DCC cDNA ORF clone, Homo sapiens(human)

The following DCC gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DCC 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
OHu28353 NM_005215.4
Latest version!
Homo sapiens DCC netrin 1 receptor (DCC), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
OHu87778 XM_017025568.1
Latest version!
Homo sapiens DCC netrin 1 receptor (DCC), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87779 XM_017025569.1
Latest version!
Homo sapiens DCC netrin 1 receptor (DCC), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu57204 XM_017025570.1
Latest version!
Homo sapiens DCC netrin 1 receptor (DCC), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu57204 XM_011525844.2
Latest version!
Homo sapiens DCC netrin 1 receptor (DCC), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu57203 XM_011525843.1
Latest version!
Homo sapiens DCC netrin 1 receptor (DCC), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu28353 NM_005215.3 Homo sapiens DCC netrin 1 receptor (DCC), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

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

  • Reference Sequences (Refseq)
    CloneID OHu28353
    Clone ID Related Accession (Same CDS sequence) NM_005215.3 , NM_005215.4
    Accession Version NM_005215.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4344bp)
    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 2019-12-30
    Organism Homo sapiens(human)
    Product netrin receptor DCC
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC011155.13, X76132.1, BC036524.1 and AC103949.6. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_005215.3. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript 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 :: X76132.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN03267772, SAMN03465403 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000442544.7/ ENSP00000389140.2 RefSeq Select criteria :: based on conservation, longest protein ##RefSeq-Attributes-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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAGAATA GTCTTAGATG TGTTTGGGTA CCCAAGCTGG CTTTTGTACT CTTCGGAGCT 
    TCCTTGTTCA GCGCGCATCT TCAAGTAACC GGTTTTCAAA TTAAAGCTTT CACAGCACTG
    CGCTTCCTCT CAGAACCTTC TGATGCCGTC ACAATGCGGG GAGGAAATGT CCTCCTCGAC
    TGCTCCGCGG AGTCCGACCG AGGAGTTCCA GTGATCAAGT GGAAGAAAGA TGGCATTCAT
    CTGGCCTTGG GAATGGATGA AAGGAAGCAG CAACTTTCAA ATGGGTCTCT GCTGATACAA
    AACATACTTC ATTCCAGACA CCACAAGCCA GATGAGGGAC TTTACCAATG TGAGGCATCT
    TTAGGAGATT CTGGCTCAAT TATTAGTCGG ACAGCAAAAG TTGCAGTAGC AGGACCACTG
    AGGTTCCTTT CACAGACAGA ATCTGTCACA GCCTTCATGG GAGACACAGT GCTACTCAAG
    TGTGAAGTCA TTGGGGAGCC CATGCCAACA ATCCACTGGC AGAAGAACCA ACAAGACCTG
    ACTCCAATCC CAGGTGACTC CCGAGTGGTG GTCTTGCCCT CTGGAGCATT GCAGATCAGC
    CGACTCCAAC CGGGGGACAT TGGAATTTAC CGATGCTCAG CTCGAAATCC AGCCAGCTCA
    AGAACAGGAA ATGAAGCAGA AGTCAGAATT TTATCAGATC CAGGACTGCA TAGACAGCTG
    TATTTTCTGC AAAGACCATC CAATGTAGTA GCCATTGAAG GAAAAGATGC TGTCCTGGAA
    TGTTGTGTTT CTGGCTATCC TCCACCAAGT TTTACCTGGT TACGAGGCGA GGAAGTCATC
    CAACTCAGGT CTAAAAAGTA TTCTTTATTG GGTGGAAGCA ACTTGCTTAT CTCCAATGTG
    ACAGATGATG ACAGTGGAAT GTATACCTGT GTTGTCACAT ATAAAAATGA GAATATTAGT
    GCCTCTGCAG AGCTCACAGT CTTGGTTCCG CCATGGTTTT TAAATCATCC TTCCAACCTG
    TATGCCTATG AAAGCATGGA TATTGAGTTT GAATGTACAG TCTCTGGAAA GCCTGTGCCC
    ACTGTGAATT GGATGAAGAA TGGAGATGTG GTCATTCCTA GTGATTATTT TCAGATAGTG
    GGAGGAAGCA ACTTACGGAT ACTTGGGGTG GTGAAGTCAG ATGAAGGCTT TTATCAATGT
    GTGGCTGAAA ATGAGGCTGG AAATGCCCAG ACCAGTGCAC AGCTCATTGT CCCTAAGCCT
    GCTATCCCAA GCTCCAGTGT CCTCCCTTCG GCTCCCAGAG ATGTGGTCCC TGTCTTGGTT
    TCCAGCCGAT TTGTCCGTCT CAGCTGGCGC CCACCTGCAG AAGCGAAAGG GAACATTCAA
    ACTTTCACGG TCTTTTTCTC CAGAGAAGGT GACAACAGGG AACGAGCATT GAATACAACA
    CAGCCTGGGT CCCTTCAGCT CACTGTGGGA AACCTGAAGC CAGAAGCCAT GTACACCTTT
    CGAGTTGTGG CTTACAATGA ATGGGGACCG GGAGAGAGTT CTCAACCCAT CAAGGTGGCC
    ACACAGCCTG AGTTGCAAGT TCCAGGGCCA GTAGAAAACC TGCAAGCTGT ATCTACCTCA
    CCTACCTCAA TTCTTATTAC CTGGGAACCC CCTGCCTATG CAAACGGTCC AGTCCAAGGT
    TACAGATTGT TCTGCACTGA GGTGTCCACA GGAAAAGAAC AGAATATAGA GGTTGATGGA
    CTATCTTATA AACTGGAAGG CCTGAAAAAA TTCACCGAAT ATAGTCTTCG ATTCTTAGCT
    TATAATCGCT ATGGTCCGGG CGTCTCTACT GATGATATAA CAGTGGTTAC ACTTTCTGAC
    GTGCCAAGTG CCCCGCCTCA GAACGTCTCC CTGGAAGTGG TCAATTCAAG AAGTATCAAA
    GTTAGCTGGC TGCCTCCTCC ATCAGGAACA CAAAATGGAT TTATTACCGG CTATAAAATT
    CGACACAGAA AGACGACCCG CAGGGGTGAG ATGGAAACAC TGGAGCCAAA CAACCTCTGG
    TACCTATTCA CAGGACTGGA GAAAGGAAGT CAGTACAGTT TCCAGGTGTC AGCCATGACA
    GTCAATGGTA CTGGACCACC TTCCAACTGG TATACTGCAG AGACTCCAGA GAATGATCTA
    GATGAATCTC AAGTTCCTGA TCAACCAAGC TCTCTTCATG TGAGGCCCCA GACTAACTGC
    ATCATCATGA GTTGGACTCC TCCCTTGAAC CCAAACATCG TGGTGCGAGG TTATATTATC
    GGTTATGGCG TTGGGAGCCC TTACGCTGAG ACAGTGCGTG TGGACAGCAA GCAGCGATAT
    TATTCCATTG AGAGGTTAGA GTCAAGTTCC CATTATGTAA TCTCCCTAAA AGCTTTTAAC
    AATGCCGGAG AAGGAGTTCC TCTTTATGAA AGTGCCACCA CCAGGTCTAT AACCGATCCC
    ACTGACCCAG TTGATTATTA TCCTTTGCTT GATGATTTCC CCACCTCGGT CCCAGATCTC
    TCCACCCCCA TGCTCCCACC AGTAGGTGTA CAGGCTGTGG CTCTTACCCA TGATGCTGTG
    AGGGTCAGCT GGGCAGACAA CTCTGTCCCT AAGAACCAAA AGACGTCTGA GGTGCGACTT
    TACACCGTCC GGTGGAGAAC CAGCTTTTCT GCAAGTGCAA AATACAAGTC AGAAGACACA
    ACATCTCTAA GTTACACAGC AACAGGCCTC AAACCAAACA CAATGTATGA ATTCTCGGTC
    ATGGTAACAA AAAACAGAAG GTCCAGTACT TGGAGCATGA CTGCACATGC CACCACGTAT
    GAAGCAGCCC CCACCTCTGC TCCCAAGGAC TTGACAGTCA TTACTAGGGA AGGGAAGCCT
    CGTGCCGTCA TTGTGAGTTG GCAGCCTCCC TTGGAAGCCA ATGGGAAAAT TACTGCTTAC
    ATCTTATTTT ATACCTTGGA CAAGAACATC CCAATTGATG ACTGGATTAT GGAAACAATC
    AGTGGTGATA GGCTTACTCA TCAAATCATG GATCTCAACC TTGATACTAT GTATTACTTT
    CGAATTCAAG CACGAAATTC AAAAGGAGTG GGGCCACTCT CTGATCCTAT CCTCTTCAGG
    ACTCTGAAAG TGGAACACCC TGACAAAATG GCTAATGACC AAGGTCGTCA TGGAGATGGA
    GGTTATTGGC CAGTTGATAC TAATTTGATT GATAGAAGCA CCCTAAATGA GCCGCCAATT
    GGACAAATGC ACCCCCCGCA TGGCAGTGTC ACTCCTCAGA AGAACAGCAA CCTGCTTGTG
    ATCATTGTGG TCACCGTTGG TGTCATCACA GTGCTGGTAG TGGTCATCGT GGCTGTGATT
    TGCACCCGAC GCTCTTCAGC CCAGCAGAGA AAGAAACGGG CCACCCACAG TGCTGGCAAA
    AGGAAGGGCA GCCAGAAGGA CCTCCGACCC CCTGATCTTT GGATCCATCA TGAAGAAATG
    GAGATGAAAA ATATTGAAAA GCCATCTGGC ACTGACCCTG CAGGAAGGGA CTCTCCCATC
    CAAAGTTGCC AAGACCTCAC ACCAGTCAGC CACAGCCAGT CAGAAACCCA ACTGGGAAGC
    AAAAGCACCT CTCATTCAGG TCAAGACACT GAGGAAGCAG GGAGCTCTAT GTCCACTCTG
    GAGAGGTCGC TGGCTGCACG CCGAGCCCCC CGGGCCAAGC TCATGATTCC CATGGATGCC
    CAGTCCAACA ATCCTGCTGT CGTGAGCGCC ATCCCGGTGC CAACGCTAGA AAGTGCCCAG
    TACCCAGGAA TCCTCCCGTC TCCCACCTGT GGATATCCCC ACCCGCAGTT CACTCTCCGG
    CCTGTGCCAT TCCCAACACT CTCAGTGGAC CGAGGTTTCG GAGCAGGAAG AAGTCAGTCA
    GTGAGTGAAG GACCAACTAC CCAACAACCA CCTATGCTGC CCCCATCTCA GCCTGAGCAT
    TCTAGCAGCG AGGAGGCACC AAGCAGAACC ATCCCCACAG CTTGTGTTCG ACCAACTCAC
    CCACTCCGCA GCTTTGCTAA TCCTTTGCTA CCTCCACCAA TGAGTGCAAT AGAACCGAAA
    GTCCCTTACA CACCACTTTT GTCTCAGCCA GGGCCCACTC TTCCTAAGAC CCATGTGAAA
    ACAGCCTCCC TTGGGTTGGC TGGAAAAGCA AGATCCCCTT TGCTTCCTGT GTCTGTGCCA
    ACAGCCCCTG AAGTGTCTGA GGAGAGCCAC AAACCAACAG AGGATTCAGC CAATGTGTAT
    GAACAGGATG ATCTGAGTGA ACAAATGGCA AGTTTGGAAG GACTCATGAA GCAGCTTAAT
    GCCATCACAG GCTCAGCCTT TTAA

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

    RefSeq NP_005206.2
    CDS592..4935
    Translation

    Target ORF information:

    RefSeq Version NM_005215.4
    Organism Homo sapiens(human)
    Definition Homo sapiens DCC netrin 1 receptor (DCC), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_005215.4

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAGAATA GTCTTAGATG TGTTTGGGTA CCCAAGCTGG CTTTTGTACT CTTCGGAGCT 
    TCCTTGTTCA GCGCGCATCT TCAAGTAACC GGTTTTCAAA TTAAAGCTTT CACAGCACTG
    CGCTTCCTCT CAGAACCTTC TGATGCCGTC ACAATGCGGG GAGGAAATGT CCTCCTCGAC
    TGCTCCGCGG AGTCCGACCG AGGAGTTCCA GTGATCAAGT GGAAGAAAGA TGGCATTCAT
    CTGGCCTTGG GAATGGATGA AAGGAAGCAG CAACTTTCAA ATGGGTCTCT GCTGATACAA
    AACATACTTC ATTCCAGACA CCACAAGCCA GATGAGGGAC TTTACCAATG TGAGGCATCT
    TTAGGAGATT CTGGCTCAAT TATTAGTCGG ACAGCAAAAG TTGCAGTAGC AGGACCACTG
    AGGTTCCTTT CACAGACAGA ATCTGTCACA GCCTTCATGG GAGACACAGT GCTACTCAAG
    TGTGAAGTCA TTGGGGAGCC CATGCCAACA ATCCACTGGC AGAAGAACCA ACAAGACCTG
    ACTCCAATCC CAGGTGACTC CCGAGTGGTG GTCTTGCCCT CTGGAGCATT GCAGATCAGC
    CGACTCCAAC CGGGGGACAT TGGAATTTAC CGATGCTCAG CTCGAAATCC AGCCAGCTCA
    AGAACAGGAA ATGAAGCAGA AGTCAGAATT TTATCAGATC CAGGACTGCA TAGACAGCTG
    TATTTTCTGC AAAGACCATC CAATGTAGTA GCCATTGAAG GAAAAGATGC TGTCCTGGAA
    TGTTGTGTTT CTGGCTATCC TCCACCAAGT TTTACCTGGT TACGAGGCGA GGAAGTCATC
    CAACTCAGGT CTAAAAAGTA TTCTTTATTG GGTGGAAGCA ACTTGCTTAT CTCCAATGTG
    ACAGATGATG ACAGTGGAAT GTATACCTGT GTTGTCACAT ATAAAAATGA GAATATTAGT
    GCCTCTGCAG AGCTCACAGT CTTGGTTCCG CCATGGTTTT TAAATCATCC TTCCAACCTG
    TATGCCTATG AAAGCATGGA TATTGAGTTT GAATGTACAG TCTCTGGAAA GCCTGTGCCC
    ACTGTGAATT GGATGAAGAA TGGAGATGTG GTCATTCCTA GTGATTATTT TCAGATAGTG
    GGAGGAAGCA ACTTACGGAT ACTTGGGGTG GTGAAGTCAG ATGAAGGCTT TTATCAATGT
    GTGGCTGAAA ATGAGGCTGG AAATGCCCAG ACCAGTGCAC AGCTCATTGT CCCTAAGCCT
    GCTATCCCAA GCTCCAGTGT CCTCCCTTCG GCTCCCAGAG ATGTGGTCCC TGTCTTGGTT
    TCCAGCCGAT TTGTCCGTCT CAGCTGGCGC CCACCTGCAG AAGCGAAAGG GAACATTCAA
    ACTTTCACGG TCTTTTTCTC CAGAGAAGGT GACAACAGGG AACGAGCATT GAATACAACA
    CAGCCTGGGT CCCTTCAGCT CACTGTGGGA AACCTGAAGC CAGAAGCCAT GTACACCTTT
    CGAGTTGTGG CTTACAATGA ATGGGGACCG GGAGAGAGTT CTCAACCCAT CAAGGTGGCC
    ACACAGCCTG AGTTGCAAGT TCCAGGGCCA GTAGAAAACC TGCAAGCTGT ATCTACCTCA
    CCTACCTCAA TTCTTATTAC CTGGGAACCC CCTGCCTATG CAAACGGTCC AGTCCAAGGT
    TACAGATTGT TCTGCACTGA GGTGTCCACA GGAAAAGAAC AGAATATAGA GGTTGATGGA
    CTATCTTATA AACTGGAAGG CCTGAAAAAA TTCACCGAAT ATAGTCTTCG ATTCTTAGCT
    TATAATCGCT ATGGTCCGGG CGTCTCTACT GATGATATAA CAGTGGTTAC ACTTTCTGAC
    GTGCCAAGTG CCCCGCCTCA GAACGTCTCC CTGGAAGTGG TCAATTCAAG AAGTATCAAA
    GTTAGCTGGC TGCCTCCTCC ATCAGGAACA CAAAATGGAT TTATTACCGG CTATAAAATT
    CGACACAGAA AGACGACCCG CAGGGGTGAG ATGGAAACAC TGGAGCCAAA CAACCTCTGG
    TACCTATTCA CAGGACTGGA GAAAGGAAGT CAGTACAGTT TCCAGGTGTC AGCCATGACA
    GTCAATGGTA CTGGACCACC TTCCAACTGG TATACTGCAG AGACTCCAGA GAATGATCTA
    GATGAATCTC AAGTTCCTGA TCAACCAAGC TCTCTTCATG TGAGGCCCCA GACTAACTGC
    ATCATCATGA GTTGGACTCC TCCCTTGAAC CCAAACATCG TGGTGCGAGG TTATATTATC
    GGTTATGGCG TTGGGAGCCC TTACGCTGAG ACAGTGCGTG TGGACAGCAA GCAGCGATAT
    TATTCCATTG AGAGGTTAGA GTCAAGTTCC CATTATGTAA TCTCCCTAAA AGCTTTTAAC
    AATGCCGGAG AAGGAGTTCC TCTTTATGAA AGTGCCACCA CCAGGTCTAT AACCGATCCC
    ACTGACCCAG TTGATTATTA TCCTTTGCTT GATGATTTCC CCACCTCGGT CCCAGATCTC
    TCCACCCCCA TGCTCCCACC AGTAGGTGTA CAGGCTGTGG CTCTTACCCA TGATGCTGTG
    AGGGTCAGCT GGGCAGACAA CTCTGTCCCT AAGAACCAAA AGACGTCTGA GGTGCGACTT
    TACACCGTCC GGTGGAGAAC CAGCTTTTCT GCAAGTGCAA AATACAAGTC AGAAGACACA
    ACATCTCTAA GTTACACAGC AACAGGCCTC AAACCAAACA CAATGTATGA ATTCTCGGTC
    ATGGTAACAA AAAACAGAAG GTCCAGTACT TGGAGCATGA CTGCACATGC CACCACGTAT
    GAAGCAGCCC CCACCTCTGC TCCCAAGGAC TTGACAGTCA TTACTAGGGA AGGGAAGCCT
    CGTGCCGTCA TTGTGAGTTG GCAGCCTCCC TTGGAAGCCA ATGGGAAAAT TACTGCTTAC
    ATCTTATTTT ATACCTTGGA CAAGAACATC CCAATTGATG ACTGGATTAT GGAAACAATC
    AGTGGTGATA GGCTTACTCA TCAAATCATG GATCTCAACC TTGATACTAT GTATTACTTT
    CGAATTCAAG CACGAAATTC AAAAGGAGTG GGGCCACTCT CTGATCCTAT CCTCTTCAGG
    ACTCTGAAAG TGGAACACCC TGACAAAATG GCTAATGACC AAGGTCGTCA TGGAGATGGA
    GGTTATTGGC CAGTTGATAC TAATTTGATT GATAGAAGCA CCCTAAATGA GCCGCCAATT
    GGACAAATGC ACCCCCCGCA TGGCAGTGTC ACTCCTCAGA AGAACAGCAA CCTGCTTGTG
    ATCATTGTGG TCACCGTTGG TGTCATCACA GTGCTGGTAG TGGTCATCGT GGCTGTGATT
    TGCACCCGAC GCTCTTCAGC CCAGCAGAGA AAGAAACGGG CCACCCACAG TGCTGGCAAA
    AGGAAGGGCA GCCAGAAGGA CCTCCGACCC CCTGATCTTT GGATCCATCA TGAAGAAATG
    GAGATGAAAA ATATTGAAAA GCCATCTGGC ACTGACCCTG CAGGAAGGGA CTCTCCCATC
    CAAAGTTGCC AAGACCTCAC ACCAGTCAGC CACAGCCAGT CAGAAACCCA ACTGGGAAGC
    AAAAGCACCT CTCATTCAGG TCAAGACACT GAGGAAGCAG GGAGCTCTAT GTCCACTCTG
    GAGAGGTCGC TGGCTGCACG CCGAGCCCCC CGGGCCAAGC TCATGATTCC CATGGATGCC
    CAGTCCAACA ATCCTGCTGT CGTGAGCGCC ATCCCGGTGC CAACGCTAGA AAGTGCCCAG
    TACCCAGGAA TCCTCCCGTC TCCCACCTGT GGATATCCCC ACCCGCAGTT CACTCTCCGG
    CCTGTGCCAT TCCCAACACT CTCAGTGGAC CGAGGTTTCG GAGCAGGAAG AAGTCAGTCA
    GTGAGTGAAG GACCAACTAC CCAACAACCA CCTATGCTGC CCCCATCTCA GCCTGAGCAT
    TCTAGCAGCG AGGAGGCACC AAGCAGAACC ATCCCCACAG CTTGTGTTCG ACCAACTCAC
    CCACTCCGCA GCTTTGCTAA TCCTTTGCTA CCTCCACCAA TGAGTGCAAT AGAACCGAAA
    GTCCCTTACA CACCACTTTT GTCTCAGCCA GGGCCCACTC TTCCTAAGAC CCATGTGAAA
    ACAGCCTCCC TTGGGTTGGC TGGAAAAGCA AGATCCCCTT TGCTTCCTGT GTCTGTGCCA
    ACAGCCCCTG AAGTGTCTGA GGAGAGCCAC AAACCAACAG AGGATTCAGC CAATGTGTAT
    GAACAGGATG ATCTGAGTGA ACAAATGGCA AGTTTGGAAG GACTCATGAA GCAGCTTAAT
    GCCATCACAG GCTCAGCCTT TTAA

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

    CloneID OHu87778
    Clone ID Related Accession (Same CDS sequence) XM_017025568.1
    Accession Version XM_017025568.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4338bp)
    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 netrin receptor DCC isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) 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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAGAATA GTCTTAGATG TGTTTGGGTA CCCAAGCTGG CTTTTGTACT CTTCGGAGCT 
    TCCTTGTTCA GCGCGCATCT TCAAGTAACC GGTTTTCAAA TTAAAGCTTT CACAGCACTG
    CGCTTCCTCT CAGAACCTTC TGATGCCGTC ACAATGCGGG GAGGAAATGT CCTCCTCGAC
    TGCTCCGCGG AGTCCGACCG AGGAGTTCCA GTGATCAAGT GGAAGAAAGA TGGCATTCAT
    CTGGCCTTGG GAATGGATGA AAGGAAGCAG CAACTTTCAA ATGGGTCTCT GCTGATACAA
    AACATACTTC ATTCCAGACA CCACAAGCCA GATGAGGGAC TTTACCAATG TGAGGCATCT
    TTAGGAGATT CTGGCTCAAT TATTAGTCGG ACAGCAAAAG TTGCAGTAGC AGGACCACTG
    AGGTTCCTTT CACAGACAGA ATCTGTCACA GCCTTCATGG GAGACACAGT GCTACTCAAG
    TGTGAAGTCA TTGGGGAGCC CATGCCAACA ATCCACTGGC AGAAGAACCA ACAAGACCTG
    ACTCCAATCC CAGGTGACTC CCGAGTGGTG GTCTTGCCCT CTGGAGCATT GCAGATCAGC
    CGACTCCAAC CGGGGGACAT TGGAATTTAC CGATGCTCAG CTCGAAATCC AGCCAGCTCA
    AGAACAGGAA ATGAAGCAGA AGTCAGAATT TTATCAGATC CAGGACTGCA TAGACAGCTG
    TATTTTCTGC AAAGACCATC CAATGTAGTA GCCATTGAAG GAAAAGATGC TGTCCTGGAA
    TGTTGTGTTT CTGGCTATCC TCCACCAAGT TTTACCTGGT TACGAGGCGA GGAAGTCATC
    CAACTCAGGT CTAAAAAGTA TTCTTTATTG GGTGGAAGCA ACTTGCTTAT CTCCAATGTG
    ACAGATGATG ACAGTGGAAT GTATACCTGT GTTGTCACAT ATAAAAATGA GAATATTAGT
    GCCTCTGCAG AGCTCACAGT CTTGGTTCCG CCATGGTTTT TAAATCATCC TTCCAACCTG
    TATGCCTATG AAAGCATGGA TATTGAGTTT GAATGTACAG TCTCTGGAAA GCCTGTGCCC
    ACTGTGAATT GGATGAAGAA TGGAGATGTG GTCATTCCTA GTGATTATTT TCAGATAGTG
    GGAGGAAGCA ACTTACGGAT ACTTGGGGTG GTGAAGTCAG ATGAAGGCTT TTATCAATGT
    GTGGCTGAAA ATGAGGCTGG AAATGCCCAG ACCAGTGCAC AGCTCATTGT CCCTAAGCCT
    GCTATCCCAA GCTCCAGTGT CCTCCCTTCG GCTCCCAGAG ATGTGGTCCC TGTCTTGGTT
    TCCAGCCGAT TTGTCCGTCT CAGCTGGCGC CCACCTGCAG AAGCGAAAGG GAACATTCAA
    ACTTTCACGG TCTTTTTCTC CAGAGAAGGT GACAACAGGG AACGAGCATT GAATACAACA
    CAGCCTGGGT CCCTTCAGCT CACTGTGGGA AACCTGAAGC CAGAAGCCAT GTACACCTTT
    CGAGTTGTGG CTTACAATGA ATGGGGACCG GGAGAGAGTT CTCAACCCAT CAAGGTGGCC
    ACACAGCCTG AGTTGCAAGT TCCAGGGCCA GTAGAAAACC TGCAAGCTGT ATCTACCTCA
    CCTACCTCAA TTCTTATTAC CTGGGAACCC CCTGCCTATG CAAACGGTCC AGTCCAAGGT
    TACAGATTGT TCTGCACTGA GGTGTCCACA GGAAAAGAAC AGAATATAGA GGTTGATGGA
    CTATCTTATA AACTGGAAGG CCTGAAAAAA TTCACCGAAT ATAGTCTTCG ATTCTTAGCT
    TATAATCGCT ATGGTCCGGG CGTCTCTACT GATGATATAA CAGTGGTTAC ACTTTCTGAC
    GTGCCAAGTG CCCCGCCTCA GAACGTCTCC CTGGAAGTGG TCAATTCAAG AAGTATCAAA
    GTTAGCTGGC TGCCTCCTCC ATCAGGAACA CAAAATGGAT TTATTACCGG CTATAAAATT
    CGACACAGAA AGACGACCCG CAGGGGTGAG ATGGAAACAC TGGAGCCAAA CAACCTCTGG
    TACCTATTCA CAGGACTGGA GAAAGGAAGT CAGTACAGTT TCCAGGTGTC AGCCATGACA
    GTCAATGGTA CTGGACCACC TTCCAACTGG TATACTGCAG AGACTCCAGA GAATGATCTA
    GATGAATCTC AAGTTCCTGA TCAACCAAGC TCTCTTCATG TGAGGCCCCA GACTAACTGC
    ATCATCATGA GTTGGACTCC TCCCTTGAAC CCAAACATCG TGGTGCGAGG TTATATTATC
    GGTTATGGCG TTGGGAGCCC TTACGCTGAG ACAGTGCGTG TGGACAGCAA GCAGCGATAT
    TATTCCATTG AGAGGTTAGA GTCAAGTTCC CATTATGTAA TCTCCCTAAA AGCTTTTAAC
    AATGCCGGAG AAGGAGTTCC TCTTTATGAA AGTGCCACCA CCAGGTCTAT AACCGATCCC
    ACTGACCCAG TTGATTATTA TCCTTTGCTT GATGATTTCC CCACCTCGGT CCCAGATCTC
    TCCACCCCCA TGCTCCCACC AGTAGGTGTA CAGGCTGTGG CTCTTACCCA TGATGCTGTG
    AGGGTCAGCT GGGCAGACAA CTCTGTCCCT AAGAACCAAA AGACGTCTGA GGTGCGACTT
    TACACCGTCC GGTGGAGAAC CAGCTTTTCT GCAAGTGCAA AATACAAGTC AGAAGACACA
    ACATCTCTAA GTTACACAGC AACAGGCCTC AAACCAAACA CAATGTATGA ATTCTCGGTC
    ATGGTAACAA AAAACAGAAG GTCCAGTACT TGGAGCATGA CTGCACATGC CACCACGTAT
    GAAGCAGCCC CCACCTCTGC TCCCAAGGAC TTGACAGTCA TTACTAGGGA AGGGAAGCCT
    CGTGCCGTCA TTGTGAGTTG GCAGCCTCCC TTGGAAGCCA ATGGGAAAAT TACTGCTTAC
    ATCTTATTTT ATACCTTGGA CAAGAACATC CCAATTGATG ACTGGATTAT GGAAACAATC
    AGTGGTGATA GGCTTACTCA TCAAATCATG GATCTCAACC TTGATACTAT GTATTACTTT
    CGAATTCAAG CACGAAATTC AAAAGGAGTG GGGCCACTCT CTGATCCTAT CCTCTTCAGG
    ACTCTGAAAG TGGAACACCC TGACAAAATG GCTAATGACC AAGGTCGTCA TGGAGATGGA
    GGTTATTGGC CAGTTGATAC TAATTTGATT GATAGAAGCA CCCTAAATGA GCCGCCAATT
    GGACAAATGC ACCCCCCGCA TGGCAGTGTC ACTCCTCAGA AGAACAGCAA CCTGCTTGTG
    ATCATTGTGG TCACCGTTGG TGTCATCACA GTGCTGGTAG TGGTCATCGT GGCTGTGATT
    TGCACCCGAC GCTCTTCAGC CCAGCAGAGA AAGAAACGGG CCACCCACAG TGCTGGCAAA
    AGGAAGGGCA GCCAGAAGGA CCTCCGACCC CCTGATCTTT GGATCCATCA TGAAGAAATG
    GAGATGAAAA ATATTGAAAA GCCATCTGGC ACTGACCCTG CAGGAAGGGA CTCTCCCATC
    CAAAGTTGCC AAGACCTCAC ACCAGTCAGC CACAGCCAGT CAGAAACCCA ACTGGGAAGC
    AAAAGCACCT CTCATTCAGG TCAAGACACT GAGGAAGCAG GGAGCTCTAT GTCCACTCTG
    GAGAGGTCGC TGGCTGCACG CCGAGCCCCC CGGGCCAAGC TCATGATTCC CATGGATGCC
    CAGTCCAACA ATCCTGCTGT CGTGAGCGCC ATCCCGGTGC CAACGCTAGA AAGTGCCCAG
    TACCCAGGAA TCCTCCCGTC TCCCACCTGT GGATATCCCC ACCCGCAGTT CACTCTCCGG
    CCTGTGCCAT TCCCAACACT CTCAGTGGAC CGAGGTTTCG GAGCAGGAAG AACAGTGAGT
    GAAGGACCAA CTACCCAACA ACCACCTATG CTGCCCCCAT CTCAGCCTGA GCATTCTAGC
    AGCGAGGAGG CACCAAGCAG AACCATCCCC ACAGCTTGTG TTCGACCAAC TCACCCACTC
    CGCAGCTTTG CTAATCCTTT GCTACCTCCA CCAATGAGTG CAATAGAACC GAAAGTCCCT
    TACACACCAC TTTTGTCTCA GCCAGGGCCC ACTCTTCCTA AGACCCATGT GAAAACAGCC
    TCCCTTGGGT TGGCTGGAAA AGCAAGATCC CCTTTGCTTC CTGTGTCTGT GCCAACAGCC
    CCTGAAGTGT CTGAGGAGAG CCACAAACCA ACAGAGGATT CAGCCAATGT GTATGAACAG
    GATGATCTGA GTGAACAAAT GGCAAGTTTG GAAGGACTCA TGAAGCAGCT TAATGCCATC
    ACAGGCTCAG CCTTTTAA

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

    RefSeq XP_016881057.1
    CDS617..4954
    Translation

    Target ORF information:

    RefSeq Version XM_017025568.1
    Organism Homo sapiens(human)
    Definition Homo sapiens DCC netrin 1 receptor (DCC), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017025568.1

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAGAATA GTCTTAGATG TGTTTGGGTA CCCAAGCTGG CTTTTGTACT CTTCGGAGCT 
    TCCTTGTTCA GCGCGCATCT TCAAGTAACC GGTTTTCAAA TTAAAGCTTT CACAGCACTG
    CGCTTCCTCT CAGAACCTTC TGATGCCGTC ACAATGCGGG GAGGAAATGT CCTCCTCGAC
    TGCTCCGCGG AGTCCGACCG AGGAGTTCCA GTGATCAAGT GGAAGAAAGA TGGCATTCAT
    CTGGCCTTGG GAATGGATGA AAGGAAGCAG CAACTTTCAA ATGGGTCTCT GCTGATACAA
    AACATACTTC ATTCCAGACA CCACAAGCCA GATGAGGGAC TTTACCAATG TGAGGCATCT
    TTAGGAGATT CTGGCTCAAT TATTAGTCGG ACAGCAAAAG TTGCAGTAGC AGGACCACTG
    AGGTTCCTTT CACAGACAGA ATCTGTCACA GCCTTCATGG GAGACACAGT GCTACTCAAG
    TGTGAAGTCA TTGGGGAGCC CATGCCAACA ATCCACTGGC AGAAGAACCA ACAAGACCTG
    ACTCCAATCC CAGGTGACTC CCGAGTGGTG GTCTTGCCCT CTGGAGCATT GCAGATCAGC
    CGACTCCAAC CGGGGGACAT TGGAATTTAC CGATGCTCAG CTCGAAATCC AGCCAGCTCA
    AGAACAGGAA ATGAAGCAGA AGTCAGAATT TTATCAGATC CAGGACTGCA TAGACAGCTG
    TATTTTCTGC AAAGACCATC CAATGTAGTA GCCATTGAAG GAAAAGATGC TGTCCTGGAA
    TGTTGTGTTT CTGGCTATCC TCCACCAAGT TTTACCTGGT TACGAGGCGA GGAAGTCATC
    CAACTCAGGT CTAAAAAGTA TTCTTTATTG GGTGGAAGCA ACTTGCTTAT CTCCAATGTG
    ACAGATGATG ACAGTGGAAT GTATACCTGT GTTGTCACAT ATAAAAATGA GAATATTAGT
    GCCTCTGCAG AGCTCACAGT CTTGGTTCCG CCATGGTTTT TAAATCATCC TTCCAACCTG
    TATGCCTATG AAAGCATGGA TATTGAGTTT GAATGTACAG TCTCTGGAAA GCCTGTGCCC
    ACTGTGAATT GGATGAAGAA TGGAGATGTG GTCATTCCTA GTGATTATTT TCAGATAGTG
    GGAGGAAGCA ACTTACGGAT ACTTGGGGTG GTGAAGTCAG ATGAAGGCTT TTATCAATGT
    GTGGCTGAAA ATGAGGCTGG AAATGCCCAG ACCAGTGCAC AGCTCATTGT CCCTAAGCCT
    GCTATCCCAA GCTCCAGTGT CCTCCCTTCG GCTCCCAGAG ATGTGGTCCC TGTCTTGGTT
    TCCAGCCGAT TTGTCCGTCT CAGCTGGCGC CCACCTGCAG AAGCGAAAGG GAACATTCAA
    ACTTTCACGG TCTTTTTCTC CAGAGAAGGT GACAACAGGG AACGAGCATT GAATACAACA
    CAGCCTGGGT CCCTTCAGCT CACTGTGGGA AACCTGAAGC CAGAAGCCAT GTACACCTTT
    CGAGTTGTGG CTTACAATGA ATGGGGACCG GGAGAGAGTT CTCAACCCAT CAAGGTGGCC
    ACACAGCCTG AGTTGCAAGT TCCAGGGCCA GTAGAAAACC TGCAAGCTGT ATCTACCTCA
    CCTACCTCAA TTCTTATTAC CTGGGAACCC CCTGCCTATG CAAACGGTCC AGTCCAAGGT
    TACAGATTGT TCTGCACTGA GGTGTCCACA GGAAAAGAAC AGAATATAGA GGTTGATGGA
    CTATCTTATA AACTGGAAGG CCTGAAAAAA TTCACCGAAT ATAGTCTTCG ATTCTTAGCT
    TATAATCGCT ATGGTCCGGG CGTCTCTACT GATGATATAA CAGTGGTTAC ACTTTCTGAC
    GTGCCAAGTG CCCCGCCTCA GAACGTCTCC CTGGAAGTGG TCAATTCAAG AAGTATCAAA
    GTTAGCTGGC TGCCTCCTCC ATCAGGAACA CAAAATGGAT TTATTACCGG CTATAAAATT
    CGACACAGAA AGACGACCCG CAGGGGTGAG ATGGAAACAC TGGAGCCAAA CAACCTCTGG
    TACCTATTCA CAGGACTGGA GAAAGGAAGT CAGTACAGTT TCCAGGTGTC AGCCATGACA
    GTCAATGGTA CTGGACCACC TTCCAACTGG TATACTGCAG AGACTCCAGA GAATGATCTA
    GATGAATCTC AAGTTCCTGA TCAACCAAGC TCTCTTCATG TGAGGCCCCA GACTAACTGC
    ATCATCATGA GTTGGACTCC TCCCTTGAAC CCAAACATCG TGGTGCGAGG TTATATTATC
    GGTTATGGCG TTGGGAGCCC TTACGCTGAG ACAGTGCGTG TGGACAGCAA GCAGCGATAT
    TATTCCATTG AGAGGTTAGA GTCAAGTTCC CATTATGTAA TCTCCCTAAA AGCTTTTAAC
    AATGCCGGAG AAGGAGTTCC TCTTTATGAA AGTGCCACCA CCAGGTCTAT AACCGATCCC
    ACTGACCCAG TTGATTATTA TCCTTTGCTT GATGATTTCC CCACCTCGGT CCCAGATCTC
    TCCACCCCCA TGCTCCCACC AGTAGGTGTA CAGGCTGTGG CTCTTACCCA TGATGCTGTG
    AGGGTCAGCT GGGCAGACAA CTCTGTCCCT AAGAACCAAA AGACGTCTGA GGTGCGACTT
    TACACCGTCC GGTGGAGAAC CAGCTTTTCT GCAAGTGCAA AATACAAGTC AGAAGACACA
    ACATCTCTAA GTTACACAGC AACAGGCCTC AAACCAAACA CAATGTATGA ATTCTCGGTC
    ATGGTAACAA AAAACAGAAG GTCCAGTACT TGGAGCATGA CTGCACATGC CACCACGTAT
    GAAGCAGCCC CCACCTCTGC TCCCAAGGAC TTGACAGTCA TTACTAGGGA AGGGAAGCCT
    CGTGCCGTCA TTGTGAGTTG GCAGCCTCCC TTGGAAGCCA ATGGGAAAAT TACTGCTTAC
    ATCTTATTTT ATACCTTGGA CAAGAACATC CCAATTGATG ACTGGATTAT GGAAACAATC
    AGTGGTGATA GGCTTACTCA TCAAATCATG GATCTCAACC TTGATACTAT GTATTACTTT
    CGAATTCAAG CACGAAATTC AAAAGGAGTG GGGCCACTCT CTGATCCTAT CCTCTTCAGG
    ACTCTGAAAG TGGAACACCC TGACAAAATG GCTAATGACC AAGGTCGTCA TGGAGATGGA
    GGTTATTGGC CAGTTGATAC TAATTTGATT GATAGAAGCA CCCTAAATGA GCCGCCAATT
    GGACAAATGC ACCCCCCGCA TGGCAGTGTC ACTCCTCAGA AGAACAGCAA CCTGCTTGTG
    ATCATTGTGG TCACCGTTGG TGTCATCACA GTGCTGGTAG TGGTCATCGT GGCTGTGATT
    TGCACCCGAC GCTCTTCAGC CCAGCAGAGA AAGAAACGGG CCACCCACAG TGCTGGCAAA
    AGGAAGGGCA GCCAGAAGGA CCTCCGACCC CCTGATCTTT GGATCCATCA TGAAGAAATG
    GAGATGAAAA ATATTGAAAA GCCATCTGGC ACTGACCCTG CAGGAAGGGA CTCTCCCATC
    CAAAGTTGCC AAGACCTCAC ACCAGTCAGC CACAGCCAGT CAGAAACCCA ACTGGGAAGC
    AAAAGCACCT CTCATTCAGG TCAAGACACT GAGGAAGCAG GGAGCTCTAT GTCCACTCTG
    GAGAGGTCGC TGGCTGCACG CCGAGCCCCC CGGGCCAAGC TCATGATTCC CATGGATGCC
    CAGTCCAACA ATCCTGCTGT CGTGAGCGCC ATCCCGGTGC CAACGCTAGA AAGTGCCCAG
    TACCCAGGAA TCCTCCCGTC TCCCACCTGT GGATATCCCC ACCCGCAGTT CACTCTCCGG
    CCTGTGCCAT TCCCAACACT CTCAGTGGAC CGAGGTTTCG GAGCAGGAAG AACAGTGAGT
    GAAGGACCAA CTACCCAACA ACCACCTATG CTGCCCCCAT CTCAGCCTGA GCATTCTAGC
    AGCGAGGAGG CACCAAGCAG AACCATCCCC ACAGCTTGTG TTCGACCAAC TCACCCACTC
    CGCAGCTTTG CTAATCCTTT GCTACCTCCA CCAATGAGTG CAATAGAACC GAAAGTCCCT
    TACACACCAC TTTTGTCTCA GCCAGGGCCC ACTCTTCCTA AGACCCATGT GAAAACAGCC
    TCCCTTGGGT TGGCTGGAAA AGCAAGATCC CCTTTGCTTC CTGTGTCTGT GCCAACAGCC
    CCTGAAGTGT CTGAGGAGAG CCACAAACCA ACAGAGGATT CAGCCAATGT GTATGAACAG
    GATGATCTGA GTGAACAAAT GGCAAGTTTG GAAGGACTCA TGAAGCAGCT TAATGCCATC
    ACAGGCTCAG CCTTTTAA

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

    CloneID OHu87779
    Clone ID Related Accession (Same CDS sequence) XM_017025569.1
    Accession Version XM_017025569.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 netrin receptor DCC isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) 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
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGAGAATA GTCTTAGATG TGTTTGGGTA CCCAAGCTGG CTTTTGTACT CTTCGGAGCT 
    TCCTTGTTCA GCGCGCATCT TCAAGTAACC GGTTTTCAAA TTAAAGCTTT CACAGCACTG
    CGCTTCCTCT CAGAACCTTC TGATGCCGTC ACAATGCGGG GAGGAAATGT CCTCCTCGAC
    TGCTCCGCGG AGTCCGACCG AGGAGTTCCA GTGATCAAGT GGAAGAAAGA TGGCATTCAT
    CTGGCCTTGG GAATGGATGA AAGGAAGCAG CAACTTTCAA ATGGGTCTCT GCTGATACAA
    AACATACTTC ATTCCAGACA CCACAAGCCA GATGAGGGAC TTTACCAATG TGAGGCATCT
    TTAGGAGATT CTGGCTCAAT TATTAGTCGG ACAGCAAAAG TTGCAGTAGC AGGACCACTG
    AGGTTCCTTT CACAGACAGA ATCTGTCACA GCCTTCATGG GAGACACAGT GCTACTCAAG
    TGTGAAGTCA TTGGGGAGCC CATGCCAACA ATCCACTGGC AGAAGAACCA ACAAGACCTG
    ACTCCAATCC CAGGTGACTC CCGAGTGGTG GTCTTGCCCT CTGGAGCATT GCAGATCAGC
    CGACTCCAAC CGGGGGACAT TGGAATTTAC CGATGCTCAG CTCGAAATCC AGCCAGCTCA
    AGAACAGGAA ATGAAGCAGA AGTCAGAATT TTATCAGATC CAGGACTGCA TAGACAGCTG
    TATTTTCTGC AAAGACCATC CAATGTAGTA GCCATTGAAG GAAAAGATGC TGTCCTGGAA
    TGTTGTGTTT CTGGCTATCC TCCACCAAGT TTTACCTGGT TACGAGGCGA GGAAGTCATC
    CAACTCAGGT CTAAAAAGTA TTCTTTATTG GGTGGAAGCA ACTTGCTTAT CTCCAATGTG
    ACAGATGATG ACAGTGGAAT GTATACCTGT GTTGTCACAT ATAAAAATGA GAATATTAGT
    GCCTCTGCAG AGCTCACAGT CTTGGTTCCG CCATGGTTTT TAAATCATCC TTCCAACCTG
    TATGCCTATG AAAGCATGGA TATTGAGTTT GAATGTACAG TCTCTGGAAA GCCTGTGCCC
    ACTGTGAATT GGATGAAGAA TGGAGATGTG GTCATTCCTA GTGATTATTT TCAGATAGTG
    GGAGGAAGCA ACTTACGGAT ACTTGGGGTG GTGAAGTCAG ATGAAGGCTT TTATCAATGT
    GTGGCTGAAA ATGAGGCTGG AAATGCCCAG ACCAGTGCAC AGCTCATTGT CCCTAAGCCT
    GCTATCCCAA GCTCCAGTGT CCTCCCTTCG GCTCCCAGAG ATGTGGTCCC TGTCTTGGTT
    TCCAGCCGAT TTGTCCGTCT CAGCTGGCGC CCACCTGCAG AAGCGAAAGG GAACATTCAA
    ACTTTCACGG TCTTTTTCTC CAGAGAAGGT GACAACAGGG AACGAGCATT GAATACAACA
    CAGCCTGGGT CCCTTCAGCT CACTGTGGGA AACCTGAAGC CAGAAGCCAT GTACACCTTT
    CGAGTTGTGG CTTACAATGA ATGGGGACCG GGAGAGAGTT CTCAACCCAT CAAGGTGGCC
    ACACAGCCTG AGTTGCAAGT TCCAGGGCCA GTAGAAAACC TGCAAGCTGT ATCTACCTCA
    CCTACCTCAA TTCTTATTAC CTGGGAACCC CCTGCCTATG CAAACGGTCC AGTCCAAGGT
    TACAGATTGT TCTGCACTGA GGTGTCCACA GGAAAAGAAC AGAATATAGA GGTTGATGGA
    CTATCTTATA AACTGGAAGG CCTGAAAAAA TTCACCGAAT ATAGTCTTCG ATTCTTAGCT
    TATAATCGCT ATGGTCCGGG CGTCTCTACT GATGATATAA CAGTGGTTAC ACTTTCTGAC
    GTGCCAAGTG CCCCGCCTCA GAACGTCTCC CTGGAAGTGG TCAATTCAAG AAGTATCAAA
    GTTAGCTGGC TGCCTCCTCC ATCAGGAACA CAAAATGGAT TTATTACCGG CTATAAAATT
    CGACACAGAA AGACGACCCG CAGGGGTGAG ATGGAAACAC TGGAGCCAAA CAACCTCTGG
    TACCTATTCA CAGGACTGGA GAAAGGAAGT CAGTACAGTT TCCAGGTGTC AGCCATGACA
    GTCAATGGTA CTGGACCACC TTCCAACTGG TATACTGCAG AGACTCCAGA GAATGATCTA
    GATGAATCTC AAGTTCCTGA TCAACCAAGC TCTCTTCATG TGAGGCCCCA GACTAACTGC
    ATCATCATGA GTTGGACTCC TCCCTTGAAC CCAAACATCG TGGTGCGAGG TTATATTATC
    GGTTATGGCG TTGGGAGCCC TTACGCTGAG ACAGTGCGTG TGGACAGCAA GCAGCGATAT
    TATTCCATTG AGAGGTTAGA GTCAAGTTCC CATTATGTAA TCTCCCTAAA AGCTTTTAAC
    AATGCCGGAG AAGGAGTTCC TCTTTATGAA AGTGCCACCA CCAGGTCTAT AACCGATCTC
    TCCACCCCCA TGCTCCCACC AGTAGGTGTA CAGGCTGTGG CTCTTACCCA TGATGCTGTG
    AGGGTCAGCT GGGCAGACAA CTCTGTCCCT AAGAACCAAA AGACGTCTGA GGTGCGACTT
    TACACCGTCC GGTGGAGAAC CAGCTTTTCT GCAAGTGCAA AATACAAGTC AGAAGACACA
    ACATCTCTAA GTTACACAGC AACAGGCCTC AAACCAAACA CAATGTATGA ATTCTCGGTC
    ATGGTAACAA AAAACAGAAG GTCCAGTACT TGGAGCATGA CTGCACATGC CACCACGTAT
    GAAGCAGCCC CCACCTCTGC TCCCAAGGAC TTGACAGTCA TTACTAGGGA AGGGAAGCCT
    CGTGCCGTCA TTGTGAGTTG GCAGCCTCCC TTGGAAGCCA ATGGGAAAAT TACTGCTTAC
    ATCTTATTTT ATACCTTGGA CAAGAACATC CCAATTGATG ACTGGATTAT GGAAACAATC
    AGTGGTGATA GGCTTACTCA TCAAATCATG GATCTCAACC TTGATACTAT GTATTACTTT
    CGAATTCAAG CACGAAATTC AAAAGGAGTG GGGCCACTCT CTGATCCTAT CCTCTTCAGG
    ACTCTGAAAG TGGAACACCC TGACAAAATG GCTAATGACC AAGGTCGTCA TGGAGATGGA
    GGTTATTGGC CAGTTGATAC TAATTTGATT GATAGAAGCA CCCTAAATGA GCCGCCAATT
    GGACAAATGC ACCCCCCGCA TGGCAGTGTC ACTCCTCAGA AGAACAGCAA CCTGCTTGTG
    ATCATTGTGG TCACCGTTGG TGTCATCACA GTGCTGGTAG TGGTCATCGT GGCTGTGATT
    TGCACCCGAC GCTCTTCAGC CCAGCAGAGA AAGAAACGGG CCACCCACAG TGCTGGCAAA
    AGGAAGGGCA GCCAGAAGGA CCTCCGACCC CCTGATCTTT GGATCCATCA TGAAGAAATG
    GAGATGAAAA ATATTGAAAA GCCATCTGGC ACTGACCCTG CAGGAAGGGA CTCTCCCATC
    CAAAGTTGCC AAGACCTCAC ACCAGTCAGC CACAGCCAGT CAGAAACCCA ACTGGGAAGC
    AAAAGCACCT CTCATTCAGG TCAAGACACT GAGGAAGCAG GGAGCTCTAT GTCCACTCTG
    GAGAGGTCGC TGGCTGCACG CCGAGCCCCC CGGGCCAAGC TCATGATTCC CATGGATGCC
    CAGTCCAACA ATCCTGCTGT CGTGAGCGCC ATCCCGGTGC CAACGCTAGA AAGTGCCCAG
    TACCCAGGAA TCCTCCCGTC TCCCACCTGT GGATATCCCC ACCCGCAGTT CACTCTCCGG
    CCTGTGCCAT TCCCAACACT CTCAGTGGAC CGAGGTTTCG GAGCAGGAAG AAGTCAGTCA
    GTGAGTGAAG GACCAACTAC CCAACAACCA CCTATGCTGC CCCCATCTCA GCCTGAGCAT
    TCTAGCAGCG AGGAGGCACC AAGCAGAACC ATCCCCACAG CTTGTGTTCG ACCAACTCAC
    CCACTCCGCA GCTTTGCTAA TCCTTTGCTA CCTCCACCAA TGAGTGCAAT AGAACCGAAA
    GTCCCTTACA CACCACTTTT GTCTCAGCCA GGGCCCACTC TTCCTAAGAC CCATGTGAAA
    ACAGCCTCCC TTGGGTTGGC TGGAAAAGCA AGATCCCCTT TGCTTCCTGT GTCTGTGCCA
    ACAGCCCCTG AAGTGTCTGA GGAGAGCCAC AAACCAACAG AGGATTCAGC CAATGTGTAT
    GAACAGGATG ATCTGAGTGA ACAAATGGCA AGTTTGGAAG GACTCATGAA GCAGCTTAAT
    GCCATCACAG GCTCAGCCTT TTAA

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

    RefSeq XP_016881058.1
    CDS617..4900
    Translation

    Target ORF information:

    RefSeq Version XM_017025569.1
    Organism Homo sapiens(human)
    Definition Homo sapiens DCC netrin 1 receptor (DCC), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017025569.1

    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
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGAGAATA GTCTTAGATG TGTTTGGGTA CCCAAGCTGG CTTTTGTACT CTTCGGAGCT 
    TCCTTGTTCA GCGCGCATCT TCAAGTAACC GGTTTTCAAA TTAAAGCTTT CACAGCACTG
    CGCTTCCTCT CAGAACCTTC TGATGCCGTC ACAATGCGGG GAGGAAATGT CCTCCTCGAC
    TGCTCCGCGG AGTCCGACCG AGGAGTTCCA GTGATCAAGT GGAAGAAAGA TGGCATTCAT
    CTGGCCTTGG GAATGGATGA AAGGAAGCAG CAACTTTCAA ATGGGTCTCT GCTGATACAA
    AACATACTTC ATTCCAGACA CCACAAGCCA GATGAGGGAC TTTACCAATG TGAGGCATCT
    TTAGGAGATT CTGGCTCAAT TATTAGTCGG ACAGCAAAAG TTGCAGTAGC AGGACCACTG
    AGGTTCCTTT CACAGACAGA ATCTGTCACA GCCTTCATGG GAGACACAGT GCTACTCAAG
    TGTGAAGTCA TTGGGGAGCC CATGCCAACA ATCCACTGGC AGAAGAACCA ACAAGACCTG
    ACTCCAATCC CAGGTGACTC CCGAGTGGTG GTCTTGCCCT CTGGAGCATT GCAGATCAGC
    CGACTCCAAC CGGGGGACAT TGGAATTTAC CGATGCTCAG CTCGAAATCC AGCCAGCTCA
    AGAACAGGAA ATGAAGCAGA AGTCAGAATT TTATCAGATC CAGGACTGCA TAGACAGCTG
    TATTTTCTGC AAAGACCATC CAATGTAGTA GCCATTGAAG GAAAAGATGC TGTCCTGGAA
    TGTTGTGTTT CTGGCTATCC TCCACCAAGT TTTACCTGGT TACGAGGCGA GGAAGTCATC
    CAACTCAGGT CTAAAAAGTA TTCTTTATTG GGTGGAAGCA ACTTGCTTAT CTCCAATGTG
    ACAGATGATG ACAGTGGAAT GTATACCTGT GTTGTCACAT ATAAAAATGA GAATATTAGT
    GCCTCTGCAG AGCTCACAGT CTTGGTTCCG CCATGGTTTT TAAATCATCC TTCCAACCTG
    TATGCCTATG AAAGCATGGA TATTGAGTTT GAATGTACAG TCTCTGGAAA GCCTGTGCCC
    ACTGTGAATT GGATGAAGAA TGGAGATGTG GTCATTCCTA GTGATTATTT TCAGATAGTG
    GGAGGAAGCA ACTTACGGAT ACTTGGGGTG GTGAAGTCAG ATGAAGGCTT TTATCAATGT
    GTGGCTGAAA ATGAGGCTGG AAATGCCCAG ACCAGTGCAC AGCTCATTGT CCCTAAGCCT
    GCTATCCCAA GCTCCAGTGT CCTCCCTTCG GCTCCCAGAG ATGTGGTCCC TGTCTTGGTT
    TCCAGCCGAT TTGTCCGTCT CAGCTGGCGC CCACCTGCAG AAGCGAAAGG GAACATTCAA
    ACTTTCACGG TCTTTTTCTC CAGAGAAGGT GACAACAGGG AACGAGCATT GAATACAACA
    CAGCCTGGGT CCCTTCAGCT CACTGTGGGA AACCTGAAGC CAGAAGCCAT GTACACCTTT
    CGAGTTGTGG CTTACAATGA ATGGGGACCG GGAGAGAGTT CTCAACCCAT CAAGGTGGCC
    ACACAGCCTG AGTTGCAAGT TCCAGGGCCA GTAGAAAACC TGCAAGCTGT ATCTACCTCA
    CCTACCTCAA TTCTTATTAC CTGGGAACCC CCTGCCTATG CAAACGGTCC AGTCCAAGGT
    TACAGATTGT TCTGCACTGA GGTGTCCACA GGAAAAGAAC AGAATATAGA GGTTGATGGA
    CTATCTTATA AACTGGAAGG CCTGAAAAAA TTCACCGAAT ATAGTCTTCG ATTCTTAGCT
    TATAATCGCT ATGGTCCGGG CGTCTCTACT GATGATATAA CAGTGGTTAC ACTTTCTGAC
    GTGCCAAGTG CCCCGCCTCA GAACGTCTCC CTGGAAGTGG TCAATTCAAG AAGTATCAAA
    GTTAGCTGGC TGCCTCCTCC ATCAGGAACA CAAAATGGAT TTATTACCGG CTATAAAATT
    CGACACAGAA AGACGACCCG CAGGGGTGAG ATGGAAACAC TGGAGCCAAA CAACCTCTGG
    TACCTATTCA CAGGACTGGA GAAAGGAAGT CAGTACAGTT TCCAGGTGTC AGCCATGACA
    GTCAATGGTA CTGGACCACC TTCCAACTGG TATACTGCAG AGACTCCAGA GAATGATCTA
    GATGAATCTC AAGTTCCTGA TCAACCAAGC TCTCTTCATG TGAGGCCCCA GACTAACTGC
    ATCATCATGA GTTGGACTCC TCCCTTGAAC CCAAACATCG TGGTGCGAGG TTATATTATC
    GGTTATGGCG TTGGGAGCCC TTACGCTGAG ACAGTGCGTG TGGACAGCAA GCAGCGATAT
    TATTCCATTG AGAGGTTAGA GTCAAGTTCC CATTATGTAA TCTCCCTAAA AGCTTTTAAC
    AATGCCGGAG AAGGAGTTCC TCTTTATGAA AGTGCCACCA CCAGGTCTAT AACCGATCTC
    TCCACCCCCA TGCTCCCACC AGTAGGTGTA CAGGCTGTGG CTCTTACCCA TGATGCTGTG
    AGGGTCAGCT GGGCAGACAA CTCTGTCCCT AAGAACCAAA AGACGTCTGA GGTGCGACTT
    TACACCGTCC GGTGGAGAAC CAGCTTTTCT GCAAGTGCAA AATACAAGTC AGAAGACACA
    ACATCTCTAA GTTACACAGC AACAGGCCTC AAACCAAACA CAATGTATGA ATTCTCGGTC
    ATGGTAACAA AAAACAGAAG GTCCAGTACT TGGAGCATGA CTGCACATGC CACCACGTAT
    GAAGCAGCCC CCACCTCTGC TCCCAAGGAC TTGACAGTCA TTACTAGGGA AGGGAAGCCT
    CGTGCCGTCA TTGTGAGTTG GCAGCCTCCC TTGGAAGCCA ATGGGAAAAT TACTGCTTAC
    ATCTTATTTT ATACCTTGGA CAAGAACATC CCAATTGATG ACTGGATTAT GGAAACAATC
    AGTGGTGATA GGCTTACTCA TCAAATCATG GATCTCAACC TTGATACTAT GTATTACTTT
    CGAATTCAAG CACGAAATTC AAAAGGAGTG GGGCCACTCT CTGATCCTAT CCTCTTCAGG
    ACTCTGAAAG TGGAACACCC TGACAAAATG GCTAATGACC AAGGTCGTCA TGGAGATGGA
    GGTTATTGGC CAGTTGATAC TAATTTGATT GATAGAAGCA CCCTAAATGA GCCGCCAATT
    GGACAAATGC ACCCCCCGCA TGGCAGTGTC ACTCCTCAGA AGAACAGCAA CCTGCTTGTG
    ATCATTGTGG TCACCGTTGG TGTCATCACA GTGCTGGTAG TGGTCATCGT GGCTGTGATT
    TGCACCCGAC GCTCTTCAGC CCAGCAGAGA AAGAAACGGG CCACCCACAG TGCTGGCAAA
    AGGAAGGGCA GCCAGAAGGA CCTCCGACCC CCTGATCTTT GGATCCATCA TGAAGAAATG
    GAGATGAAAA ATATTGAAAA GCCATCTGGC ACTGACCCTG CAGGAAGGGA CTCTCCCATC
    CAAAGTTGCC AAGACCTCAC ACCAGTCAGC CACAGCCAGT CAGAAACCCA ACTGGGAAGC
    AAAAGCACCT CTCATTCAGG TCAAGACACT GAGGAAGCAG GGAGCTCTAT GTCCACTCTG
    GAGAGGTCGC TGGCTGCACG CCGAGCCCCC CGGGCCAAGC TCATGATTCC CATGGATGCC
    CAGTCCAACA ATCCTGCTGT CGTGAGCGCC ATCCCGGTGC CAACGCTAGA AAGTGCCCAG
    TACCCAGGAA TCCTCCCGTC TCCCACCTGT GGATATCCCC ACCCGCAGTT CACTCTCCGG
    CCTGTGCCAT TCCCAACACT CTCAGTGGAC CGAGGTTTCG GAGCAGGAAG AAGTCAGTCA
    GTGAGTGAAG GACCAACTAC CCAACAACCA CCTATGCTGC CCCCATCTCA GCCTGAGCAT
    TCTAGCAGCG AGGAGGCACC AAGCAGAACC ATCCCCACAG CTTGTGTTCG ACCAACTCAC
    CCACTCCGCA GCTTTGCTAA TCCTTTGCTA CCTCCACCAA TGAGTGCAAT AGAACCGAAA
    GTCCCTTACA CACCACTTTT GTCTCAGCCA GGGCCCACTC TTCCTAAGAC CCATGTGAAA
    ACAGCCTCCC TTGGGTTGGC TGGAAAAGCA AGATCCCCTT TGCTTCCTGT GTCTGTGCCA
    ACAGCCCCTG AAGTGTCTGA GGAGAGCCAC AAACCAACAG AGGATTCAGC CAATGTGTAT
    GAACAGGATG ATCTGAGTGA ACAAATGGCA AGTTTGGAAG GACTCATGAA GCAGCTTAAT
    GCCATCACAG GCTCAGCCTT TTAA

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

    CloneID OHu57204
    Clone ID Related Accession (Same CDS sequence) XM_011525844.2 , XM_017025570.1
    Accession Version XM_011525844.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3309bp)
    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 netrin receptor DCC isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011525844.1. ##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
    ATGGATATTG AGTTTGAATG TACAGTCTCT GGAAAGCCTG TGCCCACTGT GAATTGGATG 
    AAGAATGGAG ATGTGGTCAT TCCTAGTGAT TATTTTCAGA TAGTGGGAGG AAGCAACTTA
    CGGATACTTG GGGTGGTGAA GTCAGATGAA GGCTTTTATC AATGTGTGGC TGAAAATGAG
    GCTGGAAATG CCCAGACCAG TGCACAGCTC ATTGTCCCTA AGCCTGCTAT CCCAAGCTCC
    AGTGTCCTCC CTTCGGCTCC CAGAGATGTG GTCCCTGTCT TGGTTTCCAG CCGATTTGTC
    CGTCTCAGCT GGCGCCCACC TGCAGAAGCG AAAGGGAACA TTCAAACTTT CACGGTCTTT
    TTCTCCAGAG AAGGTGACAA CAGGGAACGA GCATTGAATA CAACACAGCC TGGGTCCCTT
    CAGCTCACTG TGGGAAACCT GAAGCCAGAA GCCATGTACA CCTTTCGAGT TGTGGCTTAC
    AATGAATGGG GACCGGGAGA GAGTTCTCAA CCCATCAAGG TGGCCACACA GCCTGAGTTG
    CAAGTTCCAG GGCCAGTAGA AAACCTGCAA GCTGTATCTA CCTCACCTAC CTCAATTCTT
    ATTACCTGGG AACCCCCTGC CTATGCAAAC GGTCCAGTCC AAGGTTACAG ATTGTTCTGC
    ACTGAGGTGT CCACAGGAAA AGAACAGAAT ATAGAGGTTG ATGGACTATC TTATAAACTG
    GAAGGCCTGA AAAAATTCAC CGAATATAGT CTTCGATTCT TAGCTTATAA TCGCTATGGT
    CCGGGCGTCT CTACTGATGA TATAACAGTG GTTACACTTT CTGACGTGCC AAGTGCCCCG
    CCTCAGAACG TCTCCCTGGA AGTGGTCAAT TCAAGAAGTA TCAAAGTTAG CTGGCTGCCT
    CCTCCATCAG GAACACAAAA TGGATTTATT ACCGGCTATA AAATTCGACA CAGAAAGACG
    ACCCGCAGGG GTGAGATGGA AACACTGGAG CCAAACAACC TCTGGTACCT ATTCACAGGA
    CTGGAGAAAG GAAGTCAGTA CAGTTTCCAG GTGTCAGCCA TGACAGTCAA TGGTACTGGA
    CCACCTTCCA ACTGGTATAC TGCAGAGACT CCAGAGAATG ATCTAGATGA ATCTCAAGTT
    CCTGATCAAC CAAGCTCTCT TCATGTGAGG CCCCAGACTA ACTGCATCAT CATGAGTTGG
    ACTCCTCCCT TGAACCCAAA CATCGTGGTG CGAGGTTATA TTATCGGTTA TGGCGTTGGG
    AGCCCTTACG CTGAGACAGT GCGTGTGGAC AGCAAGCAGC GATATTATTC CATTGAGAGG
    TTAGAGTCAA GTTCCCATTA TGTAATCTCC CTAAAAGCTT TTAACAATGC CGGAGAAGGA
    GTTCCTCTTT ATGAAAGTGC CACCACCAGG TCTATAACCG ATCCCACTGA CCCAGTTGAT
    TATTATCCTT TGCTTGATGA TTTCCCCACC TCGGTCCCAG ATCTCTCCAC CCCCATGCTC
    CCACCAGTAG GTGTACAGGC TGTGGCTCTT ACCCATGATG CTGTGAGGGT CAGCTGGGCA
    GACAACTCTG TCCCTAAGAA CCAAAAGACG TCTGAGGTGC GACTTTACAC CGTCCGGTGG
    AGAACCAGCT TTTCTGCAAG TGCAAAATAC AAGTCAGAAG ACACAACATC TCTAAGTTAC
    ACAGCAACAG GCCTCAAACC AAACACAATG TATGAATTCT CGGTCATGGT AACAAAAAAC
    AGAAGGTCCA GTACTTGGAG CATGACTGCA CATGCCACCA CGTATGAAGC AGCCCCCACC
    TCTGCTCCCA AGGACTTGAC AGTCATTACT AGGGAAGGGA AGCCTCGTGC CGTCATTGTG
    AGTTGGCAGC CTCCCTTGGA AGCCAATGGG AAAATTACTG CTTACATCTT ATTTTATACC
    TTGGACAAGA ACATCCCAAT TGATGACTGG ATTATGGAAA CAATCAGTGG TGATAGGCTT
    ACTCATCAAA TCATGGATCT CAACCTTGAT ACTATGTATT ACTTTCGAAT TCAAGCACGA
    AATTCAAAAG GAGTGGGGCC ACTCTCTGAT CCTATCCTCT TCAGGACTCT GAAAGTGGAA
    CACCCTGACA AAATGGCTAA TGACCAAGGT CGTCATGGAG ATGGAGGTTA TTGGCCAGTT
    GATACTAATT TGATTGATAG AAGCACCCTA AATGAGCCGC CAATTGGACA AATGCACCCC
    CCGCATGGCA GTGTCACTCC TCAGAAGAAC AGCAACCTGC TTGTGATCAT TGTGGTCACC
    GTTGGTGTCA TCACAGTGCT GGTAGTGGTC ATCGTGGCTG TGATTTGCAC CCGACGCTCT
    TCAGCCCAGC AGAGAAAGAA ACGGGCCACC CACAGTGCTG GCAAAAGGAA GGGCAGCCAG
    AAGGACCTCC GACCCCCTGA TCTTTGGATC CATCATGAAG AAATGGAGAT GAAAAATATT
    GAAAAGCCAT CTGGCACTGA CCCTGCAGGA AGGGACTCTC CCATCCAAAG TTGCCAAGAC
    CTCACACCAG TCAGCCACAG CCAGTCAGAA ACCCAACTGG GAAGCAAAAG CACCTCTCAT
    TCAGGTCAAG ACACTGAGGA AGCAGGGAGC TCTATGTCCA CTCTGGAGAG GTCGCTGGCT
    GCACGCCGAG CCCCCCGGGC CAAGCTCATG ATTCCCATGG ATGCCCAGTC CAACAATCCT
    GCTGTCGTGA GCGCCATCCC GGTGCCAACG CTAGAAAGTG CCCAGTACCC AGGAATCCTC
    CCGTCTCCCA CCTGTGGATA TCCCCACCCG CAGTTCACTC TCCGGCCTGT GCCATTCCCA
    ACACTCTCAG TGGACCGAGG TTTCGGAGCA GGAAGAAGTC AGTCAGTGAG TGAAGGACCA
    ACTACCCAAC AACCACCTAT GCTGCCCCCA TCTCAGCCTG AGCATTCTAG CAGCGAGGAG
    GCACCAAGCA GAACCATCCC CACAGCTTGT GTTCGACCAA CTCACCCACT CCGCAGCTTT
    GCTAATCCTT TGCTACCTCC ACCAATGAGT GCAATAGAAC CGAAAGTCCC TTACACACCA
    CTTTTGTCTC AGCCAGGGCC CACTCTTCCT AAGACCCATG TGAAAACAGC CTCCCTTGGG
    TTGGCTGGAA AAGCAAGATC CCCTTTGCTT CCTGTGTCTG TGCCAACAGC CCCTGAAGTG
    TCTGAGGAGA GCCACAAACC AACAGAGGAT TCAGCCAATG TGTATGAACA GGATGATCTG
    AGTGAACAAA TGGCAAGTTT GGAAGGACTC ATGAAGCAGC TTAATGCCAT CACAGGCTCA
    GCCTTTTAA

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

    RefSeq XP_011524146.1
    CDS540..3848
    Translation

    Target ORF information:

    RefSeq Version XM_011525844.2
    Organism Homo sapiens(human)
    Definition Homo sapiens DCC netrin 1 receptor (DCC), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525844.2

    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
    ATGGATATTG AGTTTGAATG TACAGTCTCT GGAAAGCCTG TGCCCACTGT GAATTGGATG 
    AAGAATGGAG ATGTGGTCAT TCCTAGTGAT TATTTTCAGA TAGTGGGAGG AAGCAACTTA
    CGGATACTTG GGGTGGTGAA GTCAGATGAA GGCTTTTATC AATGTGTGGC TGAAAATGAG
    GCTGGAAATG CCCAGACCAG TGCACAGCTC ATTGTCCCTA AGCCTGCTAT CCCAAGCTCC
    AGTGTCCTCC CTTCGGCTCC CAGAGATGTG GTCCCTGTCT TGGTTTCCAG CCGATTTGTC
    CGTCTCAGCT GGCGCCCACC TGCAGAAGCG AAAGGGAACA TTCAAACTTT CACGGTCTTT
    TTCTCCAGAG AAGGTGACAA CAGGGAACGA GCATTGAATA CAACACAGCC TGGGTCCCTT
    CAGCTCACTG TGGGAAACCT GAAGCCAGAA GCCATGTACA CCTTTCGAGT TGTGGCTTAC
    AATGAATGGG GACCGGGAGA GAGTTCTCAA CCCATCAAGG TGGCCACACA GCCTGAGTTG
    CAAGTTCCAG GGCCAGTAGA AAACCTGCAA GCTGTATCTA CCTCACCTAC CTCAATTCTT
    ATTACCTGGG AACCCCCTGC CTATGCAAAC GGTCCAGTCC AAGGTTACAG ATTGTTCTGC
    ACTGAGGTGT CCACAGGAAA AGAACAGAAT ATAGAGGTTG ATGGACTATC TTATAAACTG
    GAAGGCCTGA AAAAATTCAC CGAATATAGT CTTCGATTCT TAGCTTATAA TCGCTATGGT
    CCGGGCGTCT CTACTGATGA TATAACAGTG GTTACACTTT CTGACGTGCC AAGTGCCCCG
    CCTCAGAACG TCTCCCTGGA AGTGGTCAAT TCAAGAAGTA TCAAAGTTAG CTGGCTGCCT
    CCTCCATCAG GAACACAAAA TGGATTTATT ACCGGCTATA AAATTCGACA CAGAAAGACG
    ACCCGCAGGG GTGAGATGGA AACACTGGAG CCAAACAACC TCTGGTACCT ATTCACAGGA
    CTGGAGAAAG GAAGTCAGTA CAGTTTCCAG GTGTCAGCCA TGACAGTCAA TGGTACTGGA
    CCACCTTCCA ACTGGTATAC TGCAGAGACT CCAGAGAATG ATCTAGATGA ATCTCAAGTT
    CCTGATCAAC CAAGCTCTCT TCATGTGAGG CCCCAGACTA ACTGCATCAT CATGAGTTGG
    ACTCCTCCCT TGAACCCAAA CATCGTGGTG CGAGGTTATA TTATCGGTTA TGGCGTTGGG
    AGCCCTTACG CTGAGACAGT GCGTGTGGAC AGCAAGCAGC GATATTATTC CATTGAGAGG
    TTAGAGTCAA GTTCCCATTA TGTAATCTCC CTAAAAGCTT TTAACAATGC CGGAGAAGGA
    GTTCCTCTTT ATGAAAGTGC CACCACCAGG TCTATAACCG ATCCCACTGA CCCAGTTGAT
    TATTATCCTT TGCTTGATGA TTTCCCCACC TCGGTCCCAG ATCTCTCCAC CCCCATGCTC
    CCACCAGTAG GTGTACAGGC TGTGGCTCTT ACCCATGATG CTGTGAGGGT CAGCTGGGCA
    GACAACTCTG TCCCTAAGAA CCAAAAGACG TCTGAGGTGC GACTTTACAC CGTCCGGTGG
    AGAACCAGCT TTTCTGCAAG TGCAAAATAC AAGTCAGAAG ACACAACATC TCTAAGTTAC
    ACAGCAACAG GCCTCAAACC AAACACAATG TATGAATTCT CGGTCATGGT AACAAAAAAC
    AGAAGGTCCA GTACTTGGAG CATGACTGCA CATGCCACCA CGTATGAAGC AGCCCCCACC
    TCTGCTCCCA AGGACTTGAC AGTCATTACT AGGGAAGGGA AGCCTCGTGC CGTCATTGTG
    AGTTGGCAGC CTCCCTTGGA AGCCAATGGG AAAATTACTG CTTACATCTT ATTTTATACC
    TTGGACAAGA ACATCCCAAT TGATGACTGG ATTATGGAAA CAATCAGTGG TGATAGGCTT
    ACTCATCAAA TCATGGATCT CAACCTTGAT ACTATGTATT ACTTTCGAAT TCAAGCACGA
    AATTCAAAAG GAGTGGGGCC ACTCTCTGAT CCTATCCTCT TCAGGACTCT GAAAGTGGAA
    CACCCTGACA AAATGGCTAA TGACCAAGGT CGTCATGGAG ATGGAGGTTA TTGGCCAGTT
    GATACTAATT TGATTGATAG AAGCACCCTA AATGAGCCGC CAATTGGACA AATGCACCCC
    CCGCATGGCA GTGTCACTCC TCAGAAGAAC AGCAACCTGC TTGTGATCAT TGTGGTCACC
    GTTGGTGTCA TCACAGTGCT GGTAGTGGTC ATCGTGGCTG TGATTTGCAC CCGACGCTCT
    TCAGCCCAGC AGAGAAAGAA ACGGGCCACC CACAGTGCTG GCAAAAGGAA GGGCAGCCAG
    AAGGACCTCC GACCCCCTGA TCTTTGGATC CATCATGAAG AAATGGAGAT GAAAAATATT
    GAAAAGCCAT CTGGCACTGA CCCTGCAGGA AGGGACTCTC CCATCCAAAG TTGCCAAGAC
    CTCACACCAG TCAGCCACAG CCAGTCAGAA ACCCAACTGG GAAGCAAAAG CACCTCTCAT
    TCAGGTCAAG ACACTGAGGA AGCAGGGAGC TCTATGTCCA CTCTGGAGAG GTCGCTGGCT
    GCACGCCGAG CCCCCCGGGC CAAGCTCATG ATTCCCATGG ATGCCCAGTC CAACAATCCT
    GCTGTCGTGA GCGCCATCCC GGTGCCAACG CTAGAAAGTG CCCAGTACCC AGGAATCCTC
    CCGTCTCCCA CCTGTGGATA TCCCCACCCG CAGTTCACTC TCCGGCCTGT GCCATTCCCA
    ACACTCTCAG TGGACCGAGG TTTCGGAGCA GGAAGAAGTC AGTCAGTGAG TGAAGGACCA
    ACTACCCAAC AACCACCTAT GCTGCCCCCA TCTCAGCCTG AGCATTCTAG CAGCGAGGAG
    GCACCAAGCA GAACCATCCC CACAGCTTGT GTTCGACCAA CTCACCCACT CCGCAGCTTT
    GCTAATCCTT TGCTACCTCC ACCAATGAGT GCAATAGAAC CGAAAGTCCC TTACACACCA
    CTTTTGTCTC AGCCAGGGCC CACTCTTCCT AAGACCCATG TGAAAACAGC CTCCCTTGGG
    TTGGCTGGAA AAGCAAGATC CCCTTTGCTT CCTGTGTCTG TGCCAACAGC CCCTGAAGTG
    TCTGAGGAGA GCCACAAACC AACAGAGGAT TCAGCCAATG TGTATGAACA GGATGATCTG
    AGTGAACAAA TGGCAAGTTT GGAAGGACTC ATGAAGCAGC TTAATGCCAT CACAGGCTCA
    GCCTTTTAA

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

    CloneID OHu57204
    Clone ID Related Accession (Same CDS sequence) XM_011525844.2 , XM_017025570.1
    Accession Version XM_017025570.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3309bp)
    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 netrin receptor DCC isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) 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
    ATGGATATTG AGTTTGAATG TACAGTCTCT GGAAAGCCTG TGCCCACTGT GAATTGGATG 
    AAGAATGGAG ATGTGGTCAT TCCTAGTGAT TATTTTCAGA TAGTGGGAGG AAGCAACTTA
    CGGATACTTG GGGTGGTGAA GTCAGATGAA GGCTTTTATC AATGTGTGGC TGAAAATGAG
    GCTGGAAATG CCCAGACCAG TGCACAGCTC ATTGTCCCTA AGCCTGCTAT CCCAAGCTCC
    AGTGTCCTCC CTTCGGCTCC CAGAGATGTG GTCCCTGTCT TGGTTTCCAG CCGATTTGTC
    CGTCTCAGCT GGCGCCCACC TGCAGAAGCG AAAGGGAACA TTCAAACTTT CACGGTCTTT
    TTCTCCAGAG AAGGTGACAA CAGGGAACGA GCATTGAATA CAACACAGCC TGGGTCCCTT
    CAGCTCACTG TGGGAAACCT GAAGCCAGAA GCCATGTACA CCTTTCGAGT TGTGGCTTAC
    AATGAATGGG GACCGGGAGA GAGTTCTCAA CCCATCAAGG TGGCCACACA GCCTGAGTTG
    CAAGTTCCAG GGCCAGTAGA AAACCTGCAA GCTGTATCTA CCTCACCTAC CTCAATTCTT
    ATTACCTGGG AACCCCCTGC CTATGCAAAC GGTCCAGTCC AAGGTTACAG ATTGTTCTGC
    ACTGAGGTGT CCACAGGAAA AGAACAGAAT ATAGAGGTTG ATGGACTATC TTATAAACTG
    GAAGGCCTGA AAAAATTCAC CGAATATAGT CTTCGATTCT TAGCTTATAA TCGCTATGGT
    CCGGGCGTCT CTACTGATGA TATAACAGTG GTTACACTTT CTGACGTGCC AAGTGCCCCG
    CCTCAGAACG TCTCCCTGGA AGTGGTCAAT TCAAGAAGTA TCAAAGTTAG CTGGCTGCCT
    CCTCCATCAG GAACACAAAA TGGATTTATT ACCGGCTATA AAATTCGACA CAGAAAGACG
    ACCCGCAGGG GTGAGATGGA AACACTGGAG CCAAACAACC TCTGGTACCT ATTCACAGGA
    CTGGAGAAAG GAAGTCAGTA CAGTTTCCAG GTGTCAGCCA TGACAGTCAA TGGTACTGGA
    CCACCTTCCA ACTGGTATAC TGCAGAGACT CCAGAGAATG ATCTAGATGA ATCTCAAGTT
    CCTGATCAAC CAAGCTCTCT TCATGTGAGG CCCCAGACTA ACTGCATCAT CATGAGTTGG
    ACTCCTCCCT TGAACCCAAA CATCGTGGTG CGAGGTTATA TTATCGGTTA TGGCGTTGGG
    AGCCCTTACG CTGAGACAGT GCGTGTGGAC AGCAAGCAGC GATATTATTC CATTGAGAGG
    TTAGAGTCAA GTTCCCATTA TGTAATCTCC CTAAAAGCTT TTAACAATGC CGGAGAAGGA
    GTTCCTCTTT ATGAAAGTGC CACCACCAGG TCTATAACCG ATCCCACTGA CCCAGTTGAT
    TATTATCCTT TGCTTGATGA TTTCCCCACC TCGGTCCCAG ATCTCTCCAC CCCCATGCTC
    CCACCAGTAG GTGTACAGGC TGTGGCTCTT ACCCATGATG CTGTGAGGGT CAGCTGGGCA
    GACAACTCTG TCCCTAAGAA CCAAAAGACG TCTGAGGTGC GACTTTACAC CGTCCGGTGG
    AGAACCAGCT TTTCTGCAAG TGCAAAATAC AAGTCAGAAG ACACAACATC TCTAAGTTAC
    ACAGCAACAG GCCTCAAACC AAACACAATG TATGAATTCT CGGTCATGGT AACAAAAAAC
    AGAAGGTCCA GTACTTGGAG CATGACTGCA CATGCCACCA CGTATGAAGC AGCCCCCACC
    TCTGCTCCCA AGGACTTGAC AGTCATTACT AGGGAAGGGA AGCCTCGTGC CGTCATTGTG
    AGTTGGCAGC CTCCCTTGGA AGCCAATGGG AAAATTACTG CTTACATCTT ATTTTATACC
    TTGGACAAGA ACATCCCAAT TGATGACTGG ATTATGGAAA CAATCAGTGG TGATAGGCTT
    ACTCATCAAA TCATGGATCT CAACCTTGAT ACTATGTATT ACTTTCGAAT TCAAGCACGA
    AATTCAAAAG GAGTGGGGCC ACTCTCTGAT CCTATCCTCT TCAGGACTCT GAAAGTGGAA
    CACCCTGACA AAATGGCTAA TGACCAAGGT CGTCATGGAG ATGGAGGTTA TTGGCCAGTT
    GATACTAATT TGATTGATAG AAGCACCCTA AATGAGCCGC CAATTGGACA AATGCACCCC
    CCGCATGGCA GTGTCACTCC TCAGAAGAAC AGCAACCTGC TTGTGATCAT TGTGGTCACC
    GTTGGTGTCA TCACAGTGCT GGTAGTGGTC ATCGTGGCTG TGATTTGCAC CCGACGCTCT
    TCAGCCCAGC AGAGAAAGAA ACGGGCCACC CACAGTGCTG GCAAAAGGAA GGGCAGCCAG
    AAGGACCTCC GACCCCCTGA TCTTTGGATC CATCATGAAG AAATGGAGAT GAAAAATATT
    GAAAAGCCAT CTGGCACTGA CCCTGCAGGA AGGGACTCTC CCATCCAAAG TTGCCAAGAC
    CTCACACCAG TCAGCCACAG CCAGTCAGAA ACCCAACTGG GAAGCAAAAG CACCTCTCAT
    TCAGGTCAAG ACACTGAGGA AGCAGGGAGC TCTATGTCCA CTCTGGAGAG GTCGCTGGCT
    GCACGCCGAG CCCCCCGGGC CAAGCTCATG ATTCCCATGG ATGCCCAGTC CAACAATCCT
    GCTGTCGTGA GCGCCATCCC GGTGCCAACG CTAGAAAGTG CCCAGTACCC AGGAATCCTC
    CCGTCTCCCA CCTGTGGATA TCCCCACCCG CAGTTCACTC TCCGGCCTGT GCCATTCCCA
    ACACTCTCAG TGGACCGAGG TTTCGGAGCA GGAAGAAGTC AGTCAGTGAG TGAAGGACCA
    ACTACCCAAC AACCACCTAT GCTGCCCCCA TCTCAGCCTG AGCATTCTAG CAGCGAGGAG
    GCACCAAGCA GAACCATCCC CACAGCTTGT GTTCGACCAA CTCACCCACT CCGCAGCTTT
    GCTAATCCTT TGCTACCTCC ACCAATGAGT GCAATAGAAC CGAAAGTCCC TTACACACCA
    CTTTTGTCTC AGCCAGGGCC CACTCTTCCT AAGACCCATG TGAAAACAGC CTCCCTTGGG
    TTGGCTGGAA AAGCAAGATC CCCTTTGCTT CCTGTGTCTG TGCCAACAGC CCCTGAAGTG
    TCTGAGGAGA GCCACAAACC AACAGAGGAT TCAGCCAATG TGTATGAACA GGATGATCTG
    AGTGAACAAA TGGCAAGTTT GGAAGGACTC ATGAAGCAGC TTAATGCCAT CACAGGCTCA
    GCCTTTTAA

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

    RefSeq XP_016881059.1
    CDS548..3856
    Translation

    Target ORF information:

    RefSeq Version XM_017025570.1
    Organism Homo sapiens(human)
    Definition Homo sapiens DCC netrin 1 receptor (DCC), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017025570.1

    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
    ATGGATATTG AGTTTGAATG TACAGTCTCT GGAAAGCCTG TGCCCACTGT GAATTGGATG 
    AAGAATGGAG ATGTGGTCAT TCCTAGTGAT TATTTTCAGA TAGTGGGAGG AAGCAACTTA
    CGGATACTTG GGGTGGTGAA GTCAGATGAA GGCTTTTATC AATGTGTGGC TGAAAATGAG
    GCTGGAAATG CCCAGACCAG TGCACAGCTC ATTGTCCCTA AGCCTGCTAT CCCAAGCTCC
    AGTGTCCTCC CTTCGGCTCC CAGAGATGTG GTCCCTGTCT TGGTTTCCAG CCGATTTGTC
    CGTCTCAGCT GGCGCCCACC TGCAGAAGCG AAAGGGAACA TTCAAACTTT CACGGTCTTT
    TTCTCCAGAG AAGGTGACAA CAGGGAACGA GCATTGAATA CAACACAGCC TGGGTCCCTT
    CAGCTCACTG TGGGAAACCT GAAGCCAGAA GCCATGTACA CCTTTCGAGT TGTGGCTTAC
    AATGAATGGG GACCGGGAGA GAGTTCTCAA CCCATCAAGG TGGCCACACA GCCTGAGTTG
    CAAGTTCCAG GGCCAGTAGA AAACCTGCAA GCTGTATCTA CCTCACCTAC CTCAATTCTT
    ATTACCTGGG AACCCCCTGC CTATGCAAAC GGTCCAGTCC AAGGTTACAG ATTGTTCTGC
    ACTGAGGTGT CCACAGGAAA AGAACAGAAT ATAGAGGTTG ATGGACTATC TTATAAACTG
    GAAGGCCTGA AAAAATTCAC CGAATATAGT CTTCGATTCT TAGCTTATAA TCGCTATGGT
    CCGGGCGTCT CTACTGATGA TATAACAGTG GTTACACTTT CTGACGTGCC AAGTGCCCCG
    CCTCAGAACG TCTCCCTGGA AGTGGTCAAT TCAAGAAGTA TCAAAGTTAG CTGGCTGCCT
    CCTCCATCAG GAACACAAAA TGGATTTATT ACCGGCTATA AAATTCGACA CAGAAAGACG
    ACCCGCAGGG GTGAGATGGA AACACTGGAG CCAAACAACC TCTGGTACCT ATTCACAGGA
    CTGGAGAAAG GAAGTCAGTA CAGTTTCCAG GTGTCAGCCA TGACAGTCAA TGGTACTGGA
    CCACCTTCCA ACTGGTATAC TGCAGAGACT CCAGAGAATG ATCTAGATGA ATCTCAAGTT
    CCTGATCAAC CAAGCTCTCT TCATGTGAGG CCCCAGACTA ACTGCATCAT CATGAGTTGG
    ACTCCTCCCT TGAACCCAAA CATCGTGGTG CGAGGTTATA TTATCGGTTA TGGCGTTGGG
    AGCCCTTACG CTGAGACAGT GCGTGTGGAC AGCAAGCAGC GATATTATTC CATTGAGAGG
    TTAGAGTCAA GTTCCCATTA TGTAATCTCC CTAAAAGCTT TTAACAATGC CGGAGAAGGA
    GTTCCTCTTT ATGAAAGTGC CACCACCAGG TCTATAACCG ATCCCACTGA CCCAGTTGAT
    TATTATCCTT TGCTTGATGA TTTCCCCACC TCGGTCCCAG ATCTCTCCAC CCCCATGCTC
    CCACCAGTAG GTGTACAGGC TGTGGCTCTT ACCCATGATG CTGTGAGGGT CAGCTGGGCA
    GACAACTCTG TCCCTAAGAA CCAAAAGACG TCTGAGGTGC GACTTTACAC CGTCCGGTGG
    AGAACCAGCT TTTCTGCAAG TGCAAAATAC AAGTCAGAAG ACACAACATC TCTAAGTTAC
    ACAGCAACAG GCCTCAAACC AAACACAATG TATGAATTCT CGGTCATGGT AACAAAAAAC
    AGAAGGTCCA GTACTTGGAG CATGACTGCA CATGCCACCA CGTATGAAGC AGCCCCCACC
    TCTGCTCCCA AGGACTTGAC AGTCATTACT AGGGAAGGGA AGCCTCGTGC CGTCATTGTG
    AGTTGGCAGC CTCCCTTGGA AGCCAATGGG AAAATTACTG CTTACATCTT ATTTTATACC
    TTGGACAAGA ACATCCCAAT TGATGACTGG ATTATGGAAA CAATCAGTGG TGATAGGCTT
    ACTCATCAAA TCATGGATCT CAACCTTGAT ACTATGTATT ACTTTCGAAT TCAAGCACGA
    AATTCAAAAG GAGTGGGGCC ACTCTCTGAT CCTATCCTCT TCAGGACTCT GAAAGTGGAA
    CACCCTGACA AAATGGCTAA TGACCAAGGT CGTCATGGAG ATGGAGGTTA TTGGCCAGTT
    GATACTAATT TGATTGATAG AAGCACCCTA AATGAGCCGC CAATTGGACA AATGCACCCC
    CCGCATGGCA GTGTCACTCC TCAGAAGAAC AGCAACCTGC TTGTGATCAT TGTGGTCACC
    GTTGGTGTCA TCACAGTGCT GGTAGTGGTC ATCGTGGCTG TGATTTGCAC CCGACGCTCT
    TCAGCCCAGC AGAGAAAGAA ACGGGCCACC CACAGTGCTG GCAAAAGGAA GGGCAGCCAG
    AAGGACCTCC GACCCCCTGA TCTTTGGATC CATCATGAAG AAATGGAGAT GAAAAATATT
    GAAAAGCCAT CTGGCACTGA CCCTGCAGGA AGGGACTCTC CCATCCAAAG TTGCCAAGAC
    CTCACACCAG TCAGCCACAG CCAGTCAGAA ACCCAACTGG GAAGCAAAAG CACCTCTCAT
    TCAGGTCAAG ACACTGAGGA AGCAGGGAGC TCTATGTCCA CTCTGGAGAG GTCGCTGGCT
    GCACGCCGAG CCCCCCGGGC CAAGCTCATG ATTCCCATGG ATGCCCAGTC CAACAATCCT
    GCTGTCGTGA GCGCCATCCC GGTGCCAACG CTAGAAAGTG CCCAGTACCC AGGAATCCTC
    CCGTCTCCCA CCTGTGGATA TCCCCACCCG CAGTTCACTC TCCGGCCTGT GCCATTCCCA
    ACACTCTCAG TGGACCGAGG TTTCGGAGCA GGAAGAAGTC AGTCAGTGAG TGAAGGACCA
    ACTACCCAAC AACCACCTAT GCTGCCCCCA TCTCAGCCTG AGCATTCTAG CAGCGAGGAG
    GCACCAAGCA GAACCATCCC CACAGCTTGT GTTCGACCAA CTCACCCACT CCGCAGCTTT
    GCTAATCCTT TGCTACCTCC ACCAATGAGT GCAATAGAAC CGAAAGTCCC TTACACACCA
    CTTTTGTCTC AGCCAGGGCC CACTCTTCCT AAGACCCATG TGAAAACAGC CTCCCTTGGG
    TTGGCTGGAA AAGCAAGATC CCCTTTGCTT CCTGTGTCTG TGCCAACAGC CCCTGAAGTG
    TCTGAGGAGA GCCACAAACC AACAGAGGAT TCAGCCAATG TGTATGAACA GGATGATCTG
    AGTGAACAAA TGGCAAGTTT GGAAGGACTC ATGAAGCAGC TTAATGCCAT CACAGGCTCA
    GCCTTTTAA

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

    CloneID OHu28353
    Clone ID Related Accession (Same CDS sequence) NM_005215.3 , NM_005215.4
    Accession Version NM_005215.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4344bp)
    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 2017-12-10
    Organism Homo sapiens(human)
    Product netrin receptor DCC
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC011155.13, X76132.1, BC036524.1 and AC103949.6. This sequence is a reference standard in the RefSeqGene project. On Oct 3, 2009 this sequence version replaced NM_005215.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript 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 :: X76132.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN03267772, SAMN03465403 [ECO:0000348] ##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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAGAATA GTCTTAGATG TGTTTGGGTA CCCAAGCTGG CTTTTGTACT CTTCGGAGCT 
    TCCTTGTTCA GCGCGCATCT TCAAGTAACC GGTTTTCAAA TTAAAGCTTT CACAGCACTG
    CGCTTCCTCT CAGAACCTTC TGATGCCGTC ACAATGCGGG GAGGAAATGT CCTCCTCGAC
    TGCTCCGCGG AGTCCGACCG AGGAGTTCCA GTGATCAAGT GGAAGAAAGA TGGCATTCAT
    CTGGCCTTGG GAATGGATGA AAGGAAGCAG CAACTTTCAA ATGGGTCTCT GCTGATACAA
    AACATACTTC ATTCCAGACA CCACAAGCCA GATGAGGGAC TTTACCAATG TGAGGCATCT
    TTAGGAGATT CTGGCTCAAT TATTAGTCGG ACAGCAAAAG TTGCAGTAGC AGGACCACTG
    AGGTTCCTTT CACAGACAGA ATCTGTCACA GCCTTCATGG GAGACACAGT GCTACTCAAG
    TGTGAAGTCA TTGGGGAGCC CATGCCAACA ATCCACTGGC AGAAGAACCA ACAAGACCTG
    ACTCCAATCC CAGGTGACTC CCGAGTGGTG GTCTTGCCCT CTGGAGCATT GCAGATCAGC
    CGACTCCAAC CGGGGGACAT TGGAATTTAC CGATGCTCAG CTCGAAATCC AGCCAGCTCA
    AGAACAGGAA ATGAAGCAGA AGTCAGAATT TTATCAGATC CAGGACTGCA TAGACAGCTG
    TATTTTCTGC AAAGACCATC CAATGTAGTA GCCATTGAAG GAAAAGATGC TGTCCTGGAA
    TGTTGTGTTT CTGGCTATCC TCCACCAAGT TTTACCTGGT TACGAGGCGA GGAAGTCATC
    CAACTCAGGT CTAAAAAGTA TTCTTTATTG GGTGGAAGCA ACTTGCTTAT CTCCAATGTG
    ACAGATGATG ACAGTGGAAT GTATACCTGT GTTGTCACAT ATAAAAATGA GAATATTAGT
    GCCTCTGCAG AGCTCACAGT CTTGGTTCCG CCATGGTTTT TAAATCATCC TTCCAACCTG
    TATGCCTATG AAAGCATGGA TATTGAGTTT GAATGTACAG TCTCTGGAAA GCCTGTGCCC
    ACTGTGAATT GGATGAAGAA TGGAGATGTG GTCATTCCTA GTGATTATTT TCAGATAGTG
    GGAGGAAGCA ACTTACGGAT ACTTGGGGTG GTGAAGTCAG ATGAAGGCTT TTATCAATGT
    GTGGCTGAAA ATGAGGCTGG AAATGCCCAG ACCAGTGCAC AGCTCATTGT CCCTAAGCCT
    GCTATCCCAA GCTCCAGTGT CCTCCCTTCG GCTCCCAGAG ATGTGGTCCC TGTCTTGGTT
    TCCAGCCGAT TTGTCCGTCT CAGCTGGCGC CCACCTGCAG AAGCGAAAGG GAACATTCAA
    ACTTTCACGG TCTTTTTCTC CAGAGAAGGT GACAACAGGG AACGAGCATT GAATACAACA
    CAGCCTGGGT CCCTTCAGCT CACTGTGGGA AACCTGAAGC CAGAAGCCAT GTACACCTTT
    CGAGTTGTGG CTTACAATGA ATGGGGACCG GGAGAGAGTT CTCAACCCAT CAAGGTGGCC
    ACACAGCCTG AGTTGCAAGT TCCAGGGCCA GTAGAAAACC TGCAAGCTGT ATCTACCTCA
    CCTACCTCAA TTCTTATTAC CTGGGAACCC CCTGCCTATG CAAACGGTCC AGTCCAAGGT
    TACAGATTGT TCTGCACTGA GGTGTCCACA GGAAAAGAAC AGAATATAGA GGTTGATGGA
    CTATCTTATA AACTGGAAGG CCTGAAAAAA TTCACCGAAT ATAGTCTTCG ATTCTTAGCT
    TATAATCGCT ATGGTCCGGG CGTCTCTACT GATGATATAA CAGTGGTTAC ACTTTCTGAC
    GTGCCAAGTG CCCCGCCTCA GAACGTCTCC CTGGAAGTGG TCAATTCAAG AAGTATCAAA
    GTTAGCTGGC TGCCTCCTCC ATCAGGAACA CAAAATGGAT TTATTACCGG CTATAAAATT
    CGACACAGAA AGACGACCCG CAGGGGTGAG ATGGAAACAC TGGAGCCAAA CAACCTCTGG
    TACCTATTCA CAGGACTGGA GAAAGGAAGT CAGTACAGTT TCCAGGTGTC AGCCATGACA
    GTCAATGGTA CTGGACCACC TTCCAACTGG TATACTGCAG AGACTCCAGA GAATGATCTA
    GATGAATCTC AAGTTCCTGA TCAACCAAGC TCTCTTCATG TGAGGCCCCA GACTAACTGC
    ATCATCATGA GTTGGACTCC TCCCTTGAAC CCAAACATCG TGGTGCGAGG TTATATTATC
    GGTTATGGCG TTGGGAGCCC TTACGCTGAG ACAGTGCGTG TGGACAGCAA GCAGCGATAT
    TATTCCATTG AGAGGTTAGA GTCAAGTTCC CATTATGTAA TCTCCCTAAA AGCTTTTAAC
    AATGCCGGAG AAGGAGTTCC TCTTTATGAA AGTGCCACCA CCAGGTCTAT AACCGATCCC
    ACTGACCCAG TTGATTATTA TCCTTTGCTT GATGATTTCC CCACCTCGGT CCCAGATCTC
    TCCACCCCCA TGCTCCCACC AGTAGGTGTA CAGGCTGTGG CTCTTACCCA TGATGCTGTG
    AGGGTCAGCT GGGCAGACAA CTCTGTCCCT AAGAACCAAA AGACGTCTGA GGTGCGACTT
    TACACCGTCC GGTGGAGAAC CAGCTTTTCT GCAAGTGCAA AATACAAGTC AGAAGACACA
    ACATCTCTAA GTTACACAGC AACAGGCCTC AAACCAAACA CAATGTATGA ATTCTCGGTC
    ATGGTAACAA AAAACAGAAG GTCCAGTACT TGGAGCATGA CTGCACATGC CACCACGTAT
    GAAGCAGCCC CCACCTCTGC TCCCAAGGAC TTGACAGTCA TTACTAGGGA AGGGAAGCCT
    CGTGCCGTCA TTGTGAGTTG GCAGCCTCCC TTGGAAGCCA ATGGGAAAAT TACTGCTTAC
    ATCTTATTTT ATACCTTGGA CAAGAACATC CCAATTGATG ACTGGATTAT GGAAACAATC
    AGTGGTGATA GGCTTACTCA TCAAATCATG GATCTCAACC TTGATACTAT GTATTACTTT
    CGAATTCAAG CACGAAATTC AAAAGGAGTG GGGCCACTCT CTGATCCTAT CCTCTTCAGG
    ACTCTGAAAG TGGAACACCC TGACAAAATG GCTAATGACC AAGGTCGTCA TGGAGATGGA
    GGTTATTGGC CAGTTGATAC TAATTTGATT GATAGAAGCA CCCTAAATGA GCCGCCAATT
    GGACAAATGC ACCCCCCGCA TGGCAGTGTC ACTCCTCAGA AGAACAGCAA CCTGCTTGTG
    ATCATTGTGG TCACCGTTGG TGTCATCACA GTGCTGGTAG TGGTCATCGT GGCTGTGATT
    TGCACCCGAC GCTCTTCAGC CCAGCAGAGA AAGAAACGGG CCACCCACAG TGCTGGCAAA
    AGGAAGGGCA GCCAGAAGGA CCTCCGACCC CCTGATCTTT GGATCCATCA TGAAGAAATG
    GAGATGAAAA ATATTGAAAA GCCATCTGGC ACTGACCCTG CAGGAAGGGA CTCTCCCATC
    CAAAGTTGCC AAGACCTCAC ACCAGTCAGC CACAGCCAGT CAGAAACCCA ACTGGGAAGC
    AAAAGCACCT CTCATTCAGG TCAAGACACT GAGGAAGCAG GGAGCTCTAT GTCCACTCTG
    GAGAGGTCGC TGGCTGCACG CCGAGCCCCC CGGGCCAAGC TCATGATTCC CATGGATGCC
    CAGTCCAACA ATCCTGCTGT CGTGAGCGCC ATCCCGGTGC CAACGCTAGA AAGTGCCCAG
    TACCCAGGAA TCCTCCCGTC TCCCACCTGT GGATATCCCC ACCCGCAGTT CACTCTCCGG
    CCTGTGCCAT TCCCAACACT CTCAGTGGAC CGAGGTTTCG GAGCAGGAAG AAGTCAGTCA
    GTGAGTGAAG GACCAACTAC CCAACAACCA CCTATGCTGC CCCCATCTCA GCCTGAGCAT
    TCTAGCAGCG AGGAGGCACC AAGCAGAACC ATCCCCACAG CTTGTGTTCG ACCAACTCAC
    CCACTCCGCA GCTTTGCTAA TCCTTTGCTA CCTCCACCAA TGAGTGCAAT AGAACCGAAA
    GTCCCTTACA CACCACTTTT GTCTCAGCCA GGGCCCACTC TTCCTAAGAC CCATGTGAAA
    ACAGCCTCCC TTGGGTTGGC TGGAAAAGCA AGATCCCCTT TGCTTCCTGT GTCTGTGCCA
    ACAGCCCCTG AAGTGTCTGA GGAGAGCCAC AAACCAACAG AGGATTCAGC CAATGTGTAT
    GAACAGGATG ATCTGAGTGA ACAAATGGCA AGTTTGGAAG GACTCATGAA GCAGCTTAAT
    GCCATCACAG GCTCAGCCTT TTAA

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

    RefSeq NP_005206.2
    CDS617..4960
    Translation

    Target ORF information:

    RefSeq Version NM_005215.3
    Organism Homo sapiens(human)
    Definition Homo sapiens DCC netrin 1 receptor (DCC), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_005215.3

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAGAATA GTCTTAGATG TGTTTGGGTA CCCAAGCTGG CTTTTGTACT CTTCGGAGCT 
    TCCTTGTTCA GCGCGCATCT TCAAGTAACC GGTTTTCAAA TTAAAGCTTT CACAGCACTG
    CGCTTCCTCT CAGAACCTTC TGATGCCGTC ACAATGCGGG GAGGAAATGT CCTCCTCGAC
    TGCTCCGCGG AGTCCGACCG AGGAGTTCCA GTGATCAAGT GGAAGAAAGA TGGCATTCAT
    CTGGCCTTGG GAATGGATGA AAGGAAGCAG CAACTTTCAA ATGGGTCTCT GCTGATACAA
    AACATACTTC ATTCCAGACA CCACAAGCCA GATGAGGGAC TTTACCAATG TGAGGCATCT
    TTAGGAGATT CTGGCTCAAT TATTAGTCGG ACAGCAAAAG TTGCAGTAGC AGGACCACTG
    AGGTTCCTTT CACAGACAGA ATCTGTCACA GCCTTCATGG GAGACACAGT GCTACTCAAG
    TGTGAAGTCA TTGGGGAGCC CATGCCAACA ATCCACTGGC AGAAGAACCA ACAAGACCTG
    ACTCCAATCC CAGGTGACTC CCGAGTGGTG GTCTTGCCCT CTGGAGCATT GCAGATCAGC
    CGACTCCAAC CGGGGGACAT TGGAATTTAC CGATGCTCAG CTCGAAATCC AGCCAGCTCA
    AGAACAGGAA ATGAAGCAGA AGTCAGAATT TTATCAGATC CAGGACTGCA TAGACAGCTG
    TATTTTCTGC AAAGACCATC CAATGTAGTA GCCATTGAAG GAAAAGATGC TGTCCTGGAA
    TGTTGTGTTT CTGGCTATCC TCCACCAAGT TTTACCTGGT TACGAGGCGA GGAAGTCATC
    CAACTCAGGT CTAAAAAGTA TTCTTTATTG GGTGGAAGCA ACTTGCTTAT CTCCAATGTG
    ACAGATGATG ACAGTGGAAT GTATACCTGT GTTGTCACAT ATAAAAATGA GAATATTAGT
    GCCTCTGCAG AGCTCACAGT CTTGGTTCCG CCATGGTTTT TAAATCATCC TTCCAACCTG
    TATGCCTATG AAAGCATGGA TATTGAGTTT GAATGTACAG TCTCTGGAAA GCCTGTGCCC
    ACTGTGAATT GGATGAAGAA TGGAGATGTG GTCATTCCTA GTGATTATTT TCAGATAGTG
    GGAGGAAGCA ACTTACGGAT ACTTGGGGTG GTGAAGTCAG ATGAAGGCTT TTATCAATGT
    GTGGCTGAAA ATGAGGCTGG AAATGCCCAG ACCAGTGCAC AGCTCATTGT CCCTAAGCCT
    GCTATCCCAA GCTCCAGTGT CCTCCCTTCG GCTCCCAGAG ATGTGGTCCC TGTCTTGGTT
    TCCAGCCGAT TTGTCCGTCT CAGCTGGCGC CCACCTGCAG AAGCGAAAGG GAACATTCAA
    ACTTTCACGG TCTTTTTCTC CAGAGAAGGT GACAACAGGG AACGAGCATT GAATACAACA
    CAGCCTGGGT CCCTTCAGCT CACTGTGGGA AACCTGAAGC CAGAAGCCAT GTACACCTTT
    CGAGTTGTGG CTTACAATGA ATGGGGACCG GGAGAGAGTT CTCAACCCAT CAAGGTGGCC
    ACACAGCCTG AGTTGCAAGT TCCAGGGCCA GTAGAAAACC TGCAAGCTGT ATCTACCTCA
    CCTACCTCAA TTCTTATTAC CTGGGAACCC CCTGCCTATG CAAACGGTCC AGTCCAAGGT
    TACAGATTGT TCTGCACTGA GGTGTCCACA GGAAAAGAAC AGAATATAGA GGTTGATGGA
    CTATCTTATA AACTGGAAGG CCTGAAAAAA TTCACCGAAT ATAGTCTTCG ATTCTTAGCT
    TATAATCGCT ATGGTCCGGG CGTCTCTACT GATGATATAA CAGTGGTTAC ACTTTCTGAC
    GTGCCAAGTG CCCCGCCTCA GAACGTCTCC CTGGAAGTGG TCAATTCAAG AAGTATCAAA
    GTTAGCTGGC TGCCTCCTCC ATCAGGAACA CAAAATGGAT TTATTACCGG CTATAAAATT
    CGACACAGAA AGACGACCCG CAGGGGTGAG ATGGAAACAC TGGAGCCAAA CAACCTCTGG
    TACCTATTCA CAGGACTGGA GAAAGGAAGT CAGTACAGTT TCCAGGTGTC AGCCATGACA
    GTCAATGGTA CTGGACCACC TTCCAACTGG TATACTGCAG AGACTCCAGA GAATGATCTA
    GATGAATCTC AAGTTCCTGA TCAACCAAGC TCTCTTCATG TGAGGCCCCA GACTAACTGC
    ATCATCATGA GTTGGACTCC TCCCTTGAAC CCAAACATCG TGGTGCGAGG TTATATTATC
    GGTTATGGCG TTGGGAGCCC TTACGCTGAG ACAGTGCGTG TGGACAGCAA GCAGCGATAT
    TATTCCATTG AGAGGTTAGA GTCAAGTTCC CATTATGTAA TCTCCCTAAA AGCTTTTAAC
    AATGCCGGAG AAGGAGTTCC TCTTTATGAA AGTGCCACCA CCAGGTCTAT AACCGATCCC
    ACTGACCCAG TTGATTATTA TCCTTTGCTT GATGATTTCC CCACCTCGGT CCCAGATCTC
    TCCACCCCCA TGCTCCCACC AGTAGGTGTA CAGGCTGTGG CTCTTACCCA TGATGCTGTG
    AGGGTCAGCT GGGCAGACAA CTCTGTCCCT AAGAACCAAA AGACGTCTGA GGTGCGACTT
    TACACCGTCC GGTGGAGAAC CAGCTTTTCT GCAAGTGCAA AATACAAGTC AGAAGACACA
    ACATCTCTAA GTTACACAGC AACAGGCCTC AAACCAAACA CAATGTATGA ATTCTCGGTC
    ATGGTAACAA AAAACAGAAG GTCCAGTACT TGGAGCATGA CTGCACATGC CACCACGTAT
    GAAGCAGCCC CCACCTCTGC TCCCAAGGAC TTGACAGTCA TTACTAGGGA AGGGAAGCCT
    CGTGCCGTCA TTGTGAGTTG GCAGCCTCCC TTGGAAGCCA ATGGGAAAAT TACTGCTTAC
    ATCTTATTTT ATACCTTGGA CAAGAACATC CCAATTGATG ACTGGATTAT GGAAACAATC
    AGTGGTGATA GGCTTACTCA TCAAATCATG GATCTCAACC TTGATACTAT GTATTACTTT
    CGAATTCAAG CACGAAATTC AAAAGGAGTG GGGCCACTCT CTGATCCTAT CCTCTTCAGG
    ACTCTGAAAG TGGAACACCC TGACAAAATG GCTAATGACC AAGGTCGTCA TGGAGATGGA
    GGTTATTGGC CAGTTGATAC TAATTTGATT GATAGAAGCA CCCTAAATGA GCCGCCAATT
    GGACAAATGC ACCCCCCGCA TGGCAGTGTC ACTCCTCAGA AGAACAGCAA CCTGCTTGTG
    ATCATTGTGG TCACCGTTGG TGTCATCACA GTGCTGGTAG TGGTCATCGT GGCTGTGATT
    TGCACCCGAC GCTCTTCAGC CCAGCAGAGA AAGAAACGGG CCACCCACAG TGCTGGCAAA
    AGGAAGGGCA GCCAGAAGGA CCTCCGACCC CCTGATCTTT GGATCCATCA TGAAGAAATG
    GAGATGAAAA ATATTGAAAA GCCATCTGGC ACTGACCCTG CAGGAAGGGA CTCTCCCATC
    CAAAGTTGCC AAGACCTCAC ACCAGTCAGC CACAGCCAGT CAGAAACCCA ACTGGGAAGC
    AAAAGCACCT CTCATTCAGG TCAAGACACT GAGGAAGCAG GGAGCTCTAT GTCCACTCTG
    GAGAGGTCGC TGGCTGCACG CCGAGCCCCC CGGGCCAAGC TCATGATTCC CATGGATGCC
    CAGTCCAACA ATCCTGCTGT CGTGAGCGCC ATCCCGGTGC CAACGCTAGA AAGTGCCCAG
    TACCCAGGAA TCCTCCCGTC TCCCACCTGT GGATATCCCC ACCCGCAGTT CACTCTCCGG
    CCTGTGCCAT TCCCAACACT CTCAGTGGAC CGAGGTTTCG GAGCAGGAAG AAGTCAGTCA
    GTGAGTGAAG GACCAACTAC CCAACAACCA CCTATGCTGC CCCCATCTCA GCCTGAGCAT
    TCTAGCAGCG AGGAGGCACC AAGCAGAACC ATCCCCACAG CTTGTGTTCG ACCAACTCAC
    CCACTCCGCA GCTTTGCTAA TCCTTTGCTA CCTCCACCAA TGAGTGCAAT AGAACCGAAA
    GTCCCTTACA CACCACTTTT GTCTCAGCCA GGGCCCACTC TTCCTAAGAC CCATGTGAAA
    ACAGCCTCCC TTGGGTTGGC TGGAAAAGCA AGATCCCCTT TGCTTCCTGT GTCTGTGCCA
    ACAGCCCCTG AAGTGTCTGA GGAGAGCCAC AAACCAACAG AGGATTCAGC CAATGTGTAT
    GAACAGGATG ATCTGAGTGA ACAAATGGCA AGTTTGGAAG GACTCATGAA GCAGCTTAAT
    GCCATCACAG GCTCAGCCTT TTAA

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

    CloneID OHu57203
    Clone ID Related Accession (Same CDS sequence) XM_011525843.1
    Accession Version XM_011525843.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4332bp)
    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 netrin receptor DCC isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000018.10) 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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAGAATA GTCTTAGATG TGTTTGGGTA CCCAAGCTGG CTTTTGTACT CTTCGGAGCT 
    TCCTTGTTCA GCGCGCATCT TCAAGTAACC GGTTTTCAAA TTAAAGCTTT CACAGCACTG
    CGCTTCCTCT CAGAACCTTC TGATGCCGTC ACAATGCGGG GAGGAAATGT CCTCCTCGAC
    TGCTCCGCGG AGTCCGACCG AGGAGTTCCA GTGATCAAGT GGAAGAAAGA TGGCATTCAT
    CTGGCCTTGG GAATGGATGA AAGGAAGCAG CAACTTTCAA ATGGGTCTCT GCTGATACAA
    AACATACTTC ATTCCAGACA CCACAAGCCA GATGAGGGAC TTTACCAATG TGAGGCATCT
    TTAGGAGATT CTGGCTCAAT TATTAGTCGG ACAGCAAAAG TTGCAGTAGC AGGACCACTG
    AGGTTCCTTT CACAGACAGA ATCTGTCACA GCCTTCATGG GAGACACAGT GCTACTCAAG
    TGTGAAGTCA TTGGGGAGCC CATGCCAACA ATCCACTGGC AGAAGAACCA ACAAGACCTG
    ACTCCAATCC CAGGTGACTC CCGAGTGGTG GTCTTGCCCT CTGGAGCATT GCAGATCAGC
    CGACTCCAAC CGGGGGACAT TGGAATTTAC CGATGCTCAG CTCGAAATCC AGCCAGCTCA
    AGAACAGGAA ATGAAGCAGA AGTCAGAATT TTATCAGATC CAGGACTGCA TAGACAGCTG
    TATTTTCTGC AAAGACCATC CAATGTAGTA GCCATTGAAG GAAAAGATGC TGTCCTGGAA
    TGTTGTGTTT CTGGCTATCC TCCACCAAGT TTTACCTGGT TACGAGGCGA GGAAGTCATC
    CAACTCAGGT CTAAAAAGTA TTCTTTATTG GGTGGAAGCA ACTTGCTTAT CTCCAATGTG
    ACAGATGATG ACAGTGGAAT GTATACCTGT GTTGTCACAT ATAAAAATGA GAATATTAGT
    GCCTCTGCAG AGCTCACAGT CTTGGTTCCG CCATGGTTTT TAAATCATCC TTCCAACCTG
    TATGCCTATG AAAGCATGGA TATTGAGTTT GAATGTACAG TCTCTGGAAA GCCTGTGCCC
    ACTGTGAATT GGATGAAGAA TGGAGATGTG GTCATTCCTA GTGATTATTT TCAGATAGTG
    GGAGGAAGCA ACTTACGGAT ACTTGGGGTG GTGAAGTCAG ATGAAGGCTT TTATCAATGT
    GTGGCTGAAA ATGAGGCTGG AAATGCCCAG ACCAGTGCAC AGCTCATTGT CCCTAAGCCT
    GCTATCCCAA GCTCCAGTGT CCTCCCTTCG GCTCCCAGAG ATGTGGTCCC TGTCTTGGTT
    TCCAGCCGAT TTGTCCGTCT CAGCTGGCGC CCACCTGCAG AAGCGAAAGG GAACATTCAA
    ACTTTCACGG TCTTTTTCTC CAGAGAAGGT GACAACAGGG AACGAGCATT GAATACAACA
    CAGCCTGGGT CCCTTCAGCT CACTGTGGGA AACCTGAAGC CAGAAGCCAT GTACACCTTT
    CGAGTTGTGG CTTACAATGA ATGGGGACCG GGAGAGAGTT CTCAACCCAT CAAGGTGGCC
    ACACAGCCTG AGTTGCAAGT TCCAGGGCCA GTAGAAAACC TGCAAGCTGT ATCTACCTCA
    CCTACCTCAA TTCTTATTAC CTGGGAACCC CCTGCCTATG CAAACGGTCC AGTCCAAGGT
    TACAGATTGT TCTGCACTGA GGTGTCCACA GGAAAAGAAC AGAATATAGA GGTTGATGGA
    CTATCTTATA AACTGGAAGG CCTGAAAAAA TTCACCGAAT ATAGTCTTCG ATTCTTAGCT
    TATAATCGCT ATGGTCCGGG CGTCTCTACT GATGATATAA CAGTGGTTAC ACTTTCTGAC
    GTGCCAAGTG CCCCGCCTCA GAACGTCTCC CTGGAAGTGG TCAATTCAAG AAGTATCAAA
    GTTAGCTGGC TGCCTCCTCC ATCAGGAACA CAAAATGGAT TTATTACCGG CTATAAAATT
    CGACACAGAA AGACGACCCG CAGGGGTGAG ATGGAAACAC TGGAGCCAAA CAACCTCTGG
    TACCTATTCA CAGGACTGGA GAAAGGAAGT CAGTACAGTT TCCAGGTGTC AGCCATGACA
    GTCAATGGTA CTGGACCACC TTCCAACTGG TATACTGCAG AGACTCCAGA GAATGATCTA
    GATGAATCTC AAGTTCCTGA TCAACCAAGC TCTCTTCATG TGAGGCCCCA GACTAACTGC
    ATCATCATGA GTTGGACTCC TCCCTTGAAC CCAAACATCG TGGTGCGAGG TTATATTATC
    GGTTATGGCG TTGGGAGCCC TTACGCTGAG ACAGTGCGTG TGGACAGCAA GCAGCGATAT
    TATTCCATTG AGAGGTTAGA GTCAAGTTCC CATTATGTAA TCTCCCTAAA AGCTTTTAAC
    AATGCCGGAG AAGGAGTTCC TCTTTATGAA AGTGCCACCA CCAGGTCTAT AACCGATCCC
    ACTGACCCAG TTGATTATTA TCCTTTGCTT GATGATTTCC CCACCTCGGT CCCAGATCTC
    TCCACCCCCA TGCTCCCACC AGTAGGTGTA CAGGCTGTGG CTCTTACCCA TGATGCTGTG
    AGGGTCAGCT GGGCAGACAA CTCTGTCCCT AAGAACCAAA AGACGTCTGA GGTGCGACTT
    TACACCGTCC GGTGGAGAAC CAGCTTTTCT GCAAGTGCAA AATACAAGTC AGAAGACACA
    ACATCTCTAA GTTACACAGC AACAGGCCTC AAACCAAACA CAATGTATGA ATTCTCGGTC
    ATGGTAACAA AAAACAGAAG GTCCAGTACT TGGAGCATGA CTGCACATGC CACCACGTAT
    GAAGCAGCCC CCACCTCTGC TCCCAAGGAC TTGACAGTCA TTACTAGGGA AGGGAAGCCT
    CGTGCCGTCA TTGTGAGTTG GCAGCCTCCC TTGGAAGCCA ATGGGAAAAT TACTGCTTAC
    ATCTTATTTT ATACCTTGGA CAAGAACATC CCAATTGATG ACTGGATTAT GGAAACAATC
    AGTGGTGATA GGCTTACTCA TCAAATCATG GATCTCAACC TTGATACTAT GTATTACTTT
    CGAATTCAAG CACGAAATTC AAAAGGAGTG GGGCCACTCT CTGATCCTAT CCTCTTCAGG
    ACTCTGAAAG TGGAACACCC TGACAAAATG GCTAATGACC AAGGTCGTCA TGGAGATGGA
    GGTTATTGGC CAGTTGATAC TAATTTGATT GATAGAAGCA CCCTAAATGA GCCGCCAATT
    GGACAAATGC ACCCCCCGCA TGGCAGTGTC ACTCCTCAGA AGAACAGCAA CCTGCTTGTG
    ATCATTGTGG TCACCGTTGG TGTCATCACA GTGCTGGTAG TGGTCATCGT GGCTGTGATT
    TGCACCCGAC GCTCTTCAGC CCAGCAGAGA AAGAAACGGG CCACCCACAG TGCTGGCAAA
    AGGAAGGGCA GCCAGAAGGA CCTCCGACCC CCTGATCTTT GGATCCATCA TGAAGAAATG
    GAGATGAAAA ATATTGAAAA GCCATCTGGC ACTGACCCTG CAGGAAGGGA CTCTCCCATC
    CAAAGTTGCC AAGACCTCAC ACCAGTCAGC CACAGCCAGT CAGAAACCCA ACTGGGAAGC
    AAAAGCACCT CTCATTCAGG TCAAGACACT GAGGAAGCAG GGAGCTCTAT GTCCACTCTG
    GAGAGGTCGC TGGCTGCACG CCGAGCCCCC CGGGCCAAGC TCATGATTCC CATGGATGCC
    CAGTCCAACA ATCCTGCTGT CGTGAGCGCC ATCCCGGTGC CAACGCTAGA AAGTGCCCAG
    TACCCAGGAA TCCTCCCGTC TCCCACCTGT GGATATCCCC ACCCGCAGTT CACTCTCCGG
    CCTGTGCCAT TCCCAACACT CTCAGTGGAC CGAGGTTTCG GAGCAGGAAG AAGTCAGTCA
    GTGAGTGAAG GACCAACTAC CCAACAACCA CCTATGCTGC CCCCATCTCA GCCTGAGCAT
    TCTAGCAGCG AGGAGGCACC AAGCAGAACC ATCCCCACAG CTTGTGTTCG ACCAACTCAC
    CCACTCCGCA GCTTTGCTAA TCCTTTGCTA CCTCCACCAA TGAGTGCAAT AGAACCGAAA
    GTCCCTTACA CACCACTTTT GTCTCAGCCA GGGCCCACTC TTCCTAAGAC CCATGTGAAA
    ACAGCCTCCC TTGGGTTGGC TGGAAAAGCA AGATCCCCTT TGCTTCCTGT GTCTGTGCCA
    ACAGCCCCTG AAGTGTCTGA GGAGAGCCAC AAACCAACAG AGGATTCAGC CAATGTGGAG
    ATGGAGTGGG TGAAACAATA TGCAATCTCT TATTATCCCC TTTTATTACC AGCATCTTCA
    TTCAGTGTAT GA

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

    RefSeq XP_011524145.1
    CDS617..4948
    Translation

    Target ORF information:

    RefSeq Version XM_011525843.1
    Organism Homo sapiens(human)
    Definition Homo sapiens DCC netrin 1 receptor (DCC), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525843.1

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAGAATA GTCTTAGATG TGTTTGGGTA CCCAAGCTGG CTTTTGTACT CTTCGGAGCT 
    TCCTTGTTCA GCGCGCATCT TCAAGTAACC GGTTTTCAAA TTAAAGCTTT CACAGCACTG
    CGCTTCCTCT CAGAACCTTC TGATGCCGTC ACAATGCGGG GAGGAAATGT CCTCCTCGAC
    TGCTCCGCGG AGTCCGACCG AGGAGTTCCA GTGATCAAGT GGAAGAAAGA TGGCATTCAT
    CTGGCCTTGG GAATGGATGA AAGGAAGCAG CAACTTTCAA ATGGGTCTCT GCTGATACAA
    AACATACTTC ATTCCAGACA CCACAAGCCA GATGAGGGAC TTTACCAATG TGAGGCATCT
    TTAGGAGATT CTGGCTCAAT TATTAGTCGG ACAGCAAAAG TTGCAGTAGC AGGACCACTG
    AGGTTCCTTT CACAGACAGA ATCTGTCACA GCCTTCATGG GAGACACAGT GCTACTCAAG
    TGTGAAGTCA TTGGGGAGCC CATGCCAACA ATCCACTGGC AGAAGAACCA ACAAGACCTG
    ACTCCAATCC CAGGTGACTC CCGAGTGGTG GTCTTGCCCT CTGGAGCATT GCAGATCAGC
    CGACTCCAAC CGGGGGACAT TGGAATTTAC CGATGCTCAG CTCGAAATCC AGCCAGCTCA
    AGAACAGGAA ATGAAGCAGA AGTCAGAATT TTATCAGATC CAGGACTGCA TAGACAGCTG
    TATTTTCTGC AAAGACCATC CAATGTAGTA GCCATTGAAG GAAAAGATGC TGTCCTGGAA
    TGTTGTGTTT CTGGCTATCC TCCACCAAGT TTTACCTGGT TACGAGGCGA GGAAGTCATC
    CAACTCAGGT CTAAAAAGTA TTCTTTATTG GGTGGAAGCA ACTTGCTTAT CTCCAATGTG
    ACAGATGATG ACAGTGGAAT GTATACCTGT GTTGTCACAT ATAAAAATGA GAATATTAGT
    GCCTCTGCAG AGCTCACAGT CTTGGTTCCG CCATGGTTTT TAAATCATCC TTCCAACCTG
    TATGCCTATG AAAGCATGGA TATTGAGTTT GAATGTACAG TCTCTGGAAA GCCTGTGCCC
    ACTGTGAATT GGATGAAGAA TGGAGATGTG GTCATTCCTA GTGATTATTT TCAGATAGTG
    GGAGGAAGCA ACTTACGGAT ACTTGGGGTG GTGAAGTCAG ATGAAGGCTT TTATCAATGT
    GTGGCTGAAA ATGAGGCTGG AAATGCCCAG ACCAGTGCAC AGCTCATTGT CCCTAAGCCT
    GCTATCCCAA GCTCCAGTGT CCTCCCTTCG GCTCCCAGAG ATGTGGTCCC TGTCTTGGTT
    TCCAGCCGAT TTGTCCGTCT CAGCTGGCGC CCACCTGCAG AAGCGAAAGG GAACATTCAA
    ACTTTCACGG TCTTTTTCTC CAGAGAAGGT GACAACAGGG AACGAGCATT GAATACAACA
    CAGCCTGGGT CCCTTCAGCT CACTGTGGGA AACCTGAAGC CAGAAGCCAT GTACACCTTT
    CGAGTTGTGG CTTACAATGA ATGGGGACCG GGAGAGAGTT CTCAACCCAT CAAGGTGGCC
    ACACAGCCTG AGTTGCAAGT TCCAGGGCCA GTAGAAAACC TGCAAGCTGT ATCTACCTCA
    CCTACCTCAA TTCTTATTAC CTGGGAACCC CCTGCCTATG CAAACGGTCC AGTCCAAGGT
    TACAGATTGT TCTGCACTGA GGTGTCCACA GGAAAAGAAC AGAATATAGA GGTTGATGGA
    CTATCTTATA AACTGGAAGG CCTGAAAAAA TTCACCGAAT ATAGTCTTCG ATTCTTAGCT
    TATAATCGCT ATGGTCCGGG CGTCTCTACT GATGATATAA CAGTGGTTAC ACTTTCTGAC
    GTGCCAAGTG CCCCGCCTCA GAACGTCTCC CTGGAAGTGG TCAATTCAAG AAGTATCAAA
    GTTAGCTGGC TGCCTCCTCC ATCAGGAACA CAAAATGGAT TTATTACCGG CTATAAAATT
    CGACACAGAA AGACGACCCG CAGGGGTGAG ATGGAAACAC TGGAGCCAAA CAACCTCTGG
    TACCTATTCA CAGGACTGGA GAAAGGAAGT CAGTACAGTT TCCAGGTGTC AGCCATGACA
    GTCAATGGTA CTGGACCACC TTCCAACTGG TATACTGCAG AGACTCCAGA GAATGATCTA
    GATGAATCTC AAGTTCCTGA TCAACCAAGC TCTCTTCATG TGAGGCCCCA GACTAACTGC
    ATCATCATGA GTTGGACTCC TCCCTTGAAC CCAAACATCG TGGTGCGAGG TTATATTATC
    GGTTATGGCG TTGGGAGCCC TTACGCTGAG ACAGTGCGTG TGGACAGCAA GCAGCGATAT
    TATTCCATTG AGAGGTTAGA GTCAAGTTCC CATTATGTAA TCTCCCTAAA AGCTTTTAAC
    AATGCCGGAG AAGGAGTTCC TCTTTATGAA AGTGCCACCA CCAGGTCTAT AACCGATCCC
    ACTGACCCAG TTGATTATTA TCCTTTGCTT GATGATTTCC CCACCTCGGT CCCAGATCTC
    TCCACCCCCA TGCTCCCACC AGTAGGTGTA CAGGCTGTGG CTCTTACCCA TGATGCTGTG
    AGGGTCAGCT GGGCAGACAA CTCTGTCCCT AAGAACCAAA AGACGTCTGA GGTGCGACTT
    TACACCGTCC GGTGGAGAAC CAGCTTTTCT GCAAGTGCAA AATACAAGTC AGAAGACACA
    ACATCTCTAA GTTACACAGC AACAGGCCTC AAACCAAACA CAATGTATGA ATTCTCGGTC
    ATGGTAACAA AAAACAGAAG GTCCAGTACT TGGAGCATGA CTGCACATGC CACCACGTAT
    GAAGCAGCCC CCACCTCTGC TCCCAAGGAC TTGACAGTCA TTACTAGGGA AGGGAAGCCT
    CGTGCCGTCA TTGTGAGTTG GCAGCCTCCC TTGGAAGCCA ATGGGAAAAT TACTGCTTAC
    ATCTTATTTT ATACCTTGGA CAAGAACATC CCAATTGATG ACTGGATTAT GGAAACAATC
    AGTGGTGATA GGCTTACTCA TCAAATCATG GATCTCAACC TTGATACTAT GTATTACTTT
    CGAATTCAAG CACGAAATTC AAAAGGAGTG GGGCCACTCT CTGATCCTAT CCTCTTCAGG
    ACTCTGAAAG TGGAACACCC TGACAAAATG GCTAATGACC AAGGTCGTCA TGGAGATGGA
    GGTTATTGGC CAGTTGATAC TAATTTGATT GATAGAAGCA CCCTAAATGA GCCGCCAATT
    GGACAAATGC ACCCCCCGCA TGGCAGTGTC ACTCCTCAGA AGAACAGCAA CCTGCTTGTG
    ATCATTGTGG TCACCGTTGG TGTCATCACA GTGCTGGTAG TGGTCATCGT GGCTGTGATT
    TGCACCCGAC GCTCTTCAGC CCAGCAGAGA AAGAAACGGG CCACCCACAG TGCTGGCAAA
    AGGAAGGGCA GCCAGAAGGA CCTCCGACCC CCTGATCTTT GGATCCATCA TGAAGAAATG
    GAGATGAAAA ATATTGAAAA GCCATCTGGC ACTGACCCTG CAGGAAGGGA CTCTCCCATC
    CAAAGTTGCC AAGACCTCAC ACCAGTCAGC CACAGCCAGT CAGAAACCCA ACTGGGAAGC
    AAAAGCACCT CTCATTCAGG TCAAGACACT GAGGAAGCAG GGAGCTCTAT GTCCACTCTG
    GAGAGGTCGC TGGCTGCACG CCGAGCCCCC CGGGCCAAGC TCATGATTCC CATGGATGCC
    CAGTCCAACA ATCCTGCTGT CGTGAGCGCC ATCCCGGTGC CAACGCTAGA AAGTGCCCAG
    TACCCAGGAA TCCTCCCGTC TCCCACCTGT GGATATCCCC ACCCGCAGTT CACTCTCCGG
    CCTGTGCCAT TCCCAACACT CTCAGTGGAC CGAGGTTTCG GAGCAGGAAG AAGTCAGTCA
    GTGAGTGAAG GACCAACTAC CCAACAACCA CCTATGCTGC CCCCATCTCA GCCTGAGCAT
    TCTAGCAGCG AGGAGGCACC AAGCAGAACC ATCCCCACAG CTTGTGTTCG ACCAACTCAC
    CCACTCCGCA GCTTTGCTAA TCCTTTGCTA CCTCCACCAA TGAGTGCAAT AGAACCGAAA
    GTCCCTTACA CACCACTTTT GTCTCAGCCA GGGCCCACTC TTCCTAAGAC CCATGTGAAA
    ACAGCCTCCC TTGGGTTGGC TGGAAAAGCA AGATCCCCTT TGCTTCCTGT GTCTGTGCCA
    ACAGCCCCTG AAGTGTCTGA GGAGAGCCAC AAACCAACAG AGGATTCAGC CAATGTGGAG
    ATGGAGTGGG TGAAACAATA TGCAATCTCT TATTATCCCC TTTTATTACC AGCATCTTCA
    TTCAGTGTAT GA

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