACAGGC 
    CCAGCGATGG CAAGCCGGCA GGTGGATATT GCAACTCAGG GCTGGTTCAT TGGTCTGATG 
    TGTGCTGTTG CTCTCCTTAT CTTAATTTTG CTGATTGTTT GCTTCATCAG AAGAAACAAG 
    GGTGGTAAAT ATCCAGTTAA AGAAAAGGAA GATGCCCATG CTGACCCTGA AATCCAGCCT 
    ATGAAGGAAG ATGATGGGAC ATTTGGAGAA TACAGTGATG CAGAAGACCA CAAGCCTTTG 
    AAAAAAGGAA GTCGAACTCC TTCAGACAGG ACTGTGAAAA AAGAAGATAG TGACGACAGC 
    CTAGTTGACT ATGGAGAAGG GGTTAATGGC CAGTTCAATG AGGATGGCTC CTTTATTGGA 
    CAATACAGTG GTAAGAAAGA GAAAGAGCCG GCTGAAGGAA ACGAAAGCTC AGAGGCACCT 
    TCTCCTGTCA ACGCCATGAA TTCCTTTGTT TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358067.1
    CDS526..4278
    Translation

    Target ORF information:

    RefSeq Version NM_001371138.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 51, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371138.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGCAAAGAAG AATGGAGAAA AGAAATTGTA 
    AATGGTTCTC GGAGCTTCTT TGGGTTAAAG GGTCTAATGC CAGGAACAGC ATACAAAGTT 
    CGAGTTGGTG CTGTGGGGGA CTCTGGTTTT GTGAGTTCAG AGGATGTGTT TGAGACAGGC 
    CCAGCGATGG CAAGCCGGCA GGTGGATATT GCAACTCAGG GCTGGTTCAT TGGTCTGATG 
    TGTGCTGTTG CTCTCCTTAT CTTAATTTTG CTGATTGTTT GCTTCATCAG AAGAAACAAG 
    GGTGGTAAAT ATCCAGTTAA AGAAAAGGAA GATGCCCATG CTGACCCTGA AATCCAGCCT 
    ATGAAGGAAG ATGATGGGAC ATTTGGAGAA TACAGTGATG CAGAAGACCA CAAGCCTTTG 
    AAAAAAGGAA GTCGAACTCC TTCAGACAGG ACTGTGAAAA AAGAAGATAG TGACGACAGC 
    CTAGTTGACT ATGGAGAAGG GGTTAATGGC CAGTTCAATG AGGATGGCTC CTTTATTGGA 
    CAATACAGTG GTAAGAAAGA GAAAGAGCCG GCTGAAGGAA ACGAAAGCTC AGAGGCACCT 
    TCTCCTGTCA ACGCCATGAA TTCCTTTGTT TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371175.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358104.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 66, mRNA.
    Price & Availability↑
    CloneID OHu108623
    Clone ID Related Accession (Same CDS sequence) NM_001371175.1
    Accession Version NM_001371175.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3252bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform kk precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.62269.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358104.1
    CDS526..3777
    Translation

    Target ORF information:

    RefSeq Version NM_001371175.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 66, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371175.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371125.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358054.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 29, mRNA.
    Price & Availability↑
    CloneID OHu108624
    Clone ID Related Accession (Same CDS sequence) NM_001371125.1
    Accession Version NM_001371125.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3291bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform I
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (29), as well as variant 30, encodes isoform I. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.136262.1, SRR1803614.59928.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGCTAAATC AAGTAGAGAG AGGCCACCAA CATTTTTAAC TCCAGAAGGC 
    AATGCAAGTA ACAAAGAGGA ATTAAGAGGA AATGTGCTTT CACTGGAGTG CATTGCAGAA 
    GGACTGCCTA CCCCAATTAT TTACTGGGCA AAGGAAGATG GAATGCTACC CAAAAACAGG 
    ACAGTTTATA AGAACTTTGA GAAAACCTTG CAGATCATTC ATGTTTCAGA AGCAGACTCT 
    GGAAATTACC AATGTATAGC AAAAAACGCA TTAGGAGCCA TCCACCATAC CATTTCTGTT 
    AGAGTTAAAG CGGCTCCATA CTGGATCACA GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA 
    GAGGATGGGA CCTTGATCTG CAGAGCTAAT GGCAACCCCA AACCCAGAAT TAGCTGGTTA 
    ACAAATGGAG TCCCAATAGA AATTGCCCCT GATGACCCCA GCAGAAAAAT AGATGGCGAT 
    ACCATTATTT TTTCAAATGT TCAAGAAAGA TCAAGTGCAG TCTATCAGTG CAATGCCTCT 
    AATGAATATG GATATTTACT GGCAAACGCA TTTGTAAATG TGCTGGCTGA GCCACCACGA 
    ATCCTCACAC CTGCAAACAC ACTCTACCAG GTCATTGCAA ACAGGCCTGC TTTACTAGAC 
    TGTGCCTTCT TTGGGTCTCC TCTCCCAACC ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT 
    GCTCTTCATG AAGATATTTA TGTTTTACAT GAAAATGGAA CTTTGGAAAT TCCTGTGGCC 
    CAAAAGGACA GTACAGGAAC TTATACGTGT GTTGCAAGGA ATAAATTAGG GATGGCGAAG 
    AATGAAGTTC ACTTAGAAAT CAAAGATCCT ACATGGATCG TTAAACAGCC CGAATATGCA 
    GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT GAATGCAAAG TGAAACATGA TCACACCTTA 
    TCCCTCACTG TCCTGTGGCT GAAGGACAAC AGGGAACTGC CCAGTGATGA AAGGTTCACT 
    GTTGACAAGG ATCATCTAGT GGTAGCTGAT GTCAGTGACG ATGACAGCGG GACCTACACG 
    TGTGTGGCCA ACACCACTCT GGACAGCGTC TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT 
    CCTACTCCAA CTCCAGCTCC CGTTTACGAT GTCCCAAATC CTCCCTTTGA CTTAGAACTG 
    ACAGATCAAC TTGACAAAAG TGTTCAGCTG TCATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT CGAATATGAA GATGCAATGC ACAAGCCAGG GCTGTGGCAC 
    CACCAAACTG AAGTTTCTGG AACACAGACC ACAGCCCAGC TGAAGCTGTC TCCTTACGTG 
    AACTACTCCT TCCGCGTGAT GGCAGTGAAC AGCATTGGGA AGAGCTTGCC CAGCGAGGCG 
    TCTGAGCAGT ATTTGACGAA AGCCTCAGAA CCAGATAAAA ACCCCACAGC TGTGGAAGGA 
    CTGGGATCAG AGCCTGATAA TTTGGTGATT ACGTGGAAGC CCTTGAATGG TTTCGAATCT 
    AATGGGCCAG GCCTTCAGTA CAAAGTTAGC TGGCGCCAGA AAGATGGTGA TGATGAATGG 
    ACATCTGTGG TTGTGGCAAA TGTATCCAAA TATATTGTCT CAGGCACGCC AACCTTTGTT 
    CCATACCTGA TCAAAGTTCA GGCCCTGAAT GACATGGGGT TTGCCCCCGA GCCAGCTGTA 
    GTCATGGGAC ATTCTGGAGA AGACCTCCCA ATGGTGGCTC CTGGGAACGT GCGTGTGAAT 
    GTGGTGAACA GTACCTTAGC CGAGGTGCAC TGGGACCCAG TACCTCTGAA AAGCATCCGA 
    GGACACCTAC AAGGCTATCG GATTTACTAT TGGAAGACCC AGAGTTCATC TAAAAGAAAC 
    AGACGTCACA TTGAGAAAAA GATCCTCACC TTCCAAGGCA GCAAGACTCA TGGCATGTTG 
    CCGGGGCTAG AGCCCTTTAG CCACTACACA CTGAATGTCC GAGTGGTCAA TGGGAAAGGG 
    GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT AATACTCCAG AAGGAGTCCC CAGTGCTCCC 
    TCGTCTTTGA AGATTGTGAA TCCAACACTG GACTCTCTCA CTTTGGAATG GGATCCACCG 
    AGCCACCCGA ATGGCATTTT GACAGAGTAC ACCTTAAAGT ATCAGCCAAT TAACAGCACA 
    CATGAATTAG GCCCTCTGGT AGATTTGAAA ATTCCTGCCA ACAAGACACG GTGGACTTTA 
    AAAAATTTAA ATTTCAGCAC TCGATATAAG TTTTATTTCT ATGCACAAAC ATCAGCAGGA 
    TCAGGAAGTC AAATTACAGA GGAAGCAGTA ACAACTGTGG ATGAAGCTGG TATTCTTCCA 
    CCTGATGTAG GTGCAGGCAA AGCGATGGCA AGCCGGCAGG TGGATATTGC AACTCAGGGC 
    TGGTTCATTG GTCTGATGTG TGCTGTTGCT CTCCTTATCT TAATTTTGCT GATTGTTTGC 
    TTCATCAGAA GAAACAAGGG TGGTAAATAT CCAGTTAAAG AAAAGGAAGA TGCCCATGCT 
    GACCCTGAAA TCCAGCCTAT GAAGGAAGAT GATGGGACAT TTGGAGAATA CAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358054.1
    CDS602..3892
    Translation

    Target ORF information:

    RefSeq Version NM_001371125.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 29, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371125.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGCTAAATC AAGTAGAGAG AGGCCACCAA CATTTTTAAC TCCAGAAGGC 
    AATGCAAGTA ACAAAGAGGA ATTAAGAGGA AATGTGCTTT CACTGGAGTG CATTGCAGAA 
    GGACTGCCTA CCCCAATTAT TTACTGGGCA AAGGAAGATG GAATGCTACC CAAAAACAGG 
    ACAGTTTATA AGAACTTTGA GAAAACCTTG CAGATCATTC ATGTTTCAGA AGCAGACTCT 
    GGAAATTACC AATGTATAGC AAAAAACGCA TTAGGAGCCA TCCACCATAC CATTTCTGTT 
    AGAGTTAAAG CGGCTCCATA CTGGATCACA GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA 
    GAGGATGGGA CCTTGATCTG CAGAGCTAAT GGCAACCCCA AACCCAGAAT TAGCTGGTTA 
    ACAAATGGAG TCCCAATAGA AATTGCCCCT GATGACCCCA GCAGAAAAAT AGATGGCGAT 
    ACCATTATTT TTTCAAATGT TCAAGAAAGA TCAAGTGCAG TCTATCAGTG CAATGCCTCT 
    AATGAATATG GATATTTACT GGCAAACGCA TTTGTAAATG TGCTGGCTGA GCCACCACGA 
    ATCCTCACAC CTGCAAACAC ACTCTACCAG GTCATTGCAA ACAGGCCTGC TTTACTAGAC 
    TGTGCCTTCT TTGGGTCTCC TCTCCCAACC ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT 
    GCTCTTCATG AAGATATTTA TGTTTTACAT GAAAATGGAA CTTTGGAAAT TCCTGTGGCC 
    CAAAAGGACA GTACAGGAAC TTATACGTGT GTTGCAAGGA ATAAATTAGG GATGGCGAAG 
    AATGAAGTTC ACTTAGAAAT CAAAGATCCT ACATGGATCG TTAAACAGCC CGAATATGCA 
    GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT GAATGCAAAG TGAAACATGA TCACACCTTA 
    TCCCTCACTG TCCTGTGGCT GAAGGACAAC AGGGAACTGC CCAGTGATGA AAGGTTCACT 
    GTTGACAAGG ATCATCTAGT GGTAGCTGAT GTCAGTGACG ATGACAGCGG GACCTACACG 
    TGTGTGGCCA ACACCACTCT GGACAGCGTC TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT 
    CCTACTCCAA CTCCAGCTCC CGTTTACGAT GTCCCAAATC CTCCCTTTGA CTTAGAACTG 
    ACAGATCAAC TTGACAAAAG TGTTCAGCTG TCATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT CGAATATGAA GATGCAATGC ACAAGCCAGG GCTGTGGCAC 
    CACCAAACTG AAGTTTCTGG AACACAGACC ACAGCCCAGC TGAAGCTGTC TCCTTACGTG 
    AACTACTCCT TCCGCGTGAT GGCAGTGAAC AGCATTGGGA AGAGCTTGCC CAGCGAGGCG 
    TCTGAGCAGT ATTTGACGAA AGCCTCAGAA CCAGATAAAA ACCCCACAGC TGTGGAAGGA 
    CTGGGATCAG AGCCTGATAA TTTGGTGATT ACGTGGAAGC CCTTGAATGG TTTCGAATCT 
    AATGGGCCAG GCCTTCAGTA CAAAGTTAGC TGGCGCCAGA AAGATGGTGA TGATGAATGG 
    ACATCTGTGG TTGTGGCAAA TGTATCCAAA TATATTGTCT CAGGCACGCC AACCTTTGTT 
    CCATACCTGA TCAAAGTTCA GGCCCTGAAT GACATGGGGT TTGCCCCCGA GCCAGCTGTA 
    GTCATGGGAC ATTCTGGAGA AGACCTCCCA ATGGTGGCTC CTGGGAACGT GCGTGTGAAT 
    GTGGTGAACA GTACCTTAGC CGAGGTGCAC TGGGACCCAG TACCTCTGAA AAGCATCCGA 
    GGACACCTAC AAGGCTATCG GATTTACTAT TGGAAGACCC AGAGTTCATC TAAAAGAAAC 
    AGACGTCACA TTGAGAAAAA GATCCTCACC TTCCAAGGCA GCAAGACTCA TGGCATGTTG 
    CCGGGGCTAG AGCCCTTTAG CCACTACACA CTGAATGTCC GAGTGGTCAA TGGGAAAGGG 
    GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT AATACTCCAG AAGGAGTCCC CAGTGCTCCC 
    TCGTCTTTGA AGATTGTGAA TCCAACACTG GACTCTCTCA CTTTGGAATG GGATCCACCG 
    AGCCACCCGA ATGGCATTTT GACAGAGTAC ACCTTAAAGT ATCAGCCAAT TAACAGCACA 
    CATGAATTAG GCCCTCTGGT AGATTTGAAA ATTCCTGCCA ACAAGACACG GTGGACTTTA 
    AAAAATTTAA ATTTCAGCAC TCGATATAAG TTTTATTTCT ATGCACAAAC ATCAGCAGGA 
    TCAGGAAGTC AAATTACAGA GGAAGCAGTA ACAACTGTGG ATGAAGCTGG TATTCTTCCA 
    CCTGATGTAG GTGCAGGCAA AGCGATGGCA AGCCGGCAGG TGGATATTGC AACTCAGGGC 
    TGGTTCATTG GTCTGATGTG TGCTGTTGCT CTCCTTATCT TAATTTTGCT GATTGTTTGC 
    TTCATCAGAA GAAACAAGGG TGGTAAATAT CCAGTTAAAG AAAAGGAAGA TGCCCATGCT 
    GACCCTGAAA TCCAGCCTAT GAAGGAAGAT GATGGGACAT TTGGAGAATA CAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371132.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358061.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 32, mRNA.
    Price & Availability↑
    CloneID OHu108625
    Clone ID Related Accession (Same CDS sequence) NM_001371132.1
    Accession Version NM_001371132.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3555bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform J precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (32), as well as variant 31, encodes isoform J. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.23995.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTGCAG GCAAAGCGAT GGCAAGCCGG 
    CAGGTGGATA TTGCAACTCA GGGCTGGTTC ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATATCCAGTT 
    AAAGAAAAGG AAGATGCCCA TGCTGACCCT GAAATCCAGC CTATGAAGGA AGATGATGGG 
    ACATTTGGAG AATACAGTGA TGCAGAAGAC CACAAGCCTT TGAAAAAAGG AAGTCGAACT 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGACGACA GCCTAGTTGA CTATGGAGAA 
    GGGGTTAATG GCCAGTTCAA TGAGGATGGC TCCTTTATTG GACAATACAG TGGTAAGAAA 
    GAGAAAGAGC CGGCTGAAGG AAACGAAAGC TCAGAGGCAC CTTCTCCTGT CAACGCCATG 
    AATTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358061.1
    CDS644..4198
    Translation

    Target ORF information:

    RefSeq Version NM_001371132.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 32, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371132.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTGCAG GCAAAGCGAT GGCAAGCCGG 
    CAGGTGGATA TTGCAACTCA GGGCTGGTTC ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATATCCAGTT 
    AAAGAAAAGG AAGATGCCCA TGCTGACCCT GAAATCCAGC CTATGAAGGA AGATGATGGG 
    ACATTTGGAG AATACAGTGA TGCAGAAGAC CACAAGCCTT TGAAAAAAGG AAGTCGAACT 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGACGACA GCCTAGTTGA CTATGGAGAA 
    GGGGTTAATG GCCAGTTCAA TGAGGATGGC TCCTTTATTG GACAATACAG TGGTAAGAAA 
    GAGAAAGAGC CGGCTGAAGG AAACGAAAGC TCAGAGGCAC CTTCTCCTGT CAACGCCATG 
    AATTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371141.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358070.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 53, mRNA.
    Price & Availability↑
    CloneID OHu108627
    Clone ID Related Accession (Same CDS sequence) NM_001371141.1
    Accession Version NM_001371141.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3552bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.132522.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358070.1
    CDS577..4128
    Translation

    Target ORF information:

    RefSeq Version NM_001371141.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 53, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371141.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371170.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358099.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 63, mRNA.
    Price & Availability↑
    CloneID OHu108628
    Clone ID Related Accession (Same CDS sequence) NM_001371170.1
    Accession Version NM_001371170.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3294bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform hh
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.184821.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGTGGATGA ATTGAATGAC ACTATAGCTG CTAATTTGAG TGACACTGAG 
    TTTTATGGTG CTAAATCAAG TAGAGAGAGG CCACCAACAT TTTTAACTCC AGAAGGCAAT 
    GCAAGTAACA AAGAGGAATT AAGAGGAAAT GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA 
    CTGCCTACCC CAATTATTTA CTGGGCAAAG GAAGATGGAA TGCTACCCAA AAACAGGACA 
    GTTTATAAGA ACTTTGAGAA AACCTTGCAG ATCATTCATG TTTCAGAAGC AGACTCTGGA 
    AATTACCAAT GTATAGCAAA AAACGCATTA GGAGCCATCC ACCATACCAT TTCTGTTAGA 
    GTTAAAGCGG CTCCATACTG GATCACAGCC CCTCAAAATC TTGTGCTGTC CCCAGGAGAG 
    GATGGGACCT TGATCTGCAG AGCTAATGGC AACCCCAAAC CCAGAATTAG CTGGTTAACA 
    AATGGAGTCC CAATAGAAAT TGCCCCTGAT GACCCCAGCA GAAAAATAGA TGGCGATACC 
    ATTATTTTTT CAAATGTTCA AGAAAGATCA AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT 
    GAATATGGAT ATTTACTGGC AAACGCATTT GTAAATGTGC TGGCTGAGCC ACCACGAATC 
    CTCACACCTG CAAACACACT CTACCAGGTC ATTGCAAACA GGCCTGCTTT ACTAGACTGT 
    GCCTTCTTTG GGTCTCCTCT CCCAACCATC GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT 
    CTTCATGAAG ATATTTATGT TTTACATGAA AATGGAACTT TGGAAATTCC TGTGGCCCAA 
    AAGGACAGTA CAGGAACTTA TACGTGTGTT GCAAGGAATA AATTAGGGAT GGCGAAGAAT 
    GAAGTTCACT TAGAAATCAA AGATCCTACA TGGATCGTTA AACAGCCCGA ATATGCAGTT 
    GTGCAAAGAG GGAGCATGGT GTCCTTTGAA TGCAAAGTGA AACATGATCA CACCTTATCC 
    CTCACTGTCC TGTGGCTGAA GGACAACAGG GAACTGCCCA GTGATGAAAG GTTCACTGTT 
    GACAAGGATC ATCTAGTGGT AGCTGATGTC AGTGACGATG ACAGCGGGAC CTACACGTGT 
    GTGGCCAACA CCACTCTGGA CAGCGTCTCC GCCAGCGCTG TGCTTAGCGT TGTTGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGGTCTCT TGAAAGTGAT 
    GCAGAAGACC ACAAGCCTTT GAAAAAAGGA AGTCGAACTC CTTCAGACAG GACTGTGAAA 
    AAAGAAGATA GTGACGACAG CCTAGTTGAC TATGGAGAAG GGGTTAATGG CCAGTTCAAT 
    GAGGATGGCT CCTTTATTGG ACAATACAGT GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA 
    AACGAAAGCT CAGAGGCACC TTCTCCTGTC AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358099.1
    CDS584..3877
    Translation

    Target ORF information:

    RefSeq Version NM_001371170.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 63, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371170.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGTGGATGA ATTGAATGAC ACTATAGCTG CTAATTTGAG TGACACTGAG 
    TTTTATGGTG CTAAATCAAG TAGAGAGAGG CCACCAACAT TTTTAACTCC AGAAGGCAAT 
    GCAAGTAACA AAGAGGAATT AAGAGGAAAT GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA 
    CTGCCTACCC CAATTATTTA CTGGGCAAAG GAAGATGGAA TGCTACCCAA AAACAGGACA 
    GTTTATAAGA ACTTTGAGAA AACCTTGCAG ATCATTCATG TTTCAGAAGC AGACTCTGGA 
    AATTACCAAT GTATAGCAAA AAACGCATTA GGAGCCATCC ACCATACCAT TTCTGTTAGA 
    GTTAAAGCGG CTCCATACTG GATCACAGCC CCTCAAAATC TTGTGCTGTC CCCAGGAGAG 
    GATGGGACCT TGATCTGCAG AGCTAATGGC AACCCCAAAC CCAGAATTAG CTGGTTAACA 
    AATGGAGTCC CAATAGAAAT TGCCCCTGAT GACCCCAGCA GAAAAATAGA TGGCGATACC 
    ATTATTTTTT CAAATGTTCA AGAAAGATCA AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT 
    GAATATGGAT ATTTACTGGC AAACGCATTT GTAAATGTGC TGGCTGAGCC ACCACGAATC 
    CTCACACCTG CAAACACACT CTACCAGGTC ATTGCAAACA GGCCTGCTTT ACTAGACTGT 
    GCCTTCTTTG GGTCTCCTCT CCCAACCATC GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT 
    CTTCATGAAG ATATTTATGT TTTACATGAA AATGGAACTT TGGAAATTCC TGTGGCCCAA 
    AAGGACAGTA CAGGAACTTA TACGTGTGTT GCAAGGAATA AATTAGGGAT GGCGAAGAAT 
    GAAGTTCACT TAGAAATCAA AGATCCTACA TGGATCGTTA AACAGCCCGA ATATGCAGTT 
    GTGCAAAGAG GGAGCATGGT GTCCTTTGAA TGCAAAGTGA AACATGATCA CACCTTATCC 
    CTCACTGTCC TGTGGCTGAA GGACAACAGG GAACTGCCCA GTGATGAAAG GTTCACTGTT 
    GACAAGGATC ATCTAGTGGT AGCTGATGTC AGTGACGATG ACAGCGGGAC CTACACGTGT 
    GTGGCCAACA CCACTCTGGA CAGCGTCTCC GCCAGCGCTG TGCTTAGCGT TGTTGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGGTCTCT TGAAAGTGAT 
    GCAGAAGACC ACAAGCCTTT GAAAAAAGGA AGTCGAACTC CTTCAGACAG GACTGTGAAA 
    AAAGAAGATA GTGACGACAG CCTAGTTGAC TATGGAGAAG GGGTTAATGG CCAGTTCAAT 
    GAGGATGGCT CCTTTATTGG ACAATACAGT GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA 
    AACGAAAGCT CAGAGGCACC TTCTCCTGTC AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371173.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358102.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 64, mRNA.
    Price & Availability↑
    CloneID OHu108631
    Clone ID Related Accession (Same CDS sequence) NM_001371173.1
    Accession Version NM_001371173.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3612bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform ii precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803611.265094.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTGCAGGCA AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358102.1
    CDS526..4137
    Translation

    Target ORF information:

    RefSeq Version NM_001371173.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 64, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371173.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTGCAGGCA AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371136.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358065.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 49, mRNA.
    Price & Availability↑
    CloneID OHu108635
    Clone ID Related Accession (Same CDS sequence) NM_001371136.1
    Accession Version NM_001371136.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform T precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.142787.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGTTCAAGC AGTAAATCCC 
    AGGATCAGCA ATCTTACTGC TGCAGCTGCT GAGACCTATG CCAATATCAG TTGGGAATAT 
    GAGGGACCAG AGCATGTGAA CTTTTATGTT GAATATGGTG TAGCAGGCAC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358065.1
    CDS526..4203
    Translation

    Target ORF information:

    RefSeq Version NM_001371136.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 49, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371136.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGTTCAAGC AGTAAATCCC 
    AGGATCAGCA ATCTTACTGC TGCAGCTGCT GAGACCTATG CCAATATCAG TTGGGAATAT 
    GAGGGACCAG AGCATGTGAA CTTTTATGTT GAATATGGTG TAGCAGGCAC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371169.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358098.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 62, mRNA.
    Price & Availability↑
    CloneID OHu97271
    Clone ID Related Accession (Same CDS sequence) NM_001371169.1
    Accession Version NM_001371169.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3879bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform gg precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 28, 2019 this sequence version replaced XM_017012237.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.6451.1, SRR1803617.55055.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GTTCAAGCAG TAAATCCCAG GATCAGCAAT 
    CTTACTGCTG CAGCTGCTGA GACCTATGCC AATATCAGTT GGGAATATGA GGGACCAGAG 
    CATGTGAACT TTTATGTTGA ATATGGTGTA GCAGGCAGCA AAGAAGAATG GAGAAAAGAA 
    ATTGTAAATG GTTCTCGGAG CTTCTTTGGG TTAAAGGGTC TAATGCCAGG AACAGCATAC 
    AAAGTTCGAG TTGGTGCTGT GGGGGACTCT GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG 
    ACAGGCCCAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358098.1
    CDS526..4404
    Translation

    Target ORF information:

    RefSeq Version NM_001371169.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 62, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371169.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GTTCAAGCAG TAAATCCCAG GATCAGCAAT 
    CTTACTGCTG CAGCTGCTGA GACCTATGCC AATATCAGTT GGGAATATGA GGGACCAGAG 
    CATGTGAACT TTTATGTTGA ATATGGTGTA GCAGGCAGCA AAGAAGAATG GAGAAAAGAA 
    ATTGTAAATG GTTCTCGGAG CTTCTTTGGG TTAAAGGGTC TAATGCCAGG AACAGCATAC 
    AAAGTTCGAG TTGGTGCTGT GGGGGACTCT GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG 
    ACAGGCCCAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371119.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358048.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 45, mRNA.
    Price & Availability↑
    CloneID OHu97272
    Clone ID Related Accession (Same CDS sequence) NM_001371119.1
    Accession Version NM_001371119.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3867bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform P precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660807.77694.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCTGGTAT TCTTCCACCT 
    GATGTAGGTG CAGGCAAAGT TCAAGCAGTA AATCCCAGGA TCAGCAATCT TACTGCTGCA 
    GCTGCTGAGA CCTATGCCAA TATCAGTTGG GAATATGAGG GACCAGAGCA TGTGAACTTT 
    TATGTTGAAT ATGGTGTAGC AGGCAGCAAA GAAGAATGGA GAAAAGAAAT TGTAAATGGT 
    TCTCGGAGCT TCTTTGGGTT AAAGGGTCTA ATGCCAGGAA CAGCATACAA AGTTCGAGTT 
    GGTGCTGTGG GGGACTCTGG TTTTGTGAGT TCAGAGGATG TGTTTGAGAC AGGCCCAGCG 
    ATGGCAAGCC GGCAGGTGGA TATTGCAACT CAGGGCTGGT TCATTGGTCT GATGTGTGCT 
    GTTGCTCTCC TTATCTTAAT TTTGCTGATT GTTTGCTTCA TCAGAAGAAA CAAGGGTGGT 
    AAATATCCAG TTAAAGAAAA GGAAGATGCC CATGCTGACC CTGAAATCCA GCCTATGAAG 
    GAAGATGATG GGACATTTGG AGAATACAGT GATGCAGAAG ACCACAAGCC TTTGAAAAAA 
    GGAAGTCGAA CTCCTTCAGA CAGGACTGTG AAAAAAGAAG ATAGTGACGA CAGCCTAGTT 
    GACTATGGAG AAGGGGTTAA TGGCCAGTTC AATGAGGATG GCTCCTTTAT TGGACAATAC 
    AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA GGAAACGAAA GCTCAGAGGC ACCTTCTCCT 
    GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358048.1
    CDS383..4249
    Translation

    Target ORF information:

    RefSeq Version NM_001371119.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 45, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371119.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCTGGTAT TCTTCCACCT 
    GATGTAGGTG CAGGCAAAGT TCAAGCAGTA AATCCCAGGA TCAGCAATCT TACTGCTGCA 
    GCTGCTGAGA CCTATGCCAA TATCAGTTGG GAATATGAGG GACCAGAGCA TGTGAACTTT 
    TATGTTGAAT ATGGTGTAGC AGGCAGCAAA GAAGAATGGA GAAAAGAAAT TGTAAATGGT 
    TCTCGGAGCT TCTTTGGGTT AAAGGGTCTA ATGCCAGGAA CAGCATACAA AGTTCGAGTT 
    GGTGCTGTGG GGGACTCTGG TTTTGTGAGT TCAGAGGATG TGTTTGAGAC AGGCCCAGCG 
    ATGGCAAGCC GGCAGGTGGA TATTGCAACT CAGGGCTGGT TCATTGGTCT GATGTGTGCT 
    GTTGCTCTCC TTATCTTAAT TTTGCTGATT GTTTGCTTCA TCAGAAGAAA CAAGGGTGGT 
    AAATATCCAG TTAAAGAAAA GGAAGATGCC CATGCTGACC CTGAAATCCA GCCTATGAAG 
    GAAGATGATG GGACATTTGG AGAATACAGT GATGCAGAAG ACCACAAGCC TTTGAAAAAA 
    GGAAGTCGAA CTCCTTCAGA CAGGACTGTG AAAAAAGAAG ATAGTGACGA CAGCCTAGTT 
    GACTATGGAG AAGGGGTTAA TGGCCAGTTC AATGAGGATG GCTCCTTTAT TGGACAATAC 
    AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA GGAAACGAAA GCTCAGAGGC ACCTTCTCCT 
    GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371126.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358055.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 27, mRNA.
    Price & Availability↑
    CloneID OHu97274
    Clone ID Related Accession (Same CDS sequence) NM_001371126.1 , XM_017012240.1 , XM_017012240.2 , NM_001371124.1
    Accession Version NM_001371126.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3858bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform H precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (27), as well as variants 26 and 28, encodes isoform H. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.219222.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358055.1
    CDS680..4537
    Translation

    Target ORF information:

    RefSeq Version NM_001371126.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 27, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371126.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371124.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358053.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 26, mRNA.
    Price & Availability↑
    CloneID OHu97274
    Clone ID Related Accession (Same CDS sequence) NM_001371126.1 , XM_017012240.1 , XM_017012240.2 , NM_001371124.1
    Accession Version NM_001371124.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3858bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform H precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (26), as well as variants 27 and 28, encodes isoform H. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.202157.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358053.1
    CDS383..4240
    Translation

    Target ORF information:

    RefSeq Version NM_001371124.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 26, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371124.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371146.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358075.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 56, mRNA.
    Price & Availability↑
    CloneID OHu97276
    Clone ID Related Accession (Same CDS sequence) XM_024446774.1 , NM_001371146.1
    Accession Version NM_001371146.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform aa precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 28, 2019 this sequence version replaced XM_024446774.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803614.114176.1, SRR1803611.58208.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGTTCAAG CAGTAAATCC CAGGATCAGC 
    AATCTTACTG CTGCAGCTGC TGAGACCTAT GCCAATATCA GTTGGGAATA TGAGGGACCA 
    GAGCATGTGA ACTTTTATGT TGAATATGGT GTAGCAGGCA GCAAAGAAGA ATGGAGAAAA 
    GAAATTGTAA ATGGTTCTCG GAGCTTCTTT GGGTTAAAGG GTCTAATGCC AGGAACAGCA 
    TACAAAGTTC GAGTTGGTGC TGTGGGGGAC TCTGGTTTTG TGAGTTCAGA GGATGTGTTT 
    GAGACAGGCC CAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358075.1
    CDS526..4347
    Translation

    Target ORF information:

    RefSeq Version NM_001371146.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 56, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371146.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGTTCAAG CAGTAAATCC CAGGATCAGC 
    AATCTTACTG CTGCAGCTGC TGAGACCTAT GCCAATATCA GTTGGGAATA TGAGGGACCA 
    GAGCATGTGA ACTTTTATGT TGAATATGGT GTAGCAGGCA GCAAAGAAGA ATGGAGAAAA 
    GAAATTGTAA ATGGTTCTCG GAGCTTCTTT GGGTTAAAGG GTCTAATGCC AGGAACAGCA 
    TACAAAGTTC GAGTTGGTGC TGTGGGGGAC TCTGGTTTTG TGAGTTCAGA GGATGTGTTT 
    GAGACAGGCC CAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371135.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358064.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 48, mRNA.
    Price & Availability↑
    CloneID OHu97283
    Clone ID Related Accession (Same CDS sequence) XM_017012249.1 , NM_001371135.1
    Accession Version NM_001371135.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3588bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform S precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 28, 2019 this sequence version replaced XM_017012249.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.123620.1, SRR1660809.179565.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCTGGTAT TCTTCCACCT 
    GATGTAGGTG CAGGCAAAGC GATGGCAAGC CGGCAGGTGG ATATTGCAAC TCAGGGCTGG 
    TTCATTGGTC TGATGTGTGC TGTTGCTCTC CTTATCTTAA TTTTGCTGAT TGTTTGCTTC 
    ATCAGAAGAA ACAAGGGTGG TAAATATCCA GTTAAAGAAA AGGAAGATGC CCATGCTGAC 
    CCTGAAATCC AGCCTATGAA GGAAGATGAT GGGACATTTG GAGAATACAG TGATGCAGAA 
    GACCACAAGC CTTTGAAAAA AGGAAGTCGA ACTCCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGACG ACAGCCTAGT TGACTATGGA GAAGGGGTTA ATGGCCAGTT CAATGAGGAT 
    GGCTCCTTTA TTGGACAATA CAGTGGTAAG AAAGAGAAAG AGCCGGCTGA AGGAAACGAA 
    AGCTCAGAGG CACCTTCTCC TGTCAACGCC ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358064.1
    CDS526..4113
    Translation

    Target ORF information:

    RefSeq Version NM_001371135.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 48, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371135.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCTGGTAT TCTTCCACCT 
    GATGTAGGTG CAGGCAAAGC GATGGCAAGC CGGCAGGTGG ATATTGCAAC TCAGGGCTGG 
    TTCATTGGTC TGATGTGTGC TGTTGCTCTC CTTATCTTAA TTTTGCTGAT TGTTTGCTTC 
    ATCAGAAGAA ACAAGGGTGG TAAATATCCA GTTAAAGAAA AGGAAGATGC CCATGCTGAC 
    CCTGAAATCC AGCCTATGAA GGAAGATGAT GGGACATTTG GAGAATACAG TGATGCAGAA 
    GACCACAAGC CTTTGAAAAA AGGAAGTCGA ACTCCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGACG ACAGCCTAGT TGACTATGGA GAAGGGGTTA ATGGCCAGTT CAATGAGGAT 
    GGCTCCTTTA TTGGACAATA CAGTGGTAAG AAAGAGAAAG AGCCGGCTGA AGGAAACGAA 
    AGCTCAGAGG CACCTTCTCC TGTCAACGCC ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371159.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358088.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 68, mRNA.
    Price & Availability↑
    CloneID OHu97286
    Clone ID Related Accession (Same CDS sequence) NM_001371159.1 , XM_017012252.1
    Accession Version NM_001371159.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform ll precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 28, 2019 this sequence version replaced XM_017012252.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.182533.1, SRR1803612.22338.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GGTAAGATGG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358088.1
    CDS526..4104
    Translation

    Target ORF information:

    RefSeq Version NM_001371159.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 68, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371159.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GGTAAGATGG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371174.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358103.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 65, mRNA.
    Price & Availability↑
    CloneID OHu97288
    Clone ID Related Accession (Same CDS sequence) XM_017012254.1 , NM_001371174.1 , XM_017012254.2
    Accession Version NM_001371174.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform jj precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 28, 2019 this sequence version replaced XM_017012254.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.70085.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358103.1
    CDS526..4095
    Translation

    Target ORF information:

    RefSeq Version NM_001371174.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 65, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371174.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371143.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358072.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 36, mRNA.
    Price & Availability↑
    CloneID OHu97289
    Clone ID Related Accession (Same CDS sequence) XM_017012255.1 , NM_001371143.1 , XM_017012255.2
    Accession Version NM_001371143.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform L
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (36), as well as variant 37, encodes isoform L. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.159046.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGCTAAATC AAGTAGAGAG AGGCCACCAA CATTTTTAAC TCCAGAAGGC 
    AATGCAAGTA ACAAAGAGGA ATTAAGAGGA AATGTGCTTT CACTGGAGTG CATTGCAGAA 
    GGACTGCCTA CCCCAATTAT TTACTGGGCA AAGGAAGATG GAATGCTACC CAAAAACAGG 
    ACAGTTTATA AGAACTTTGA GAAAACCTTG CAGATCATTC ATGTTTCAGA AGCAGACTCT 
    GGAAATTACC AATGTATAGC AAAAAACGCA TTAGGAGCCA TCCACCATAC CATTTCTGTT 
    AGAGTTAAAG CGGCTCCATA CTGGATCACA GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA 
    GAGGATGGGA CCTTGATCTG CAGAGCTAAT GGCAACCCCA AACCCAGAAT TAGCTGGTTA 
    ACAAATGGAG TCCCAATAGA AATTGCCCCT GATGACCCCA GCAGAAAAAT AGATGGCGAT 
    ACCATTATTT TTTCAAATGT TCAAGAAAGA TCAAGTGCAG TCTATCAGTG CAATGCCTCT 
    AATGAATATG GATATTTACT GGCAAACGCA TTTGTAAATG TGCTGGCTGA GCCACCACGA 
    ATCCTCACAC CTGCAAACAC ACTCTACCAG GTCATTGCAA ACAGGCCTGC TTTACTAGAC 
    TGTGCCTTCT TTGGGTCTCC TCTCCCAACC ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT 
    GCTCTTCATG AAGATATTTA TGTTTTACAT GAAAATGGAA CTTTGGAAAT TCCTGTGGCC 
    CAAAAGGACA GTACAGGAAC TTATACGTGT GTTGCAAGGA ATAAATTAGG GATGGCGAAG 
    AATGAAGTTC ACTTAGAAAT CAAAGATCCT ACATGGATCG TTAAACAGCC CGAATATGCA 
    GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT GAATGCAAAG TGAAACATGA TCACACCTTA 
    TCCCTCACTG TCCTGTGGCT GAAGGACAAC AGGGAACTGC CCAGTGATGA AAGGTTCACT 
    GTTGACAAGG ATCATCTAGT GGTAGCTGAT GTCAGTGACG ATGACAGCGG GACCTACACG 
    TGTGTGGCCA ACACCACTCT GGACAGCGTC TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT 
    CCTACTCCAA CTCCAGCTCC CGTTTACGAT GTCCCAAATC CTCCCTTTGA CTTAGAACTG 
    ACAGATCAAC TTGACAAAAG TGTTCAGCTG TCATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT CGAATATGAA GATGCAATGC ACAAGCCAGG GCTGTGGCAC 
    CACCAAACTG AAGTTTCTGG AACACAGACC ACAGCCCAGC TGAAGCTGTC TCCTTACGTG 
    AACTACTCCT TCCGCGTGAT GGCAGTGAAC AGCATTGGGA AGAGCTTGCC CAGCGAGGCG 
    TCTGAGCAGT ATTTGACGAA AGCCTCAGAA CCAGATAAAA ACCCCACAGC TGTGGAAGGA 
    CTGGGATCAG AGCCTGATAA TTTGGTGATT ACGTGGAAGC CCTTGAATGG TTTCGAATCT 
    AATGGGCCAG GCCTTCAGTA CAAAGTTAGC TGGCGCCAGA AAGATGGTGA TGATGAATGG 
    ACATCTGTGG TTGTGGCAAA TGTATCCAAA TATATTGTCT CAGGCACGCC AACCTTTGTT 
    CCATACCTGA TCAAAGTTCA GGCCCTGAAT GACATGGGGT TTGCCCCCGA GCCAGCTGTA 
    GTCATGGGAC ATTCTGGAGA AGACCTCCCA ATGGTGGCTC CTGGGAACGT GCGTGTGAAT 
    GTGGTGAACA GTACCTTAGC CGAGGTGCAC TGGGACCCAG TACCTCTGAA AAGCATCCGA 
    GGACACCTAC AAGGCTATCG GATTTACTAT TGGAAGACCC AGAGTTCATC TAAAAGAAAC 
    AGACGTCACA TTGAGAAAAA GATCCTCACC TTCCAAGGCA GCAAGACTCA TGGCATGTTG 
    CCGGGGCTAG AGCCCTTTAG CCACTACACA CTGAATGTCC GAGTGGTCAA TGGGAAAGGG 
    GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT AATACTCCAG AAGGAGTCCC CAGTGCTCCC 
    TCGTCTTTGA AGATTGTGAA TCCAACACTG GACTCTCTCA CTTTGGAATG GGATCCACCG 
    AGCCACCCGA ATGGCATTTT GACAGAGTAC ACCTTAAAGT ATCAGCCAAT TAACAGCACA 
    CATGAATTAG GCCCTCTGGT AGATTTGAAA ATTCCTGCCA ACAAGACACG GTGGACTTTA 
    AAAAATTTAA ATTTCAGCAC TCGATATAAG TTTTATTTCT ATGCACAAAC ATCAGCAGGA 
    TCAGGAAGTC AAATTACAGA GGAAGCAGTA ACAACTGTGG ATGAAGCTGG TATTCTTCCA 
    CCTGATGTAG GTGCAGGCAA AGTTCAAGCA GTAAATCCCA GGATCAGCAA TCTTACTGCT 
    GCAGCTGCTG AGACCTATGC CAATATCAGT TGGGAATATG AGGGACCAGA GCATGTGAAC 
    TTTTATGTTG AATATGGTGT AGCAGGCAGC AAAGAAGAAT GGAGAAAAGA AATTGTAAAT 
    GGTTCTCGGA GCTTCTTTGG GTTAAAGGGT CTAATGCCAG GAACAGCATA CAAAGTTCGA 
    GTTGGTGCTG TGGGGGACTC TGGTTTTGTG AGTTCAGAGG ATGTGTTTGA GACAGGCCCA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358072.1
    CDS602..4171
    Translation

    Target ORF information:

    RefSeq Version NM_001371143.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 36, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371143.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGCTAAATC AAGTAGAGAG AGGCCACCAA CATTTTTAAC TCCAGAAGGC 
    AATGCAAGTA ACAAAGAGGA ATTAAGAGGA AATGTGCTTT CACTGGAGTG CATTGCAGAA 
    GGACTGCCTA CCCCAATTAT TTACTGGGCA AAGGAAGATG GAATGCTACC CAAAAACAGG 
    ACAGTTTATA AGAACTTTGA GAAAACCTTG CAGATCATTC ATGTTTCAGA AGCAGACTCT 
    GGAAATTACC AATGTATAGC AAAAAACGCA TTAGGAGCCA TCCACCATAC CATTTCTGTT 
    AGAGTTAAAG CGGCTCCATA CTGGATCACA GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA 
    GAGGATGGGA CCTTGATCTG CAGAGCTAAT GGCAACCCCA AACCCAGAAT TAGCTGGTTA 
    ACAAATGGAG TCCCAATAGA AATTGCCCCT GATGACCCCA GCAGAAAAAT AGATGGCGAT 
    ACCATTATTT TTTCAAATGT TCAAGAAAGA TCAAGTGCAG TCTATCAGTG CAATGCCTCT 
    AATGAATATG GATATTTACT GGCAAACGCA TTTGTAAATG TGCTGGCTGA GCCACCACGA 
    ATCCTCACAC CTGCAAACAC ACTCTACCAG GTCATTGCAA ACAGGCCTGC TTTACTAGAC 
    TGTGCCTTCT TTGGGTCTCC TCTCCCAACC ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT 
    GCTCTTCATG AAGATATTTA TGTTTTACAT GAAAATGGAA CTTTGGAAAT TCCTGTGGCC 
    CAAAAGGACA GTACAGGAAC TTATACGTGT GTTGCAAGGA ATAAATTAGG GATGGCGAAG 
    AATGAAGTTC ACTTAGAAAT CAAAGATCCT ACATGGATCG TTAAACAGCC CGAATATGCA 
    GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT GAATGCAAAG TGAAACATGA TCACACCTTA 
    TCCCTCACTG TCCTGTGGCT GAAGGACAAC AGGGAACTGC CCAGTGATGA AAGGTTCACT 
    GTTGACAAGG ATCATCTAGT GGTAGCTGAT GTCAGTGACG ATGACAGCGG GACCTACACG 
    TGTGTGGCCA ACACCACTCT GGACAGCGTC TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT 
    CCTACTCCAA CTCCAGCTCC CGTTTACGAT GTCCCAAATC CTCCCTTTGA CTTAGAACTG 
    ACAGATCAAC TTGACAAAAG TGTTCAGCTG TCATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT CGAATATGAA GATGCAATGC ACAAGCCAGG GCTGTGGCAC 
    CACCAAACTG AAGTTTCTGG AACACAGACC ACAGCCCAGC TGAAGCTGTC TCCTTACGTG 
    AACTACTCCT TCCGCGTGAT GGCAGTGAAC AGCATTGGGA AGAGCTTGCC CAGCGAGGCG 
    TCTGAGCAGT ATTTGACGAA AGCCTCAGAA CCAGATAAAA ACCCCACAGC TGTGGAAGGA 
    CTGGGATCAG AGCCTGATAA TTTGGTGATT ACGTGGAAGC CCTTGAATGG TTTCGAATCT 
    AATGGGCCAG GCCTTCAGTA CAAAGTTAGC TGGCGCCAGA AAGATGGTGA TGATGAATGG 
    ACATCTGTGG TTGTGGCAAA TGTATCCAAA TATATTGTCT CAGGCACGCC AACCTTTGTT 
    CCATACCTGA TCAAAGTTCA GGCCCTGAAT GACATGGGGT TTGCCCCCGA GCCAGCTGTA 
    GTCATGGGAC ATTCTGGAGA AGACCTCCCA ATGGTGGCTC CTGGGAACGT GCGTGTGAAT 
    GTGGTGAACA GTACCTTAGC CGAGGTGCAC TGGGACCCAG TACCTCTGAA AAGCATCCGA 
    GGACACCTAC AAGGCTATCG GATTTACTAT TGGAAGACCC AGAGTTCATC TAAAAGAAAC 
    AGACGTCACA TTGAGAAAAA GATCCTCACC TTCCAAGGCA GCAAGACTCA TGGCATGTTG 
    CCGGGGCTAG AGCCCTTTAG CCACTACACA CTGAATGTCC GAGTGGTCAA TGGGAAAGGG 
    GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT AATACTCCAG AAGGAGTCCC CAGTGCTCCC 
    TCGTCTTTGA AGATTGTGAA TCCAACACTG GACTCTCTCA CTTTGGAATG GGATCCACCG 
    AGCCACCCGA ATGGCATTTT GACAGAGTAC ACCTTAAAGT ATCAGCCAAT TAACAGCACA 
    CATGAATTAG GCCCTCTGGT AGATTTGAAA ATTCCTGCCA ACAAGACACG GTGGACTTTA 
    AAAAATTTAA ATTTCAGCAC TCGATATAAG TTTTATTTCT ATGCACAAAC ATCAGCAGGA 
    TCAGGAAGTC AAATTACAGA GGAAGCAGTA ACAACTGTGG ATGAAGCTGG TATTCTTCCA 
    CCTGATGTAG GTGCAGGCAA AGTTCAAGCA GTAAATCCCA GGATCAGCAA TCTTACTGCT 
    GCAGCTGCTG AGACCTATGC CAATATCAGT TGGGAATATG AGGGACCAGA GCATGTGAAC 
    TTTTATGTTG AATATGGTGT AGCAGGCAGC AAAGAAGAAT GGAGAAAAGA AATTGTAAAT 
    GGTTCTCGGA GCTTCTTTGG GTTAAAGGGT CTAATGCCAG GAACAGCATA CAAAGTTCGA 
    GTTGGTGCTG TGGGGGACTC TGGTTTTGTG AGTTCAGAGG ATGTGTTTGA GACAGGCCCA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371150.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358079.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 57, mRNA.
    Price & Availability↑
    CloneID OHu97291
    Clone ID Related Accession (Same CDS sequence) XM_024446781.1 , XM_017012258.1 , NM_001371150.1
    Accession Version NM_001371150.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform bb precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 28, 2019 this sequence version replaced XM_024446781.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.40645.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGGCTGTTTT CATTTGTTTC TTCTGCATCC 
    TTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358079.1
    CDS526..3891
    Translation

    Target ORF information:

    RefSeq Version NM_001371150.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 57, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371150.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGGCTGTTTT CATTTGTTTC TTCTGCATCC 
    TTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371157.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358086.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 59, mRNA.
    Price & Availability↑
    CloneID OHu97292
    Clone ID Related Accession (Same CDS sequence) XM_024446782.1 , NM_001371157.1 , XM_017012259.1
    Accession Version NM_001371157.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3348bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform dd precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 30, 2019 this sequence version replaced XM_024446782.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.44564.1, SRR1803615.154866.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGGCTGTT TTCATTTGTT TCTTCTGCAT CCTTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358086.1
    CDS526..3873
    Translation

    Target ORF information:

    RefSeq Version NM_001371157.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 59, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371157.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGGCTGTT TTCATTTGTT TCTTCTGCAT CCTTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_024446778.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302546.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X42, mRNA.
    Price & Availability↑
    CloneID OHu105887
    Clone ID Related Accession (Same CDS sequence) XM_024446778.1
    Accession Version XM_024446778.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3564bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X40
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGGTCTCT TGAAAGTGAT GCAGAAGACC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACTC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGACGACAG CCTAGTTGAC 
    TATGGAGAAG GGGTTAATGG CCAGTTCAAT GAGGATGGCT CCTTTATTGG ACAATACAGT 
    GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA AACGAAAGCT CAGAGGCACC TTCTCCTGTC 
    AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024302546.1
    CDS475..4038
    Translation

    Target ORF information:

    RefSeq Version XM_024446778.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X42, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446778.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGGTCTCT TGAAAGTGAT GCAGAAGACC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACTC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGACGACAG CCTAGTTGAC 
    TATGGAGAAG GGGTTAATGG CCAGTTCAAT GAGGATGGCT CCTTTATTGG ACAATACAGT 
    GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA AACGAAAGCT CAGAGGCACC TTCTCCTGTC 
    AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_024446779.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302547.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X43, mRNA.
    Price & Availability↑
    CloneID OHu105888
    Clone ID Related Accession (Same CDS sequence) XM_024446779.1
    Accession Version XM_024446779.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3504bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X41
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGCTAAATC AAGTAGAGAG 
    AGGCCACCAA CATTTTTAAC TCCAGAAGGC AATGCAAGTA ACAAAGAGGA ATTAAGAGGA 
    AATGTGCTTT CACTGGAGTG CATTGCAGAA GGACTGCCTA CCCCAATTAT TTACTGGGCA 
    AAGGAAGATG GAATGCTACC CAAAAACAGG ACAGTTTATA AGAACTTTGA GAAAACCTTG 
    CAGATCATTC ATGTTTCAGA AGCAGACTCT GGAAATTACC AATGTATAGC AAAAAACGCA 
    TTAGGAGCCA TCCACCATAC CATTTCTGTT AGAGTTAAAG CGGCTCCATA CTGGATCACA 
    GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA GAGGATGGGA CCTTGATCTG CAGAGCTAAT 
    GGCAACCCCA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCCCCT 
    GATGACCCCA GCAGAAAAAT AGATGGCGAT ACCATTATTT TTTCAAATGT TCAAGAAAGA 
    TCAAGTGCAG TCTATCAGTG CAATGCCTCT AATGAATATG GATATTTACT GGCAAACGCA 
    TTTGTAAATG TGCTGGCTGA GCCACCACGA ATCCTCACAC CTGCAAACAC ACTCTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTACTAGAC TGTGCCTTCT TTGGGTCTCC TCTCCCAACC 
    ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT GCTCTTCATG AAGATATTTA TGTTTTACAT 
    GAAAATGGAA CTTTGGAAAT TCCTGTGGCC CAAAAGGACA GTACAGGAAC TTATACGTGT 
    GTTGCAAGGA ATAAATTAGG GATGGCGAAG AATGAAGTTC ACTTAGAAAT CAAAGATCCT 
    ACATGGATCG TTAAACAGCC CGAATATGCA GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT 
    GAATGCAAAG TGAAACATGA TCACACCTTA TCCCTCACTG TCCTGTGGCT GAAGGACAAC 
    AGGGAACTGC CCAGTGATGA AAGGTTCACT GTTGACAAGG ATCATCTAGT GGTAGCTGAT 
    GTCAGTGACG ATGACAGCGG GACCTACACG TGTGTGGCCA ACACCACTCT GGACAGCGTC 
    TCCGCCAGCG CTGTGCTTAG CGTTGTTGAT GTCCCAAATC CTCCCTTTGA CTTAGAACTG 
    ACAGATCAAC TTGACAAAAG TGTTCAGCTG TCATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT CGAATATGAA GATGCAATGC ACAAGCCAGG GCTGTGGCAC 
    CACCAAACTG AAGTTTCTGG AACACAGACC ACAGCCCAGC TGAAGCTGTC TCCTTACGTG 
    AACTACTCCT TCCGCGTGAT GGCAGTGAAC AGCATTGGGA AGAGCTTGCC CAGCGAGGCG 
    TCTGAGCAGT ATTTGACGAA AGCCTCAGAA CCAGATAAAA ACCCCACAGC TGTGGAAGGA 
    CTGGGATCAG AGCCTGATAA TTTGGTGATT ACGTGGAAGC CCTTGAATGG TTTCGAATCT 
    AATGGGCCAG GCCTTCAGTA CAAAGTTAGC TGGCGCCAGA AAGATGGTGA TGATGAATGG 
    ACATCTGTGG TTGTGGCAAA TGTATCCAAA TATATTGTCT CAGGCACGCC AACCTTTGTT 
    CCATACCTGA TCAAAGTTCA GGCCCTGAAT GACATGGGGT TTGCCCCCGA GCCAGCTGTA 
    GTCATGGGAC ATTCTGGAGA AGACCTCCCA ATGGTGGCTC CTGGGAACGT GCGTGTGAAT 
    GTGGTGAACA GTACCTTAGC CGAGGTGCAC TGGGACCCAG TACCTCTGAA AAGCATCCGA 
    GGACACCTAC AAGGCTATCG GATTTACTAT TGGAAGACCC AGAGTTCATC TAAAAGAAAC 
    AGACGTCACA TTGAGAAAAA GATCCTCACC TTCCAAGGCA GCAAGACTCA TGGCATGTTG 
    CCGGGGCTAG AGCCCTTTAG CCACTACACA CTGAATGTCC GAGTGGTCAA TGGGAAAGGG 
    GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT AATACTCCAG AAGGAGTCCC CAGTGCTCCC 
    TCGTCTTTGA AGATTGTGAA TCCAACACTG GACTCTCTCA CTTTGGAATG GGATCCACCG 
    AGCCACCCGA ATGGCATTTT GACAGAGTAC ACCTTAAAGT ATCAGCCAAT TAACAGCACA 
    CATGAATTAG GCCCTCTGGT AGATTTGAAA ATTCCTGCCA ACAAGACACG GTGGACTTTA 
    AAAAATTTAA ATTTCAGCAC TCGATATAAG TTTTATTTCT ATGCACAAAC ATCAGCAGGA 
    TCAGGAAGTC AAATTACAGA GGAAGCAGTA ACAACTGTGG ATGAAGGTAA GATGGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGTGAT GCAGAAGACC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACTC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGACGACAG CCTAGTTGAC 
    TATGGAGAAG GGGTTAATGG CCAGTTCAAT GAGGATGGCT CCTTTATTGG ACAATACAGT 
    GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA AACGAAAGCT CAGAGGCACC TTCTCCTGTC 
    AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024302547.1
    CDS475..3978
    Translation

    Target ORF information:

    RefSeq Version XM_024446779.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X43, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446779.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGCTAAATC AAGTAGAGAG 
    AGGCCACCAA CATTTTTAAC TCCAGAAGGC AATGCAAGTA ACAAAGAGGA ATTAAGAGGA 
    AATGTGCTTT CACTGGAGTG CATTGCAGAA GGACTGCCTA CCCCAATTAT TTACTGGGCA 
    AAGGAAGATG GAATGCTACC CAAAAACAGG ACAGTTTATA AGAACTTTGA GAAAACCTTG 
    CAGATCATTC ATGTTTCAGA AGCAGACTCT GGAAATTACC AATGTATAGC AAAAAACGCA 
    TTAGGAGCCA TCCACCATAC CATTTCTGTT AGAGTTAAAG CGGCTCCATA CTGGATCACA 
    GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA GAGGATGGGA CCTTGATCTG CAGAGCTAAT 
    GGCAACCCCA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCCCCT 
    GATGACCCCA GCAGAAAAAT AGATGGCGAT ACCATTATTT TTTCAAATGT TCAAGAAAGA 
    TCAAGTGCAG TCTATCAGTG CAATGCCTCT AATGAATATG GATATTTACT GGCAAACGCA 
    TTTGTAAATG TGCTGGCTGA GCCACCACGA ATCCTCACAC CTGCAAACAC ACTCTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTACTAGAC TGTGCCTTCT TTGGGTCTCC TCTCCCAACC 
    ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT GCTCTTCATG AAGATATTTA TGTTTTACAT 
    GAAAATGGAA CTTTGGAAAT TCCTGTGGCC CAAAAGGACA GTACAGGAAC TTATACGTGT 
    GTTGCAAGGA ATAAATTAGG GATGGCGAAG AATGAAGTTC ACTTAGAAAT CAAAGATCCT 
    ACATGGATCG TTAAACAGCC CGAATATGCA GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT 
    GAATGCAAAG TGAAACATGA TCACACCTTA TCCCTCACTG TCCTGTGGCT GAAGGACAAC 
    AGGGAACTGC CCAGTGATGA AAGGTTCACT GTTGACAAGG ATCATCTAGT GGTAGCTGAT 
    GTCAGTGACG ATGACAGCGG GACCTACACG TGTGTGGCCA ACACCACTCT GGACAGCGTC 
    TCCGCCAGCG CTGTGCTTAG CGTTGTTGAT GTCCCAAATC CTCCCTTTGA CTTAGAACTG 
    ACAGATCAAC TTGACAAAAG TGTTCAGCTG TCATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT CGAATATGAA GATGCAATGC ACAAGCCAGG GCTGTGGCAC 
    CACCAAACTG AAGTTTCTGG AACACAGACC ACAGCCCAGC TGAAGCTGTC TCCTTACGTG 
    AACTACTCCT TCCGCGTGAT GGCAGTGAAC AGCATTGGGA AGAGCTTGCC CAGCGAGGCG 
    TCTGAGCAGT ATTTGACGAA AGCCTCAGAA CCAGATAAAA ACCCCACAGC TGTGGAAGGA 
    CTGGGATCAG AGCCTGATAA TTTGGTGATT ACGTGGAAGC CCTTGAATGG TTTCGAATCT 
    AATGGGCCAG GCCTTCAGTA CAAAGTTAGC TGGCGCCAGA AAGATGGTGA TGATGAATGG 
    ACATCTGTGG TTGTGGCAAA TGTATCCAAA TATATTGTCT CAGGCACGCC AACCTTTGTT 
    CCATACCTGA TCAAAGTTCA GGCCCTGAAT GACATGGGGT TTGCCCCCGA GCCAGCTGTA 
    GTCATGGGAC ATTCTGGAGA AGACCTCCCA ATGGTGGCTC CTGGGAACGT GCGTGTGAAT 
    GTGGTGAACA GTACCTTAGC CGAGGTGCAC TGGGACCCAG TACCTCTGAA AAGCATCCGA 
    GGACACCTAC AAGGCTATCG GATTTACTAT TGGAAGACCC AGAGTTCATC TAAAAGAAAC 
    AGACGTCACA TTGAGAAAAA GATCCTCACC TTCCAAGGCA GCAAGACTCA TGGCATGTTG 
    CCGGGGCTAG AGCCCTTTAG CCACTACACA CTGAATGTCC GAGTGGTCAA TGGGAAAGGG 
    GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT AATACTCCAG AAGGAGTCCC CAGTGCTCCC 
    TCGTCTTTGA AGATTGTGAA TCCAACACTG GACTCTCTCA CTTTGGAATG GGATCCACCG 
    AGCCACCCGA ATGGCATTTT GACAGAGTAC ACCTTAAAGT ATCAGCCAAT TAACAGCACA 
    CATGAATTAG GCCCTCTGGT AGATTTGAAA ATTCCTGCCA ACAAGACACG GTGGACTTTA 
    AAAAATTTAA ATTTCAGCAC TCGATATAAG TTTTATTTCT ATGCACAAAC ATCAGCAGGA 
    TCAGGAAGTC AAATTACAGA GGAAGCAGTA ACAACTGTGG ATGAAGGTAA GATGGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGTGAT GCAGAAGACC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACTC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGACGACAG CCTAGTTGAC 
    TATGGAGAAG GGGTTAATGG CCAGTTCAAT GAGGATGGCT CCTTTATTGG ACAATACAGT 
    GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA AACGAAAGCT CAGAGGCACC TTCTCCTGTC 
    AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012236.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867725.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu97270
    Clone ID Related Accession (Same CDS sequence) XM_017012236.1 , XM_017012236.2
    Accession Version XM_017012236.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3897bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCTGGTATTC TTCCACCTGA TGTAGGTGCA GGCAAAGTTC AAGCAGTAAA TCCCAGGATC 
    AGCAATCTTA CTGCTGCAGC TGCTGAGACC TATGCCAATA TCAGTTGGGA ATATGAGGGA 
    CCAGAGCATG TGAACTTTTA TGTTGAATAT GGTGTAGCAG GCAGCAAAGA AGAATGGAGA 
    AAAGAAATTG TAAATGGTTC TCGGAGCTTC TTTGGGTTAA AGGGTCTAAT GCCAGGAACA 
    GCATACAAAG TTCGAGTTGG TGCTGTGGGG GACTCTGGTT TTGTGAGTTC AGAGGATGTG 
    TTTGAGACAG GCCCAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGGTC TCTTGAAAGT 
    GATGCAGAAG ACCACAAGCC TTTGAAAAAA GGAAGTCGAA CTCCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGACGA CAGCCTAGTT GACTATGGAG AAGGGGTTAA TGGCCAGTTC 
    AATGAGGATG GCTCCTTTAT TGGACAATAC AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA 
    GGAAACGAAA GCTCAGAGGC ACCTTCTCCT GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867725.1
    CDS487..4383
    Translation

    Target ORF information:

    RefSeq Version XM_017012236.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012236.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCTGGTATTC TTCCACCTGA TGTAGGTGCA GGCAAAGTTC AAGCAGTAAA TCCCAGGATC 
    AGCAATCTTA CTGCTGCAGC TGCTGAGACC TATGCCAATA TCAGTTGGGA ATATGAGGGA 
    CCAGAGCATG TGAACTTTTA TGTTGAATAT GGTGTAGCAG GCAGCAAAGA AGAATGGAGA 
    AAAGAAATTG TAAATGGTTC TCGGAGCTTC TTTGGGTTAA AGGGTCTAAT GCCAGGAACA 
    GCATACAAAG TTCGAGTTGG TGCTGTGGGG GACTCTGGTT TTGTGAGTTC AGAGGATGTG 
    TTTGAGACAG GCCCAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGGTC TCTTGAAAGT 
    GATGCAGAAG ACCACAAGCC TTTGAAAAAA GGAAGTCGAA CTCCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGACGA CAGCCTAGTT GACTATGGAG AAGGGGTTAA TGGCCAGTTC 
    AATGAGGATG GCTCCTTTAT TGGACAATAC AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA 
    GGAAACGAAA GCTCAGAGGC ACCTTCTCCT GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012236.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867725.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu97270
    Clone ID Related Accession (Same CDS sequence) XM_017012236.1 , XM_017012236.2
    Accession Version XM_017012236.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3897bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012236.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCTGGTATTC TTCCACCTGA TGTAGGTGCA GGCAAAGTTC AAGCAGTAAA TCCCAGGATC 
    AGCAATCTTA CTGCTGCAGC TGCTGAGACC TATGCCAATA TCAGTTGGGA ATATGAGGGA 
    CCAGAGCATG TGAACTTTTA TGTTGAATAT GGTGTAGCAG GCAGCAAAGA AGAATGGAGA 
    AAAGAAATTG TAAATGGTTC TCGGAGCTTC TTTGGGTTAA AGGGTCTAAT GCCAGGAACA 
    GCATACAAAG TTCGAGTTGG TGCTGTGGGG GACTCTGGTT TTGTGAGTTC AGAGGATGTG 
    TTTGAGACAG GCCCAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGGTC TCTTGAAAGT 
    GATGCAGAAG ACCACAAGCC TTTGAAAAAA GGAAGTCGAA CTCCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGACGA CAGCCTAGTT GACTATGGAG AAGGGGTTAA TGGCCAGTTC 
    AATGAGGATG GCTCCTTTAT TGGACAATAC AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA 
    GGAAACGAAA GCTCAGAGGC ACCTTCTCCT GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867725.1
    CDS475..4371
    Translation

    Target ORF information:

    RefSeq Version XM_017012236.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012236.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCTGGTATTC TTCCACCTGA TGTAGGTGCA GGCAAAGTTC AAGCAGTAAA TCCCAGGATC 
    AGCAATCTTA CTGCTGCAGC TGCTGAGACC TATGCCAATA TCAGTTGGGA ATATGAGGGA 
    CCAGAGCATG TGAACTTTTA TGTTGAATAT GGTGTAGCAG GCAGCAAAGA AGAATGGAGA 
    AAAGAAATTG TAAATGGTTC TCGGAGCTTC TTTGGGTTAA AGGGTCTAAT GCCAGGAACA 
    GCATACAAAG TTCGAGTTGG TGCTGTGGGG GACTCTGGTT TTGTGAGTTC AGAGGATGTG 
    TTTGAGACAG GCCCAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGGTC TCTTGAAAGT 
    GATGCAGAAG ACCACAAGCC TTTGAAAAAA GGAAGTCGAA CTCCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGACGA CAGCCTAGTT GACTATGGAG AAGGGGTTAA TGGCCAGTTC 
    AATGAGGATG GCTCCTTTAT TGGACAATAC AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA 
    GGAAACGAAA GCTCAGAGGC ACCTTCTCCT GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012239.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867728.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu97273
    Clone ID Related Accession (Same CDS sequence) XM_017012239.1 , XM_017012239.2
    Accession Version XM_017012239.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3861bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGCTAAATC AAGTAGAGAG 
    AGGCCACCAA CATTTTTAAC TCCAGAAGGC AATGCAAGTA ACAAAGAGGA ATTAAGAGGA 
    AATGTGCTTT CACTGGAGTG CATTGCAGAA GGACTGCCTA CCCCAATTAT TTACTGGGCA 
    AAGGAAGATG GAATGCTACC CAAAAACAGG ACAGTTTATA AGAACTTTGA GAAAACCTTG 
    CAGATCATTC ATGTTTCAGA AGCAGACTCT GGAAATTACC AATGTATAGC AAAAAACGCA 
    TTAGGAGCCA TCCACCATAC CATTTCTGTT AGAGTTAAAG CGGCTCCATA CTGGATCACA 
    GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA GAGGATGGGA CCTTGATCTG CAGAGCTAAT 
    GGCAACCCCA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCCCCT 
    GATGACCCCA GCAGAAAAAT AGATGGCGAT ACCATTATTT TTTCAAATGT TCAAGAAAGA 
    TCAAGTGCAG TCTATCAGTG CAATGCCTCT AATGAATATG GATATTTACT GGCAAACGCA 
    TTTGTAAATG TGCTGGCTGA GCCACCACGA ATCCTCACAC CTGCAAACAC ACTCTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTACTAGAC TGTGCCTTCT TTGGGTCTCC TCTCCCAACC 
    ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT GCTCTTCATG AAGATATTTA TGTTTTACAT 
    GAAAATGGAA CTTTGGAAAT TCCTGTGGCC CAAAAGGACA GTACAGGAAC TTATACGTGT 
    GTTGCAAGGA ATAAATTAGG GATGGCGAAG AATGAAGTTC ACTTAGAAAT CAAAGATCCT 
    ACATGGATCG TTAAACAGCC CGAATATGCA GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT 
    GAATGCAAAG TGAAACATGA TCACACCTTA TCCCTCACTG TCCTGTGGCT GAAGGACAAC 
    AGGGAACTGC CCAGTGATGA AAGGTTCACT GTTGACAAGG ATCATCTAGT GGTAGCTGAT 
    GTCAGTGACG ATGACAGCGG GACCTACACG TGTGTGGCCA ACACCACTCT GGACAGCGTC 
    TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT CCTACTCCAA CTCCAGCTCC CGTTTACGAT 
    GTCCCAAATC CTCCCTTTGA CTTAGAACTG ACAGATCAAC TTGACAAAAG TGTTCAGCTG 
    TCATGGACCC CAGGCGATGA CAACAATAGC CCCATTACAA AATTCATCAT CGAATATGAA 
    GATGCAATGC ACAAGCCAGG GCTGTGGCAC CACCAAACTG AAGTTTCTGG AACACAGACC 
    ACAGCCCAGC TGAAGCTGTC TCCTTACGTG AACTACTCCT TCCGCGTGAT GGCAGTGAAC 
    AGCATTGGGA AGAGCTTGCC CAGCGAGGCG TCTGAGCAGT ATTTGACGAA AGCCTCAGAA 
    CCAGATAAAA ACCCCACAGC TGTGGAAGGA CTGGGATCAG AGCCTGATAA TTTGGTGATT 
    ACGTGGAAGC CCTTGAATGG TTTCGAATCT AATGGGCCAG GCCTTCAGTA CAAAGTTAGC 
    TGGCGCCAGA AAGATGGTGA TGATGAATGG ACATCTGTGG TTGTGGCAAA TGTATCCAAA 
    TATATTGTCT CAGGCACGCC AACCTTTGTT CCATACCTGA TCAAAGTTCA GGCCCTGAAT 
    GACATGGGGT TTGCCCCCGA GCCAGCTGTA GTCATGGGAC ATTCTGGAGA AGACCTCCCA 
    ATGGTGGCTC CTGGGAACGT GCGTGTGAAT GTGGTGAACA GTACCTTAGC CGAGGTGCAC 
    TGGGACCCAG TACCTCTGAA AAGCATCCGA GGACACCTAC AAGGCTATCG GATTTACTAT 
    TGGAAGACCC AGAGTTCATC TAAAAGAAAC AGACGTCACA TTGAGAAAAA GATCCTCACC 
    TTCCAAGGCA GCAAGACTCA TGGCATGTTG CCGGGGCTAG AGCCCTTTAG CCACTACACA 
    CTGAATGTCC GAGTGGTCAA TGGGAAAGGG GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT 
    AATACTCCAG AAGGAGTCCC CAGTGCTCCC TCGTCTTTGA AGATTGTGAA TCCAACACTG 
    GACTCTCTCA CTTTGGAATG GGATCCACCG AGCCACCCGA ATGGCATTTT GACAGAGTAC 
    ACCTTAAAGT ATCAGCCAAT TAACAGCACA CATGAATTAG GCCCTCTGGT AGATTTGAAA 
    ATTCCTGCCA ACAAGACACG GTGGACTTTA AAAAATTTAA ATTTCAGCAC TCGATATAAG 
    TTTTATTTCT ATGCACAAAC ATCAGCAGGA TCAGGAAGTC AAATTACAGA GGAAGCAGTA 
    ACAACTGTGG ATGAAGGTAA GATGGCTGGT ATTCTTCCAC CTGATGTAGG TGCAGGCAAA 
    GTTCAAGCAG TAAATCCCAG GATCAGCAAT CTTACTGCTG CAGCTGCTGA GACCTATGCC 
    AATATCAGTT GGGAATATGA GGGACCAGAG CATGTGAACT TTTATGTTGA ATATGGTGTA 
    GCAGGCAGCA AAGAAGAATG GAGAAAAGAA ATTGTAAATG GTTCTCGGAG CTTCTTTGGG 
    TTAAAGGGTC TAATGCCAGG AACAGCATAC AAAGTTCGAG TTGGTGCTGT GGGGGACTCT 
    GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG ACAGGCCCAG CGATGGCAAG CCGGCAGGTG 
    GATATTGCAA CTCAGGGCTG GTTCATTGGT CTGATGTGTG CTGTTGCTCT CCTTATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATATCC AGTTAAAGAA 
    AAGGAAGATG CCCATGCTGA CCCTGAAATC CAGCCTATGA AGGAAGATGA TGGGACATTT 
    GGAGAATACA GGTCTCTTGA AAGTGATGCA GAAGACCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACTCCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ACGACAGCCT AGTTGACTAT 
    GGAGAAGGGG TTAATGGCCA GTTCAATGAG GATGGCTCCT TTATTGGACA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC GAAAGCTCAG AGGCACCTTC TCCTGTCAAC 
    GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867728.1
    CDS487..4347
    Translation

    Target ORF information:

    RefSeq Version XM_017012239.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012239.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGCTAAATC AAGTAGAGAG 
    AGGCCACCAA CATTTTTAAC TCCAGAAGGC AATGCAAGTA ACAAAGAGGA ATTAAGAGGA 
    AATGTGCTTT CACTGGAGTG CATTGCAGAA GGACTGCCTA CCCCAATTAT TTACTGGGCA 
    AAGGAAGATG GAATGCTACC CAAAAACAGG ACAGTTTATA AGAACTTTGA GAAAACCTTG 
    CAGATCATTC ATGTTTCAGA AGCAGACTCT GGAAATTACC AATGTATAGC AAAAAACGCA 
    TTAGGAGCCA TCCACCATAC CATTTCTGTT AGAGTTAAAG CGGCTCCATA CTGGATCACA 
    GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA GAGGATGGGA CCTTGATCTG CAGAGCTAAT 
    GGCAACCCCA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCCCCT 
    GATGACCCCA GCAGAAAAAT AGATGGCGAT ACCATTATTT TTTCAAATGT TCAAGAAAGA 
    TCAAGTGCAG TCTATCAGTG CAATGCCTCT AATGAATATG GATATTTACT GGCAAACGCA 
    TTTGTAAATG TGCTGGCTGA GCCACCACGA ATCCTCACAC CTGCAAACAC ACTCTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTACTAGAC TGTGCCTTCT TTGGGTCTCC TCTCCCAACC 
    ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT GCTCTTCATG AAGATATTTA TGTTTTACAT 
    GAAAATGGAA CTTTGGAAAT TCCTGTGGCC CAAAAGGACA GTACAGGAAC TTATACGTGT 
    GTTGCAAGGA ATAAATTAGG GATGGCGAAG AATGAAGTTC ACTTAGAAAT CAAAGATCCT 
    ACATGGATCG TTAAACAGCC CGAATATGCA GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT 
    GAATGCAAAG TGAAACATGA TCACACCTTA TCCCTCACTG TCCTGTGGCT GAAGGACAAC 
    AGGGAACTGC CCAGTGATGA AAGGTTCACT GTTGACAAGG ATCATCTAGT GGTAGCTGAT 
    GTCAGTGACG ATGACAGCGG GACCTACACG TGTGTGGCCA ACACCACTCT GGACAGCGTC 
    TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT CCTACTCCAA CTCCAGCTCC CGTTTACGAT 
    GTCCCAAATC CTCCCTTTGA CTTAGAACTG ACAGATCAAC TTGACAAAAG TGTTCAGCTG 
    TCATGGACCC CAGGCGATGA CAACAATAGC CCCATTACAA AATTCATCAT CGAATATGAA 
    GATGCAATGC ACAAGCCAGG GCTGTGGCAC CACCAAACTG AAGTTTCTGG AACACAGACC 
    ACAGCCCAGC TGAAGCTGTC TCCTTACGTG AACTACTCCT TCCGCGTGAT GGCAGTGAAC 
    AGCATTGGGA AGAGCTTGCC CAGCGAGGCG TCTGAGCAGT ATTTGACGAA AGCCTCAGAA 
    CCAGATAAAA ACCCCACAGC TGTGGAAGGA CTGGGATCAG AGCCTGATAA TTTGGTGATT 
    ACGTGGAAGC CCTTGAATGG TTTCGAATCT AATGGGCCAG GCCTTCAGTA CAAAGTTAGC 
    TGGCGCCAGA AAGATGGTGA TGATGAATGG ACATCTGTGG TTGTGGCAAA TGTATCCAAA 
    TATATTGTCT CAGGCACGCC AACCTTTGTT CCATACCTGA TCAAAGTTCA GGCCCTGAAT 
    GACATGGGGT TTGCCCCCGA GCCAGCTGTA GTCATGGGAC ATTCTGGAGA AGACCTCCCA 
    ATGGTGGCTC CTGGGAACGT GCGTGTGAAT GTGGTGAACA GTACCTTAGC CGAGGTGCAC 
    TGGGACCCAG TACCTCTGAA AAGCATCCGA GGACACCTAC AAGGCTATCG GATTTACTAT 
    TGGAAGACCC AGAGTTCATC TAAAAGAAAC AGACGTCACA TTGAGAAAAA GATCCTCACC 
    TTCCAAGGCA GCAAGACTCA TGGCATGTTG CCGGGGCTAG AGCCCTTTAG CCACTACACA 
    CTGAATGTCC GAGTGGTCAA TGGGAAAGGG GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT 
    AATACTCCAG AAGGAGTCCC CAGTGCTCCC TCGTCTTTGA AGATTGTGAA TCCAACACTG 
    GACTCTCTCA CTTTGGAATG GGATCCACCG AGCCACCCGA ATGGCATTTT GACAGAGTAC 
    ACCTTAAAGT ATCAGCCAAT TAACAGCACA CATGAATTAG GCCCTCTGGT AGATTTGAAA 
    ATTCCTGCCA ACAAGACACG GTGGACTTTA AAAAATTTAA ATTTCAGCAC TCGATATAAG 
    TTTTATTTCT ATGCACAAAC ATCAGCAGGA TCAGGAAGTC AAATTACAGA GGAAGCAGTA 
    ACAACTGTGG ATGAAGGTAA GATGGCTGGT ATTCTTCCAC CTGATGTAGG TGCAGGCAAA 
    GTTCAAGCAG TAAATCCCAG GATCAGCAAT CTTACTGCTG CAGCTGCTGA GACCTATGCC 
    AATATCAGTT GGGAATATGA GGGACCAGAG CATGTGAACT TTTATGTTGA ATATGGTGTA 
    GCAGGCAGCA AAGAAGAATG GAGAAAAGAA ATTGTAAATG GTTCTCGGAG CTTCTTTGGG 
    TTAAAGGGTC TAATGCCAGG AACAGCATAC AAAGTTCGAG TTGGTGCTGT GGGGGACTCT 
    GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG ACAGGCCCAG CGATGGCAAG CCGGCAGGTG 
    GATATTGCAA CTCAGGGCTG GTTCATTGGT CTGATGTGTG CTGTTGCTCT CCTTATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATATCC AGTTAAAGAA 
    AAGGAAGATG CCCATGCTGA CCCTGAAATC CAGCCTATGA AGGAAGATGA TGGGACATTT 
    GGAGAATACA GGTCTCTTGA AAGTGATGCA GAAGACCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACTCCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ACGACAGCCT AGTTGACTAT 
    GGAGAAGGGG TTAATGGCCA GTTCAATGAG GATGGCTCCT TTATTGGACA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC GAAAGCTCAG AGGCACCTTC TCCTGTCAAC 
    GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012239.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867728.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu97273
    Clone ID Related Accession (Same CDS sequence) XM_017012239.1 , XM_017012239.2
    Accession Version XM_017012239.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3861bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012239.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGCTAAATC AAGTAGAGAG 
    AGGCCACCAA CATTTTTAAC TCCAGAAGGC AATGCAAGTA ACAAAGAGGA ATTAAGAGGA 
    AATGTGCTTT CACTGGAGTG CATTGCAGAA GGACTGCCTA CCCCAATTAT TTACTGGGCA 
    AAGGAAGATG GAATGCTACC CAAAAACAGG ACAGTTTATA AGAACTTTGA GAAAACCTTG 
    CAGATCATTC ATGTTTCAGA AGCAGACTCT GGAAATTACC AATGTATAGC AAAAAACGCA 
    TTAGGAGCCA TCCACCATAC CATTTCTGTT AGAGTTAAAG CGGCTCCATA CTGGATCACA 
    GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA GAGGATGGGA CCTTGATCTG CAGAGCTAAT 
    GGCAACCCCA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCCCCT 
    GATGACCCCA GCAGAAAAAT AGATGGCGAT ACCATTATTT TTTCAAATGT TCAAGAAAGA 
    TCAAGTGCAG TCTATCAGTG CAATGCCTCT AATGAATATG GATATTTACT GGCAAACGCA 
    TTTGTAAATG TGCTGGCTGA GCCACCACGA ATCCTCACAC CTGCAAACAC ACTCTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTACTAGAC TGTGCCTTCT TTGGGTCTCC TCTCCCAACC 
    ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT GCTCTTCATG AAGATATTTA TGTTTTACAT 
    GAAAATGGAA CTTTGGAAAT TCCTGTGGCC CAAAAGGACA GTACAGGAAC TTATACGTGT 
    GTTGCAAGGA ATAAATTAGG GATGGCGAAG AATGAAGTTC ACTTAGAAAT CAAAGATCCT 
    ACATGGATCG TTAAACAGCC CGAATATGCA GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT 
    GAATGCAAAG TGAAACATGA TCACACCTTA TCCCTCACTG TCCTGTGGCT GAAGGACAAC 
    AGGGAACTGC CCAGTGATGA AAGGTTCACT GTTGACAAGG ATCATCTAGT GGTAGCTGAT 
    GTCAGTGACG ATGACAGCGG GACCTACACG TGTGTGGCCA ACACCACTCT GGACAGCGTC 
    TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT CCTACTCCAA CTCCAGCTCC CGTTTACGAT 
    GTCCCAAATC CTCCCTTTGA CTTAGAACTG ACAGATCAAC TTGACAAAAG TGTTCAGCTG 
    TCATGGACCC CAGGCGATGA CAACAATAGC CCCATTACAA AATTCATCAT CGAATATGAA 
    GATGCAATGC ACAAGCCAGG GCTGTGGCAC CACCAAACTG AAGTTTCTGG AACACAGACC 
    ACAGCCCAGC TGAAGCTGTC TCCTTACGTG AACTACTCCT TCCGCGTGAT GGCAGTGAAC 
    AGCATTGGGA AGAGCTTGCC CAGCGAGGCG TCTGAGCAGT ATTTGACGAA AGCCTCAGAA 
    CCAGATAAAA ACCCCACAGC TGTGGAAGGA CTGGGATCAG AGCCTGATAA TTTGGTGATT 
    ACGTGGAAGC CCTTGAATGG TTTCGAATCT AATGGGCCAG GCCTTCAGTA CAAAGTTAGC 
    TGGCGCCAGA AAGATGGTGA TGATGAATGG ACATCTGTGG TTGTGGCAAA TGTATCCAAA 
    TATATTGTCT CAGGCACGCC AACCTTTGTT CCATACCTGA TCAAAGTTCA GGCCCTGAAT 
    GACATGGGGT TTGCCCCCGA GCCAGCTGTA GTCATGGGAC ATTCTGGAGA AGACCTCCCA 
    ATGGTGGCTC CTGGGAACGT GCGTGTGAAT GTGGTGAACA GTACCTTAGC CGAGGTGCAC 
    TGGGACCCAG TACCTCTGAA AAGCATCCGA GGACACCTAC AAGGCTATCG GATTTACTAT 
    TGGAAGACCC AGAGTTCATC TAAAAGAAAC AGACGTCACA TTGAGAAAAA GATCCTCACC 
    TTCCAAGGCA GCAAGACTCA TGGCATGTTG CCGGGGCTAG AGCCCTTTAG CCACTACACA 
    CTGAATGTCC GAGTGGTCAA TGGGAAAGGG GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT 
    AATACTCCAG AAGGAGTCCC CAGTGCTCCC TCGTCTTTGA AGATTGTGAA TCCAACACTG 
    GACTCTCTCA CTTTGGAATG GGATCCACCG AGCCACCCGA ATGGCATTTT GACAGAGTAC 
    ACCTTAAAGT ATCAGCCAAT TAACAGCACA CATGAATTAG GCCCTCTGGT AGATTTGAAA 
    ATTCCTGCCA ACAAGACACG GTGGACTTTA AAAAATTTAA ATTTCAGCAC TCGATATAAG 
    TTTTATTTCT ATGCACAAAC ATCAGCAGGA TCAGGAAGTC AAATTACAGA GGAAGCAGTA 
    ACAACTGTGG ATGAAGGTAA GATGGCTGGT ATTCTTCCAC CTGATGTAGG TGCAGGCAAA 
    GTTCAAGCAG TAAATCCCAG GATCAGCAAT CTTACTGCTG CAGCTGCTGA GACCTATGCC 
    AATATCAGTT GGGAATATGA GGGACCAGAG CATGTGAACT TTTATGTTGA ATATGGTGTA 
    GCAGGCAGCA AAGAAGAATG GAGAAAAGAA ATTGTAAATG GTTCTCGGAG CTTCTTTGGG 
    TTAAAGGGTC TAATGCCAGG AACAGCATAC AAAGTTCGAG TTGGTGCTGT GGGGGACTCT 
    GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG ACAGGCCCAG CGATGGCAAG CCGGCAGGTG 
    GATATTGCAA CTCAGGGCTG GTTCATTGGT CTGATGTGTG CTGTTGCTCT CCTTATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATATCC AGTTAAAGAA 
    AAGGAAGATG CCCATGCTGA CCCTGAAATC CAGCCTATGA AGGAAGATGA TGGGACATTT 
    GGAGAATACA GGTCTCTTGA AAGTGATGCA GAAGACCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACTCCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ACGACAGCCT AGTTGACTAT 
    GGAGAAGGGG TTAATGGCCA GTTCAATGAG GATGGCTCCT TTATTGGACA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC GAAAGCTCAG AGGCACCTTC TCCTGTCAAC 
    GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867728.1
    CDS475..4335
    Translation

    Target ORF information:

    RefSeq Version XM_017012239.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012239.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGCTAAATC AAGTAGAGAG 
    AGGCCACCAA CATTTTTAAC TCCAGAAGGC AATGCAAGTA ACAAAGAGGA ATTAAGAGGA 
    AATGTGCTTT CACTGGAGTG CATTGCAGAA GGACTGCCTA CCCCAATTAT TTACTGGGCA 
    AAGGAAGATG GAATGCTACC CAAAAACAGG ACAGTTTATA AGAACTTTGA GAAAACCTTG 
    CAGATCATTC ATGTTTCAGA AGCAGACTCT GGAAATTACC AATGTATAGC AAAAAACGCA 
    TTAGGAGCCA TCCACCATAC CATTTCTGTT AGAGTTAAAG CGGCTCCATA CTGGATCACA 
    GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA GAGGATGGGA CCTTGATCTG CAGAGCTAAT 
    GGCAACCCCA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCCCCT 
    GATGACCCCA GCAGAAAAAT AGATGGCGAT ACCATTATTT TTTCAAATGT TCAAGAAAGA 
    TCAAGTGCAG TCTATCAGTG CAATGCCTCT AATGAATATG GATATTTACT GGCAAACGCA 
    TTTGTAAATG TGCTGGCTGA GCCACCACGA ATCCTCACAC CTGCAAACAC ACTCTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTACTAGAC TGTGCCTTCT TTGGGTCTCC TCTCCCAACC 
    ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT GCTCTTCATG AAGATATTTA TGTTTTACAT 
    GAAAATGGAA CTTTGGAAAT TCCTGTGGCC CAAAAGGACA GTACAGGAAC TTATACGTGT 
    GTTGCAAGGA ATAAATTAGG GATGGCGAAG AATGAAGTTC ACTTAGAAAT CAAAGATCCT 
    ACATGGATCG TTAAACAGCC CGAATATGCA GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT 
    GAATGCAAAG TGAAACATGA TCACACCTTA TCCCTCACTG TCCTGTGGCT GAAGGACAAC 
    AGGGAACTGC CCAGTGATGA AAGGTTCACT GTTGACAAGG ATCATCTAGT GGTAGCTGAT 
    GTCAGTGACG ATGACAGCGG GACCTACACG TGTGTGGCCA ACACCACTCT GGACAGCGTC 
    TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT CCTACTCCAA CTCCAGCTCC CGTTTACGAT 
    GTCCCAAATC CTCCCTTTGA CTTAGAACTG ACAGATCAAC TTGACAAAAG TGTTCAGCTG 
    TCATGGACCC CAGGCGATGA CAACAATAGC CCCATTACAA AATTCATCAT CGAATATGAA 
    GATGCAATGC ACAAGCCAGG GCTGTGGCAC CACCAAACTG AAGTTTCTGG AACACAGACC 
    ACAGCCCAGC TGAAGCTGTC TCCTTACGTG AACTACTCCT TCCGCGTGAT GGCAGTGAAC 
    AGCATTGGGA AGAGCTTGCC CAGCGAGGCG TCTGAGCAGT ATTTGACGAA AGCCTCAGAA 
    CCAGATAAAA ACCCCACAGC TGTGGAAGGA CTGGGATCAG AGCCTGATAA TTTGGTGATT 
    ACGTGGAAGC CCTTGAATGG TTTCGAATCT AATGGGCCAG GCCTTCAGTA CAAAGTTAGC 
    TGGCGCCAGA AAGATGGTGA TGATGAATGG ACATCTGTGG TTGTGGCAAA TGTATCCAAA 
    TATATTGTCT CAGGCACGCC AACCTTTGTT CCATACCTGA TCAAAGTTCA GGCCCTGAAT 
    GACATGGGGT TTGCCCCCGA GCCAGCTGTA GTCATGGGAC ATTCTGGAGA AGACCTCCCA 
    ATGGTGGCTC CTGGGAACGT GCGTGTGAAT GTGGTGAACA GTACCTTAGC CGAGGTGCAC 
    TGGGACCCAG TACCTCTGAA AAGCATCCGA GGACACCTAC AAGGCTATCG GATTTACTAT 
    TGGAAGACCC AGAGTTCATC TAAAAGAAAC AGACGTCACA TTGAGAAAAA GATCCTCACC 
    TTCCAAGGCA GCAAGACTCA TGGCATGTTG CCGGGGCTAG AGCCCTTTAG CCACTACACA 
    CTGAATGTCC GAGTGGTCAA TGGGAAAGGG GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT 
    AATACTCCAG AAGGAGTCCC CAGTGCTCCC TCGTCTTTGA AGATTGTGAA TCCAACACTG 
    GACTCTCTCA CTTTGGAATG GGATCCACCG AGCCACCCGA ATGGCATTTT GACAGAGTAC 
    ACCTTAAAGT ATCAGCCAAT TAACAGCACA CATGAATTAG GCCCTCTGGT AGATTTGAAA 
    ATTCCTGCCA ACAAGACACG GTGGACTTTA AAAAATTTAA ATTTCAGCAC TCGATATAAG 
    TTTTATTTCT ATGCACAAAC ATCAGCAGGA TCAGGAAGTC AAATTACAGA GGAAGCAGTA 
    ACAACTGTGG ATGAAGGTAA GATGGCTGGT ATTCTTCCAC CTGATGTAGG TGCAGGCAAA 
    GTTCAAGCAG TAAATCCCAG GATCAGCAAT CTTACTGCTG CAGCTGCTGA GACCTATGCC 
    AATATCAGTT GGGAATATGA GGGACCAGAG CATGTGAACT TTTATGTTGA ATATGGTGTA 
    GCAGGCAGCA AAGAAGAATG GAGAAAAGAA ATTGTAAATG GTTCTCGGAG CTTCTTTGGG 
    TTAAAGGGTC TAATGCCAGG AACAGCATAC AAAGTTCGAG TTGGTGCTGT GGGGGACTCT 
    GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG ACAGGCCCAG CGATGGCAAG CCGGCAGGTG 
    GATATTGCAA CTCAGGGCTG GTTCATTGGT CTGATGTGTG CTGTTGCTCT CCTTATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATATCC AGTTAAAGAA 
    AAGGAAGATG CCCATGCTGA CCCTGAAATC CAGCCTATGA AGGAAGATGA TGGGACATTT 
    GGAGAATACA GGTCTCTTGA AAGTGATGCA GAAGACCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACTCCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ACGACAGCCT AGTTGACTAT 
    GGAGAAGGGG TTAATGGCCA GTTCAATGAG GATGGCTCCT TTATTGGACA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC GAAAGCTCAG AGGCACCTTC TCCTGTCAAC 
    GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012240.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867729.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu97274
    Clone ID Related Accession (Same CDS sequence) NM_001371126.1 , XM_017012240.1 , XM_017012240.2 , NM_001371124.1
    Accession Version XM_017012240.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3858bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867729.1
    CDS487..4344
    Translation

    Target ORF information:

    RefSeq Version XM_017012240.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012240.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012240.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867729.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu97274
    Clone ID Related Accession (Same CDS sequence) NM_001371126.1 , XM_017012240.1 , XM_017012240.2 , NM_001371124.1
    Accession Version XM_017012240.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3858bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-25
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012240.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867729.1
    CDS475..4332
    Translation

    Target ORF information:

    RefSeq Version XM_017012240.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012240.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_024446773.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302541.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OHu97275
    Clone ID Related Accession (Same CDS sequence) XM_024446773.1 , XM_017012241.1
    Accession Version XM_024446773.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3870bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG GTCTCTTGAA AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024302541.1
    CDS475..4344
    Translation

    Target ORF information:

    RefSeq Version XM_024446773.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446773.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG GTCTCTTGAA AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012241.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867730.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OHu97275
    Clone ID Related Accession (Same CDS sequence) XM_024446773.1 , XM_017012241.1
    Accession Version XM_017012241.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3870bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG GTCTCTTGAA AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867730.1
    CDS211..4080
    Translation

    Target ORF information:

    RefSeq Version XM_017012241.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012241.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG TTCAAGCAGT AAATCCCAGG ATCAGCAATC TTACTGCTGC AGCTGCTGAG 
    ACCTATGCCA ATATCAGTTG GGAATATGAG GGACCAGAGC ATGTGAACTT TTATGTTGAA 
    TATGGTGTAG CAGGCAGCAA AGAAGAATGG AGAAAAGAAA TTGTAAATGG TTCTCGGAGC 
    TTCTTTGGGT TAAAGGGTCT AATGCCAGGA ACAGCATACA AAGTTCGAGT TGGTGCTGTG 
    GGGGACTCTG GTTTTGTGAG TTCAGAGGAT GTGTTTGAGA CAGGCCCAGC GATGGCAAGC 
    CGGCAGGTGG ATATTGCAAC TCAGGGCTGG TTCATTGGTC TGATGTGTGC TGTTGCTCTC 
    CTTATCTTAA TTTTGCTGAT TGTTTGCTTC ATCAGAAGAA ACAAGGGTGG TAAATATCCA 
    GTTAAAGAAA AGGAAGATGC CCATGCTGAC CCTGAAATCC AGCCTATGAA GGAAGATGAT 
    GGGACATTTG GAGAATACAG GTCTCTTGAA AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_024446774.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302542.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OHu97276
    Clone ID Related Accession (Same CDS sequence) XM_024446774.1 , NM_001371146.1
    Accession Version XM_024446774.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-25
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGTTCAAG CAGTAAATCC CAGGATCAGC 
    AATCTTACTG CTGCAGCTGC TGAGACCTAT GCCAATATCA GTTGGGAATA TGAGGGACCA 
    GAGCATGTGA ACTTTTATGT TGAATATGGT GTAGCAGGCA GCAAAGAAGA ATGGAGAAAA 
    GAAATTGTAA ATGGTTCTCG GAGCTTCTTT GGGTTAAAGG GTCTAATGCC AGGAACAGCA 
    TACAAAGTTC GAGTTGGTGC TGTGGGGGAC TCTGGTTTTG TGAGTTCAGA GGATGTGTTT 
    GAGACAGGCC CAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024302542.1
    CDS475..4296
    Translation

    Target ORF information:

    RefSeq Version XM_024446774.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446774.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGTTCAAG CAGTAAATCC CAGGATCAGC 
    AATCTTACTG CTGCAGCTGC TGAGACCTAT GCCAATATCA GTTGGGAATA TGAGGGACCA 
    GAGCATGTGA ACTTTTATGT TGAATATGGT GTAGCAGGCA GCAAAGAAGA ATGGAGAAAA 
    GAAATTGTAA ATGGTTCTCG GAGCTTCTTT GGGTTAAAGG GTCTAATGCC AGGAACAGCA 
    TACAAAGTTC GAGTTGGTGC TGTGGGGGAC TCTGGTTTTG TGAGTTCAGA GGATGTGTTT 
    GAGACAGGCC CAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012243.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867732.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID OHu97277
    Clone ID Related Accession (Same CDS sequence) XM_017012243.1
    Accession Version XM_017012243.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3774bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCACGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGGTCTCT TGAAAGTGAT 
    GCAGAAGACC ACAAGCCTTT GAAAAAAGGA AGTCGAACTC CTTCAGACAG GACTGTGAAA 
    AAAGAAGATA GTGACGACAG CCTAGTTGAC TATGGAGAAG GGGTTAATGG CCAGTTCAAT 
    GAGGATGGCT CCTTTATTGG ACAATACAGT GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA 
    AACGAAAGCT CAGAGGCACC TTCTCCTGTC AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867732.1
    CDS487..4260
    Translation

    Target ORF information:

    RefSeq Version XM_017012243.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012243.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCACGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGGTCTCT TGAAAGTGAT 
    GCAGAAGACC ACAAGCCTTT GAAAAAAGGA AGTCGAACTC CTTCAGACAG GACTGTGAAA 
    AAAGAAGATA GTGACGACAG CCTAGTTGAC TATGGAGAAG GGGTTAATGG CCAGTTCAAT 
    GAGGATGGCT CCTTTATTGG ACAATACAGT GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA 
    AACGAAAGCT CAGAGGCACC TTCTCCTGTC AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012244.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867733.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu97278
    Clone ID Related Accession (Same CDS sequence) XM_017012244.1
    Accession Version XM_017012244.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3771bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CACGATGGCA AGCCGGCAGG TGGATATTGC AACTCAGGGC 
    TGGTTCATTG GTCTGATGTG TGCTGTTGCT CTCCTTATCT TAATTTTGCT GATTGTTTGC 
    TTCATCAGAA GAAACAAGGG TGGTAAATAT CCAGTTAAAG AAAAGGAAGA TGCCCATGCT 
    GACCCTGAAA TCCAGCCTAT GAAGGAAGAT GATGGGACAT TTGGAGAATA CAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867733.1
    CDS487..4257
    Translation

    Target ORF information:

    RefSeq Version XM_017012244.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012244.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CACGATGGCA AGCCGGCAGG TGGATATTGC AACTCAGGGC 
    TGGTTCATTG GTCTGATGTG TGCTGTTGCT CTCCTTATCT TAATTTTGCT GATTGTTTGC 
    TTCATCAGAA GAAACAAGGG TGGTAAATAT CCAGTTAAAG AAAAGGAAGA TGCCCATGCT 
    GACCCTGAAA TCCAGCCTAT GAAGGAAGAT GATGGGACAT TTGGAGAATA CAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012245.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867734.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X21, mRNA.
    Price & Availability↑
    CloneID OHu97279
    Clone ID Related Accession (Same CDS sequence) XM_017012245.1
    Accession Version XM_017012245.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3762bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X19
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCACGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867734.1
    CDS487..4248
    Translation

    Target ORF information:

    RefSeq Version XM_017012245.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012245.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCACGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012246.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867735.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X29, mRNA.
    Price & Availability↑
    CloneID OHu97280
    Clone ID Related Accession (Same CDS sequence) XM_017012246.1
    Accession Version XM_017012246.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3618bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X27
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCTGGTATTC TTCCACCTGA TGTAGGTGCA GGCAAAGCGA TGGCAAGCCG GCAGGTGGAT 
    ATTGCAACTC AGGGCTGGTT CATTGGTCTG ATGTGTGCTG TTGCTCTCCT TATCTTAATT 
    TTGCTGATTG TTTGCTTCAT CAGAAGAAAC AAGGGTGGTA AATATCCAGT TAAAGAAAAG 
    GAAGATGCCC ATGCTGACCC TGAAATCCAG CCTATGAAGG AAGATGATGG GACATTTGGA 
    GAATACAGGT CTCTTGAAAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867735.1
    CDS487..4104
    Translation

    Target ORF information:

    RefSeq Version XM_017012246.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X29, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012246.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCTGGTATTC TTCCACCTGA TGTAGGTGCA GGCAAAGCGA TGGCAAGCCG GCAGGTGGAT 
    ATTGCAACTC AGGGCTGGTT CATTGGTCTG ATGTGTGCTG TTGCTCTCCT TATCTTAATT 
    TTGCTGATTG TTTGCTTCAT CAGAAGAAAC AAGGGTGGTA AATATCCAGT TAAAGAAAAG 
    GAAGATGCCC ATGCTGACCC TGAAATCCAG CCTATGAAGG AAGATGATGG GACATTTGGA 
    GAATACAGGT CTCTTGAAAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012247.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867736.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X33, mRNA.
    Price & Availability↑
    CloneID OHu97281
    Clone ID Related Accession (Same CDS sequence) XM_017012247.1 , XM_017012247.2
    Accession Version XM_017012247.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3591bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X31
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GGTCTCTTGA AAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867736.1
    CDS487..4077
    Translation

    Target ORF information:

    RefSeq Version XM_017012247.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X33, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012247.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GGTCTCTTGA AAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012247.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867736.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X30, mRNA.
    Price & Availability↑
    CloneID OHu97281
    Clone ID Related Accession (Same CDS sequence) XM_017012247.1 , XM_017012247.2
    Accession Version XM_017012247.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3591bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X28
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012247.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GGTCTCTTGA AAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867736.1
    CDS475..4065
    Translation

    Target ORF information:

    RefSeq Version XM_017012247.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X30, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012247.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GGTCTCTTGA AAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012248.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867737.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X34, mRNA.
    Price & Availability↑
    CloneID OHu97282
    Clone ID Related Accession (Same CDS sequence) XM_017012248.1
    Accession Version XM_017012248.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3591bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X32
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GGTAAGATGG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GGTCTCTTGA AAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867737.1
    CDS487..4077
    Translation

    Target ORF information:

    RefSeq Version XM_017012248.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X34, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012248.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GGTAAGATGG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GGTCTCTTGA AAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012249.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867738.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X35, mRNA.
    Price & Availability↑
    CloneID OHu97283
    Clone ID Related Accession (Same CDS sequence) XM_017012249.1 , NM_001371135.1
    Accession Version XM_017012249.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3588bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X33
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCTGGTAT TCTTCCACCT 
    GATGTAGGTG CAGGCAAAGC GATGGCAAGC CGGCAGGTGG ATATTGCAAC TCAGGGCTGG 
    TTCATTGGTC TGATGTGTGC TGTTGCTCTC CTTATCTTAA TTTTGCTGAT TGTTTGCTTC 
    ATCAGAAGAA ACAAGGGTGG TAAATATCCA GTTAAAGAAA AGGAAGATGC CCATGCTGAC 
    CCTGAAATCC AGCCTATGAA GGAAGATGAT GGGACATTTG GAGAATACAG TGATGCAGAA 
    GACCACAAGC CTTTGAAAAA AGGAAGTCGA ACTCCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGACG ACAGCCTAGT TGACTATGGA GAAGGGGTTA ATGGCCAGTT CAATGAGGAT 
    GGCTCCTTTA TTGGACAATA CAGTGGTAAG AAAGAGAAAG AGCCGGCTGA AGGAAACGAA 
    AGCTCAGAGG CACCTTCTCC TGTCAACGCC ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867738.1
    CDS487..4074
    Translation

    Target ORF information:

    RefSeq Version XM_017012249.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X35, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012249.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCTGGTAT TCTTCCACCT 
    GATGTAGGTG CAGGCAAAGC GATGGCAAGC CGGCAGGTGG ATATTGCAAC TCAGGGCTGG 
    TTCATTGGTC TGATGTGTGC TGTTGCTCTC CTTATCTTAA TTTTGCTGAT TGTTTGCTTC 
    ATCAGAAGAA ACAAGGGTGG TAAATATCCA GTTAAAGAAA AGGAAGATGC CCATGCTGAC 
    CCTGAAATCC AGCCTATGAA GGAAGATGAT GGGACATTTG GAGAATACAG TGATGCAGAA 
    GACCACAAGC CTTTGAAAAA AGGAAGTCGA ACTCCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGACG ACAGCCTAGT TGACTATGGA GAAGGGGTTA ATGGCCAGTT CAATGAGGAT 
    GGCTCCTTTA TTGGACAATA CAGTGGTAAG AAAGAGAAAG AGCCGGCTGA AGGAAACGAA 
    AGCTCAGAGG CACCTTCTCC TGTCAACGCC ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_024446775.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302543.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X33, mRNA.
    Price & Availability↑
    CloneID OHu97284
    Clone ID Related Accession (Same CDS sequence) XM_024446775.1
    Accession Version XM_024446775.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X31
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCTGGTAT TCTTCCACCT 
    GATGTAGGTG CAGGCAAAGC GATGGCAAGC CGGCAGGTGG ATATTGCAAC TCAGGGCTGG 
    TTCATTGGTC TGATGTGTGC TGTTGCTCTC CTTATCTTAA TTTTGCTGAT TGTTTGCTTC 
    ATCAGAAGAA ACAAGGGTGG TAAATATCCA GTTAAAGAAA AGGAAGATGC CCATGCTGAC 
    CCTGAAATCC AGCCTATGAA GGAAGATGAT GGGACATTTG GAGAATACAG GTCTCTTGAA 
    AGTGATGCAG AAGACCACAA GCCTTTGAAA AAAGGAAGTC GAACTCCTTC AGACAGGACT 
    GTGAAAAAAG AAGATAGTGA CGACAGCCTA GTTGACTATG GAGAAGGGGT TAATGGCCAG 
    TTCAATGAGG ATGGCTCCTT TATTGGACAA TACAGTGGTA AGAAAGAGAA AGAGCCGGCT 
    GAAGGAAACG AAAGCTCAGA GGCACCTTCT CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024302543.1
    CDS475..4074
    Translation

    Target ORF information:

    RefSeq Version XM_024446775.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X33, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446775.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCTGGTAT TCTTCCACCT 
    GATGTAGGTG CAGGCAAAGC GATGGCAAGC CGGCAGGTGG ATATTGCAAC TCAGGGCTGG 
    TTCATTGGTC TGATGTGTGC TGTTGCTCTC CTTATCTTAA TTTTGCTGAT TGTTTGCTTC 
    ATCAGAAGAA ACAAGGGTGG TAAATATCCA GTTAAAGAAA AGGAAGATGC CCATGCTGAC 
    CCTGAAATCC AGCCTATGAA GGAAGATGAT GGGACATTTG GAGAATACAG GTCTCTTGAA 
    AGTGATGCAG AAGACCACAA GCCTTTGAAA AAAGGAAGTC GAACTCCTTC AGACAGGACT 
    GTGAAAAAAG AAGATAGTGA CGACAGCCTA GTTGACTATG GAGAAGGGGT TAATGGCCAG 
    TTCAATGAGG ATGGCTCCTT TATTGGACAA TACAGTGGTA AGAAAGAGAA AGAGCCGGCT 
    GAAGGAAACG AAAGCTCAGA GGCACCTTCT CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012251.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867740.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X37, mRNA.
    Price & Availability↑
    CloneID OHu97285
    Clone ID Related Accession (Same CDS sequence) XM_017012251.1 , XM_017012251.2
    Accession Version XM_017012251.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3582bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X35
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGGTCTCTTG AAAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867740.1
    CDS487..4068
    Translation

    Target ORF information:

    RefSeq Version XM_017012251.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X37, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012251.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGGTCTCTTG AAAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012251.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867740.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X34, mRNA.
    Price & Availability↑
    CloneID OHu97285
    Clone ID Related Accession (Same CDS sequence) XM_017012251.1 , XM_017012251.2
    Accession Version XM_017012251.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3582bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X32
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012251.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGGTCTCTTG AAAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867740.1
    CDS475..4056
    Translation

    Target ORF information:

    RefSeq Version XM_017012251.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X34, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012251.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGGTCTCTTG AAAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012252.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867741.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X38, mRNA.
    Price & Availability↑
    CloneID OHu97286
    Clone ID Related Accession (Same CDS sequence) NM_001371159.1 , XM_017012252.1
    Accession Version XM_017012252.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X36
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GGTAAGATGG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867741.1
    CDS487..4065
    Translation

    Target ORF information:

    RefSeq Version XM_017012252.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X38, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012252.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GGTAAGATGG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012253.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867742.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X39, mRNA.
    Price & Availability↑
    CloneID OHu97287
    Clone ID Related Accession (Same CDS sequence) XM_017012253.1
    Accession Version XM_017012253.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3594bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X37
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT ACTCCAACTC CAGCTCCCGT TTACGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGGTCTCT TGAAAGTGAT 
    GCAGAAGACC ACAAGCCTTT GAAAAAAGGA AGTCGAACTC CTTCAGACAG GACTGTGAAA 
    AAAGAAGATA GTGACGACAG CCTAGTTGAC TATGGAGAAG GGGTTAATGG CCAGTTCAAT 
    GAGGATGGCT CCTTTATTGG ACAATACAGT GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA 
    AACGAAAGCT CAGAGGCACC TTCTCCTGTC AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867742.1
    CDS174..3767
    Translation

    Target ORF information:

    RefSeq Version XM_017012253.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X39, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012253.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT ACTCCAACTC CAGCTCCCGT TTACGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGGTCTCT TGAAAGTGAT 
    GCAGAAGACC ACAAGCCTTT GAAAAAAGGA AGTCGAACTC CTTCAGACAG GACTGTGAAA 
    AAAGAAGATA GTGACGACAG CCTAGTTGAC TATGGAGAAG GGGTTAATGG CCAGTTCAAT 
    GAGGATGGCT CCTTTATTGG ACAATACAGT GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA 
    AACGAAAGCT CAGAGGCACC TTCTCCTGTC AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012254.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867743.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X40, mRNA.
    Price & Availability↑
    CloneID OHu97288
    Clone ID Related Accession (Same CDS sequence) XM_017012254.1 , NM_001371174.1 , XM_017012254.2
    Accession Version XM_017012254.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X38
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867743.1
    CDS487..4056
    Translation

    Target ORF information:

    RefSeq Version XM_017012254.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X40, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012254.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012254.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867743.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X37, mRNA.
    Price & Availability↑
    CloneID OHu97288
    Clone ID Related Accession (Same CDS sequence) XM_017012254.1 , NM_001371174.1 , XM_017012254.2
    Accession Version XM_017012254.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-25
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X35
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012254.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867743.1
    CDS475..4044
    Translation

    Target ORF information:

    RefSeq Version XM_017012254.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X37, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012254.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012255.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867744.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X41, mRNA.
    Price & Availability↑
    CloneID OHu97289
    Clone ID Related Accession (Same CDS sequence) XM_017012255.1 , NM_001371143.1 , XM_017012255.2
    Accession Version XM_017012255.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X39
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGCTAAATC AAGTAGAGAG AGGCCACCAA CATTTTTAAC TCCAGAAGGC 
    AATGCAAGTA ACAAAGAGGA ATTAAGAGGA AATGTGCTTT CACTGGAGTG CATTGCAGAA 
    GGACTGCCTA CCCCAATTAT TTACTGGGCA AAGGAAGATG GAATGCTACC CAAAAACAGG 
    ACAGTTTATA AGAACTTTGA GAAAACCTTG CAGATCATTC ATGTTTCAGA AGCAGACTCT 
    GGAAATTACC AATGTATAGC AAAAAACGCA TTAGGAGCCA TCCACCATAC CATTTCTGTT 
    AGAGTTAAAG CGGCTCCATA CTGGATCACA GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA 
    GAGGATGGGA CCTTGATCTG CAGAGCTAAT GGCAACCCCA AACCCAGAAT TAGCTGGTTA 
    ACAAATGGAG TCCCAATAGA AATTGCCCCT GATGACCCCA GCAGAAAAAT AGATGGCGAT 
    ACCATTATTT TTTCAAATGT TCAAGAAAGA TCAAGTGCAG TCTATCAGTG CAATGCCTCT 
    AATGAATATG GATATTTACT GGCAAACGCA TTTGTAAATG TGCTGGCTGA GCCACCACGA 
    ATCCTCACAC CTGCAAACAC ACTCTACCAG GTCATTGCAA ACAGGCCTGC TTTACTAGAC 
    TGTGCCTTCT TTGGGTCTCC TCTCCCAACC ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT 
    GCTCTTCATG AAGATATTTA TGTTTTACAT GAAAATGGAA CTTTGGAAAT TCCTGTGGCC 
    CAAAAGGACA GTACAGGAAC TTATACGTGT GTTGCAAGGA ATAAATTAGG GATGGCGAAG 
    AATGAAGTTC ACTTAGAAAT CAAAGATCCT ACATGGATCG TTAAACAGCC CGAATATGCA 
    GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT GAATGCAAAG TGAAACATGA TCACACCTTA 
    TCCCTCACTG TCCTGTGGCT GAAGGACAAC AGGGAACTGC CCAGTGATGA AAGGTTCACT 
    GTTGACAAGG ATCATCTAGT GGTAGCTGAT GTCAGTGACG ATGACAGCGG GACCTACACG 
    TGTGTGGCCA ACACCACTCT GGACAGCGTC TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT 
    CCTACTCCAA CTCCAGCTCC CGTTTACGAT GTCCCAAATC CTCCCTTTGA CTTAGAACTG 
    ACAGATCAAC TTGACAAAAG TGTTCAGCTG TCATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT CGAATATGAA GATGCAATGC ACAAGCCAGG GCTGTGGCAC 
    CACCAAACTG AAGTTTCTGG AACACAGACC ACAGCCCAGC TGAAGCTGTC TCCTTACGTG 
    AACTACTCCT TCCGCGTGAT GGCAGTGAAC AGCATTGGGA AGAGCTTGCC CAGCGAGGCG 
    TCTGAGCAGT ATTTGACGAA AGCCTCAGAA CCAGATAAAA ACCCCACAGC TGTGGAAGGA 
    CTGGGATCAG AGCCTGATAA TTTGGTGATT ACGTGGAAGC CCTTGAATGG TTTCGAATCT 
    AATGGGCCAG GCCTTCAGTA CAAAGTTAGC TGGCGCCAGA AAGATGGTGA TGATGAATGG 
    ACATCTGTGG TTGTGGCAAA TGTATCCAAA TATATTGTCT CAGGCACGCC AACCTTTGTT 
    CCATACCTGA TCAAAGTTCA GGCCCTGAAT GACATGGGGT TTGCCCCCGA GCCAGCTGTA 
    GTCATGGGAC ATTCTGGAGA AGACCTCCCA ATGGTGGCTC CTGGGAACGT GCGTGTGAAT 
    GTGGTGAACA GTACCTTAGC CGAGGTGCAC TGGGACCCAG TACCTCTGAA AAGCATCCGA 
    GGACACCTAC AAGGCTATCG GATTTACTAT TGGAAGACCC AGAGTTCATC TAAAAGAAAC 
    AGACGTCACA TTGAGAAAAA GATCCTCACC TTCCAAGGCA GCAAGACTCA TGGCATGTTG 
    CCGGGGCTAG AGCCCTTTAG CCACTACACA CTGAATGTCC GAGTGGTCAA TGGGAAAGGG 
    GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT AATACTCCAG AAGGAGTCCC CAGTGCTCCC 
    TCGTCTTTGA AGATTGTGAA TCCAACACTG GACTCTCTCA CTTTGGAATG GGATCCACCG 
    AGCCACCCGA ATGGCATTTT GACAGAGTAC ACCTTAAAGT ATCAGCCAAT TAACAGCACA 
    CATGAATTAG GCCCTCTGGT AGATTTGAAA ATTCCTGCCA ACAAGACACG GTGGACTTTA 
    AAAAATTTAA ATTTCAGCAC TCGATATAAG TTTTATTTCT ATGCACAAAC ATCAGCAGGA 
    TCAGGAAGTC AAATTACAGA GGAAGCAGTA ACAACTGTGG ATGAAGCTGG TATTCTTCCA 
    CCTGATGTAG GTGCAGGCAA AGTTCAAGCA GTAAATCCCA GGATCAGCAA TCTTACTGCT 
    GCAGCTGCTG AGACCTATGC CAATATCAGT TGGGAATATG AGGGACCAGA GCATGTGAAC 
    TTTTATGTTG AATATGGTGT AGCAGGCAGC AAAGAAGAAT GGAGAAAAGA AATTGTAAAT 
    GGTTCTCGGA GCTTCTTTGG GTTAAAGGGT CTAATGCCAG GAACAGCATA CAAAGTTCGA 
    GTTGGTGCTG TGGGGGACTC TGGTTTTGTG AGTTCAGAGG ATGTGTTTGA GACAGGCCCA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867744.1
    CDS542..4111
    Translation

    Target ORF information:

    RefSeq Version XM_017012255.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X41, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012255.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGCTAAATC AAGTAGAGAG AGGCCACCAA CATTTTTAAC TCCAGAAGGC 
    AATGCAAGTA ACAAAGAGGA ATTAAGAGGA AATGTGCTTT CACTGGAGTG CATTGCAGAA 
    GGACTGCCTA CCCCAATTAT TTACTGGGCA AAGGAAGATG GAATGCTACC CAAAAACAGG 
    ACAGTTTATA AGAACTTTGA GAAAACCTTG CAGATCATTC ATGTTTCAGA AGCAGACTCT 
    GGAAATTACC AATGTATAGC AAAAAACGCA TTAGGAGCCA TCCACCATAC CATTTCTGTT 
    AGAGTTAAAG CGGCTCCATA CTGGATCACA GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA 
    GAGGATGGGA CCTTGATCTG CAGAGCTAAT GGCAACCCCA AACCCAGAAT TAGCTGGTTA 
    ACAAATGGAG TCCCAATAGA AATTGCCCCT GATGACCCCA GCAGAAAAAT AGATGGCGAT 
    ACCATTATTT TTTCAAATGT TCAAGAAAGA TCAAGTGCAG TCTATCAGTG CAATGCCTCT 
    AATGAATATG GATATTTACT GGCAAACGCA TTTGTAAATG TGCTGGCTGA GCCACCACGA 
    ATCCTCACAC CTGCAAACAC ACTCTACCAG GTCATTGCAA ACAGGCCTGC TTTACTAGAC 
    TGTGCCTTCT TTGGGTCTCC TCTCCCAACC ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT 
    GCTCTTCATG AAGATATTTA TGTTTTACAT GAAAATGGAA CTTTGGAAAT TCCTGTGGCC 
    CAAAAGGACA GTACAGGAAC TTATACGTGT GTTGCAAGGA ATAAATTAGG GATGGCGAAG 
    AATGAAGTTC ACTTAGAAAT CAAAGATCCT ACATGGATCG TTAAACAGCC CGAATATGCA 
    GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT GAATGCAAAG TGAAACATGA TCACACCTTA 
    TCCCTCACTG TCCTGTGGCT GAAGGACAAC AGGGAACTGC CCAGTGATGA AAGGTTCACT 
    GTTGACAAGG ATCATCTAGT GGTAGCTGAT GTCAGTGACG ATGACAGCGG GACCTACACG 
    TGTGTGGCCA ACACCACTCT GGACAGCGTC TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT 
    CCTACTCCAA CTCCAGCTCC CGTTTACGAT GTCCCAAATC CTCCCTTTGA CTTAGAACTG 
    ACAGATCAAC TTGACAAAAG TGTTCAGCTG TCATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT CGAATATGAA GATGCAATGC ACAAGCCAGG GCTGTGGCAC 
    CACCAAACTG AAGTTTCTGG AACACAGACC ACAGCCCAGC TGAAGCTGTC TCCTTACGTG 
    AACTACTCCT TCCGCGTGAT GGCAGTGAAC AGCATTGGGA AGAGCTTGCC CAGCGAGGCG 
    TCTGAGCAGT ATTTGACGAA AGCCTCAGAA CCAGATAAAA ACCCCACAGC TGTGGAAGGA 
    CTGGGATCAG AGCCTGATAA TTTGGTGATT ACGTGGAAGC CCTTGAATGG TTTCGAATCT 
    AATGGGCCAG GCCTTCAGTA CAAAGTTAGC TGGCGCCAGA AAGATGGTGA TGATGAATGG 
    ACATCTGTGG TTGTGGCAAA TGTATCCAAA TATATTGTCT CAGGCACGCC AACCTTTGTT 
    CCATACCTGA TCAAAGTTCA GGCCCTGAAT GACATGGGGT TTGCCCCCGA GCCAGCTGTA 
    GTCATGGGAC ATTCTGGAGA AGACCTCCCA ATGGTGGCTC CTGGGAACGT GCGTGTGAAT 
    GTGGTGAACA GTACCTTAGC CGAGGTGCAC TGGGACCCAG TACCTCTGAA AAGCATCCGA 
    GGACACCTAC AAGGCTATCG GATTTACTAT TGGAAGACCC AGAGTTCATC TAAAAGAAAC 
    AGACGTCACA TTGAGAAAAA GATCCTCACC TTCCAAGGCA GCAAGACTCA TGGCATGTTG 
    CCGGGGCTAG AGCCCTTTAG CCACTACACA CTGAATGTCC GAGTGGTCAA TGGGAAAGGG 
    GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT AATACTCCAG AAGGAGTCCC CAGTGCTCCC 
    TCGTCTTTGA AGATTGTGAA TCCAACACTG GACTCTCTCA CTTTGGAATG GGATCCACCG 
    AGCCACCCGA ATGGCATTTT GACAGAGTAC ACCTTAAAGT ATCAGCCAAT TAACAGCACA 
    CATGAATTAG GCCCTCTGGT AGATTTGAAA ATTCCTGCCA ACAAGACACG GTGGACTTTA 
    AAAAATTTAA ATTTCAGCAC TCGATATAAG TTTTATTTCT ATGCACAAAC ATCAGCAGGA 
    TCAGGAAGTC AAATTACAGA GGAAGCAGTA ACAACTGTGG ATGAAGCTGG TATTCTTCCA 
    CCTGATGTAG GTGCAGGCAA AGTTCAAGCA GTAAATCCCA GGATCAGCAA TCTTACTGCT 
    GCAGCTGCTG AGACCTATGC CAATATCAGT TGGGAATATG AGGGACCAGA GCATGTGAAC 
    TTTTATGTTG AATATGGTGT AGCAGGCAGC AAAGAAGAAT GGAGAAAAGA AATTGTAAAT 
    GGTTCTCGGA GCTTCTTTGG GTTAAAGGGT CTAATGCCAG GAACAGCATA CAAAGTTCGA 
    GTTGGTGCTG TGGGGGACTC TGGTTTTGTG AGTTCAGAGG ATGTGTTTGA GACAGGCCCA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012255.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867744.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X38, mRNA.
    Price & Availability↑
    CloneID OHu97289
    Clone ID Related Accession (Same CDS sequence) XM_017012255.1 , NM_001371143.1 , XM_017012255.2
    Accession Version XM_017012255.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-25
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X36
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017012255.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGCTAAATC AAGTAGAGAG AGGCCACCAA CATTTTTAAC TCCAGAAGGC 
    AATGCAAGTA ACAAAGAGGA ATTAAGAGGA AATGTGCTTT CACTGGAGTG CATTGCAGAA 
    GGACTGCCTA CCCCAATTAT TTACTGGGCA AAGGAAGATG GAATGCTACC CAAAAACAGG 
    ACAGTTTATA AGAACTTTGA GAAAACCTTG CAGATCATTC ATGTTTCAGA AGCAGACTCT 
    GGAAATTACC AATGTATAGC AAAAAACGCA TTAGGAGCCA TCCACCATAC CATTTCTGTT 
    AGAGTTAAAG CGGCTCCATA CTGGATCACA GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA 
    GAGGATGGGA CCTTGATCTG CAGAGCTAAT GGCAACCCCA AACCCAGAAT TAGCTGGTTA 
    ACAAATGGAG TCCCAATAGA AATTGCCCCT GATGACCCCA GCAGAAAAAT AGATGGCGAT 
    ACCATTATTT TTTCAAATGT TCAAGAAAGA TCAAGTGCAG TCTATCAGTG CAATGCCTCT 
    AATGAATATG GATATTTACT GGCAAACGCA TTTGTAAATG TGCTGGCTGA GCCACCACGA 
    ATCCTCACAC CTGCAAACAC ACTCTACCAG GTCATTGCAA ACAGGCCTGC TTTACTAGAC 
    TGTGCCTTCT TTGGGTCTCC TCTCCCAACC ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT 
    GCTCTTCATG AAGATATTTA TGTTTTACAT GAAAATGGAA CTTTGGAAAT TCCTGTGGCC 
    CAAAAGGACA GTACAGGAAC TTATACGTGT GTTGCAAGGA ATAAATTAGG GATGGCGAAG 
    AATGAAGTTC ACTTAGAAAT CAAAGATCCT ACATGGATCG TTAAACAGCC CGAATATGCA 
    GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT GAATGCAAAG TGAAACATGA TCACACCTTA 
    TCCCTCACTG TCCTGTGGCT GAAGGACAAC AGGGAACTGC CCAGTGATGA AAGGTTCACT 
    GTTGACAAGG ATCATCTAGT GGTAGCTGAT GTCAGTGACG ATGACAGCGG GACCTACACG 
    TGTGTGGCCA ACACCACTCT GGACAGCGTC TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT 
    CCTACTCCAA CTCCAGCTCC CGTTTACGAT GTCCCAAATC CTCCCTTTGA CTTAGAACTG 
    ACAGATCAAC TTGACAAAAG TGTTCAGCTG TCATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT CGAATATGAA GATGCAATGC ACAAGCCAGG GCTGTGGCAC 
    CACCAAACTG AAGTTTCTGG AACACAGACC ACAGCCCAGC TGAAGCTGTC TCCTTACGTG 
    AACTACTCCT TCCGCGTGAT GGCAGTGAAC AGCATTGGGA AGAGCTTGCC CAGCGAGGCG 
    TCTGAGCAGT ATTTGACGAA AGCCTCAGAA CCAGATAAAA ACCCCACAGC TGTGGAAGGA 
    CTGGGATCAG AGCCTGATAA TTTGGTGATT ACGTGGAAGC CCTTGAATGG TTTCGAATCT 
    AATGGGCCAG GCCTTCAGTA CAAAGTTAGC TGGCGCCAGA AAGATGGTGA TGATGAATGG 
    ACATCTGTGG TTGTGGCAAA TGTATCCAAA TATATTGTCT CAGGCACGCC AACCTTTGTT 
    CCATACCTGA TCAAAGTTCA GGCCCTGAAT GACATGGGGT TTGCCCCCGA GCCAGCTGTA 
    GTCATGGGAC ATTCTGGAGA AGACCTCCCA ATGGTGGCTC CTGGGAACGT GCGTGTGAAT 
    GTGGTGAACA GTACCTTAGC CGAGGTGCAC TGGGACCCAG TACCTCTGAA AAGCATCCGA 
    GGACACCTAC AAGGCTATCG GATTTACTAT TGGAAGACCC AGAGTTCATC TAAAAGAAAC 
    AGACGTCACA TTGAGAAAAA GATCCTCACC TTCCAAGGCA GCAAGACTCA TGGCATGTTG 
    CCGGGGCTAG AGCCCTTTAG CCACTACACA CTGAATGTCC GAGTGGTCAA TGGGAAAGGG 
    GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT AATACTCCAG AAGGAGTCCC CAGTGCTCCC 
    TCGTCTTTGA AGATTGTGAA TCCAACACTG GACTCTCTCA CTTTGGAATG GGATCCACCG 
    AGCCACCCGA ATGGCATTTT GACAGAGTAC ACCTTAAAGT ATCAGCCAAT TAACAGCACA 
    CATGAATTAG GCCCTCTGGT AGATTTGAAA ATTCCTGCCA ACAAGACACG GTGGACTTTA 
    AAAAATTTAA ATTTCAGCAC TCGATATAAG TTTTATTTCT ATGCACAAAC ATCAGCAGGA 
    TCAGGAAGTC AAATTACAGA GGAAGCAGTA ACAACTGTGG ATGAAGCTGG TATTCTTCCA 
    CCTGATGTAG GTGCAGGCAA AGTTCAAGCA GTAAATCCCA GGATCAGCAA TCTTACTGCT 
    GCAGCTGCTG AGACCTATGC CAATATCAGT TGGGAATATG AGGGACCAGA GCATGTGAAC 
    TTTTATGTTG AATATGGTGT AGCAGGCAGC AAAGAAGAAT GGAGAAAAGA AATTGTAAAT 
    GGTTCTCGGA GCTTCTTTGG GTTAAAGGGT CTAATGCCAG GAACAGCATA CAAAGTTCGA 
    GTTGGTGCTG TGGGGGACTC TGGTTTTGTG AGTTCAGAGG ATGTGTTTGA GACAGGCCCA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867744.1
    CDS579..4148
    Translation

    Target ORF information:

    RefSeq Version XM_017012255.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X38, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012255.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGCTAAATC AAGTAGAGAG AGGCCACCAA CATTTTTAAC TCCAGAAGGC 
    AATGCAAGTA ACAAAGAGGA ATTAAGAGGA AATGTGCTTT CACTGGAGTG CATTGCAGAA 
    GGACTGCCTA CCCCAATTAT TTACTGGGCA AAGGAAGATG GAATGCTACC CAAAAACAGG 
    ACAGTTTATA AGAACTTTGA GAAAACCTTG CAGATCATTC ATGTTTCAGA AGCAGACTCT 
    GGAAATTACC AATGTATAGC AAAAAACGCA TTAGGAGCCA TCCACCATAC CATTTCTGTT 
    AGAGTTAAAG CGGCTCCATA CTGGATCACA GCCCCTCAAA ATCTTGTGCT GTCCCCAGGA 
    GAGGATGGGA CCTTGATCTG CAGAGCTAAT GGCAACCCCA AACCCAGAAT TAGCTGGTTA 
    ACAAATGGAG TCCCAATAGA AATTGCCCCT GATGACCCCA GCAGAAAAAT AGATGGCGAT 
    ACCATTATTT TTTCAAATGT TCAAGAAAGA TCAAGTGCAG TCTATCAGTG CAATGCCTCT 
    AATGAATATG GATATTTACT GGCAAACGCA TTTGTAAATG TGCTGGCTGA GCCACCACGA 
    ATCCTCACAC CTGCAAACAC ACTCTACCAG GTCATTGCAA ACAGGCCTGC TTTACTAGAC 
    TGTGCCTTCT TTGGGTCTCC TCTCCCAACC ATCGAGTGGT TTAAAGGAGC TAAAGGAAGT 
    GCTCTTCATG AAGATATTTA TGTTTTACAT GAAAATGGAA CTTTGGAAAT TCCTGTGGCC 
    CAAAAGGACA GTACAGGAAC TTATACGTGT GTTGCAAGGA ATAAATTAGG GATGGCGAAG 
    AATGAAGTTC ACTTAGAAAT CAAAGATCCT ACATGGATCG TTAAACAGCC CGAATATGCA 
    GTTGTGCAAA GAGGGAGCAT GGTGTCCTTT GAATGCAAAG TGAAACATGA TCACACCTTA 
    TCCCTCACTG TCCTGTGGCT GAAGGACAAC AGGGAACTGC CCAGTGATGA AAGGTTCACT 
    GTTGACAAGG ATCATCTAGT GGTAGCTGAT GTCAGTGACG ATGACAGCGG GACCTACACG 
    TGTGTGGCCA ACACCACTCT GGACAGCGTC TCCGCCAGCG CTGTGCTTAG CGTTGTTGCT 
    CCTACTCCAA CTCCAGCTCC CGTTTACGAT GTCCCAAATC CTCCCTTTGA CTTAGAACTG 
    ACAGATCAAC TTGACAAAAG TGTTCAGCTG TCATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT CGAATATGAA GATGCAATGC ACAAGCCAGG GCTGTGGCAC 
    CACCAAACTG AAGTTTCTGG AACACAGACC ACAGCCCAGC TGAAGCTGTC TCCTTACGTG 
    AACTACTCCT TCCGCGTGAT GGCAGTGAAC AGCATTGGGA AGAGCTTGCC CAGCGAGGCG 
    TCTGAGCAGT ATTTGACGAA AGCCTCAGAA CCAGATAAAA ACCCCACAGC TGTGGAAGGA 
    CTGGGATCAG AGCCTGATAA TTTGGTGATT ACGTGGAAGC CCTTGAATGG TTTCGAATCT 
    AATGGGCCAG GCCTTCAGTA CAAAGTTAGC TGGCGCCAGA AAGATGGTGA TGATGAATGG 
    ACATCTGTGG TTGTGGCAAA TGTATCCAAA TATATTGTCT CAGGCACGCC AACCTTTGTT 
    CCATACCTGA TCAAAGTTCA GGCCCTGAAT GACATGGGGT TTGCCCCCGA GCCAGCTGTA 
    GTCATGGGAC ATTCTGGAGA AGACCTCCCA ATGGTGGCTC CTGGGAACGT GCGTGTGAAT 
    GTGGTGAACA GTACCTTAGC CGAGGTGCAC TGGGACCCAG TACCTCTGAA AAGCATCCGA 
    GGACACCTAC AAGGCTATCG GATTTACTAT TGGAAGACCC AGAGTTCATC TAAAAGAAAC 
    AGACGTCACA TTGAGAAAAA GATCCTCACC TTCCAAGGCA GCAAGACTCA TGGCATGTTG 
    CCGGGGCTAG AGCCCTTTAG CCACTACACA CTGAATGTCC GAGTGGTCAA TGGGAAAGGG 
    GAGGGCCCAG CCAGCCCTGA CAGAGTCTTT AATACTCCAG AAGGAGTCCC CAGTGCTCCC 
    TCGTCTTTGA AGATTGTGAA TCCAACACTG GACTCTCTCA CTTTGGAATG GGATCCACCG 
    AGCCACCCGA ATGGCATTTT GACAGAGTAC ACCTTAAAGT ATCAGCCAAT TAACAGCACA 
    CATGAATTAG GCCCTCTGGT AGATTTGAAA ATTCCTGCCA ACAAGACACG GTGGACTTTA 
    AAAAATTTAA ATTTCAGCAC TCGATATAAG TTTTATTTCT ATGCACAAAC ATCAGCAGGA 
    TCAGGAAGTC AAATTACAGA GGAAGCAGTA ACAACTGTGG ATGAAGCTGG TATTCTTCCA 
    CCTGATGTAG GTGCAGGCAA AGTTCAAGCA GTAAATCCCA GGATCAGCAA TCTTACTGCT 
    GCAGCTGCTG AGACCTATGC CAATATCAGT TGGGAATATG AGGGACCAGA GCATGTGAAC 
    TTTTATGTTG AATATGGTGT AGCAGGCAGC AAAGAAGAAT GGAGAAAAGA AATTGTAAAT 
    GGTTCTCGGA GCTTCTTTGG GTTAAAGGGT CTAATGCCAG GAACAGCATA CAAAGTTCGA 
    GTTGGTGCTG TGGGGGACTC TGGTTTTGTG AGTTCAGAGG ATGTGTTTGA GACAGGCCCA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGTGATGCAG AAGACCACAA GCCTTTGAAA 
    AAAGGAAGTC GAACTCCTTC AGACAGGACT GTGAAAAAAG AAGATAGTGA CGACAGCCTA 
    GTTGACTATG GAGAAGGGGT TAATGGCCAG TTCAATGAGG ATGGCTCCTT TATTGGACAA 
    TACAGTGGTA AGAAAGAGAA AGAGCCGGCT GAAGGAAACG AAAGCTCAGA GGCACCTTCT 
    CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012256.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867745.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X42, mRNA.
    Price & Availability↑
    CloneID OHu97290
    Clone ID Related Accession (Same CDS sequence) XM_017012256.1 , XM_024446777.1
    Accession Version XM_017012256.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3582bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X40
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT ACTCCAACTC CAGCTCCCGT TTACGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867745.1
    CDS174..3755
    Translation

    Target ORF information:

    RefSeq Version XM_017012256.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X42, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012256.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT ACTCCAACTC CAGCTCCCGT TTACGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_024446777.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302545.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X39, mRNA.
    Price & Availability↑
    CloneID OHu97290
    Clone ID Related Accession (Same CDS sequence) XM_017012256.1 , XM_024446777.1
    Accession Version XM_024446777.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3582bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X37
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT ACTCCAACTC CAGCTCCCGT TTACGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024302545.1
    CDS475..4056
    Translation

    Target ORF information:

    RefSeq Version XM_024446777.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X39, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446777.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT ACTCCAACTC CAGCTCCCGT TTACGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGCGATGGC AAGCCGGCAG GTGGATATTG CAACTCAGGG CTGGTTCATT 
    GGTCTGATGT GTGCTGTTGC TCTCCTTATC TTAATTTTGC TGATTGTTTG CTTCATCAGA 
    AGAAACAAGG GTGGTAAATA TCCAGTTAAA GAAAAGGAAG ATGCCCATGC TGACCCTGAA 
    ATCCAGCCTA TGAAGGAAGA TGATGGGACA TTTGGAGAAT ACAGTGATGC AGAAGACCAC 
    AAGCCTTTGA AAAAAGGAAG TCGAACTCCT TCAGACAGGA CTGTGAAAAA AGAAGATAGT 
    GACGACAGCC TAGTTGACTA TGGAGAAGGG GTTAATGGCC AGTTCAATGA GGATGGCTCC 
    TTTATTGGAC AATACAGTGG TAAGAAAGAG AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA 
    GAGGCACCTT CTCCTGTCAA CGCCATGAAT TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_024446781.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302549.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X45, mRNA.
    Price & Availability↑
    CloneID OHu97291
    Clone ID Related Accession (Same CDS sequence) XM_024446781.1 , XM_017012258.1 , NM_001371150.1
    Accession Version XM_024446781.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-25
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X43
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGGCTGTTTT CATTTGTTTC TTCTGCATCC 
    TTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024302549.1
    CDS475..3840
    Translation

    Target ORF information:

    RefSeq Version XM_024446781.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X45, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446781.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGGCTGTTTT CATTTGTTTC TTCTGCATCC 
    TTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012258.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867747.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X45, mRNA.
    Price & Availability↑
    CloneID OHu97291
    Clone ID Related Accession (Same CDS sequence) XM_024446781.1 , XM_017012258.1 , NM_001371150.1
    Accession Version XM_017012258.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X43
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGGCTGTTTT CATTTGTTTC TTCTGCATCC 
    TTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867747.1
    CDS211..3576
    Translation

    Target ORF information:

    RefSeq Version XM_017012258.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X45, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012258.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GCGATGGCAA GCCGGCAGGT GGATATTGCA ACTCAGGGCT GGTTCATTGG TCTGATGTGT 
    GCTGTTGCTC TCCTTATCTT AATTTTGCTG ATTGTTTGCT TCATCAGAAG AAACAAGGGT 
    GGTAAATATC CAGTTAAAGA AAAGGAAGAT GCCCATGCTG ACCCTGAAAT CCAGCCTATG 
    AAGGAAGATG ATGGGACATT TGGAGAATAC AGGCTGTTTT CATTTGTTTC TTCTGCATCC 
    TTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_024446782.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302550.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X46, mRNA.
    Price & Availability↑
    CloneID OHu97292
    Clone ID Related Accession (Same CDS sequence) XM_024446782.1 , NM_001371157.1 , XM_017012259.1
    Accession Version XM_024446782.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3348bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-25
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X44
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGGCTGTT TTCATTTGTT TCTTCTGCAT CCTTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024302550.1
    CDS475..3822
    Translation

    Target ORF information:

    RefSeq Version XM_024446782.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X46, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446782.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGGCTGTT TTCATTTGTT TCTTCTGCAT CCTTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012259.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867748.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X46, mRNA.
    Price & Availability↑
    CloneID OHu97292
    Clone ID Related Accession (Same CDS sequence) XM_024446782.1 , NM_001371157.1 , XM_017012259.1
    Accession Version XM_017012259.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3348bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X44
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGGCTGTT TTCATTTGTT TCTTCTGCAT CCTTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867748.1
    CDS174..3521
    Translation

    Target ORF information:

    RefSeq Version XM_017012259.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X46, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012259.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGGCTGTT TTCATTTGTT TCTTCTGCAT CCTTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001037132.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001032209.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu04641
    Clone ID Related Accession (Same CDS sequence) XM_005250373.3 , NM_001037132.3
    Accession Version NM_001037132.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3915bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-26
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform A precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BX538010.1, AJ001057.1, BC114570.1, DA398450.1, AB002341.1 and AK127035.1. On Nov 22, 2018 this sequence version replaced NM_001037132.2. Transcript Variant: This variant (1) encodes the longest isoform (A). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AJ001057.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGA AAAGAAATTG TAAATGGTTC TCGGAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGTGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GCCCAGCGAT GGCAAGCCGG 
    CAGGTGGATA TTGCAACTCA GGGCTGGTTC ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATATCCAGTT 
    AAAGAAAAGG AAGATGCCCA TGCTGACCCT GAAATCCAGC CTATGAAGGA AGATGATGGG 
    ACATTTGGAG AATACAGTGA TGCAGAAGAC CACAAGCCTT TGAAAAAAGG AAGTCGAACT 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGACGACA GCCTAGTTGA CTATGGAGAA 
    GGGGTTAATG GCCAGTTCAA TGAGGATGGC TCCTTTATTG GACAATACAG TGGTAAGAAA 
    GAGAAAGAGC CGGCTGAAGG AAACGAAAGC TCAGAGGCAC CTTCTCCTGT CAACGCCATG 
    AATTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001032209.1
    CDS11..3925
    Translation

    Target ORF information:

    RefSeq Version NM_001037132.3
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001037132.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGA AAAGAAATTG TAAATGGTTC TCGGAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGTGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GCCCAGCGAT GGCAAGCCGG 
    CAGGTGGATA TTGCAACTCA GGGCTGGTTC ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATATCCAGTT 
    AAAGAAAAGG AAGATGCCCA TGCTGACCCT GAAATCCAGC CTATGAAGGA AGATGATGGG 
    ACATTTGGAG AATACAGTGA TGCAGAAGAC CACAAGCCTT TGAAAAAAGG AAGTCGAACT 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGACGACA GCCTAGTTGA CTATGGAGAA 
    GGGGTTAATG GCCAGTTCAA TGAGGATGGC TCCTTTATTG GACAATACAG TGGTAAGAAA 
    GAGAAAGAGC CGGCTGAAGG AAACGAAAGC TCAGAGGCAC CTTCTCCTGT CAACGCCATG 
    AATTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371171.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358100.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 10, mRNA.
    Price & Availability↑
    CloneID OHu04736
    Clone ID Related Accession (Same CDS sequence) NM_001371171.1 , NM_001371151.1 , NM_001371178.1 , NM_001371133.1
    Accession Version NM_001371171.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3552bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform B precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (10), as well as variants 2, 8, 9, and 11, encodes isoform B. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.28478.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358100.1
    CDS624..4175
    Translation

    Target ORF information:

    RefSeq Version NM_001371171.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371171.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371151.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358080.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 9, mRNA.
    Price & Availability↑
    CloneID OHu04736
    Clone ID Related Accession (Same CDS sequence) NM_001371171.1 , NM_001371151.1 , NM_001371178.1 , NM_001371133.1
    Accession Version NM_001371151.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3552bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform B precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (9), as well as variants 2, 8, 10, and 11, encodes isoform B. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.226726.1, SRR1660803.60511.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358080.1
    CDS368..3919
    Translation

    Target ORF information:

    RefSeq Version NM_001371151.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371151.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371178.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358107.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 11, mRNA.
    Price & Availability↑
    CloneID OHu04736
    Clone ID Related Accession (Same CDS sequence) NM_001371171.1 , NM_001371151.1 , NM_001371178.1 , NM_001371133.1
    Accession Version NM_001371178.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3552bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform B precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC007567.2 and AC005683.2. Transcript Variant: This variant (11), as well as variants 2 and 8-10, encodes isoform B. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.108237.1, SRR1803617.20849.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358107.1
    CDS280..3831
    Translation

    Target ORF information:

    RefSeq Version NM_001371178.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371178.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371133.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358062.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 8, mRNA.
    Price & Availability↑
    CloneID OHu04736
    Clone ID Related Accession (Same CDS sequence) NM_001371171.1 , NM_001371151.1 , NM_001371178.1 , NM_001371133.1
    Accession Version NM_001371133.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3552bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform B precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (8), as well as variants 2, 9, 10, and 11, encodes isoform B. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.96696.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358062.1
    CDS790..4341
    Translation

    Target ORF information:

    RefSeq Version NM_001371133.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371133.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGCGATGGC AAGCCGGCAG 
    GTGGATATTG CAACTCAGGG CTGGTTCATT GGTCTGATGT GTGCTGTTGC TCTCCTTATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA TCCAGTTAAA 
    GAAAAGGAAG ATGCCCATGC TGACCCTGAA ATCCAGCCTA TGAAGGAAGA TGATGGGACA 
    TTTGGAGAAT ACAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371163.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358092.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 18, mRNA.
    Price & Availability↑
    CloneID OHu05428
    Clone ID Related Accession (Same CDS sequence) XM_017012257.1 , NM_001371163.1 , NM_001193583.1 , NM_001371139.1 , NM_001371181.1 , NM_001371155.1
    Accession Version NM_001371163.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform E precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (18), as well as variants 5, 15-17, and 19-22, encodes isoform E. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.151978.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358092.1
    CDS944..4522
    Translation

    Target ORF information:

    RefSeq Version NM_001371163.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371163.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001193583.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001180512.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 5, mRNA.
    Price & Availability↑
    CloneID OHu05428
    Clone ID Related Accession (Same CDS sequence) XM_017012257.1 , NM_001371163.1 , NM_001193583.1 , NM_001371139.1 , NM_001371181.1 , NM_001371155.1
    Accession Version NM_001193583.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform E precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA292156.1, BX538010.1, BC115736.1, AK127035.1 and BU735065.1. Transcript Variant: This variant (5) differs in the 5' UTR and lacks three in-frame exons in the coding region, compared to variant 1. The encoded protein (isoform E) is shorter than isoform A. Variants 5 and 15-22 all encode the same isoform (E). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.8261.1, SRR1803612.76471.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001180512.1
    CDS487..4065
    Translation

    Target ORF information:

    RefSeq Version NM_001193583.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001193583.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371139.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358068.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 16, mRNA.
    Price & Availability↑
    CloneID OHu05428
    Clone ID Related Accession (Same CDS sequence) XM_017012257.1 , NM_001371163.1 , NM_001193583.1 , NM_001371139.1 , NM_001371181.1 , NM_001371155.1
    Accession Version NM_001371139.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform E precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (16), as well as variants 5, 15, and 17-22, encodes isoform E. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.60729.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358068.1
    CDS680..4258
    Translation

    Target ORF information:

    RefSeq Version NM_001371139.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371139.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371181.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358110.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 22, mRNA.
    Price & Availability↑
    CloneID OHu05428
    Clone ID Related Accession (Same CDS sequence) XM_017012257.1 , NM_001371163.1 , NM_001193583.1 , NM_001371139.1 , NM_001371181.1 , NM_001371155.1
    Accession Version NM_001371181.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform E precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC007567.2 and AC005683.2. Transcript Variant: This variant (22), as well as variants 5 and 15-21, encodes isoform E. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660807.116761.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358110.1
    CDS446..4024
    Translation

    Target ORF information:

    RefSeq Version NM_001371181.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371181.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371155.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358084.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 17, mRNA.
    Price & Availability↑
    CloneID OHu05428
    Clone ID Related Accession (Same CDS sequence) XM_017012257.1 , NM_001371163.1 , NM_001193583.1 , NM_001371139.1 , NM_001371181.1 , NM_001371155.1
    Accession Version NM_001371155.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform E precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (17), as well as variants 5, 15, 16, and 18-22, encodes isoform E. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.185142.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358084.1
    CDS677..4255
    Translation

    Target ORF information:

    RefSeq Version NM_001371155.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371155.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371128.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358057.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 12, mRNA.
    Price & Availability↑
    CloneID OHu18564
    Clone ID Related Accession (Same CDS sequence) NM_001371128.1 , NM_001193582.1 , NM_001371168.1
    Accession Version NM_001371128.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3636bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform D precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (12), as well as variants 4, 13, and 14, encodes isoform D. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660807.70584.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGTG ATGCAGAAGA CCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGACGAC 
    AGCCTAGTTG ACTATGGAGA AGGGGTTAAT GGCCAGTTCA ATGAGGATGG CTCCTTTATT 
    GGACAATACA GTGGTAAGAA AGAGAAAGAG CCGGCTGAAG GAAACGAAAG CTCAGAGGCA 
    CCTTCTCCTG TCAACGCCAT GAATTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358057.1
    CDS644..4279
    Translation

    Target ORF information:

    RefSeq Version NM_001371128.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371128.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGTG ATGCAGAAGA CCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGACGAC 
    AGCCTAGTTG ACTATGGAGA AGGGGTTAAT GGCCAGTTCA ATGAGGATGG CTCCTTTATT 
    GGACAATACA GTGGTAAGAA AGAGAAAGAG CCGGCTGAAG GAAACGAAAG CTCAGAGGCA 
    CCTTCTCCTG TCAACGCCAT GAATTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001193582.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001180511.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 4, mRNA.
    Price & Availability↑
    CloneID OHu18564
    Clone ID Related Accession (Same CDS sequence) NM_001371128.1 , NM_001193582.1 , NM_001371168.1
    Accession Version NM_001193582.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3636bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform D precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA292156.1, BX538010.1, AK299870.1, AK127035.1 and BU735065.1. This sequence is a reference standard in the RefSeqGene project. Transcript Variant: This variant (4) differs in the 5' UTR and lacks two in-frame exons in the coding region, compared to variant 1. The encoded protein (isoform D) is shorter than isoform A. Variants 4 and 12-14 all encode the same isoform (D). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.68647.1, SRR1803612.224665.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGTG ATGCAGAAGA CCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGACGAC 
    AGCCTAGTTG ACTATGGAGA AGGGGTTAAT GGCCAGTTCA ATGAGGATGG CTCCTTTATT 
    GGACAATACA GTGGTAAGAA AGAGAAAGAG CCGGCTGAAG GAAACGAAAG CTCAGAGGCA 
    CCTTCTCCTG TCAACGCCAT GAATTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001180511.1
    CDS487..4122
    Translation

    Target ORF information:

    RefSeq Version NM_001193582.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001193582.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGTG ATGCAGAAGA CCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGACGAC 
    AGCCTAGTTG ACTATGGAGA AGGGGTTAAT GGCCAGTTCA ATGAGGATGG CTCCTTTATT 
    GGACAATACA GTGGTAAGAA AGAGAAAGAG CCGGCTGAAG GAAACGAAAG CTCAGAGGCA 
    CCTTCTCCTG TCAACGCCAT GAATTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371168.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358097.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 14, mRNA.
    Price & Availability↑
    CloneID OHu18564
    Clone ID Related Accession (Same CDS sequence) NM_001371128.1 , NM_001193582.1 , NM_001371168.1
    Accession Version NM_001371168.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3636bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform D precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (14), as well as variants 4, 12, and 13, encodes isoform D. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.162177.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGTG ATGCAGAAGA CCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGACGAC 
    AGCCTAGTTG ACTATGGAGA AGGGGTTAAT GGCCAGTTCA ATGAGGATGG CTCCTTTATT 
    GGACAATACA GTGGTAAGAA AGAGAAAGAG CCGGCTGAAG GAAACGAAAG CTCAGAGGCA 
    CCTTCTCCTG TCAACGCCAT GAATTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358097.1
    CDS680..4315
    Translation

    Target ORF information:

    RefSeq Version NM_001371168.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371168.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGTG ATGCAGAAGA CCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGACGAC 
    AGCCTAGTTG ACTATGGAGA AGGGGTTAAT GGCCAGTTCA ATGAGGATGG CTCCTTTATT 
    GGACAATACA GTGGTAAGAA AGAGAAAGAG CCGGCTGAAG GAAACGAAAG CTCAGAGGCA 
    CCTTCTCCTG TCAACGCCAT GAATTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371149.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358078.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 25, mRNA.
    Price & Availability↑
    CloneID OHu41582
    Clone ID Related Accession (Same CDS sequence) NM_001371149.1 , XM_005250383.3
    Accession Version NM_001371149.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3645bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform G precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 28, 2019 this sequence version replaced XM_005250383.3. Transcript Variant: This variant (25), as well as variant 24, encodes isoform G. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.5751.1, SRR1803617.47292.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGTGA TGCAGAAGAC 
    CACAAGCCTT TGAAAAAAGG AAGTCGAACT CCTTCAGACA GGACTGTGAA AAAAGAAGAT 
    AGTGACGACA GCCTAGTTGA CTATGGAGAA GGGGTTAATG GCCAGTTCAA TGAGGATGGC 
    TCCTTTATTG GACAATACAG TGGTAAGAAA GAGAAAGAGC CGGCTGAAGG AAACGAAAGC 
    TCAGAGGCAC CTTCTCCTGT CAACGCCATG AATTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358078.1
    CDS526..4170
    Translation

    Target ORF information:

    RefSeq Version NM_001371149.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 25, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371149.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGTGA TGCAGAAGAC 
    CACAAGCCTT TGAAAAAAGG AAGTCGAACT CCTTCAGACA GGACTGTGAA AAAAGAAGAT 
    AGTGACGACA GCCTAGTTGA CTATGGAGAA GGGGTTAATG GCCAGTTCAA TGAGGATGGC 
    TCCTTTATTG GACAATACAG TGGTAAGAAA GAGAAAGAGC CGGCTGAAGG AAACGAAAGC 
    TCAGAGGCAC CTTCTCCTGT CAACGCCATG AATTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371161.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358090.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 42, mRNA.
    Price & Availability↑
    CloneID OHu41585
    Clone ID Related Accession (Same CDS sequence) XM_005250385.3 , NM_001371161.1
    Accession Version NM_001371161.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform N precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 30, 2019 this sequence version replaced XM_005250385.3. Transcript Variant: This variant (42), as well as variant 41, encodes isoform N. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.110905.1, SRR1803613.159170.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCGATGGCAA GCCGGCAGGT GGATATTGCA 
    ACTCAGGGCT GGTTCATTGG TCTGATGTGT GCTGTTGCTC TCCTTATCTT AATTTTGCTG 
    ATTGTTTGCT TCATCAGAAG AAACAAGGGT GGTAAATATC CAGTTAAAGA AAAGGAAGAT 
    GCCCATGCTG ACCCTGAAAT CCAGCCTATG AAGGAAGATG ATGGGACATT TGGAGAATAC 
    AGTGATGCAG AAGACCACAA GCCTTTGAAA AAAGGAAGTC GAACTCCTTC AGACAGGACT 
    GTGAAAAAAG AAGATAGTGA CGACAGCCTA GTTGACTATG GAGAAGGGGT TAATGGCCAG 
    TTCAATGAGG ATGGCTCCTT TATTGGACAA TACAGTGGTA AGAAAGAGAA AGAGCCGGCT 
    GAAGGAAACG AAAGCTCAGA GGCACCTTCT CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358090.1
    CDS526..4125
    Translation

    Target ORF information:

    RefSeq Version NM_001371161.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 42, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371161.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCGATGGCAA GCCGGCAGGT GGATATTGCA 
    ACTCAGGGCT GGTTCATTGG TCTGATGTGT GCTGTTGCTC TCCTTATCTT AATTTTGCTG 
    ATTGTTTGCT TCATCAGAAG AAACAAGGGT GGTAAATATC CAGTTAAAGA AAAGGAAGAT 
    GCCCATGCTG ACCCTGAAAT CCAGCCTATG AAGGAAGATG ATGGGACATT TGGAGAATAC 
    AGTGATGCAG AAGACCACAA GCCTTTGAAA AAAGGAAGTC GAACTCCTTC AGACAGGACT 
    GTGAAAAAAG AAGATAGTGA CGACAGCCTA GTTGACTATG GAGAAGGGGT TAATGGCCAG 
    TTCAATGAGG ATGGCTCCTT TATTGGACAA TACAGTGGTA AGAAAGAGAA AGAGCCGGCT 
    GAAGGAAACG AAAGCTCAGA GGCACCTTCT CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371156.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358085.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 58, mRNA.
    Price & Availability↑
    CloneID OHu59327
    Clone ID Related Accession (Same CDS sequence) NM_001371156.1 , XM_011516256.1
    Accession Version NM_001371156.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3924bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform cc precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 28, 2019 this sequence version replaced XM_011516256.2. Transcript Variant: This variant (58) encodes the longest isoform (cc). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.4685.1, SRR1803613.139936.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGAA AAGAAATTGT AAATGGTTCT 
    CGGAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG CCCAGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGTGAT GCAGAAGACC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACTC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGACGACAG CCTAGTTGAC 
    TATGGAGAAG GGGTTAATGG CCAGTTCAAT GAGGATGGCT CCTTTATTGG ACAATACAGT 
    GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA AACGAAAGCT CAGAGGCACC TTCTCCTGTC 
    AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358085.1
    CDS526..4449
    Translation

    Target ORF information:

    RefSeq Version NM_001371156.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 58, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371156.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGAA AAGAAATTGT AAATGGTTCT 
    CGGAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG CCCAGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGTGAT GCAGAAGACC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACTC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGACGACAG CCTAGTTGAC 
    TATGGAGAAG GGGTTAATGG CCAGTTCAAT GAGGATGGCT CCTTTATTGG ACAATACAGT 
    GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA AACGAAAGCT CAGAGGCACC TTCTCCTGTC 
    AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371152.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358081.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 34, mRNA.
    Price & Availability↑
    CloneID OHu59341
    Clone ID Related Accession (Same CDS sequence) NM_001371152.1 , NM_001371130.1
    Accession Version NM_001371152.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3561bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform K precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. On Jun 28, 2019 this sequence version replaced XM_011516271.2. Transcript Variant: This variant (34), as well as variants 33 and 35, encodes isoform K. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.100472.1, SRR1660803.195069.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGGTAAGAT GGCGATGGCA 
    AGCCGGCAGG TGGATATTGC AACTCAGGGC TGGTTCATTG GTCTGATGTG TGCTGTTGCT 
    CTCCTTATCT TAATTTTGCT GATTGTTTGC TTCATCAGAA GAAACAAGGG TGGTAAATAT 
    CCAGTTAAAG AAAAGGAAGA TGCCCATGCT GACCCTGAAA TCCAGCCTAT GAAGGAAGAT 
    GATGGGACAT TTGGAGAATA CAGTGATGCA GAAGACCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACTCCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ACGACAGCCT AGTTGACTAT 
    GGAGAAGGGG TTAATGGCCA GTTCAATGAG GATGGCTCCT TTATTGGACA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC GAAAGCTCAG AGGCACCTTC TCCTGTCAAC 
    GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358081.1
    CDS526..4086
    Translation

    Target ORF information:

    RefSeq Version NM_001371152.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 34, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371152.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGGTAAGAT GGCGATGGCA 
    AGCCGGCAGG TGGATATTGC AACTCAGGGC TGGTTCATTG GTCTGATGTG TGCTGTTGCT 
    CTCCTTATCT TAATTTTGCT GATTGTTTGC TTCATCAGAA GAAACAAGGG TGGTAAATAT 
    CCAGTTAAAG AAAAGGAAGA TGCCCATGCT GACCCTGAAA TCCAGCCTAT GAAGGAAGAT 
    GATGGGACAT TTGGAGAATA CAGTGATGCA GAAGACCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACTCCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ACGACAGCCT AGTTGACTAT 
    GGAGAAGGGG TTAATGGCCA GTTCAATGAG GATGGCTCCT TTATTGGACA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC GAAAGCTCAG AGGCACCTTC TCCTGTCAAC 
    GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( NM_001371130.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001358059.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 33, mRNA.
    Price & Availability↑
    CloneID OHu59341
    Clone ID Related Accession (Same CDS sequence) NM_001371152.1 , NM_001371130.1
    Accession Version NM_001371130.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3561bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-02
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform K precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005058.1, AC007567.2 and AC005683.2. Transcript Variant: This variant (33), as well as variants 34 and 35, encodes isoform K. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.165022.1, SRR1803615.124995.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGGTAAGAT GGCGATGGCA 
    AGCCGGCAGG TGGATATTGC AACTCAGGGC TGGTTCATTG GTCTGATGTG TGCTGTTGCT 
    CTCCTTATCT TAATTTTGCT GATTGTTTGC TTCATCAGAA GAAACAAGGG TGGTAAATAT 
    CCAGTTAAAG AAAAGGAAGA TGCCCATGCT GACCCTGAAA TCCAGCCTAT GAAGGAAGAT 
    GATGGGACAT TTGGAGAATA CAGTGATGCA GAAGACCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACTCCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ACGACAGCCT AGTTGACTAT 
    GGAGAAGGGG TTAATGGCCA GTTCAATGAG GATGGCTCCT TTATTGGACA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC GAAAGCTCAG AGGCACCTTC TCCTGTCAAC 
    GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358059.1
    CDS596..4156
    Translation

    Target ORF information:

    RefSeq Version NM_001371130.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant 33, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001371130.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGGTAAGAT GGCGATGGCA 
    AGCCGGCAGG TGGATATTGC AACTCAGGGC TGGTTCATTG GTCTGATGTG TGCTGTTGCT 
    CTCCTTATCT TAATTTTGCT GATTGTTTGC TTCATCAGAA GAAACAAGGG TGGTAAATAT 
    CCAGTTAAAG AAAAGGAAGA TGCCCATGCT GACCCTGAAA TCCAGCCTAT GAAGGAAGAT 
    GATGGGACAT TTGGAGAATA CAGTGATGCA GAAGACCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACTCCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ACGACAGCCT AGTTGACTAT 
    GGAGAAGGGG TTAATGGCCA GTTCAATGAG GATGGCTCCT TTATTGGACA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC GAAAGCTCAG AGGCACCTTC TCCTGTCAAC 
    GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_005250373.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005250430.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu04641
    Clone ID Related Accession (Same CDS sequence) XM_005250373.3 , NM_001037132.3
    Accession Version XM_005250373.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3915bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-25
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005250373.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGA AAAGAAATTG TAAATGGTTC TCGGAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGTGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GCCCAGCGAT GGCAAGCCGG 
    CAGGTGGATA TTGCAACTCA GGGCTGGTTC ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATATCCAGTT 
    AAAGAAAAGG AAGATGCCCA TGCTGACCCT GAAATCCAGC CTATGAAGGA AGATGATGGG 
    ACATTTGGAG AATACAGTGA TGCAGAAGAC CACAAGCCTT TGAAAAAAGG AAGTCGAACT 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGACGACA GCCTAGTTGA CTATGGAGAA 
    GGGGTTAATG GCCAGTTCAA TGAGGATGGC TCCTTTATTG GACAATACAG TGGTAAGAAA 
    GAGAAAGAGC CGGCTGAAGG AAACGAAAGC TCAGAGGCAC CTTCTCCTGT CAACGCCATG 
    AATTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_005250430.1
    CDS475..4389
    Translation

    Target ORF information:

    RefSeq Version XM_005250373.3
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005250373.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGA AAAGAAATTG TAAATGGTTC TCGGAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGTGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GCCCAGCGAT GGCAAGCCGG 
    CAGGTGGATA TTGCAACTCA GGGCTGGTTC ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATATCCAGTT 
    AAAGAAAAGG AAGATGCCCA TGCTGACCCT GAAATCCAGC CTATGAAGGA AGATGATGGG 
    ACATTTGGAG AATACAGTGA TGCAGAAGAC CACAAGCCTT TGAAAAAAGG AAGTCGAACT 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGACGACA GCCTAGTTGA CTATGGAGAA 
    GGGGTTAATG GCCAGTTCAA TGAGGATGGC TCCTTTATTG GACAATACAG TGGTAAGAAA 
    GAGAAAGAGC CGGCTGAAGG AAACGAAAGC TCAGAGGCAC CTTCTCCTGT CAACGCCATG 
    AATTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_017012257.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867746.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X40, mRNA.
    Price & Availability↑
    CloneID OHu05428
    Clone ID Related Accession (Same CDS sequence) XM_017012257.1 , NM_001371163.1 , NM_001193583.1 , NM_001371139.1 , NM_001371181.1 , NM_001371155.1
    Accession Version XM_017012257.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-25
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X38
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016867746.1
    CDS242..3820
    Translation

    Target ORF information:

    RefSeq Version XM_017012257.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X40, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017012257.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGCTGGTA TTCTTCCACC TGATGTAGGT 
    GCAGGCAAAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_006716003.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_006716066.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu41572
    Clone ID Related Accession (Same CDS sequence) XM_006716003.1 , XM_006716003.2
    Accession Version XM_006716003.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGA AAAGAAATTG TAAATGGTTC TCGGAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGTGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GCCCAGCGAT GGCAAGCCGG 
    CAGGTGGATA TTGCAACTCA GGGCTGGTTC ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATATCCAGTT 
    AAAGAAAAGG AAGATGCCCA TGCTGACCCT GAAATCCAGC CTATGAAGGA AGATGATGGG 
    ACATTTGGAG AATACAGGTC TCTTGAAAGT GATGCAGAAG ACCACAAGCC TTTGAAAAAA 
    GGAAGTCGAA CTCCTTCAGA CAGGACTGTG AAAAAAGAAG ATAGTGACGA CAGCCTAGTT 
    GACTATGGAG AAGGGGTTAA TGGCCAGTTC AATGAGGATG GCTCCTTTAT TGGACAATAC 
    AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA GGAAACGAAA GCTCAGAGGC ACCTTCTCCT 
    GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006716066.1
    CDS487..4413
    Translation

    Target ORF information:

    RefSeq Version XM_006716003.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006716003.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGA AAAGAAATTG TAAATGGTTC TCGGAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGTGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GCCCAGCGAT GGCAAGCCGG 
    CAGGTGGATA TTGCAACTCA GGGCTGGTTC ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATATCCAGTT 
    AAAGAAAAGG AAGATGCCCA TGCTGACCCT GAAATCCAGC CTATGAAGGA AGATGATGGG 
    ACATTTGGAG AATACAGGTC TCTTGAAAGT GATGCAGAAG ACCACAAGCC TTTGAAAAAA 
    GGAAGTCGAA CTCCTTCAGA CAGGACTGTG AAAAAAGAAG ATAGTGACGA CAGCCTAGTT 
    GACTATGGAG AAGGGGTTAA TGGCCAGTTC AATGAGGATG GCTCCTTTAT TGGACAATAC 
    AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA GGAAACGAAA GCTCAGAGGC ACCTTCTCCT 
    GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_006716003.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_006716066.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu41572
    Clone ID Related Accession (Same CDS sequence) XM_006716003.1 , XM_006716003.2
    Accession Version XM_006716003.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_006716003.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGA AAAGAAATTG TAAATGGTTC TCGGAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGTGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GCCCAGCGAT GGCAAGCCGG 
    CAGGTGGATA TTGCAACTCA GGGCTGGTTC ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATATCCAGTT 
    AAAGAAAAGG AAGATGCCCA TGCTGACCCT GAAATCCAGC CTATGAAGGA AGATGATGGG 
    ACATTTGGAG AATACAGGTC TCTTGAAAGT GATGCAGAAG ACCACAAGCC TTTGAAAAAA 
    GGAAGTCGAA CTCCTTCAGA CAGGACTGTG AAAAAAGAAG ATAGTGACGA CAGCCTAGTT 
    GACTATGGAG AAGGGGTTAA TGGCCAGTTC AATGAGGATG GCTCCTTTAT TGGACAATAC 
    AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA GGAAACGAAA GCTCAGAGGC ACCTTCTCCT 
    GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006716066.1
    CDS475..4401
    Translation

    Target ORF information:

    RefSeq Version XM_006716003.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006716003.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGTTC AAGCAGTAAA TCCCAGGATC AGCAATCTTA CTGCTGCAGC TGCTGAGACC 
    TATGCCAATA TCAGTTGGGA ATATGAGGGA CCAGAGCATG TGAACTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGA AAAGAAATTG TAAATGGTTC TCGGAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGTGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GCCCAGCGAT GGCAAGCCGG 
    CAGGTGGATA TTGCAACTCA GGGCTGGTTC ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATATCCAGTT 
    AAAGAAAAGG AAGATGCCCA TGCTGACCCT GAAATCCAGC CTATGAAGGA AGATGATGGG 
    ACATTTGGAG AATACAGGTC TCTTGAAAGT GATGCAGAAG ACCACAAGCC TTTGAAAAAA 
    GGAAGTCGAA CTCCTTCAGA CAGGACTGTG AAAAAAGAAG ATAGTGACGA CAGCCTAGTT 
    GACTATGGAG AAGGGGTTAA TGGCCAGTTC AATGAGGATG GCTCCTTTAT TGGACAATAC 
    AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA GGAAACGAAA GCTCAGAGGC ACCTTCTCCT 
    GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_006716007.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_006716070.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu41575
    Clone ID Related Accession (Same CDS sequence) XM_006716007.1 , XM_006716007.2
    Accession Version XM_006716007.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3891bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GTTCAAGCAG TAAATCCCAG GATCAGCAAT 
    CTTACTGCTG CAGCTGCTGA GACCTATGCC AATATCAGTT GGGAATATGA GGGACCAGAG 
    CATGTGAACT TTTATGTTGA ATATGGTGTA GCAGGCAGCA AAGAAGAATG GAGAAAAGAA 
    ATTGTAAATG GTTCTCGGAG CTTCTTTGGG TTAAAGGGTC TAATGCCAGG AACAGCATAC 
    AAAGTTCGAG TTGGTGCTGT GGGGGACTCT GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG 
    ACAGGCCCAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GGTCTCTTGA AAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006716070.1
    CDS487..4377
    Translation

    Target ORF information:

    RefSeq Version XM_006716007.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006716007.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GTTCAAGCAG TAAATCCCAG GATCAGCAAT 
    CTTACTGCTG CAGCTGCTGA GACCTATGCC AATATCAGTT GGGAATATGA GGGACCAGAG 
    CATGTGAACT TTTATGTTGA ATATGGTGTA GCAGGCAGCA AAGAAGAATG GAGAAAAGAA 
    ATTGTAAATG GTTCTCGGAG CTTCTTTGGG TTAAAGGGTC TAATGCCAGG AACAGCATAC 
    AAAGTTCGAG TTGGTGCTGT GGGGGACTCT GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG 
    ACAGGCCCAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GGTCTCTTGA AAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_006716007.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_006716070.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu41575
    Clone ID Related Accession (Same CDS sequence) XM_006716007.1 , XM_006716007.2
    Accession Version XM_006716007.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3891bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_006716007.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GTTCAAGCAG TAAATCCCAG GATCAGCAAT 
    CTTACTGCTG CAGCTGCTGA GACCTATGCC AATATCAGTT GGGAATATGA GGGACCAGAG 
    CATGTGAACT TTTATGTTGA ATATGGTGTA GCAGGCAGCA AAGAAGAATG GAGAAAAGAA 
    ATTGTAAATG GTTCTCGGAG CTTCTTTGGG TTAAAGGGTC TAATGCCAGG AACAGCATAC 
    AAAGTTCGAG TTGGTGCTGT GGGGGACTCT GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG 
    ACAGGCCCAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GGTCTCTTGA AAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006716070.1
    CDS475..4365
    Translation

    Target ORF information:

    RefSeq Version XM_006716007.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006716007.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GTTCAAGCAG TAAATCCCAG GATCAGCAAT 
    CTTACTGCTG CAGCTGCTGA GACCTATGCC AATATCAGTT GGGAATATGA GGGACCAGAG 
    CATGTGAACT TTTATGTTGA ATATGGTGTA GCAGGCAGCA AAGAAGAATG GAGAAAAGAA 
    ATTGTAAATG GTTCTCGGAG CTTCTTTGGG TTAAAGGGTC TAATGCCAGG AACAGCATAC 
    AAAGTTCGAG TTGGTGCTGT GGGGGACTCT GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG 
    ACAGGCCCAG CGATGGCAAG CCGGCAGGTG GATATTGCAA CTCAGGGCTG GTTCATTGGT 
    CTGATGTGTG CTGTTGCTCT CCTTATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATATCC AGTTAAAGAA AAGGAAGATG CCCATGCTGA CCCTGAAATC 
    CAGCCTATGA AGGAAGATGA TGGGACATTT GGAGAATACA GGTCTCTTGA AAGTGATGCA 
    GAAGACCACA AGCCTTTGAA AAAAGGAAGT CGAACTCCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ACGACAGCCT AGTTGACTAT GGAGAAGGGG TTAATGGCCA GTTCAATGAG 
    GATGGCTCCT TTATTGGACA ATACAGTGGT AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC 
    GAAAGCTCAG AGGCACCTTC TCCTGTCAAC GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_006716012.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_006716075.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X25, mRNA.
    Price & Availability↑
    CloneID OHu41581
    Clone ID Related Accession (Same CDS sequence) XM_006716012.1
    Accession Version XM_006716012.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3648bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X23
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGGT CTCTTGAAAG TGATGCAGAA 
    GACCACAAGC CTTTGAAAAA AGGAAGTCGA ACTCCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGACG ACAGCCTAGT TGACTATGGA GAAGGGGTTA ATGGCCAGTT CAATGAGGAT 
    GGCTCCTTTA TTGGACAATA CAGTGGTAAG AAAGAGAAAG AGCCGGCTGA AGGAAACGAA 
    AGCTCAGAGG CACCTTCTCC TGTCAACGCC ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006716075.1
    CDS487..4134
    Translation

    Target ORF information:

    RefSeq Version XM_006716012.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X25, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006716012.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCTGGTATTC TTCCACCTGA TGTAGGTGCA 
    GGCAAAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGGT CTCTTGAAAG TGATGCAGAA 
    GACCACAAGC CTTTGAAAAA AGGAAGTCGA ACTCCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGACG ACAGCCTAGT TGACTATGGA GAAGGGGTTA ATGGCCAGTT CAATGAGGAT 
    GGCTCCTTTA TTGGACAATA CAGTGGTAAG AAAGAGAAAG AGCCGGCTGA AGGAAACGAA 
    AGCTCAGAGG CACCTTCTCC TGTCAACGCC ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_005250383.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005250440.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X24, mRNA.
    Price & Availability↑
    CloneID OHu41582
    Clone ID Related Accession (Same CDS sequence) NM_001371149.1 , XM_005250383.3
    Accession Version XM_005250383.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3645bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-25
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X22
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005250383.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGTGA TGCAGAAGAC 
    CACAAGCCTT TGAAAAAAGG AAGTCGAACT CCTTCAGACA GGACTGTGAA AAAAGAAGAT 
    AGTGACGACA GCCTAGTTGA CTATGGAGAA GGGGTTAATG GCCAGTTCAA TGAGGATGGC 
    TCCTTTATTG GACAATACAG TGGTAAGAAA GAGAAAGAGC CGGCTGAAGG AAACGAAAGC 
    TCAGAGGCAC CTTCTCCTGT CAACGCCATG AATTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_005250440.1
    CDS475..4119
    Translation

    Target ORF information:

    RefSeq Version XM_005250383.3
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X24, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005250383.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGTGA TGCAGAAGAC 
    CACAAGCCTT TGAAAAAAGG AAGTCGAACT CCTTCAGACA GGACTGTGAA AAAAGAAGAT 
    AGTGACGACA GCCTAGTTGA CTATGGAGAA GGGGTTAATG GCCAGTTCAA TGAGGATGGC 
    TCCTTTATTG GACAATACAG TGGTAAGAAA GAGAAAGAGC CGGCTGAAGG AAACGAAAGC 
    TCAGAGGCAC CTTCTCCTGT CAACGCCATG AATTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_006716014.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_006716077.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X30, mRNA.
    Price & Availability↑
    CloneID OHu41584
    Clone ID Related Accession (Same CDS sequence) XM_006716014.1
    Accession Version XM_006716014.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3612bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X28
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCGATGGCAA GCCGGCAGGT GGATATTGCA 
    ACTCAGGGCT GGTTCATTGG TCTGATGTGT GCTGTTGCTC TCCTTATCTT AATTTTGCTG 
    ATTGTTTGCT TCATCAGAAG AAACAAGGGT GGTAAATATC CAGTTAAAGA AAAGGAAGAT 
    GCCCATGCTG ACCCTGAAAT CCAGCCTATG AAGGAAGATG ATGGGACATT TGGAGAATAC 
    AGGTCTCTTG AAAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006716077.1
    CDS487..4098
    Translation

    Target ORF information:

    RefSeq Version XM_006716014.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X30, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006716014.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCGATGGCAA GCCGGCAGGT GGATATTGCA 
    ACTCAGGGCT GGTTCATTGG TCTGATGTGT GCTGTTGCTC TCCTTATCTT AATTTTGCTG 
    ATTGTTTGCT TCATCAGAAG AAACAAGGGT GGTAAATATC CAGTTAAAGA AAAGGAAGAT 
    GCCCATGCTG ACCCTGAAAT CCAGCCTATG AAGGAAGATG ATGGGACATT TGGAGAATAC 
    AGGTCTCTTG AAAGTGATGC AGAAGACCAC AAGCCTTTGA AAAAAGGAAG TCGAACTCCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GACGACAGCC TAGTTGACTA TGGAGAAGGG 
    GTTAATGGCC AGTTCAATGA GGATGGCTCC TTTATTGGAC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCGG CTGAAGGAAA CGAAAGCTCA GAGGCACCTT CTCCTGTCAA CGCCATGAAT 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_005250385.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005250442.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X29, mRNA.
    Price & Availability↑
    CloneID OHu41585
    Clone ID Related Accession (Same CDS sequence) XM_005250385.3 , NM_001371161.1
    Accession Version XM_005250385.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-25
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X27
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005250385.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCGATGGCAA GCCGGCAGGT GGATATTGCA 
    ACTCAGGGCT GGTTCATTGG TCTGATGTGT GCTGTTGCTC TCCTTATCTT AATTTTGCTG 
    ATTGTTTGCT TCATCAGAAG AAACAAGGGT GGTAAATATC CAGTTAAAGA AAAGGAAGAT 
    GCCCATGCTG ACCCTGAAAT CCAGCCTATG AAGGAAGATG ATGGGACATT TGGAGAATAC 
    AGTGATGCAG AAGACCACAA GCCTTTGAAA AAAGGAAGTC GAACTCCTTC AGACAGGACT 
    GTGAAAAAAG AAGATAGTGA CGACAGCCTA GTTGACTATG GAGAAGGGGT TAATGGCCAG 
    TTCAATGAGG ATGGCTCCTT TATTGGACAA TACAGTGGTA AGAAAGAGAA AGAGCCGGCT 
    GAAGGAAACG AAAGCTCAGA GGCACCTTCT CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_005250442.1
    CDS475..4074
    Translation

    Target ORF information:

    RefSeq Version XM_005250385.3
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X29, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005250385.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GCGATGGCAA GCCGGCAGGT GGATATTGCA 
    ACTCAGGGCT GGTTCATTGG TCTGATGTGT GCTGTTGCTC TCCTTATCTT AATTTTGCTG 
    ATTGTTTGCT TCATCAGAAG AAACAAGGGT GGTAAATATC CAGTTAAAGA AAAGGAAGAT 
    GCCCATGCTG ACCCTGAAAT CCAGCCTATG AAGGAAGATG ATGGGACATT TGGAGAATAC 
    AGTGATGCAG AAGACCACAA GCCTTTGAAA AAAGGAAGTC GAACTCCTTC AGACAGGACT 
    GTGAAAAAAG AAGATAGTGA CGACAGCCTA GTTGACTATG GAGAAGGGGT TAATGGCCAG 
    TTCAATGAGG ATGGCTCCTT TATTGGACAA TACAGTGGTA AGAAAGAGAA AGAGCCGGCT 
    GAAGGAAACG AAAGCTCAGA GGCACCTTCT CCTGTCAACG CCATGAATTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516253.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514555.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu59326
    Clone ID Related Accession (Same CDS sequence) XM_011516253.1
    Accession Version XM_011516253.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3936bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGAA AAGAAATTGT AAATGGTTCT 
    CGGAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG CCCAGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGGTCT CTTGAAAGTG ATGCAGAAGA CCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGACGAC 
    AGCCTAGTTG ACTATGGAGA AGGGGTTAAT GGCCAGTTCA ATGAGGATGG CTCCTTTATT 
    GGACAATACA GTGGTAAGAA AGAGAAAGAG CCGGCTGAAG GAAACGAAAG CTCAGAGGCA 
    CCTTCTCCTG TCAACGCCAT GAATTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514555.1
    CDS487..4422
    Translation

    Target ORF information:

    RefSeq Version XM_011516253.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516253.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGAA AAGAAATTGT AAATGGTTCT 
    CGGAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG CCCAGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGGTCT CTTGAAAGTG ATGCAGAAGA CCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGACGAC 
    AGCCTAGTTG ACTATGGAGA AGGGGTTAAT GGCCAGTTCA ATGAGGATGG CTCCTTTATT 
    GGACAATACA GTGGTAAGAA AGAGAAAGAG CCGGCTGAAG GAAACGAAAG CTCAGAGGCA 
    CCTTCTCCTG TCAACGCCAT GAATTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516256.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514558.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu59327
    Clone ID Related Accession (Same CDS sequence) NM_001371156.1 , XM_011516256.1
    Accession Version XM_011516256.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3924bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGAA AAGAAATTGT AAATGGTTCT 
    CGGAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG CCCAGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGTGAT GCAGAAGACC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACTC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGACGACAG CCTAGTTGAC 
    TATGGAGAAG GGGTTAATGG CCAGTTCAAT GAGGATGGCT CCTTTATTGG ACAATACAGT 
    GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA AACGAAAGCT CAGAGGCACC TTCTCCTGTC 
    AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514558.1
    CDS487..4410
    Translation

    Target ORF information:

    RefSeq Version XM_011516256.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516256.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGAA AAGAAATTGT AAATGGTTCT 
    CGGAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG CCCAGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGTGAT GCAGAAGACC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACTC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGACGACAG CCTAGTTGAC 
    TATGGAGAAG GGGTTAATGG CCAGTTCAAT GAGGATGGCT CCTTTATTGG ACAATACAGT 
    GGTAAGAAAG AGAAAGAGCC GGCTGAAGGA AACGAAAGCT CAGAGGCACC TTCTCCTGTC 
    AACGCCATGA ATTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516257.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514559.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu59328
    Clone ID Related Accession (Same CDS sequence) XM_011516257.2 , XM_011516258.1
    Accession Version XM_011516257.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3918bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516257.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT ACTCCAACTC CAGCTCCCGT TTACGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGGTAAGAT GGCTGGTATT CTTCCACCTG ATGTAGGTGC AGGCAAAGTT 
    CAAGCAGTAA ATCCCAGGAT CAGCAATCTT ACTGCTGCAG CTGCTGAGAC CTATGCCAAT 
    ATCAGTTGGG AATATGAGGG ACCAGAGCAT GTGAACTTTT ATGTTGAATA TGGTGTAGCA 
    GGCAGCAAAG AAGAATGGAG AAAAGAAATT GTAAATGGTT CTCGGAGCTT CTTTGGGTTA 
    AAGGGTCTAA TGCCAGGAAC AGCATACAAA GTTCGAGTTG GTGCTGTGGG GGACTCTGGT 
    TTTGTGAGTT CAGAGGATGT GTTTGAGACA GGCCCAGCGA TGGCAAGCCG GCAGGTGGAT 
    ATTGCAACTC AGGGCTGGTT CATTGGTCTG ATGTGTGCTG TTGCTCTCCT TATCTTAATT 
    TTGCTGATTG TTTGCTTCAT CAGAAGAAAC AAGGGTGGTA AATATCCAGT TAAAGAAAAG 
    GAAGATGCCC ATGCTGACCC TGAAATCCAG CCTATGAAGG AAGATGATGG GACATTTGGA 
    GAATACAGGT CTCTTGAAAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514559.1
    CDS475..4392
    Translation

    Target ORF information:

    RefSeq Version XM_011516257.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516257.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT ACTCCAACTC CAGCTCCCGT TTACGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGGTAAGAT GGCTGGTATT CTTCCACCTG ATGTAGGTGC AGGCAAAGTT 
    CAAGCAGTAA ATCCCAGGAT CAGCAATCTT ACTGCTGCAG CTGCTGAGAC CTATGCCAAT 
    ATCAGTTGGG AATATGAGGG ACCAGAGCAT GTGAACTTTT ATGTTGAATA TGGTGTAGCA 
    GGCAGCAAAG AAGAATGGAG AAAAGAAATT GTAAATGGTT CTCGGAGCTT CTTTGGGTTA 
    AAGGGTCTAA TGCCAGGAAC AGCATACAAA GTTCGAGTTG GTGCTGTGGG GGACTCTGGT 
    TTTGTGAGTT CAGAGGATGT GTTTGAGACA GGCCCAGCGA TGGCAAGCCG GCAGGTGGAT 
    ATTGCAACTC AGGGCTGGTT CATTGGTCTG ATGTGTGCTG TTGCTCTCCT TATCTTAATT 
    TTGCTGATTG TTTGCTTCAT CAGAAGAAAC AAGGGTGGTA AATATCCAGT TAAAGAAAAG 
    GAAGATGCCC ATGCTGACCC TGAAATCCAG CCTATGAAGG AAGATGATGG GACATTTGGA 
    GAATACAGGT CTCTTGAAAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516258.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514560.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu59328
    Clone ID Related Accession (Same CDS sequence) XM_011516257.2 , XM_011516258.1
    Accession Version XM_011516258.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3918bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT ACTCCAACTC CAGCTCCCGT TTACGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGGTAAGAT GGCTGGTATT CTTCCACCTG ATGTAGGTGC AGGCAAAGTT 
    CAAGCAGTAA ATCCCAGGAT CAGCAATCTT ACTGCTGCAG CTGCTGAGAC CTATGCCAAT 
    ATCAGTTGGG AATATGAGGG ACCAGAGCAT GTGAACTTTT ATGTTGAATA TGGTGTAGCA 
    GGCAGCAAAG AAGAATGGAG AAAAGAAATT GTAAATGGTT CTCGGAGCTT CTTTGGGTTA 
    AAGGGTCTAA TGCCAGGAAC AGCATACAAA GTTCGAGTTG GTGCTGTGGG GGACTCTGGT 
    TTTGTGAGTT CAGAGGATGT GTTTGAGACA GGCCCAGCGA TGGCAAGCCG GCAGGTGGAT 
    ATTGCAACTC AGGGCTGGTT CATTGGTCTG ATGTGTGCTG TTGCTCTCCT TATCTTAATT 
    TTGCTGATTG TTTGCTTCAT CAGAAGAAAC AAGGGTGGTA AATATCCAGT TAAAGAAAAG 
    GAAGATGCCC ATGCTGACCC TGAAATCCAG CCTATGAAGG AAGATGATGG GACATTTGGA 
    GAATACAGGT CTCTTGAAAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514560.1
    CDS242..4159
    Translation

    Target ORF information:

    RefSeq Version XM_011516258.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516258.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT ACTCCAACTC CAGCTCCCGT TTACGATGTC 
    CCAAATCCTC CCTTTGACTT AGAACTGACA GATCAACTTG ACAAAAGTGT TCAGCTGTCA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATCGA ATATGAAGAT 
    GCAATGCACA AGCCAGGGCT GTGGCACCAC CAAACTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAGCTGA AGCTGTCTCC TTACGTGAAC TACTCCTTCC GCGTGATGGC AGTGAACAGC 
    ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT GAGCAGTATT TGACGAAAGC CTCAGAACCA 
    GATAAAAACC CCACAGCTGT GGAAGGACTG GGATCAGAGC CTGATAATTT GGTGATTACG 
    TGGAAGCCCT TGAATGGTTT CGAATCTAAT GGGCCAGGCC TTCAGTACAA AGTTAGCTGG 
    CGCCAGAAAG ATGGTGATGA TGAATGGACA TCTGTGGTTG TGGCAAATGT ATCCAAATAT 
    ATTGTCTCAG GCACGCCAAC CTTTGTTCCA TACCTGATCA AAGTTCAGGC CCTGAATGAC 
    ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC ATGGGACATT CTGGAGAAGA CCTCCCAATG 
    GTGGCTCCTG GGAACGTGCG TGTGAATGTG GTGAACAGTA CCTTAGCCGA GGTGCACTGG 
    GACCCAGTAC CTCTGAAAAG CATCCGAGGA CACCTACAAG GCTATCGGAT TTACTATTGG 
    AAGACCCAGA GTTCATCTAA AAGAAACAGA CGTCACATTG AGAAAAAGAT CCTCACCTTC 
    CAAGGCAGCA AGACTCATGG CATGTTGCCG GGGCTAGAGC CCTTTAGCCA CTACACACTG 
    AATGTCCGAG TGGTCAATGG GAAAGGGGAG GGCCCAGCCA GCCCTGACAG AGTCTTTAAT 
    ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG TCTTTGAAGA TTGTGAATCC AACACTGGAC 
    TCTCTCACTT TGGAATGGGA TCCACCGAGC CACCCGAATG GCATTTTGAC AGAGTACACC 
    TTAAAGTATC AGCCAATTAA CAGCACACAT GAATTAGGCC CTCTGGTAGA TTTGAAAATT 
    CCTGCCAACA AGACACGGTG GACTTTAAAA AATTTAAATT TCAGCACTCG ATATAAGTTT 
    TATTTCTATG CACAAACATC AGCAGGATCA GGAAGTCAAA TTACAGAGGA AGCAGTAACA 
    ACTGTGGATG AAGGTAAGAT GGCTGGTATT CTTCCACCTG ATGTAGGTGC AGGCAAAGTT 
    CAAGCAGTAA ATCCCAGGAT CAGCAATCTT ACTGCTGCAG CTGCTGAGAC CTATGCCAAT 
    ATCAGTTGGG AATATGAGGG ACCAGAGCAT GTGAACTTTT ATGTTGAATA TGGTGTAGCA 
    GGCAGCAAAG AAGAATGGAG AAAAGAAATT GTAAATGGTT CTCGGAGCTT CTTTGGGTTA 
    AAGGGTCTAA TGCCAGGAAC AGCATACAAA GTTCGAGTTG GTGCTGTGGG GGACTCTGGT 
    TTTGTGAGTT CAGAGGATGT GTTTGAGACA GGCCCAGCGA TGGCAAGCCG GCAGGTGGAT 
    ATTGCAACTC AGGGCTGGTT CATTGGTCTG ATGTGTGCTG TTGCTCTCCT TATCTTAATT 
    TTGCTGATTG TTTGCTTCAT CAGAAGAAAC AAGGGTGGTA AATATCCAGT TAAAGAAAAG 
    GAAGATGCCC ATGCTGACCC TGAAATCCAG CCTATGAAGG AAGATGATGG GACATTTGGA 
    GAATACAGGT CTCTTGAAAG TGATGCAGAA GACCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACTCCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGACG ACAGCCTAGT TGACTATGGA 
    GAAGGGGTTA ATGGCCAGTT CAATGAGGAT GGCTCCTTTA TTGGACAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCGGCTGA AGGAAACGAA AGCTCAGAGG CACCTTCTCC TGTCAACGCC 
    ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516259.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514561.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu59329
    Clone ID Related Accession (Same CDS sequence) XM_011516259.1 , XM_011516259.2
    Accession Version XM_011516259.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GGTAAGATGG CTGGTATTCT TCCACCTGAT GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT 
    CCCAGGATCA GCAATCTTAC TGCTGCAGCT GCTGAGACCT ATGCCAATAT CAGTTGGGAA 
    TATGAGGGAC CAGAGCATGT GAACTTTTAT GTTGAATATG GTGTAGCAGG CAGCAAAGAA 
    GAATGGAGAA AAGAAATTGT AAATGGTTCT CGGAGCTTCT TTGGGTTAAA GGGTCTAATG 
    CCAGGAACAG CATACAAAGT TCGAGTTGGT GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA 
    GAGGATGTGT TTGAGACAGG CCCAGCGATG GCAAGCCGGC AGGTGGATAT TGCAACTCAG 
    GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT GCTCTCCTTA TCTTAATTTT GCTGATTGTT 
    TGCTTCATCA GAAGAAACAA GGGTGGTAAA TATCCAGTTA AAGAAAAGGA AGATGCCCAT 
    GCTGACCCTG AAATCCAGCC TATGAAGGAA GATGATGGGA CATTTGGAGA ATACAGGTCT 
    CTTGAAAGTG ATGCAGAAGA CCACAAGCCT TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC 
    AGGACTGTGA AAAAAGAAGA TAGTGACGAC AGCCTAGTTG ACTATGGAGA AGGGGTTAAT 
    GGCCAGTTCA ATGAGGATGG CTCCTTTATT GGACAATACA GTGGTAAGAA AGAGAAAGAG 
    CCGGCTGAAG GAAACGAAAG CTCAGAGGCA CCTTCTCCTG TCAACGCCAT GAATTCCTTT 
    GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514561.1
    CDS487..4392
    Translation

    Target ORF information:

    RefSeq Version XM_011516259.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516259.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GGTAAGATGG CTGGTATTCT TCCACCTGAT GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT 
    CCCAGGATCA GCAATCTTAC TGCTGCAGCT GCTGAGACCT ATGCCAATAT CAGTTGGGAA 
    TATGAGGGAC CAGAGCATGT GAACTTTTAT GTTGAATATG GTGTAGCAGG CAGCAAAGAA 
    GAATGGAGAA AAGAAATTGT AAATGGTTCT CGGAGCTTCT TTGGGTTAAA GGGTCTAATG 
    CCAGGAACAG CATACAAAGT TCGAGTTGGT GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA 
    GAGGATGTGT TTGAGACAGG CCCAGCGATG GCAAGCCGGC AGGTGGATAT TGCAACTCAG 
    GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT GCTCTCCTTA TCTTAATTTT GCTGATTGTT 
    TGCTTCATCA GAAGAAACAA GGGTGGTAAA TATCCAGTTA AAGAAAAGGA AGATGCCCAT 
    GCTGACCCTG AAATCCAGCC TATGAAGGAA GATGATGGGA CATTTGGAGA ATACAGGTCT 
    CTTGAAAGTG ATGCAGAAGA CCACAAGCCT TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC 
    AGGACTGTGA AAAAAGAAGA TAGTGACGAC AGCCTAGTTG ACTATGGAGA AGGGGTTAAT 
    GGCCAGTTCA ATGAGGATGG CTCCTTTATT GGACAATACA GTGGTAAGAA AGAGAAAGAG 
    CCGGCTGAAG GAAACGAAAG CTCAGAGGCA CCTTCTCCTG TCAACGCCAT GAATTCCTTT 
    GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516259.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514561.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu59329
    Clone ID Related Accession (Same CDS sequence) XM_011516259.1 , XM_011516259.2
    Accession Version XM_011516259.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516259.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GGTAAGATGG CTGGTATTCT TCCACCTGAT GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT 
    CCCAGGATCA GCAATCTTAC TGCTGCAGCT GCTGAGACCT ATGCCAATAT CAGTTGGGAA 
    TATGAGGGAC CAGAGCATGT GAACTTTTAT GTTGAATATG GTGTAGCAGG CAGCAAAGAA 
    GAATGGAGAA AAGAAATTGT AAATGGTTCT CGGAGCTTCT TTGGGTTAAA GGGTCTAATG 
    CCAGGAACAG CATACAAAGT TCGAGTTGGT GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA 
    GAGGATGTGT TTGAGACAGG CCCAGCGATG GCAAGCCGGC AGGTGGATAT TGCAACTCAG 
    GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT GCTCTCCTTA TCTTAATTTT GCTGATTGTT 
    TGCTTCATCA GAAGAAACAA GGGTGGTAAA TATCCAGTTA AAGAAAAGGA AGATGCCCAT 
    GCTGACCCTG AAATCCAGCC TATGAAGGAA GATGATGGGA CATTTGGAGA ATACAGGTCT 
    CTTGAAAGTG ATGCAGAAGA CCACAAGCCT TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC 
    AGGACTGTGA AAAAAGAAGA TAGTGACGAC AGCCTAGTTG ACTATGGAGA AGGGGTTAAT 
    GGCCAGTTCA ATGAGGATGG CTCCTTTATT GGACAATACA GTGGTAAGAA AGAGAAAGAG 
    CCGGCTGAAG GAAACGAAAG CTCAGAGGCA CCTTCTCCTG TCAACGCCAT GAATTCCTTT 
    GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514561.1
    CDS475..4380
    Translation

    Target ORF information:

    RefSeq Version XM_011516259.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516259.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGATGTCCC AAATCCTCCC 
    TTTGACTTAG AACTGACAGA TCAACTTGAC AAAAGTGTTC AGCTGTCATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATCGAAT ATGAAGATGC AATGCACAAG 
    CCAGGGCTGT GGCACCACCA AACTGAAGTT TCTGGAACAC AGACCACAGC CCAGCTGAAG 
    CTGTCTCCTT ACGTGAACTA CTCCTTCCGC GTGATGGCAG TGAACAGCAT TGGGAAGAGC 
    TTGCCCAGCG AGGCGTCTGA GCAGTATTTG ACGAAAGCCT CAGAACCAGA TAAAAACCCC 
    ACAGCTGTGG AAGGACTGGG ATCAGAGCCT GATAATTTGG TGATTACGTG GAAGCCCTTG 
    AATGGTTTCG AATCTAATGG GCCAGGCCTT CAGTACAAAG TTAGCTGGCG CCAGAAAGAT 
    GGTGATGATG AATGGACATC TGTGGTTGTG GCAAATGTAT CCAAATATAT TGTCTCAGGC 
    ACGCCAACCT TTGTTCCATA CCTGATCAAA GTTCAGGCCC TGAATGACAT GGGGTTTGCC 
    CCCGAGCCAG CTGTAGTCAT GGGACATTCT GGAGAAGACC TCCCAATGGT GGCTCCTGGG 
    AACGTGCGTG TGAATGTGGT GAACAGTACC TTAGCCGAGG TGCACTGGGA CCCAGTACCT 
    CTGAAAAGCA TCCGAGGACA CCTACAAGGC TATCGGATTT ACTATTGGAA GACCCAGAGT 
    TCATCTAAAA GAAACAGACG TCACATTGAG AAAAAGATCC TCACCTTCCA AGGCAGCAAG 
    ACTCATGGCA TGTTGCCGGG GCTAGAGCCC TTTAGCCACT ACACACTGAA TGTCCGAGTG 
    GTCAATGGGA AAGGGGAGGG CCCAGCCAGC CCTGACAGAG TCTTTAATAC TCCAGAAGGA 
    GTCCCCAGTG CTCCCTCGTC TTTGAAGATT GTGAATCCAA CACTGGACTC TCTCACTTTG 
    GAATGGGATC CACCGAGCCA CCCGAATGGC ATTTTGACAG AGTACACCTT AAAGTATCAG 
    CCAATTAACA GCACACATGA ATTAGGCCCT CTGGTAGATT TGAAAATTCC TGCCAACAAG 
    ACACGGTGGA CTTTAAAAAA TTTAAATTTC AGCACTCGAT ATAAGTTTTA TTTCTATGCA 
    CAAACATCAG CAGGATCAGG AAGTCAAATT ACAGAGGAAG CAGTAACAAC TGTGGATGAA 
    GGTAAGATGG CTGGTATTCT TCCACCTGAT GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT 
    CCCAGGATCA GCAATCTTAC TGCTGCAGCT GCTGAGACCT ATGCCAATAT CAGTTGGGAA 
    TATGAGGGAC CAGAGCATGT GAACTTTTAT GTTGAATATG GTGTAGCAGG CAGCAAAGAA 
    GAATGGAGAA AAGAAATTGT AAATGGTTCT CGGAGCTTCT TTGGGTTAAA GGGTCTAATG 
    CCAGGAACAG CATACAAAGT TCGAGTTGGT GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA 
    GAGGATGTGT TTGAGACAGG CCCAGCGATG GCAAGCCGGC AGGTGGATAT TGCAACTCAG 
    GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT GCTCTCCTTA TCTTAATTTT GCTGATTGTT 
    TGCTTCATCA GAAGAAACAA GGGTGGTAAA TATCCAGTTA AAGAAAAGGA AGATGCCCAT 
    GCTGACCCTG AAATCCAGCC TATGAAGGAA GATGATGGGA CATTTGGAGA ATACAGGTCT 
    CTTGAAAGTG ATGCAGAAGA CCACAAGCCT TTGAAAAAAG GAAGTCGAAC TCCTTCAGAC 
    AGGACTGTGA AAAAAGAAGA TAGTGACGAC AGCCTAGTTG ACTATGGAGA AGGGGTTAAT 
    GGCCAGTTCA ATGAGGATGG CTCCTTTATT GGACAATACA GTGGTAAGAA AGAGAAAGAG 
    CCGGCTGAAG GAAACGAAAG CTCAGAGGCA CCTTCTCCTG TCAACGCCAT GAATTCCTTT 
    GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516261.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514563.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu59331
    Clone ID Related Accession (Same CDS sequence) XM_011516261.2
    Accession Version XM_011516261.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3888bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516261.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGGTAAGAT GGCTGGTATT 
    CTTCCACCTG ATGTAGGTGC AGGCAAAGTT CAAGCAGTAA ATCCCAGGAT CAGCAATCTT 
    ACTGCTGCAG CTGCTGAGAC CTATGCCAAT ATCAGTTGGG AATATGAGGG ACCAGAGCAT 
    GTGAACTTTT ATGTTGAATA TGGTGTAGCA GGCAGCAAAG AAGAATGGAG AAAAGAAATT 
    GTAAATGGTT CTCGGAGCTT CTTTGGGTTA AAGGGTCTAA TGCCAGGAAC AGCATACAAA 
    GTTCGAGTTG GTGCTGTGGG GGACTCTGGT TTTGTGAGTT CAGAGGATGT GTTTGAGACA 
    GGCCCAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGGT CTCTTGAAAG TGATGCAGAA 
    GACCACAAGC CTTTGAAAAA AGGAAGTCGA ACTCCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGACG ACAGCCTAGT TGACTATGGA GAAGGGGTTA ATGGCCAGTT CAATGAGGAT 
    GGCTCCTTTA TTGGACAATA CAGTGGTAAG AAAGAGAAAG AGCCGGCTGA AGGAAACGAA 
    AGCTCAGAGG CACCTTCTCC TGTCAACGCC ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514563.1
    CDS475..4362
    Translation

    Target ORF information:

    RefSeq Version XM_011516261.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516261.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCTGGT ACAGCCTCCA 
    ACCATCACCC AACAGTCTCC AAAAGATTAC ATTATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAAG CCAAAGGGAA ACCGCCCCCA AGCTTTTCCT GGACCCGTAA TGGGACTCAT 
    TTTGACATCG ATAAAGACCC TCTGGTCACC ATGAAGCCTG GCACAGGAAC GCTCATAATT 
    AACATCATGA GCGAAGGGAA AGCTGAGACC TATGAAGGAG TCTATCAGTG TACAGCAAGG 
    AACGAACGCG GAGCTGCAGT TTCTAATAAC ATTGTTGTCC GCCCATCCAG ATCACCATTG 
    TGGACCAAAG AAAAACTTGA ACCAATCACA CTTCAAAGTG GTCAGTCTTT AGTACTTCCC 
    TGCAGACCCC CAATTGGATT ACCACCACCT ATAATATTTT GGATGGATAA TTCCTTTCAA 
    AGACTTCCAC AAAGTGAGAG AGTTTCTCAA GGTTTGAATG GGGACCTTTA TTTTTCCAAT 
    GTCCTCCCAG AGGACACCCG CGAAGACTAT ATCTGTTATG CTAGATTTAA TCATACTCAA 
    ACCATACAGC AGAAGCAACC TATTTCTGTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCAAG TAGAGAGAGG 
    CCACCAACAT TTTTAACTCC AGAAGGCAAT GCAAGTAACA AAGAGGAATT AAGAGGAAAT 
    GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA CTGCCTACCC CAATTATTTA CTGGGCAAAG 
    GAAGATGGAA TGCTACCCAA AAACAGGACA GTTTATAAGA ACTTTGAGAA AACCTTGCAG 
    ATCATTCATG TTTCAGAAGC AGACTCTGGA AATTACCAAT GTATAGCAAA AAACGCATTA 
    GGAGCCATCC ACCATACCAT TTCTGTTAGA GTTAAAGCGG CTCCATACTG GATCACAGCC 
    CCTCAAAATC TTGTGCTGTC CCCAGGAGAG GATGGGACCT TGATCTGCAG AGCTAATGGC 
    AACCCCAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCCCCTGAT 
    GACCCCAGCA GAAAAATAGA TGGCGATACC ATTATTTTTT CAAATGTTCA AGAAAGATCA 
    AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT GAATATGGAT ATTTACTGGC AAACGCATTT 
    GTAAATGTGC TGGCTGAGCC ACCACGAATC CTCACACCTG CAAACACACT CTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT ACTAGACTGT GCCTTCTTTG GGTCTCCTCT CCCAACCATC 
    GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT CTTCATGAAG ATATTTATGT TTTACATGAA 
    AATGGAACTT TGGAAATTCC TGTGGCCCAA AAGGACAGTA CAGGAACTTA TACGTGTGTT 
    GCAAGGAATA AATTAGGGAT GGCGAAGAAT GAAGTTCACT TAGAAATCAA AGATCCTACA 
    TGGATCGTTA AACAGCCCGA ATATGCAGTT GTGCAAAGAG GGAGCATGGT GTCCTTTGAA 
    TGCAAAGTGA AACATGATCA CACCTTATCC CTCACTGTCC TGTGGCTGAA GGACAACAGG 
    GAACTGCCCA GTGATGAAAG GTTCACTGTT GACAAGGATC ATCTAGTGGT AGCTGATGTC 
    AGTGACGATG ACAGCGGGAC CTACACGTGT GTGGCCAACA CCACTCTGGA CAGCGTCTCC 
    GCCAGCGCTG TGCTTAGCGT TGTTGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGGTAAGAT GGCTGGTATT 
    CTTCCACCTG ATGTAGGTGC AGGCAAAGTT CAAGCAGTAA ATCCCAGGAT CAGCAATCTT 
    ACTGCTGCAG CTGCTGAGAC CTATGCCAAT ATCAGTTGGG AATATGAGGG ACCAGAGCAT 
    GTGAACTTTT ATGTTGAATA TGGTGTAGCA GGCAGCAAAG AAGAATGGAG AAAAGAAATT 
    GTAAATGGTT CTCGGAGCTT CTTTGGGTTA AAGGGTCTAA TGCCAGGAAC AGCATACAAA 
    GTTCGAGTTG GTGCTGTGGG GGACTCTGGT TTTGTGAGTT CAGAGGATGT GTTTGAGACA 
    GGCCCAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGGT CTCTTGAAAG TGATGCAGAA 
    GACCACAAGC CTTTGAAAAA AGGAAGTCGA ACTCCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGACG ACAGCCTAGT TGACTATGGA GAAGGGGTTA ATGGCCAGTT CAATGAGGAT 
    GGCTCCTTTA TTGGACAATA CAGTGGTAAG AAAGAGAAAG AGCCGGCTGA AGGAAACGAA 
    AGCTCAGAGG CACCTTCTCC TGTCAACGCC ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516262.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514564.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu59332
    Clone ID Related Accession (Same CDS sequence) XM_011516262.1
    Accession Version XM_011516262.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3879bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCTGGTAT TCTTCCACCT 
    GATGTAGGTG CAGGCAAAGT TCAAGCAGTA AATCCCAGGA TCAGCAATCT TACTGCTGCA 
    GCTGCTGAGA CCTATGCCAA TATCAGTTGG GAATATGAGG GACCAGAGCA TGTGAACTTT 
    TATGTTGAAT ATGGTGTAGC AGGCAGCAAA GAAGAATGGA GAAAAGAAAT TGTAAATGGT 
    TCTCGGAGCT TCTTTGGGTT AAAGGGTCTA ATGCCAGGAA CAGCATACAA AGTTCGAGTT 
    GGTGCTGTGG GGGACTCTGG TTTTGTGAGT TCAGAGGATG TGTTTGAGAC AGGCCCAGCG 
    ATGGCAAGCC GGCAGGTGGA TATTGCAACT CAGGGCTGGT TCATTGGTCT GATGTGTGCT 
    GTTGCTCTCC TTATCTTAAT TTTGCTGATT GTTTGCTTCA TCAGAAGAAA CAAGGGTGGT 
    AAATATCCAG TTAAAGAAAA GGAAGATGCC CATGCTGACC CTGAAATCCA GCCTATGAAG 
    GAAGATGATG GGACATTTGG AGAATACAGG TCTCTTGAAA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514564.1
    CDS487..4365
    Translation

    Target ORF information:

    RefSeq Version XM_011516262.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516262.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GCTAAATCAA GTAGAGAGAG GCCACCAACA TTTTTAACTC CAGAAGGCAA TGCAAGTAAC 
    AAAGAGGAAT TAAGAGGAAA TGTGCTTTCA CTGGAGTGCA TTGCAGAAGG ACTGCCTACC 
    CCAATTATTT ACTGGGCAAA GGAAGATGGA ATGCTACCCA AAAACAGGAC AGTTTATAAG 
    AACTTTGAGA AAACCTTGCA GATCATTCAT GTTTCAGAAG CAGACTCTGG AAATTACCAA 
    TGTATAGCAA AAAACGCATT AGGAGCCATC CACCATACCA TTTCTGTTAG AGTTAAAGCG 
    GCTCCATACT GGATCACAGC CCCTCAAAAT CTTGTGCTGT CCCCAGGAGA GGATGGGACC 
    TTGATCTGCA GAGCTAATGG CAACCCCAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCCCCTGA TGACCCCAGC AGAAAAATAG ATGGCGATAC CATTATTTTT 
    TCAAATGTTC AAGAAAGATC AAGTGCAGTC TATCAGTGCA ATGCCTCTAA TGAATATGGA 
    TATTTACTGG CAAACGCATT TGTAAATGTG CTGGCTGAGC CACCACGAAT CCTCACACCT 
    GCAAACACAC TCTACCAGGT CATTGCAAAC AGGCCTGCTT TACTAGACTG TGCCTTCTTT 
    GGGTCTCCTC TCCCAACCAT CGAGTGGTTT AAAGGAGCTA AAGGAAGTGC TCTTCATGAA 
    GATATTTATG TTTTACATGA AAATGGAACT TTGGAAATTC CTGTGGCCCA AAAGGACAGT 
    ACAGGAACTT ATACGTGTGT TGCAAGGAAT AAATTAGGGA TGGCGAAGAA TGAAGTTCAC 
    TTAGAAATCA AAGATCCTAC ATGGATCGTT AAACAGCCCG AATATGCAGT TGTGCAAAGA 
    GGGAGCATGG TGTCCTTTGA ATGCAAAGTG AAACATGATC ACACCTTATC CCTCACTGTC 
    CTGTGGCTGA AGGACAACAG GGAACTGCCC AGTGATGAAA GGTTCACTGT TGACAAGGAT 
    CATCTAGTGG TAGCTGATGT CAGTGACGAT GACAGCGGGA CCTACACGTG TGTGGCCAAC 
    ACCACTCTGG ACAGCGTCTC CGCCAGCGCT GTGCTTAGCG TTGTTGCTCC TACTCCAACT 
    CCAGCTCCCG TTTACGATGT CCCAAATCCT CCCTTTGACT TAGAACTGAC AGATCAACTT 
    GACAAAAGTG TTCAGCTGTC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATCG AATATGAAGA TGCAATGCAC AAGCCAGGGC TGTGGCACCA CCAAACTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAGCTG AAGCTGTCTC CTTACGTGAA CTACTCCTTC 
    CGCGTGATGG CAGTGAACAG CATTGGGAAG AGCTTGCCCA GCGAGGCGTC TGAGCAGTAT 
    TTGACGAAAG CCTCAGAACC AGATAAAAAC CCCACAGCTG TGGAAGGACT GGGATCAGAG 
    CCTGATAATT TGGTGATTAC GTGGAAGCCC TTGAATGGTT TCGAATCTAA TGGGCCAGGC 
    CTTCAGTACA AAGTTAGCTG GCGCCAGAAA GATGGTGATG ATGAATGGAC ATCTGTGGTT 
    GTGGCAAATG TATCCAAATA TATTGTCTCA GGCACGCCAA CCTTTGTTCC ATACCTGATC 
    AAAGTTCAGG CCCTGAATGA CATGGGGTTT GCCCCCGAGC CAGCTGTAGT CATGGGACAT 
    TCTGGAGAAG ACCTCCCAAT GGTGGCTCCT GGGAACGTGC GTGTGAATGT GGTGAACAGT 
    ACCTTAGCCG AGGTGCACTG GGACCCAGTA CCTCTGAAAA GCATCCGAGG ACACCTACAA 
    GGCTATCGGA TTTACTATTG GAAGACCCAG AGTTCATCTA AAAGAAACAG ACGTCACATT 
    GAGAAAAAGA TCCTCACCTT CCAAGGCAGC AAGACTCATG GCATGTTGCC GGGGCTAGAG 
    CCCTTTAGCC ACTACACACT GAATGTCCGA GTGGTCAATG GGAAAGGGGA GGGCCCAGCC 
    AGCCCTGACA GAGTCTTTAA TACTCCAGAA GGAGTCCCCA GTGCTCCCTC GTCTTTGAAG 
    ATTGTGAATC CAACACTGGA CTCTCTCACT TTGGAATGGG ATCCACCGAG CCACCCGAAT 
    GGCATTTTGA CAGAGTACAC CTTAAAGTAT CAGCCAATTA ACAGCACACA TGAATTAGGC 
    CCTCTGGTAG ATTTGAAAAT TCCTGCCAAC AAGACACGGT GGACTTTAAA AAATTTAAAT 
    TTCAGCACTC GATATAAGTT TTATTTCTAT GCACAAACAT CAGCAGGATC AGGAAGTCAA 
    ATTACAGAGG AAGCAGTAAC AACTGTGGAT GAAGGTAAGA TGGCTGGTAT TCTTCCACCT 
    GATGTAGGTG CAGGCAAAGT TCAAGCAGTA AATCCCAGGA TCAGCAATCT TACTGCTGCA 
    GCTGCTGAGA CCTATGCCAA TATCAGTTGG GAATATGAGG GACCAGAGCA TGTGAACTTT 
    TATGTTGAAT ATGGTGTAGC AGGCAGCAAA GAAGAATGGA GAAAAGAAAT TGTAAATGGT 
    TCTCGGAGCT TCTTTGGGTT AAAGGGTCTA ATGCCAGGAA CAGCATACAA AGTTCGAGTT 
    GGTGCTGTGG GGGACTCTGG TTTTGTGAGT TCAGAGGATG TGTTTGAGAC AGGCCCAGCG 
    ATGGCAAGCC GGCAGGTGGA TATTGCAACT CAGGGCTGGT TCATTGGTCT GATGTGTGCT 
    GTTGCTCTCC TTATCTTAAT TTTGCTGATT GTTTGCTTCA TCAGAAGAAA CAAGGGTGGT 
    AAATATCCAG TTAAAGAAAA GGAAGATGCC CATGCTGACC CTGAAATCCA GCCTATGAAG 
    GAAGATGATG GGACATTTGG AGAATACAGG TCTCTTGAAA GTGATGCAGA AGACCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACTCCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAC 
    GACAGCCTAG TTGACTATGG AGAAGGGGTT AATGGCCAGT TCAATGAGGA TGGCTCCTTT 
    ATTGGACAAT ACAGTGGTAA GAAAGAGAAA GAGCCGGCTG AAGGAAACGA AAGCTCAGAG 
    GCACCTTCTC CTGTCAACGC CATGAATTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516265.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514567.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X22, mRNA.
    Price & Availability↑
    CloneID OHu59335
    Clone ID Related Accession (Same CDS sequence) XM_011516265.2
    Accession Version XM_011516265.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3720bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X20
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011516265.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGAA AAGAAATTGT AAATGGTTCT 
    CGGAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG CCCAGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGGCTG TTTTCATTTG TTTCTTCTGC ATCCTTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514567.1
    CDS487..4206
    Translation

    Target ORF information:

    RefSeq Version XM_011516265.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516265.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGAA AAGAAATTGT AAATGGTTCT 
    CGGAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG CCCAGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGGCTG TTTTCATTTG TTTCTTCTGC ATCCTTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516266.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514568.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu59336
    Clone ID Related Accession (Same CDS sequence) XM_011516266.3
    Accession Version XM_011516266.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3693bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516266.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGAA AAGAAATTGT AAATGGTTCT 
    CGGAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG CCCAGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGACAG TAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514568.1
    CDS475..4167
    Translation

    Target ORF information:

    RefSeq Version XM_011516266.3
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516266.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGTTCA AGCAGTAAAT CCCAGGATCA GCAATCTTAC TGCTGCAGCT 
    GCTGAGACCT ATGCCAATAT CAGTTGGGAA TATGAGGGAC CAGAGCATGT GAACTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGAA AAGAAATTGT AAATGGTTCT 
    CGGAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGTGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG CCCAGCGATG 
    GCAAGCCGGC AGGTGGATAT TGCAACTCAG GGCTGGTTCA TTGGTCTGAT GTGTGCTGTT 
    GCTCTCCTTA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TATCCAGTTA AAGAAAAGGA AGATGCCCAT GCTGACCCTG AAATCCAGCC TATGAAGGAA 
    GATGATGGGA CATTTGGAGA ATACAGACAG TAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516267.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514569.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X21, mRNA.
    Price & Availability↑
    CloneID OHu59337
    Clone ID Related Accession (Same CDS sequence) XM_011516267.2 , XM_011516267.1
    Accession Version XM_011516267.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3657bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X19
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516267.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGGTC TCTTGAAAGT 
    GATGCAGAAG ACCACAAGCC TTTGAAAAAA GGAAGTCGAA CTCCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGACGA CAGCCTAGTT GACTATGGAG AAGGGGTTAA TGGCCAGTTC 
    AATGAGGATG GCTCCTTTAT TGGACAATAC AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA 
    GGAAACGAAA GCTCAGAGGC ACCTTCTCCT GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514569.1
    CDS475..4131
    Translation

    Target ORF information:

    RefSeq Version XM_011516267.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516267.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGGTC TCTTGAAAGT 
    GATGCAGAAG ACCACAAGCC TTTGAAAAAA GGAAGTCGAA CTCCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGACGA CAGCCTAGTT GACTATGGAG AAGGGGTTAA TGGCCAGTTC 
    AATGAGGATG GCTCCTTTAT TGGACAATAC AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA 
    GGAAACGAAA GCTCAGAGGC ACCTTCTCCT GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516267.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514569.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X24, mRNA.
    Price & Availability↑
    CloneID OHu59337
    Clone ID Related Accession (Same CDS sequence) XM_011516267.2 , XM_011516267.1
    Accession Version XM_011516267.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3657bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X22
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGGTC TCTTGAAAGT 
    GATGCAGAAG ACCACAAGCC TTTGAAAAAA GGAAGTCGAA CTCCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGACGA CAGCCTAGTT GACTATGGAG AAGGGGTTAA TGGCCAGTTC 
    AATGAGGATG GCTCCTTTAT TGGACAATAC AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA 
    GGAAACGAAA GCTCAGAGGC ACCTTCTCCT GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514569.1
    CDS487..4143
    Translation

    Target ORF information:

    RefSeq Version XM_011516267.1
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X24, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516267.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CTGGTATTCT TCCACCTGAT 
    GTAGGTGCAG GCAAAGCGAT GGCAAGCCGG CAGGTGGATA TTGCAACTCA GGGCTGGTTC 
    ATTGGTCTGA TGTGTGCTGT TGCTCTCCTT ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATATCCAGTT AAAGAAAAGG AAGATGCCCA TGCTGACCCT 
    GAAATCCAGC CTATGAAGGA AGATGATGGG ACATTTGGAG AATACAGGTC TCTTGAAAGT 
    GATGCAGAAG ACCACAAGCC TTTGAAAAAA GGAAGTCGAA CTCCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGACGA CAGCCTAGTT GACTATGGAG AAGGGGTTAA TGGCCAGTTC 
    AATGAGGATG GCTCCTTTAT TGGACAATAC AGTGGTAAGA AAGAGAAAGA GCCGGCTGAA 
    GGAAACGAAA GCTCAGAGGC ACCTTCTCCT GTCAACGCCA TGAATTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516268.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514570.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X23, mRNA.
    Price & Availability↑
    CloneID OHu59338
    Clone ID Related Accession (Same CDS sequence) XM_011516268.2
    Accession Version XM_011516268.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3648bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X21
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011516268.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGTGGATGA ATTGAATGAC ACTATAGCTG CTAATTTGAG TGACACTGAG 
    TTTTATGGTG CTAAATCAAG TAGAGAGAGG CCACCAACAT TTTTAACTCC AGAAGGCAAT 
    GCAAGTAACA AAGAGGAATT AAGAGGAAAT GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA 
    CTGCCTACCC CAATTATTTA CTGGGCAAAG GAAGATGGAA TGCTACCCAA AAACAGGACA 
    GTTTATAAGA ACTTTGAGAA AACCTTGCAG ATCATTCATG TTTCAGAAGC AGACTCTGGA 
    AATTACCAAT GTATAGCAAA AAACGCATTA GGAGCCATCC ACCATACCAT TTCTGTTAGA 
    GTTAAAGCGG CTCCATACTG GATCACAGCC CCTCAAAATC TTGTGCTGTC CCCAGGAGAG 
    GATGGGACCT TGATCTGCAG AGCTAATGGC AACCCCAAAC CCAGAATTAG CTGGTTAACA 
    AATGGAGTCC CAATAGAAAT TGCCCCTGAT GACCCCAGCA GAAAAATAGA TGGCGATACC 
    ATTATTTTTT CAAATGTTCA AGAAAGATCA AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT 
    GAATATGGAT ATTTACTGGC AAACGCATTT GTAAATGTGC TGGCTGAGCC ACCACGAATC 
    CTCACACCTG CAAACACACT CTACCAGGTC ATTGCAAACA GGCCTGCTTT ACTAGACTGT 
    GCCTTCTTTG GGTCTCCTCT CCCAACCATC GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT 
    CTTCATGAAG ATATTTATGT TTTACATGAA AATGGAACTT TGGAAATTCC TGTGGCCCAA 
    AAGGACAGTA CAGGAACTTA TACGTGTGTT GCAAGGAATA AATTAGGGAT GGCGAAGAAT 
    GAAGTTCACT TAGAAATCAA AGATCCTACA TGGATCGTTA AACAGCCCGA ATATGCAGTT 
    GTGCAAAGAG GGAGCATGGT GTCCTTTGAA TGCAAAGTGA AACATGATCA CACCTTATCC 
    CTCACTGTCC TGTGGCTGAA GGACAACAGG GAACTGCCCA GTGATGAAAG GTTCACTGTT 
    GACAAGGATC ATCTAGTGGT AGCTGATGTC AGTGACGATG ACAGCGGGAC CTACACGTGT 
    GTGGCCAACA CCACTCTGGA CAGCGTCTCC GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT 
    ACTCCAACTC CAGCTCCCGT TTACGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGGTAAGAT GGCTGGTATT 
    CTTCCACCTG ATGTAGGTGC AGGCAAAGTT CAAGCAGTAA ATCCCAGGAT CAGCAATCTT 
    ACTGCTGCAG CTGCTGAGAC CTATGCCAAT ATCAGTTGGG AATATGAGGG ACCAGAGCAT 
    GTGAACTTTT ATGTTGAATA TGGTGTAGCA GGCAGCAAAG AAGAATGGAG AAAAGAAATT 
    GTAAATGGTT CTCGGAGCTT CTTTGGGTTA AAGGGTCTAA TGCCAGGAAC AGCATACAAA 
    GTTCGAGTTG GTGCTGTGGG GGACTCTGGT TTTGTGAGTT CAGAGGATGT GTTTGAGACA 
    GGCCCAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGGT CTCTTGAAAG TGATGCAGAA 
    GACCACAAGC CTTTGAAAAA AGGAAGTCGA ACTCCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGACG ACAGCCTAGT TGACTATGGA GAAGGGGTTA ATGGCCAGTT CAATGAGGAT 
    GGCTCCTTTA TTGGACAATA CAGTGGTAAG AAAGAGAAAG AGCCGGCTGA AGGAAACGAA 
    AGCTCAGAGG CACCTTCTCC TGTCAACGCC ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514570.1
    CDS590..4237
    Translation

    Target ORF information:

    RefSeq Version XM_011516268.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516268.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGAAGCCTG GCACAGGAAC GCTCATAATT AACATCATGA GCGAAGGGAA AGCTGAGACC 
    TATGAAGGAG TCTATCAGTG TACAGCAAGG AACGAACGCG GAGCTGCAGT TTCTAATAAC 
    ATTGTTGTCC GCCCATCCAG ATCACCATTG TGGACCAAAG AAAAACTTGA ACCAATCACA 
    CTTCAAAGTG GTCAGTCTTT AGTACTTCCC TGCAGACCCC CAATTGGATT ACCACCACCT 
    ATAATATTTT GGATGGATAA TTCCTTTCAA AGACTTCCAC AAAGTGAGAG AGTTTCTCAA 
    GGTTTGAATG GGGACCTTTA TTTTTCCAAT GTCCTCCCAG AGGACACCCG CGAAGACTAT 
    ATCTGTTATG CTAGATTTAA TCATACTCAA ACCATACAGC AGAAGCAACC TATTTCTGTG 
    AAGGTGATTT CAGTGGATGA ATTGAATGAC ACTATAGCTG CTAATTTGAG TGACACTGAG 
    TTTTATGGTG CTAAATCAAG TAGAGAGAGG CCACCAACAT TTTTAACTCC AGAAGGCAAT 
    GCAAGTAACA AAGAGGAATT AAGAGGAAAT GTGCTTTCAC TGGAGTGCAT TGCAGAAGGA 
    CTGCCTACCC CAATTATTTA CTGGGCAAAG GAAGATGGAA TGCTACCCAA AAACAGGACA 
    GTTTATAAGA ACTTTGAGAA AACCTTGCAG ATCATTCATG TTTCAGAAGC AGACTCTGGA 
    AATTACCAAT GTATAGCAAA AAACGCATTA GGAGCCATCC ACCATACCAT TTCTGTTAGA 
    GTTAAAGCGG CTCCATACTG GATCACAGCC CCTCAAAATC TTGTGCTGTC CCCAGGAGAG 
    GATGGGACCT TGATCTGCAG AGCTAATGGC AACCCCAAAC CCAGAATTAG CTGGTTAACA 
    AATGGAGTCC CAATAGAAAT TGCCCCTGAT GACCCCAGCA GAAAAATAGA TGGCGATACC 
    ATTATTTTTT CAAATGTTCA AGAAAGATCA AGTGCAGTCT ATCAGTGCAA TGCCTCTAAT 
    GAATATGGAT ATTTACTGGC AAACGCATTT GTAAATGTGC TGGCTGAGCC ACCACGAATC 
    CTCACACCTG CAAACACACT CTACCAGGTC ATTGCAAACA GGCCTGCTTT ACTAGACTGT 
    GCCTTCTTTG GGTCTCCTCT CCCAACCATC GAGTGGTTTA AAGGAGCTAA AGGAAGTGCT 
    CTTCATGAAG ATATTTATGT TTTACATGAA AATGGAACTT TGGAAATTCC TGTGGCCCAA 
    AAGGACAGTA CAGGAACTTA TACGTGTGTT GCAAGGAATA AATTAGGGAT GGCGAAGAAT 
    GAAGTTCACT TAGAAATCAA AGATCCTACA TGGATCGTTA AACAGCCCGA ATATGCAGTT 
    GTGCAAAGAG GGAGCATGGT GTCCTTTGAA TGCAAAGTGA AACATGATCA CACCTTATCC 
    CTCACTGTCC TGTGGCTGAA GGACAACAGG GAACTGCCCA GTGATGAAAG GTTCACTGTT 
    GACAAGGATC ATCTAGTGGT AGCTGATGTC AGTGACGATG ACAGCGGGAC CTACACGTGT 
    GTGGCCAACA CCACTCTGGA CAGCGTCTCC GCCAGCGCTG TGCTTAGCGT TGTTGCTCCT 
    ACTCCAACTC CAGCTCCCGT TTACGATGTC CCAAATCCTC CCTTTGACTT AGAACTGACA 
    GATCAACTTG ACAAAAGTGT TCAGCTGTCA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATCGA ATATGAAGAT GCAATGCACA AGCCAGGGCT GTGGCACCAC 
    CAAACTGAAG TTTCTGGAAC ACAGACCACA GCCCAGCTGA AGCTGTCTCC TTACGTGAAC 
    TACTCCTTCC GCGTGATGGC AGTGAACAGC ATTGGGAAGA GCTTGCCCAG CGAGGCGTCT 
    GAGCAGTATT TGACGAAAGC CTCAGAACCA GATAAAAACC CCACAGCTGT GGAAGGACTG 
    GGATCAGAGC CTGATAATTT GGTGATTACG TGGAAGCCCT TGAATGGTTT CGAATCTAAT 
    GGGCCAGGCC TTCAGTACAA AGTTAGCTGG CGCCAGAAAG ATGGTGATGA TGAATGGACA 
    TCTGTGGTTG TGGCAAATGT ATCCAAATAT ATTGTCTCAG GCACGCCAAC CTTTGTTCCA 
    TACCTGATCA AAGTTCAGGC CCTGAATGAC ATGGGGTTTG CCCCCGAGCC AGCTGTAGTC 
    ATGGGACATT CTGGAGAAGA CCTCCCAATG GTGGCTCCTG GGAACGTGCG TGTGAATGTG 
    GTGAACAGTA CCTTAGCCGA GGTGCACTGG GACCCAGTAC CTCTGAAAAG CATCCGAGGA 
    CACCTACAAG GCTATCGGAT TTACTATTGG AAGACCCAGA GTTCATCTAA AAGAAACAGA 
    CGTCACATTG AGAAAAAGAT CCTCACCTTC CAAGGCAGCA AGACTCATGG CATGTTGCCG 
    GGGCTAGAGC CCTTTAGCCA CTACACACTG AATGTCCGAG TGGTCAATGG GAAAGGGGAG 
    GGCCCAGCCA GCCCTGACAG AGTCTTTAAT ACTCCAGAAG GAGTCCCCAG TGCTCCCTCG 
    TCTTTGAAGA TTGTGAATCC AACACTGGAC TCTCTCACTT TGGAATGGGA TCCACCGAGC 
    CACCCGAATG GCATTTTGAC AGAGTACACC TTAAAGTATC AGCCAATTAA CAGCACACAT 
    GAATTAGGCC CTCTGGTAGA TTTGAAAATT CCTGCCAACA AGACACGGTG GACTTTAAAA 
    AATTTAAATT TCAGCACTCG ATATAAGTTT TATTTCTATG CACAAACATC AGCAGGATCA 
    GGAAGTCAAA TTACAGAGGA AGCAGTAACA ACTGTGGATG AAGGTAAGAT GGCTGGTATT 
    CTTCCACCTG ATGTAGGTGC AGGCAAAGTT CAAGCAGTAA ATCCCAGGAT CAGCAATCTT 
    ACTGCTGCAG CTGCTGAGAC CTATGCCAAT ATCAGTTGGG AATATGAGGG ACCAGAGCAT 
    GTGAACTTTT ATGTTGAATA TGGTGTAGCA GGCAGCAAAG AAGAATGGAG AAAAGAAATT 
    GTAAATGGTT CTCGGAGCTT CTTTGGGTTA AAGGGTCTAA TGCCAGGAAC AGCATACAAA 
    GTTCGAGTTG GTGCTGTGGG GGACTCTGGT TTTGTGAGTT CAGAGGATGT GTTTGAGACA 
    GGCCCAGCGA TGGCAAGCCG GCAGGTGGAT ATTGCAACTC AGGGCTGGTT CATTGGTCTG 
    ATGTGTGCTG TTGCTCTCCT TATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATATCCAGT TAAAGAAAAG GAAGATGCCC ATGCTGACCC TGAAATCCAG 
    CCTATGAAGG AAGATGATGG GACATTTGGA GAATACAGGT CTCTTGAAAG TGATGCAGAA 
    GACCACAAGC CTTTGAAAAA AGGAAGTCGA ACTCCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGACG ACAGCCTAGT TGACTATGGA GAAGGGGTTA ATGGCCAGTT CAATGAGGAT 
    GGCTCCTTTA TTGGACAATA CAGTGGTAAG AAAGAGAAAG AGCCGGCTGA AGGAAACGAA 
    AGCTCAGAGG CACCTTCTCC TGTCAACGCC ATGAATTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    NRCAM ( XM_011516269.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514571.1 Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X25, mRNA.
    Price & Availability↑
    CloneID OHu59339
    Clone ID Related Accession (Same CDS sequence) XM_011516269.2
    Accession Version XM_011516269.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3621bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product neuronal cell adhesion molecule isoform X23
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011516269.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CGATGGCAAG CCGGCAGGTG 
    GATATTGCAA CTCAGGGCTG GTTCATTGGT CTGATGTGTG CTGTTGCTCT CCTTATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATATCC AGTTAAAGAA 
    AAGGAAGATG CCCATGCTGA CCCTGAAATC CAGCCTATGA AGGAAGATGA TGGGACATTT 
    GGAGAATACA GGTCTCTTGA AAGTGATGCA GAAGACCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACTCCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ACGACAGCCT AGTTGACTAT 
    GGAGAAGGGG TTAATGGCCA GTTCAATGAG GATGGCTCCT TTATTGGACA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC GAAAGCTCAG AGGCACCTTC TCCTGTCAAC 
    GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011514571.1
    CDS475..4095
    Translation

    Target ORF information:

    RefSeq Version XM_011516269.2
    Organism Homo sapiens(human)
    Definition Homo sapiens neuronal cell adhesion molecule (NRCAM), transcript variant X25, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011516269.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAAAAGAAG CGCTTATCTG CGGGCAGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT TAGTGCACTG GAAGTACCTC TTGATCCAAA ACTTCTTGAA 
    GACTTGGTAC AGCCTCCAAC CATCACCCAA CAGTCTCCAA AAGATTACAT TATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAAGCC AAAGGGAAAC CGCCCCCAAG CTTTTCCTGG 
    ACCCGTAATG GGACTCATTT TGACATCGAT AAAGACCCTC TGGTCACCAT GAAGCCTGGC 
    ACAGGAACGC TCATAATTAA CATCATGAGC GAAGGGAAAG CTGAGACCTA TGAAGGAGTC 
    TATCAGTGTA CAGCAAGGAA CGAACGCGGA GCTGCAGTTT CTAATAACAT TGTTGTCCGC 
    CCATCCAGAT CACCATTGTG GACCAAAGAA AAACTTGAAC CAATCACACT TCAAAGTGGT 
    CAGTCTTTAG TACTTCCCTG CAGACCCCCA ATTGGATTAC CACCACCTAT AATATTTTGG 
    ATGGATAATT CCTTTCAAAG ACTTCCACAA AGTGAGAGAG TTTCTCAAGG TTTGAATGGG 
    GACCTTTATT TTTCCAATGT CCTCCCAGAG GACACCCGCG AAGACTATAT CTGTTATGCT 
    AGATTTAATC ATACTCAAAC CATACAGCAG AAGCAACCTA TTTCTGTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCAAGTA GAGAGAGGCC ACCAACATTT TTAACTCCAG AAGGCAATGC AAGTAACAAA 
    GAGGAATTAA GAGGAAATGT GCTTTCACTG GAGTGCATTG CAGAAGGACT GCCTACCCCA 
    ATTATTTACT GGGCAAAGGA AGATGGAATG CTACCCAAAA ACAGGACAGT TTATAAGAAC 
    TTTGAGAAAA CCTTGCAGAT CATTCATGTT TCAGAAGCAG ACTCTGGAAA TTACCAATGT 
    ATAGCAAAAA ACGCATTAGG AGCCATCCAC CATACCATTT CTGTTAGAGT TAAAGCGGCT 
    CCATACTGGA TCACAGCCCC TCAAAATCTT GTGCTGTCCC CAGGAGAGGA TGGGACCTTG 
    ATCTGCAGAG CTAATGGCAA CCCCAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CCCCTGATGA CCCCAGCAGA AAAATAGATG GCGATACCAT TATTTTTTCA 
    AATGTTCAAG AAAGATCAAG TGCAGTCTAT CAGTGCAATG CCTCTAATGA ATATGGATAT 
    TTACTGGCAA ACGCATTTGT AAATGTGCTG GCTGAGCCAC CACGAATCCT CACACCTGCA 
    AACACACTCT ACCAGGTCAT TGCAAACAGG CCTGCTTTAC TAGACTGTGC CTTCTTTGGG 
    TCTCCTCTCC CAACCATCGA GTGGTTTAAA GGAGCTAAAG GAAGTGCTCT TCATGAAGAT 
    ATTTATGTTT TACATGAAAA TGGAACTTTG GAAATTCCTG TGGCCCAAAA GGACAGTACA 
    GGAACTTATA CGTGTGTTGC AAGGAATAAA TTAGGGATGG CGAAGAATGA AGTTCACTTA 
    GAAATCAAAG ATCCTACATG GATCGTTAAA CAGCCCGAAT ATGCAGTTGT GCAAAGAGGG 
    AGCATGGTGT CCTTTGAATG CAAAGTGAAA CATGATCACA CCTTATCCCT CACTGTCCTG 
    TGGCTGAAGG ACAACAGGGA ACTGCCCAGT GATGAAAGGT TCACTGTTGA CAAGGATCAT 
    CTAGTGGTAG CTGATGTCAG TGACGATGAC AGCGGGACCT ACACGTGTGT GGCCAACACC 
    ACTCTGGACA GCGTCTCCGC CAGCGCTGTG CTTAGCGTTG TTGCTCCTAC TCCAACTCCA 
    GCTCCCGTTT ACGATGTCCC AAATCCTCCC TTTGACTTAG AACTGACAGA TCAACTTGAC 
    AAAAGTGTTC AGCTGTCATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATCGAAT ATGAAGATGC AATGCACAAG CCAGGGCTGT GGCACCACCA AACTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAGCTGAAG CTGTCTCCTT ACGTGAACTA CTCCTTCCGC 
    GTGATGGCAG TGAACAGCAT TGGGAAGAGC TTGCCCAGCG AGGCGTCTGA GCAGTATTTG 
    ACGAAAGCCT CAGAACCAGA TAAAAACCCC ACAGCTGTGG AAGGACTGGG ATCAGAGCCT 
    GATAATTTGG TGATTACGTG GAAGCCCTTG AATGGTTTCG AATCTAATGG GCCAGGCCTT 
    CAGTACAAAG TTAGCTGGCG CCAGAAAGAT GGTGATGATG AATGGACATC TGTGGTTGTG 
    GCAAATGTAT CCAAATATAT TGTCTCAGGC ACGCCAACCT TTGTTCCATA CCTGATCAAA 
    GTTCAGGCCC TGAATGACAT GGGGTTTGCC CCCGAGCCAG CTGTAGTCAT GGGACATTCT 
    GGAGAAGACC TCCCAATGGT GGCTCCTGGG AACGTGCGTG TGAATGTGGT GAACAGTACC 
    TTAGCCGAGG TGCACTGGGA CCCAGTACCT CTGAAAAGCA TCCGAGGACA CCTACAAGGC 
    TATCGGATTT ACTATTGGAA GACCCAGAGT TCATCTAAAA GAAACAGACG TCACATTGAG 
    AAAAAGATCC TCACCTTCCA AGGCAGCAAG ACTCATGGCA TGTTGCCGGG GCTAGAGCCC 
    TTTAGCCACT ACACACTGAA TGTCCGAGTG GTCAATGGGA AAGGGGAGGG CCCAGCCAGC 
    CCTGACAGAG TCTTTAATAC TCCAGAAGGA GTCCCCAGTG CTCCCTCGTC TTTGAAGATT 
    GTGAATCCAA CACTGGACTC TCTCACTTTG GAATGGGATC CACCGAGCCA CCCGAATGGC 
    ATTTTGACAG AGTACACCTT AAAGTATCAG CCAATTAACA GCACACATGA ATTAGGCCCT 
    CTGGTAGATT TGAAAATTCC TGCCAACAAG ACACGGTGGA CTTTAAAAAA TTTAAATTTC 
    AGCACTCGAT ATAAGTTTTA TTTCTATGCA CAAACATCAG CAGGATCAGG AAGTCAAATT 
    ACAGAGGAAG CAGTAACAAC TGTGGATGAA GGTAAGATGG CGATGGCAAG CCGGCAGGTG 
    GATATTGCAA CTCAGGGCTG GTTCATTGGT CTGATGTGTG CTGTTGCTCT CCTTATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATATCC AGTTAAAGAA 
    AAGGAAGATG CCCATGCTGA CCCTGAAATC CAGCCTATGA AGGAAGATGA TGGGACATTT 
    GGAGAATACA GGTCTCTTGA AAGTGATGCA GAAGACCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACTCCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ACGACAGCCT AGTTGACTAT 
    GGAGAAGGGG TTAATGGCCA GTTCAATGAG GATGGCTCCT TTATTGGACA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCGGC TGAAGGAAAC GAAAGCTCAG AGGCACCTTC TCCTGTCAAC 
    GCCATGAATT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

見積依頼

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050-3174-7589(受注専用)

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