ORF » Species Summary » Homo sapiens » CCDC18 cDNA ORF clone

CCDC18 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following CCDC18 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC18 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
OHu79426 NM_001306076.1
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$519.50-$727.30
$1039.00
OHu87326 XM_011541372.3
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu87327 XM_017001170.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu87327 XM_017001171.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu79421 XM_024446671.1
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87320 XM_017001164.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87320 XM_017001163.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87320 XM_017001162.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87321 XM_017001165.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87322 XM_024446673.1
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87322 XM_024446672.1
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87322 XM_017001166.1
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87323 XM_017001167.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87324 XM_017001168.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu87325 XM_017001169.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu15066 NM_206886.4
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu87311 XM_017001154.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87312 XM_017001155.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87313 XM_017001156.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87314 XM_017001157.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87315 XM_011541361.3
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87316 XM_017001158.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87317 XM_017001159.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87318 XM_017001160.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87319 XM_017001161.2
Latest version!		 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
OHu87311 XM_017001154.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87320 XM_017001162.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87324 XM_017001168.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu87315 XM_011541361.2 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87317 XM_017001159.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87318 XM_017001160.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87320 XM_017001163.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87327 XM_017001170.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu87313 XM_017001156.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87319 XM_017001161.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87323 XM_017001167.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87314 XM_017001157.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87320 XM_017001164.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87321 XM_017001165.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu87326 XM_011541372.2 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu87316 XM_017001158.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87312 XM_017001155.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu87327 XM_017001171.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu87325 XM_017001169.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    CCDC18 ( NM_001306076.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001293005.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu79426
    Clone ID Related Accession (Same CDS sequence) NM_001306076.1
    Accession Version NM_001306076.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4365bp)
    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 2019-04-30
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 18 isoform a
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX099893.1, BC056667.1, AC126124.2, BX538286.1, BM149875.1, AK126045.1, DB345139.1, AL139421.12 and CA428763.1. On Apr 14, 2015 this sequence version replaced XM_011541362.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (a). The exon combination of this variant is inferred from partial transcript alignments. Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The genomic coordinates used for the transcript record were based on transcript alignments. CCDS Note: This gene lacks full-length transcript support, and therefore the exon combination of this CCDS representation is inferred based on partial transcript alignments, orthologous alignments and RNA-seq data. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968968 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology RefSeq Select criteria :: based on conservation ##RefSeq-Attributes-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
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGAAAGC 
    GTAAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAACT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAAGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATATTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGACCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAAC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    AAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTGGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAGATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACGTTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTAGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTG GCACTGCCAG GCAAGTAAAG ATTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTA AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGTACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAATTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AAGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGTGAGCA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACTCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTCTGAAT GACAAATTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATTGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAAGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTGACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCAGAGGCTC GTCATCAGCA AGTCCAAGCA 
    CAGAGAGAAA TAGAAAGGCT CTCTAGTGAA CTGGAGGATA TGAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAACTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGTC TTCTGTTCAG CAACTAAACG AACAGTTAGA GAAGGCAAAA 
    TTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAGGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA TCAAGTTTCT GCCAGCCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAATGTTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAATTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT AAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATTAGAAGAA AGCCATAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC ATATAACCTA GAAGCTGATA GTTCTGAGAA TAATGACTTT 
    AACACGCTTA GTGGGATGCT AAGATACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAAA CAGGTGCTGG TTTAAATCAG GGAGAAAATG TGTAA

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

    RefSeq NP_001293005.1
    CDS170..4534
    Translation

    Target ORF information:

    RefSeq Version NM_001306076.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001306076.1

    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
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGAAAGC 
    GTAAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAACT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAAGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATATTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGACCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAAC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    AAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTGGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAGATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACGTTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTAGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTG GCACTGCCAG GCAAGTAAAG ATTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTA AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGTACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAATTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AAGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGTGAGCA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACTCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTCTGAAT GACAAATTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATTGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAAGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTGACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCAGAGGCTC GTCATCAGCA AGTCCAAGCA 
    CAGAGAGAAA TAGAAAGGCT CTCTAGTGAA CTGGAGGATA TGAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAACTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGTC TTCTGTTCAG CAACTAAACG AACAGTTAGA GAAGGCAAAA 
    TTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAGGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA TCAAGTTTCT GCCAGCCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAATGTTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAATTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT AAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATTAGAAGAA AGCCATAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC ATATAACCTA GAAGCTGATA GTTCTGAGAA TAATGACTTT 
    AACACGCTTA GTGGGATGCT AAGATACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAAA CAGGTGCTGG TTTAAATCAG GGAGAAAATG TGTAA

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

    CCDC18 ( XM_011541372.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539674.2 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OHu87326
    Clone ID Related Accession (Same CDS sequence) XM_011541372.2 , XM_011541372.3
    Accession Version XM_011541372.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2973bp)
    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 coiled-coil domain-containing protein 18 isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011541372.1. ##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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGATG TTCTACTCAC TAA

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

    RefSeq XP_011539674.2
    CDS25..2997
    Translation

    Target ORF information:

    RefSeq Version XM_011541372.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011541372.2

    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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGATG TTCTACTCAC TAA

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

    CCDC18 ( XM_011541372.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539674.2 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu87326
    Clone ID Related Accession (Same CDS sequence) XM_011541372.2 , XM_011541372.3
    Accession Version XM_011541372.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2973bp)
    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 coiled-coil domain-containing protein 18 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011541372.2. ##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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGATG TTCTACTCAC TAA

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

    RefSeq XP_011539674.2
    CDS97..3069
    Translation

    Target ORF information:

    RefSeq Version XM_011541372.3
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011541372.3

    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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGATG TTCTACTCAC TAA

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

    CCDC18 ( XM_017001171.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856660.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X23, mRNA.
    Price & Availability↑
    CloneID OHu87327
    Clone ID Related Accession (Same CDS sequence) XM_017001171.2 , XM_017001170.2 , XM_017001170.1 , XM_017001171.1
    Accession Version XM_017001171.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2478bp)
    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 coiled-coil domain-containing protein 18 isoform X18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001171.1. ##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
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    RefSeq XP_016856660.1
    CDS77..2554
    Translation

    Target ORF information:

    RefSeq Version XM_017001171.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001171.2

    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
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    CCDC18 ( XM_017001170.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856659.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X22, mRNA.
    Price & Availability↑
    CloneID OHu87327
    Clone ID Related Accession (Same CDS sequence) XM_017001171.2 , XM_017001170.2 , XM_017001170.1 , XM_017001171.1
    Accession Version XM_017001170.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2478bp)
    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 coiled-coil domain-containing protein 18 isoform X18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001170.1. ##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
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    RefSeq XP_016856659.1
    CDS1779..4256
    Translation

    Target ORF information:

    RefSeq Version XM_017001170.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001170.2

    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
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    CCDC18 ( XM_017001170.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856659.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu87327
    Clone ID Related Accession (Same CDS sequence) XM_017001171.2 , XM_017001170.2 , XM_017001170.1 , XM_017001171.1
    Accession Version XM_017001170.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2478bp)
    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 coiled-coil domain-containing protein 18 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    RefSeq XP_016856659.1
    CDS1779..4256
    Translation

    Target ORF information:

    RefSeq Version XM_017001170.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001170.1

    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
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    CCDC18 ( XM_017001171.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856660.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X21, mRNA.
    Price & Availability↑
    CloneID OHu87327
    Clone ID Related Accession (Same CDS sequence) XM_017001171.2 , XM_017001170.2 , XM_017001170.1 , XM_017001171.1
    Accession Version XM_017001171.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2478bp)
    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 coiled-coil domain-containing protein 18 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    RefSeq XP_016856660.1
    CDS77..2554
    Translation

    Target ORF information:

    RefSeq Version XM_017001171.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001171.1

    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
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    CCDC18 ( XM_024446671.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302439.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu79421
    Clone ID Related Accession (Same CDS sequence) XM_024446671.1
    Accession Version XM_024446671.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4293bp)
    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 coiled-coil domain-containing protein 18 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG TAAGTAAACA TATAAAAGTA 
    ATAAAGCATA TCTATGAAAA CATAAATGTC TGA

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

    RefSeq XP_024302439.1
    CDS97..4389
    Translation

    Target ORF information:

    RefSeq Version XM_024446671.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446671.1

    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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG TAAGTAAACA TATAAAAGTA 
    ATAAAGCATA TCTATGAAAA CATAAATGTC TGA

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

    CCDC18 ( XM_017001164.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856653.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OHu87320
    Clone ID Related Accession (Same CDS sequence) XM_017001164.1 , XM_017001162.2 , XM_017001162.1 , XM_017001163.1 , XM_017001163.2 , XM_017001164.2
    Accession Version XM_017001164.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4494bp)
    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 coiled-coil domain-containing protein 18 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    RefSeq XP_016856653.1
    CDS190..4683
    Translation

    Target ORF information:

    RefSeq Version XM_017001164.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001164.1

    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
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    CCDC18 ( XM_017001162.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856651.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu87320
    Clone ID Related Accession (Same CDS sequence) XM_017001164.1 , XM_017001162.2 , XM_017001162.1 , XM_017001163.1 , XM_017001163.2 , XM_017001164.2
    Accession Version XM_017001162.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4494bp)
    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 coiled-coil domain-containing protein 18 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001162.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    RefSeq XP_016856651.1
    CDS92..4585
    Translation

    Target ORF information:

    RefSeq Version XM_017001162.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001162.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    CCDC18 ( XM_017001162.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856651.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu87320
    Clone ID Related Accession (Same CDS sequence) XM_017001164.1 , XM_017001162.2 , XM_017001162.1 , XM_017001163.1 , XM_017001163.2 , XM_017001164.2
    Accession Version XM_017001162.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4494bp)
    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 coiled-coil domain-containing protein 18 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    RefSeq XP_016856651.1
    CDS92..4585
    Translation

    Target ORF information:

    RefSeq Version XM_017001162.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001162.1

    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
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    CCDC18 ( XM_017001163.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856652.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu87320
    Clone ID Related Accession (Same CDS sequence) XM_017001164.1 , XM_017001162.2 , XM_017001162.1 , XM_017001163.1 , XM_017001163.2 , XM_017001164.2
    Accession Version XM_017001163.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4494bp)
    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 coiled-coil domain-containing protein 18 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    RefSeq XP_016856652.1
    CDS646..5139
    Translation

    Target ORF information:

    RefSeq Version XM_017001163.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001163.1

    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
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    CCDC18 ( XM_017001163.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856652.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu87320
    Clone ID Related Accession (Same CDS sequence) XM_017001164.1 , XM_017001162.2 , XM_017001162.1 , XM_017001163.1 , XM_017001163.2 , XM_017001164.2
    Accession Version XM_017001163.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4494bp)
    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 coiled-coil domain-containing protein 18 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001163.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    RefSeq XP_016856652.1
    CDS646..5139
    Translation

    Target ORF information:

    RefSeq Version XM_017001163.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001163.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    CCDC18 ( XM_017001164.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856653.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OHu87320
    Clone ID Related Accession (Same CDS sequence) XM_017001164.1 , XM_017001162.2 , XM_017001162.1 , XM_017001163.1 , XM_017001163.2 , XM_017001164.2
    Accession Version XM_017001164.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4494bp)
    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 coiled-coil domain-containing protein 18 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001164.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    RefSeq XP_016856653.1
    CDS190..4683
    Translation

    Target ORF information:

    RefSeq Version XM_017001164.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001164.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGAATC AGAATTAACC 
    AGATTACAGG CCAAAATTTC TGGACATGAA AAGGCAGAAG ACATCAAGTT TCTGCCAGCC 
    CCATTTACAT CTCCAACAGA AATTATGCCT GATGTTCAAG ATCCAAAATT TGCTAAATGT 
    TTTCACACAT CTTTTTCCAA GTGTACAAAA TTACGTCGCT CTATTAGTGC CAGTGATCTT 
    ACTTTCAAAA TTCATGGTGA TGAAGATCTT TCTGAAGAAT TACTACAGGA CTTAAAGAAA 
    ATGCAATTAG AACAGCCTTC AACATTAGAA GAAAGCCATA AGAATCTGAC TTACACCCAG 
    CCAGACTCAT TTAAACCTCT CACATATAAC CTAGAAGCTG ATAGTTCTGA GAATAATGAC 
    TTTAACACGC TTAGTGGGAT GCTAAGATAC ATAAACAAAG AAGTAAGACT ATTAAAAAAG 
    TCTTCTATGC AAACAGGTGC TGGTTTAAAT CAGGTATGTA TTTTATACAC TGTAAACTGT 
    AATAATTTGT TTCCAAAGAA TATCATTTTA TTACTTGGAA GAAAATTCAT ATATTTAAAT 
    GAAAAACTAC TAATATTTGA AGAAGGAAGA TTTTACATTT TATACATTAA GTAA

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

    CCDC18 ( XM_017001165.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856654.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu87321
    Clone ID Related Accession (Same CDS sequence) XM_017001165.1 , XM_017001165.2
    Accession Version XM_017001165.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4254bp)
    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 coiled-coil domain-containing protein 18 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3961
    4021
    4081
    4141
    4201
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG GAGAAAATGT GTAA

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

    RefSeq XP_016856654.1
    CDS25..4278
    Translation

    Target ORF information:

    RefSeq Version XM_017001165.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001165.1

    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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG GAGAAAATGT GTAA

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

    CCDC18 ( XM_017001165.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856654.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu87321
    Clone ID Related Accession (Same CDS sequence) XM_017001165.1 , XM_017001165.2
    Accession Version XM_017001165.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4254bp)
    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 coiled-coil domain-containing protein 18 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001165.1. ##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
    3961
    4021
    4081
    4141
    4201
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG GAGAAAATGT GTAA

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

    RefSeq XP_016856654.1
    CDS97..4350
    Translation

    Target ORF information:

    RefSeq Version XM_017001165.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001165.2

    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
    3961
    4021
    4081
    4141
    4201
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG GAGAAAATGT GTAA

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

    CCDC18 ( XM_024446672.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302440.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu87322
    Clone ID Related Accession (Same CDS sequence) XM_024446672.1 , XM_024446673.1 , XM_017001166.1
    Accession Version XM_024446672.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4227bp)
    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 coiled-coil domain-containing protein 18 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAGTTTG CAGAGTTTAG GGGAAGAGTT ATCCAGATGT TTTCATCTTC TGCCCCTGTG 
    GATCAGGAGA TTAAAAGCCT TCGAGAGAAA CTAAATAAAC TTAGGCAACA GAATGCTTGT 
    TTGGTCACAC AGAATCATTC CTTAATGACT AAATTTGAAT CTATTCACTT TGAATTAACA 
    CAGTCAAGAG CAAAAGTTTC TATGCTTGAG TCTGCTCAAC AGCAGGCAGC CAGTGTCCCA 
    ATCTTAGAAG AACAGATTAT AAATTTGGAA GCAGAGGTTT CAGCTCAAGA TAAAGTTTTG 
    AGAGAGGCAG AAAATAAGCT GGAACAGAGC CAGAAAATGG TAATTGAAAA GGAACAGAGT 
    TTGCAGGAGT CCAAAGAGGA ATGTATAAAA TTAAAGGTGG ACTTACTTGA ACAAACCAAA 
    CAAGGAAAAA GAGCTGAACG ACAAAGGAAT GAAGCACTAT ATAATGCCGA AGAGCTGAGT 
    AAAGCTTTCC AACAATATAA AAAAAAAGTG GCTGAAAAAC TGGAAAAGGT TCAAGCTGAA 
    GAAGAAATAT TAGAGAGAAA TCTAACTAAC TGTGAAAAAG AAAATAAAAG GCTACAAGAA 
    AGGTGTGGTC TATATAAAAG TGAACTTGAA ATTCTGAAAG AGAAATTAAG GCAGTTAAAA 
    GAAGAAAATA ACAACGGAAA AGAAAAATTA AGGATCATGG CAGTGAAAAA TTCAGAAGTC 
    ATGGCACAAC TAACTGAATC TAGACAAAGT ATTTTGAAGC TAGAGAGTGA GTTAGAGAAC 
    AAAGACGAAA TACTTAGAGA CAAATTTTCT TTAATGAATG AAAACCGAGA ATTAAAGGTC 
    CGTGTTGCAG CACAGAATGA GCGACTAGAT TTATGTCAAC AAGAAATTGA AAGTTCAAGG 
    GTAGAACTAA GAAGTTTGGA AAAGATTATA TCCCAGTTGC CATTAAAAAG AGAATTATTT 
    GGCTTTAAAT CATATCTTTC TAAATACCAG ATGAGTAGCT TCTCAAACAA GGAAGACCGT 
    TGCATTGGCT GCTGTGAGGC AAATAAATTG GTGATTTCGG AATTGAGAAT TAAGCTTGCA 
    ATAAAAGAGG CAGAAATTCA AAAGCTTCAT GCAAACCTGA CTGCAAATCA GTTATCTCAG 
    AGTCTTATTA CTTGTAATGA CAGCCAAGAA AGTAGCAAAT TAAGTAGTTT AGAAACAGAA 
    CCTGTAAAGC TAGGTGGTCA TCAAGTAGCA GAAAGCGTAA AAGATCAAAA TCAACATACT 
    ATGAACAAGC AATATGAAAA AGAGAGGCAA AGACTTGTTA CTGGAATAGA AGAACTACGT 
    ACTAAGCTGA TACAAATAGA AGCTGAAAAT TCTGATTTGA AGGTTAACAT GGCTCACAGA 
    ACTAGTCAGT TTCAGCTGAT TCAAGAGGAG CTGCTAGAGA AAGCTTCAAA CTCCAGCAAA 
    CTGGAAAGTG AAATGACAAA GAAATGTTCT CAACTTTTAA CTCTTGAGAA ACAGCTGGAA 
    GAAAAGATAG TTGCTTATTC CTCTATTGCT GCAAAAAATG CAGAACTAGA ACAGGAGCTT 
    ATGGAAAAGA ATGAAAAGAT AAGGAGTCTA GAAACCAATA TTAATACAGA GCATGAGAAA 
    ATTTGTTTAG CCTTTGAAAA AGCAAAGAAA ATTCACTTGG AACAGCATAA AGAAATGGAA 
    AAGCAGATTG AAAGACTTGA AGCTCAACTA GAGAAAAAGG ACCAACAATT TAAAGAACAA 
    GAAAAGACTA TGTCCATGTT GCAACAAGAT ATAATATGCA AACAACATCA TCTTGAATCA 
    CTAGATAGAC TCTTGACGGA AAGCAAAGGG GAAATGAAAA AGGAAAATAT GAAGAAAGAT 
    GAAGCTTTAA AAGCATTACA GAACCAAGTA TCTGAAGAAA CAATCAAGGT TAGGCAACTA 
    GATTCAGCAT TGGAAATTTG TAAGGAAGAA CTTGTCTTGC ATTTGAATCA ATTGGAAGGA 
    AATAAGGAAA AGTTTGAAAA ACAGTTAAAG AAGAAATCTG AAGAGGTATA TTGTTTACAG 
    AAAGAGCTAA AGATAAAAAA TCACAGTCTT CAAGAGACTT CTGAGCAAAA CGTTATTCTA 
    CAGCATACTC TTCAGCAACA GCAGCAAATG TTACAACAAG AGACAATTAG AAATGGAGAG 
    CTAGAAGATA CTCAAACTAA ACTTGAAAAA CAGGTGTCAA AACTGGAACA AGAACTTCAA 
    AAACAAAGGG AAAGTTCAGC TGAAAAGTTG AGAAAAATGG AGGAGAAATG TGAATCAGCT 
    GCACATGAAG CAGATTTGAA AAGGCAAAAA GTGATTGAGC TTACTGGCAC TGCCAGGCAA 
    GTAAAGATTG AGATGGATCA GTACAAAGAA GAGCTGTCTA AAATGGAAAA GGAAATAATG 
    CACCTAAAAC GAGATGGAGA AAATAAAGCA ATGCACCTCT CTCAATTAGA TATGATCTTA 
    GATCAGACAA AGACAGAGCT AGAAAAGAAA ACAAATGCTG TAAAGGAGTT AGAAAAGTTA 
    CAGCACAGTA CTGAAACTGA ACTAACAGAA GCCTTGCAAA AACGGGAAGT ACTTGAGACT 
    GAACTACAAA ATGCTCATGG AGAATTAAAA AGTACTTTAA GACAACTCCA GGAATTGAGA 
    GATGTACTAC AGAAGGCTCA ATTATCATTA GAGGAAAAAT ACACTACTAT AAAGGATCTC 
    ACAGCTGAAC TTAGAGAATG CAAGATGGAG ATTGAAGACA AAAAGCAGGA GCTCCTTGAA 
    ATGGATCAGG CACTTAAAGA GAGAAATTGG GAACTAAAGC AAAGAGCAGC TCAGGTTACA 
    CATTTGGATA TGACTATTCG TGAGCACAGA GGAGAAATGG AACAAAAAAT AATTAAATTA 
    GAAGGTACTC TGGAGAAATC AGAATTGGAA CTTAAAGAAT GTAACAAACA GATAGAAAGT 
    CTGAATGACA AATTACAAAA TGCTAAAGAA CAGCTTCGAG AAAAAGAGTT TATAATGCTA 
    CAAAATGAAC AGGAGATAAG TCAACTGAAA AAAGAAATTG AAAGAACACA ACAAAGGATG 
    AAAGAAATGG AGAGTGTTAT GAAAGAGCAA GAACAGTACA TTGCCACTCA GTACAAGGAG 
    GCCATAGATT TGGGGCAAGA ATTGAGGCTG ACCCGGGAGC AGGTGCAGAA CTCTCATACA 
    GAATTGGCAG AGGCTCGTCA TCAGCAAGTC CAAGCACAGA GAGAAATAGA AAGGCTCTCT 
    AGTGAACTGG AGGATATGAA GCAACTCTCT AAAGAGAAAG ATGCTCATGG AAACCATTTA 
    GCTGAAGAAC TGGGGGCTTC TAAAGTACGT GAAGCTCATT TAGAAGCAAG AATGCAAGCA 
    GAAATCAAGA AATTGTCAGC AGAAGTAGAA TCTCTCAAAG AAGCTTATCA TATGGAGATG 
    ATTTCACATC AAGAGAACCA TGCAAAGTGG AAGATTTCTG CTGACTCTCA AAAGTCTTCT 
    GTTCAGCAAC TAAACGAACA GTTAGAGAAG GCAAAATTGG AATTAGAAGA AGCTCAGGAT 
    ACTGTAAGCA ATTTGCATCA ACAAGTCCAA GATAGGAATG AAGTAATTGA AGCTGCAAAT 
    GAAGCATTAC TTACTAAAGA ATCAGAATTA ACCAGATTAC AGGCCAAAAT TTCTGGACAT 
    GAAAAGGCAG AAGACATCAA GTTTCTGCCA GCCCCATTTA CATCTCCAAC AGAAATTATG 
    CCTGATGTTC AAGATCCAAA ATTTGCTAAA TGTTTTCACA CATCTTTTTC CAAGTGTACA 
    AAATTACGTC GCTCTATTAG TGCCAGTGAT CTTACTTTCA AAATTCATGG TGATGAAGAT 
    CTTTCTGAAG AATTACTACA GGACTTAAAG AAAATGCAAT TAGAACAGCC TTCAACATTA 
    GAAGAAAGCC ATAAGAATCT GACTTACACC CAGCCAGACT CATTTAAACC TCTCACATAT 
    AACCTAGAAG CTGATAGTTC TGAGAATAAT GACTTTAACA CGCTTAGTGG GATGCTAAGA 
    TACATAAACA AAGAAGTAAG ACTATTAAAA AAGTCTTCTA TGCAAACAGG TGCTGGTTTA 
    AATCAGGTAT GTATTTTATA CACTGTAAAC TGTAATAATT TGTTTCCAAA GAATATCATT 
    TTATTACTTG GAAGAAAATT CATATATTTA AATGAAAAAC TACTAATATT TGAAGAAGGA 
    AGATTTTACA TTTTATACAT TAAGTAA

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

    RefSeq XP_024302440.1
    CDS243..4469
    Translation

    Target ORF information:

    RefSeq Version XM_024446672.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446672.1

    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
    ATGGAGTTTG CAGAGTTTAG GGGAAGAGTT ATCCAGATGT TTTCATCTTC TGCCCCTGTG 
    GATCAGGAGA TTAAAAGCCT TCGAGAGAAA CTAAATAAAC TTAGGCAACA GAATGCTTGT 
    TTGGTCACAC AGAATCATTC CTTAATGACT AAATTTGAAT CTATTCACTT TGAATTAACA 
    CAGTCAAGAG CAAAAGTTTC TATGCTTGAG TCTGCTCAAC AGCAGGCAGC CAGTGTCCCA 
    ATCTTAGAAG AACAGATTAT AAATTTGGAA GCAGAGGTTT CAGCTCAAGA TAAAGTTTTG 
    AGAGAGGCAG AAAATAAGCT GGAACAGAGC CAGAAAATGG TAATTGAAAA GGAACAGAGT 
    TTGCAGGAGT CCAAAGAGGA ATGTATAAAA TTAAAGGTGG ACTTACTTGA ACAAACCAAA 
    CAAGGAAAAA GAGCTGAACG ACAAAGGAAT GAAGCACTAT ATAATGCCGA AGAGCTGAGT 
    AAAGCTTTCC AACAATATAA AAAAAAAGTG GCTGAAAAAC TGGAAAAGGT TCAAGCTGAA 
    GAAGAAATAT TAGAGAGAAA TCTAACTAAC TGTGAAAAAG AAAATAAAAG GCTACAAGAA 
    AGGTGTGGTC TATATAAAAG TGAACTTGAA ATTCTGAAAG AGAAATTAAG GCAGTTAAAA 
    GAAGAAAATA ACAACGGAAA AGAAAAATTA AGGATCATGG CAGTGAAAAA TTCAGAAGTC 
    ATGGCACAAC TAACTGAATC TAGACAAAGT ATTTTGAAGC TAGAGAGTGA GTTAGAGAAC 
    AAAGACGAAA TACTTAGAGA CAAATTTTCT TTAATGAATG AAAACCGAGA ATTAAAGGTC 
    CGTGTTGCAG CACAGAATGA GCGACTAGAT TTATGTCAAC AAGAAATTGA AAGTTCAAGG 
    GTAGAACTAA GAAGTTTGGA AAAGATTATA TCCCAGTTGC CATTAAAAAG AGAATTATTT 
    GGCTTTAAAT CATATCTTTC TAAATACCAG ATGAGTAGCT TCTCAAACAA GGAAGACCGT 
    TGCATTGGCT GCTGTGAGGC AAATAAATTG GTGATTTCGG AATTGAGAAT TAAGCTTGCA 
    ATAAAAGAGG CAGAAATTCA AAAGCTTCAT GCAAACCTGA CTGCAAATCA GTTATCTCAG 
    AGTCTTATTA CTTGTAATGA CAGCCAAGAA AGTAGCAAAT TAAGTAGTTT AGAAACAGAA 
    CCTGTAAAGC TAGGTGGTCA TCAAGTAGCA GAAAGCGTAA AAGATCAAAA TCAACATACT 
    ATGAACAAGC AATATGAAAA AGAGAGGCAA AGACTTGTTA CTGGAATAGA AGAACTACGT 
    ACTAAGCTGA TACAAATAGA AGCTGAAAAT TCTGATTTGA AGGTTAACAT GGCTCACAGA 
    ACTAGTCAGT TTCAGCTGAT TCAAGAGGAG CTGCTAGAGA AAGCTTCAAA CTCCAGCAAA 
    CTGGAAAGTG AAATGACAAA GAAATGTTCT CAACTTTTAA CTCTTGAGAA ACAGCTGGAA 
    GAAAAGATAG TTGCTTATTC CTCTATTGCT GCAAAAAATG CAGAACTAGA ACAGGAGCTT 
    ATGGAAAAGA ATGAAAAGAT AAGGAGTCTA GAAACCAATA TTAATACAGA GCATGAGAAA 
    ATTTGTTTAG CCTTTGAAAA AGCAAAGAAA ATTCACTTGG AACAGCATAA AGAAATGGAA 
    AAGCAGATTG AAAGACTTGA AGCTCAACTA GAGAAAAAGG ACCAACAATT TAAAGAACAA 
    GAAAAGACTA TGTCCATGTT GCAACAAGAT ATAATATGCA AACAACATCA TCTTGAATCA 
    CTAGATAGAC TCTTGACGGA AAGCAAAGGG GAAATGAAAA AGGAAAATAT GAAGAAAGAT 
    GAAGCTTTAA AAGCATTACA GAACCAAGTA TCTGAAGAAA CAATCAAGGT TAGGCAACTA 
    GATTCAGCAT TGGAAATTTG TAAGGAAGAA CTTGTCTTGC ATTTGAATCA ATTGGAAGGA 
    AATAAGGAAA AGTTTGAAAA ACAGTTAAAG AAGAAATCTG AAGAGGTATA TTGTTTACAG 
    AAAGAGCTAA AGATAAAAAA TCACAGTCTT CAAGAGACTT CTGAGCAAAA CGTTATTCTA 
    CAGCATACTC TTCAGCAACA GCAGCAAATG TTACAACAAG AGACAATTAG AAATGGAGAG 
    CTAGAAGATA CTCAAACTAA ACTTGAAAAA CAGGTGTCAA AACTGGAACA AGAACTTCAA 
    AAACAAAGGG AAAGTTCAGC TGAAAAGTTG AGAAAAATGG AGGAGAAATG TGAATCAGCT 
    GCACATGAAG CAGATTTGAA AAGGCAAAAA GTGATTGAGC TTACTGGCAC TGCCAGGCAA 
    GTAAAGATTG AGATGGATCA GTACAAAGAA GAGCTGTCTA AAATGGAAAA GGAAATAATG 
    CACCTAAAAC GAGATGGAGA AAATAAAGCA ATGCACCTCT CTCAATTAGA TATGATCTTA 
    GATCAGACAA AGACAGAGCT AGAAAAGAAA ACAAATGCTG TAAAGGAGTT AGAAAAGTTA 
    CAGCACAGTA CTGAAACTGA ACTAACAGAA GCCTTGCAAA AACGGGAAGT ACTTGAGACT 
    GAACTACAAA ATGCTCATGG AGAATTAAAA AGTACTTTAA GACAACTCCA GGAATTGAGA 
    GATGTACTAC AGAAGGCTCA ATTATCATTA GAGGAAAAAT ACACTACTAT AAAGGATCTC 
    ACAGCTGAAC TTAGAGAATG CAAGATGGAG ATTGAAGACA AAAAGCAGGA GCTCCTTGAA 
    ATGGATCAGG CACTTAAAGA GAGAAATTGG GAACTAAAGC AAAGAGCAGC TCAGGTTACA 
    CATTTGGATA TGACTATTCG TGAGCACAGA GGAGAAATGG AACAAAAAAT AATTAAATTA 
    GAAGGTACTC TGGAGAAATC AGAATTGGAA CTTAAAGAAT GTAACAAACA GATAGAAAGT 
    CTGAATGACA AATTACAAAA TGCTAAAGAA CAGCTTCGAG AAAAAGAGTT TATAATGCTA 
    CAAAATGAAC AGGAGATAAG TCAACTGAAA AAAGAAATTG AAAGAACACA ACAAAGGATG 
    AAAGAAATGG AGAGTGTTAT GAAAGAGCAA GAACAGTACA TTGCCACTCA GTACAAGGAG 
    GCCATAGATT TGGGGCAAGA ATTGAGGCTG ACCCGGGAGC AGGTGCAGAA CTCTCATACA 
    GAATTGGCAG AGGCTCGTCA TCAGCAAGTC CAAGCACAGA GAGAAATAGA AAGGCTCTCT 
    AGTGAACTGG AGGATATGAA GCAACTCTCT AAAGAGAAAG ATGCTCATGG AAACCATTTA 
    GCTGAAGAAC TGGGGGCTTC TAAAGTACGT GAAGCTCATT TAGAAGCAAG AATGCAAGCA 
    GAAATCAAGA AATTGTCAGC AGAAGTAGAA TCTCTCAAAG AAGCTTATCA TATGGAGATG 
    ATTTCACATC AAGAGAACCA TGCAAAGTGG AAGATTTCTG CTGACTCTCA AAAGTCTTCT 
    GTTCAGCAAC TAAACGAACA GTTAGAGAAG GCAAAATTGG AATTAGAAGA AGCTCAGGAT 
    ACTGTAAGCA ATTTGCATCA ACAAGTCCAA GATAGGAATG AAGTAATTGA AGCTGCAAAT 
    GAAGCATTAC TTACTAAAGA ATCAGAATTA ACCAGATTAC AGGCCAAAAT TTCTGGACAT 
    GAAAAGGCAG AAGACATCAA GTTTCTGCCA GCCCCATTTA CATCTCCAAC AGAAATTATG 
    CCTGATGTTC AAGATCCAAA ATTTGCTAAA TGTTTTCACA CATCTTTTTC CAAGTGTACA 
    AAATTACGTC GCTCTATTAG TGCCAGTGAT CTTACTTTCA AAATTCATGG TGATGAAGAT 
    CTTTCTGAAG AATTACTACA GGACTTAAAG AAAATGCAAT TAGAACAGCC TTCAACATTA 
    GAAGAAAGCC ATAAGAATCT GACTTACACC CAGCCAGACT CATTTAAACC TCTCACATAT 
    AACCTAGAAG CTGATAGTTC TGAGAATAAT GACTTTAACA CGCTTAGTGG GATGCTAAGA 
    TACATAAACA AAGAAGTAAG ACTATTAAAA AAGTCTTCTA TGCAAACAGG TGCTGGTTTA 
    AATCAGGTAT GTATTTTATA CACTGTAAAC TGTAATAATT TGTTTCCAAA GAATATCATT 
    TTATTACTTG GAAGAAAATT CATATATTTA AATGAAAAAC TACTAATATT TGAAGAAGGA 
    AGATTTTACA TTTTATACAT TAAGTAA

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

    CCDC18 ( XM_024446673.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024302441.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu87322
    Clone ID Related Accession (Same CDS sequence) XM_024446672.1 , XM_024446673.1 , XM_017001166.1
    Accession Version XM_024446673.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4227bp)
    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 coiled-coil domain-containing protein 18 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAGTTTG CAGAGTTTAG GGGAAGAGTT ATCCAGATGT TTTCATCTTC TGCCCCTGTG 
    GATCAGGAGA TTAAAAGCCT TCGAGAGAAA CTAAATAAAC TTAGGCAACA GAATGCTTGT 
    TTGGTCACAC AGAATCATTC CTTAATGACT AAATTTGAAT CTATTCACTT TGAATTAACA 
    CAGTCAAGAG CAAAAGTTTC TATGCTTGAG TCTGCTCAAC AGCAGGCAGC CAGTGTCCCA 
    ATCTTAGAAG AACAGATTAT AAATTTGGAA GCAGAGGTTT CAGCTCAAGA TAAAGTTTTG 
    AGAGAGGCAG AAAATAAGCT GGAACAGAGC CAGAAAATGG TAATTGAAAA GGAACAGAGT 
    TTGCAGGAGT CCAAAGAGGA ATGTATAAAA TTAAAGGTGG ACTTACTTGA ACAAACCAAA 
    CAAGGAAAAA GAGCTGAACG ACAAAGGAAT GAAGCACTAT ATAATGCCGA AGAGCTGAGT 
    AAAGCTTTCC AACAATATAA AAAAAAAGTG GCTGAAAAAC TGGAAAAGGT TCAAGCTGAA 
    GAAGAAATAT TAGAGAGAAA TCTAACTAAC TGTGAAAAAG AAAATAAAAG GCTACAAGAA 
    AGGTGTGGTC TATATAAAAG TGAACTTGAA ATTCTGAAAG AGAAATTAAG GCAGTTAAAA 
    GAAGAAAATA ACAACGGAAA AGAAAAATTA AGGATCATGG CAGTGAAAAA TTCAGAAGTC 
    ATGGCACAAC TAACTGAATC TAGACAAAGT ATTTTGAAGC TAGAGAGTGA GTTAGAGAAC 
    AAAGACGAAA TACTTAGAGA CAAATTTTCT TTAATGAATG AAAACCGAGA ATTAAAGGTC 
    CGTGTTGCAG CACAGAATGA GCGACTAGAT TTATGTCAAC AAGAAATTGA AAGTTCAAGG 
    GTAGAACTAA GAAGTTTGGA AAAGATTATA TCCCAGTTGC CATTAAAAAG AGAATTATTT 
    GGCTTTAAAT CATATCTTTC TAAATACCAG ATGAGTAGCT TCTCAAACAA GGAAGACCGT 
    TGCATTGGCT GCTGTGAGGC AAATAAATTG GTGATTTCGG AATTGAGAAT TAAGCTTGCA 
    ATAAAAGAGG CAGAAATTCA AAAGCTTCAT GCAAACCTGA CTGCAAATCA GTTATCTCAG 
    AGTCTTATTA CTTGTAATGA CAGCCAAGAA AGTAGCAAAT TAAGTAGTTT AGAAACAGAA 
    CCTGTAAAGC TAGGTGGTCA TCAAGTAGCA GAAAGCGTAA AAGATCAAAA TCAACATACT 
    ATGAACAAGC AATATGAAAA AGAGAGGCAA AGACTTGTTA CTGGAATAGA AGAACTACGT 
    ACTAAGCTGA TACAAATAGA AGCTGAAAAT TCTGATTTGA AGGTTAACAT GGCTCACAGA 
    ACTAGTCAGT TTCAGCTGAT TCAAGAGGAG CTGCTAGAGA AAGCTTCAAA CTCCAGCAAA 
    CTGGAAAGTG AAATGACAAA GAAATGTTCT CAACTTTTAA CTCTTGAGAA ACAGCTGGAA 
    GAAAAGATAG TTGCTTATTC CTCTATTGCT GCAAAAAATG CAGAACTAGA ACAGGAGCTT 
    ATGGAAAAGA ATGAAAAGAT AAGGAGTCTA GAAACCAATA TTAATACAGA GCATGAGAAA 
    ATTTGTTTAG CCTTTGAAAA AGCAAAGAAA ATTCACTTGG AACAGCATAA AGAAATGGAA 
    AAGCAGATTG AAAGACTTGA AGCTCAACTA GAGAAAAAGG ACCAACAATT TAAAGAACAA 
    GAAAAGACTA TGTCCATGTT GCAACAAGAT ATAATATGCA AACAACATCA TCTTGAATCA 
    CTAGATAGAC TCTTGACGGA AAGCAAAGGG GAAATGAAAA AGGAAAATAT GAAGAAAGAT 
    GAAGCTTTAA AAGCATTACA GAACCAAGTA TCTGAAGAAA CAATCAAGGT TAGGCAACTA 
    GATTCAGCAT TGGAAATTTG TAAGGAAGAA CTTGTCTTGC ATTTGAATCA ATTGGAAGGA 
    AATAAGGAAA AGTTTGAAAA ACAGTTAAAG AAGAAATCTG AAGAGGTATA TTGTTTACAG 
    AAAGAGCTAA AGATAAAAAA TCACAGTCTT CAAGAGACTT CTGAGCAAAA CGTTATTCTA 
    CAGCATACTC TTCAGCAACA GCAGCAAATG TTACAACAAG AGACAATTAG AAATGGAGAG 
    CTAGAAGATA CTCAAACTAA ACTTGAAAAA CAGGTGTCAA AACTGGAACA AGAACTTCAA 
    AAACAAAGGG AAAGTTCAGC TGAAAAGTTG AGAAAAATGG AGGAGAAATG TGAATCAGCT 
    GCACATGAAG CAGATTTGAA AAGGCAAAAA GTGATTGAGC TTACTGGCAC TGCCAGGCAA 
    GTAAAGATTG AGATGGATCA GTACAAAGAA GAGCTGTCTA AAATGGAAAA GGAAATAATG 
    CACCTAAAAC GAGATGGAGA AAATAAAGCA ATGCACCTCT CTCAATTAGA TATGATCTTA 
    GATCAGACAA AGACAGAGCT AGAAAAGAAA ACAAATGCTG TAAAGGAGTT AGAAAAGTTA 
    CAGCACAGTA CTGAAACTGA ACTAACAGAA GCCTTGCAAA AACGGGAAGT ACTTGAGACT 
    GAACTACAAA ATGCTCATGG AGAATTAAAA AGTACTTTAA GACAACTCCA GGAATTGAGA 
    GATGTACTAC AGAAGGCTCA ATTATCATTA GAGGAAAAAT ACACTACTAT AAAGGATCTC 
    ACAGCTGAAC TTAGAGAATG CAAGATGGAG ATTGAAGACA AAAAGCAGGA GCTCCTTGAA 
    ATGGATCAGG CACTTAAAGA GAGAAATTGG GAACTAAAGC AAAGAGCAGC TCAGGTTACA 
    CATTTGGATA TGACTATTCG TGAGCACAGA GGAGAAATGG AACAAAAAAT AATTAAATTA 
    GAAGGTACTC TGGAGAAATC AGAATTGGAA CTTAAAGAAT GTAACAAACA GATAGAAAGT 
    CTGAATGACA AATTACAAAA TGCTAAAGAA CAGCTTCGAG AAAAAGAGTT TATAATGCTA 
    CAAAATGAAC AGGAGATAAG TCAACTGAAA AAAGAAATTG AAAGAACACA ACAAAGGATG 
    AAAGAAATGG AGAGTGTTAT GAAAGAGCAA GAACAGTACA TTGCCACTCA GTACAAGGAG 
    GCCATAGATT TGGGGCAAGA ATTGAGGCTG ACCCGGGAGC AGGTGCAGAA CTCTCATACA 
    GAATTGGCAG AGGCTCGTCA TCAGCAAGTC CAAGCACAGA GAGAAATAGA AAGGCTCTCT 
    AGTGAACTGG AGGATATGAA GCAACTCTCT AAAGAGAAAG ATGCTCATGG AAACCATTTA 
    GCTGAAGAAC TGGGGGCTTC TAAAGTACGT GAAGCTCATT TAGAAGCAAG AATGCAAGCA 
    GAAATCAAGA AATTGTCAGC AGAAGTAGAA TCTCTCAAAG AAGCTTATCA TATGGAGATG 
    ATTTCACATC AAGAGAACCA TGCAAAGTGG AAGATTTCTG CTGACTCTCA AAAGTCTTCT 
    GTTCAGCAAC TAAACGAACA GTTAGAGAAG GCAAAATTGG AATTAGAAGA AGCTCAGGAT 
    ACTGTAAGCA ATTTGCATCA ACAAGTCCAA GATAGGAATG AAGTAATTGA AGCTGCAAAT 
    GAAGCATTAC TTACTAAAGA ATCAGAATTA ACCAGATTAC AGGCCAAAAT TTCTGGACAT 
    GAAAAGGCAG AAGACATCAA GTTTCTGCCA GCCCCATTTA CATCTCCAAC AGAAATTATG 
    CCTGATGTTC AAGATCCAAA ATTTGCTAAA TGTTTTCACA CATCTTTTTC CAAGTGTACA 
    AAATTACGTC GCTCTATTAG TGCCAGTGAT CTTACTTTCA AAATTCATGG TGATGAAGAT 
    CTTTCTGAAG AATTACTACA GGACTTAAAG AAAATGCAAT TAGAACAGCC TTCAACATTA 
    GAAGAAAGCC ATAAGAATCT GACTTACACC CAGCCAGACT CATTTAAACC TCTCACATAT 
    AACCTAGAAG CTGATAGTTC TGAGAATAAT GACTTTAACA CGCTTAGTGG GATGCTAAGA 
    TACATAAACA AAGAAGTAAG ACTATTAAAA AAGTCTTCTA TGCAAACAGG TGCTGGTTTA 
    AATCAGGTAT GTATTTTATA CACTGTAAAC TGTAATAATT TGTTTCCAAA GAATATCATT 
    TTATTACTTG GAAGAAAATT CATATATTTA AATGAAAAAC TACTAATATT TGAAGAAGGA 
    AGATTTTACA TTTTATACAT TAAGTAA

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

    RefSeq XP_024302441.1
    CDS196..4422
    Translation

    Target ORF information:

    RefSeq Version XM_024446673.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024446673.1

    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
    ATGGAGTTTG CAGAGTTTAG GGGAAGAGTT ATCCAGATGT TTTCATCTTC TGCCCCTGTG 
    GATCAGGAGA TTAAAAGCCT TCGAGAGAAA CTAAATAAAC TTAGGCAACA GAATGCTTGT 
    TTGGTCACAC AGAATCATTC CTTAATGACT AAATTTGAAT CTATTCACTT TGAATTAACA 
    CAGTCAAGAG CAAAAGTTTC TATGCTTGAG TCTGCTCAAC AGCAGGCAGC CAGTGTCCCA 
    ATCTTAGAAG AACAGATTAT AAATTTGGAA GCAGAGGTTT CAGCTCAAGA TAAAGTTTTG 
    AGAGAGGCAG AAAATAAGCT GGAACAGAGC CAGAAAATGG TAATTGAAAA GGAACAGAGT 
    TTGCAGGAGT CCAAAGAGGA ATGTATAAAA TTAAAGGTGG ACTTACTTGA ACAAACCAAA 
    CAAGGAAAAA GAGCTGAACG ACAAAGGAAT GAAGCACTAT ATAATGCCGA AGAGCTGAGT 
    AAAGCTTTCC AACAATATAA AAAAAAAGTG GCTGAAAAAC TGGAAAAGGT TCAAGCTGAA 
    GAAGAAATAT TAGAGAGAAA TCTAACTAAC TGTGAAAAAG AAAATAAAAG GCTACAAGAA 
    AGGTGTGGTC TATATAAAAG TGAACTTGAA ATTCTGAAAG AGAAATTAAG GCAGTTAAAA 
    GAAGAAAATA ACAACGGAAA AGAAAAATTA AGGATCATGG CAGTGAAAAA TTCAGAAGTC 
    ATGGCACAAC TAACTGAATC TAGACAAAGT ATTTTGAAGC TAGAGAGTGA GTTAGAGAAC 
    AAAGACGAAA TACTTAGAGA CAAATTTTCT TTAATGAATG AAAACCGAGA ATTAAAGGTC 
    CGTGTTGCAG CACAGAATGA GCGACTAGAT TTATGTCAAC AAGAAATTGA AAGTTCAAGG 
    GTAGAACTAA GAAGTTTGGA AAAGATTATA TCCCAGTTGC CATTAAAAAG AGAATTATTT 
    GGCTTTAAAT CATATCTTTC TAAATACCAG ATGAGTAGCT TCTCAAACAA GGAAGACCGT 
    TGCATTGGCT GCTGTGAGGC AAATAAATTG GTGATTTCGG AATTGAGAAT TAAGCTTGCA 
    ATAAAAGAGG CAGAAATTCA AAAGCTTCAT GCAAACCTGA CTGCAAATCA GTTATCTCAG 
    AGTCTTATTA CTTGTAATGA CAGCCAAGAA AGTAGCAAAT TAAGTAGTTT AGAAACAGAA 
    CCTGTAAAGC TAGGTGGTCA TCAAGTAGCA GAAAGCGTAA AAGATCAAAA TCAACATACT 
    ATGAACAAGC AATATGAAAA AGAGAGGCAA AGACTTGTTA CTGGAATAGA AGAACTACGT 
    ACTAAGCTGA TACAAATAGA AGCTGAAAAT TCTGATTTGA AGGTTAACAT GGCTCACAGA 
    ACTAGTCAGT TTCAGCTGAT TCAAGAGGAG CTGCTAGAGA AAGCTTCAAA CTCCAGCAAA 
    CTGGAAAGTG AAATGACAAA GAAATGTTCT CAACTTTTAA CTCTTGAGAA ACAGCTGGAA 
    GAAAAGATAG TTGCTTATTC CTCTATTGCT GCAAAAAATG CAGAACTAGA ACAGGAGCTT 
    ATGGAAAAGA ATGAAAAGAT AAGGAGTCTA GAAACCAATA TTAATACAGA GCATGAGAAA 
    ATTTGTTTAG CCTTTGAAAA AGCAAAGAAA ATTCACTTGG AACAGCATAA AGAAATGGAA 
    AAGCAGATTG AAAGACTTGA AGCTCAACTA GAGAAAAAGG ACCAACAATT TAAAGAACAA 
    GAAAAGACTA TGTCCATGTT GCAACAAGAT ATAATATGCA AACAACATCA TCTTGAATCA 
    CTAGATAGAC TCTTGACGGA AAGCAAAGGG GAAATGAAAA AGGAAAATAT GAAGAAAGAT 
    GAAGCTTTAA AAGCATTACA GAACCAAGTA TCTGAAGAAA CAATCAAGGT TAGGCAACTA 
    GATTCAGCAT TGGAAATTTG TAAGGAAGAA CTTGTCTTGC ATTTGAATCA ATTGGAAGGA 
    AATAAGGAAA AGTTTGAAAA ACAGTTAAAG AAGAAATCTG AAGAGGTATA TTGTTTACAG 
    AAAGAGCTAA AGATAAAAAA TCACAGTCTT CAAGAGACTT CTGAGCAAAA CGTTATTCTA 
    CAGCATACTC TTCAGCAACA GCAGCAAATG TTACAACAAG AGACAATTAG AAATGGAGAG 
    CTAGAAGATA CTCAAACTAA ACTTGAAAAA CAGGTGTCAA AACTGGAACA AGAACTTCAA 
    AAACAAAGGG AAAGTTCAGC TGAAAAGTTG AGAAAAATGG AGGAGAAATG TGAATCAGCT 
    GCACATGAAG CAGATTTGAA AAGGCAAAAA GTGATTGAGC TTACTGGCAC TGCCAGGCAA 
    GTAAAGATTG AGATGGATCA GTACAAAGAA GAGCTGTCTA AAATGGAAAA GGAAATAATG 
    CACCTAAAAC GAGATGGAGA AAATAAAGCA ATGCACCTCT CTCAATTAGA TATGATCTTA 
    GATCAGACAA AGACAGAGCT AGAAAAGAAA ACAAATGCTG TAAAGGAGTT AGAAAAGTTA 
    CAGCACAGTA CTGAAACTGA ACTAACAGAA GCCTTGCAAA AACGGGAAGT ACTTGAGACT 
    GAACTACAAA ATGCTCATGG AGAATTAAAA AGTACTTTAA GACAACTCCA GGAATTGAGA 
    GATGTACTAC AGAAGGCTCA ATTATCATTA GAGGAAAAAT ACACTACTAT AAAGGATCTC 
    ACAGCTGAAC TTAGAGAATG CAAGATGGAG ATTGAAGACA AAAAGCAGGA GCTCCTTGAA 
    ATGGATCAGG CACTTAAAGA GAGAAATTGG GAACTAAAGC AAAGAGCAGC TCAGGTTACA 
    CATTTGGATA TGACTATTCG TGAGCACAGA GGAGAAATGG AACAAAAAAT AATTAAATTA 
    GAAGGTACTC TGGAGAAATC AGAATTGGAA CTTAAAGAAT GTAACAAACA GATAGAAAGT 
    CTGAATGACA AATTACAAAA TGCTAAAGAA CAGCTTCGAG AAAAAGAGTT TATAATGCTA 
    CAAAATGAAC AGGAGATAAG TCAACTGAAA AAAGAAATTG AAAGAACACA ACAAAGGATG 
    AAAGAAATGG AGAGTGTTAT GAAAGAGCAA GAACAGTACA TTGCCACTCA GTACAAGGAG 
    GCCATAGATT TGGGGCAAGA ATTGAGGCTG ACCCGGGAGC AGGTGCAGAA CTCTCATACA 
    GAATTGGCAG AGGCTCGTCA TCAGCAAGTC CAAGCACAGA GAGAAATAGA AAGGCTCTCT 
    AGTGAACTGG AGGATATGAA GCAACTCTCT AAAGAGAAAG ATGCTCATGG AAACCATTTA 
    GCTGAAGAAC TGGGGGCTTC TAAAGTACGT GAAGCTCATT TAGAAGCAAG AATGCAAGCA 
    GAAATCAAGA AATTGTCAGC AGAAGTAGAA TCTCTCAAAG AAGCTTATCA TATGGAGATG 
    ATTTCACATC AAGAGAACCA TGCAAAGTGG AAGATTTCTG CTGACTCTCA AAAGTCTTCT 
    GTTCAGCAAC TAAACGAACA GTTAGAGAAG GCAAAATTGG AATTAGAAGA AGCTCAGGAT 
    ACTGTAAGCA ATTTGCATCA ACAAGTCCAA GATAGGAATG AAGTAATTGA AGCTGCAAAT 
    GAAGCATTAC TTACTAAAGA ATCAGAATTA ACCAGATTAC AGGCCAAAAT TTCTGGACAT 
    GAAAAGGCAG AAGACATCAA GTTTCTGCCA GCCCCATTTA CATCTCCAAC AGAAATTATG 
    CCTGATGTTC AAGATCCAAA ATTTGCTAAA TGTTTTCACA CATCTTTTTC CAAGTGTACA 
    AAATTACGTC GCTCTATTAG TGCCAGTGAT CTTACTTTCA AAATTCATGG TGATGAAGAT 
    CTTTCTGAAG AATTACTACA GGACTTAAAG AAAATGCAAT TAGAACAGCC TTCAACATTA 
    GAAGAAAGCC ATAAGAATCT GACTTACACC CAGCCAGACT CATTTAAACC TCTCACATAT 
    AACCTAGAAG CTGATAGTTC TGAGAATAAT GACTTTAACA CGCTTAGTGG GATGCTAAGA 
    TACATAAACA AAGAAGTAAG ACTATTAAAA AAGTCTTCTA TGCAAACAGG TGCTGGTTTA 
    AATCAGGTAT GTATTTTATA CACTGTAAAC TGTAATAATT TGTTTCCAAA GAATATCATT 
    TTATTACTTG GAAGAAAATT CATATATTTA AATGAAAAAC TACTAATATT TGAAGAAGGA 
    AGATTTTACA TTTTATACAT TAAGTAA

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

    CCDC18 ( XM_017001166.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856655.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu87322
    Clone ID Related Accession (Same CDS sequence) XM_024446672.1 , XM_024446673.1 , XM_017001166.1
    Accession Version XM_017001166.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4227bp)
    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 coiled-coil domain-containing protein 18 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAGTTTG CAGAGTTTAG GGGAAGAGTT ATCCAGATGT TTTCATCTTC TGCCCCTGTG 
    GATCAGGAGA TTAAAAGCCT TCGAGAGAAA CTAAATAAAC TTAGGCAACA GAATGCTTGT 
    TTGGTCACAC AGAATCATTC CTTAATGACT AAATTTGAAT CTATTCACTT TGAATTAACA 
    CAGTCAAGAG CAAAAGTTTC TATGCTTGAG TCTGCTCAAC AGCAGGCAGC CAGTGTCCCA 
    ATCTTAGAAG AACAGATTAT AAATTTGGAA GCAGAGGTTT CAGCTCAAGA TAAAGTTTTG 
    AGAGAGGCAG AAAATAAGCT GGAACAGAGC CAGAAAATGG TAATTGAAAA GGAACAGAGT 
    TTGCAGGAGT CCAAAGAGGA ATGTATAAAA TTAAAGGTGG ACTTACTTGA ACAAACCAAA 
    CAAGGAAAAA GAGCTGAACG ACAAAGGAAT GAAGCACTAT ATAATGCCGA AGAGCTGAGT 
    AAAGCTTTCC AACAATATAA AAAAAAAGTG GCTGAAAAAC TGGAAAAGGT TCAAGCTGAA 
    GAAGAAATAT TAGAGAGAAA TCTAACTAAC TGTGAAAAAG AAAATAAAAG GCTACAAGAA 
    AGGTGTGGTC TATATAAAAG TGAACTTGAA ATTCTGAAAG AGAAATTAAG GCAGTTAAAA 
    GAAGAAAATA ACAACGGAAA AGAAAAATTA AGGATCATGG CAGTGAAAAA TTCAGAAGTC 
    ATGGCACAAC TAACTGAATC TAGACAAAGT ATTTTGAAGC TAGAGAGTGA GTTAGAGAAC 
    AAAGACGAAA TACTTAGAGA CAAATTTTCT TTAATGAATG AAAACCGAGA ATTAAAGGTC 
    CGTGTTGCAG CACAGAATGA GCGACTAGAT TTATGTCAAC AAGAAATTGA AAGTTCAAGG 
    GTAGAACTAA GAAGTTTGGA AAAGATTATA TCCCAGTTGC CATTAAAAAG AGAATTATTT 
    GGCTTTAAAT CATATCTTTC TAAATACCAG ATGAGTAGCT TCTCAAACAA GGAAGACCGT 
    TGCATTGGCT GCTGTGAGGC AAATAAATTG GTGATTTCGG AATTGAGAAT TAAGCTTGCA 
    ATAAAAGAGG CAGAAATTCA AAAGCTTCAT GCAAACCTGA CTGCAAATCA GTTATCTCAG 
    AGTCTTATTA CTTGTAATGA CAGCCAAGAA AGTAGCAAAT TAAGTAGTTT AGAAACAGAA 
    CCTGTAAAGC TAGGTGGTCA TCAAGTAGCA GAAAGCGTAA AAGATCAAAA TCAACATACT 
    ATGAACAAGC AATATGAAAA AGAGAGGCAA AGACTTGTTA CTGGAATAGA AGAACTACGT 
    ACTAAGCTGA TACAAATAGA AGCTGAAAAT TCTGATTTGA AGGTTAACAT GGCTCACAGA 
    ACTAGTCAGT TTCAGCTGAT TCAAGAGGAG CTGCTAGAGA AAGCTTCAAA CTCCAGCAAA 
    CTGGAAAGTG AAATGACAAA GAAATGTTCT CAACTTTTAA CTCTTGAGAA ACAGCTGGAA 
    GAAAAGATAG TTGCTTATTC CTCTATTGCT GCAAAAAATG CAGAACTAGA ACAGGAGCTT 
    ATGGAAAAGA ATGAAAAGAT AAGGAGTCTA GAAACCAATA TTAATACAGA GCATGAGAAA 
    ATTTGTTTAG CCTTTGAAAA AGCAAAGAAA ATTCACTTGG AACAGCATAA AGAAATGGAA 
    AAGCAGATTG AAAGACTTGA AGCTCAACTA GAGAAAAAGG ACCAACAATT TAAAGAACAA 
    GAAAAGACTA TGTCCATGTT GCAACAAGAT ATAATATGCA AACAACATCA TCTTGAATCA 
    CTAGATAGAC TCTTGACGGA AAGCAAAGGG GAAATGAAAA AGGAAAATAT GAAGAAAGAT 
    GAAGCTTTAA AAGCATTACA GAACCAAGTA TCTGAAGAAA CAATCAAGGT TAGGCAACTA 
    GATTCAGCAT TGGAAATTTG TAAGGAAGAA CTTGTCTTGC ATTTGAATCA ATTGGAAGGA 
    AATAAGGAAA AGTTTGAAAA ACAGTTAAAG AAGAAATCTG AAGAGGTATA TTGTTTACAG 
    AAAGAGCTAA AGATAAAAAA TCACAGTCTT CAAGAGACTT CTGAGCAAAA CGTTATTCTA 
    CAGCATACTC TTCAGCAACA GCAGCAAATG TTACAACAAG AGACAATTAG AAATGGAGAG 
    CTAGAAGATA CTCAAACTAA ACTTGAAAAA CAGGTGTCAA AACTGGAACA AGAACTTCAA 
    AAACAAAGGG AAAGTTCAGC TGAAAAGTTG AGAAAAATGG AGGAGAAATG TGAATCAGCT 
    GCACATGAAG CAGATTTGAA AAGGCAAAAA GTGATTGAGC TTACTGGCAC TGCCAGGCAA 
    GTAAAGATTG AGATGGATCA GTACAAAGAA GAGCTGTCTA AAATGGAAAA GGAAATAATG 
    CACCTAAAAC GAGATGGAGA AAATAAAGCA ATGCACCTCT CTCAATTAGA TATGATCTTA 
    GATCAGACAA AGACAGAGCT AGAAAAGAAA ACAAATGCTG TAAAGGAGTT AGAAAAGTTA 
    CAGCACAGTA CTGAAACTGA ACTAACAGAA GCCTTGCAAA AACGGGAAGT ACTTGAGACT 
    GAACTACAAA ATGCTCATGG AGAATTAAAA AGTACTTTAA GACAACTCCA GGAATTGAGA 
    GATGTACTAC AGAAGGCTCA ATTATCATTA GAGGAAAAAT ACACTACTAT AAAGGATCTC 
    ACAGCTGAAC TTAGAGAATG CAAGATGGAG ATTGAAGACA AAAAGCAGGA GCTCCTTGAA 
    ATGGATCAGG CACTTAAAGA GAGAAATTGG GAACTAAAGC AAAGAGCAGC TCAGGTTACA 
    CATTTGGATA TGACTATTCG TGAGCACAGA GGAGAAATGG AACAAAAAAT AATTAAATTA 
    GAAGGTACTC TGGAGAAATC AGAATTGGAA CTTAAAGAAT GTAACAAACA GATAGAAAGT 
    CTGAATGACA AATTACAAAA TGCTAAAGAA CAGCTTCGAG AAAAAGAGTT TATAATGCTA 
    CAAAATGAAC AGGAGATAAG TCAACTGAAA AAAGAAATTG AAAGAACACA ACAAAGGATG 
    AAAGAAATGG AGAGTGTTAT GAAAGAGCAA GAACAGTACA TTGCCACTCA GTACAAGGAG 
    GCCATAGATT TGGGGCAAGA ATTGAGGCTG ACCCGGGAGC AGGTGCAGAA CTCTCATACA 
    GAATTGGCAG AGGCTCGTCA TCAGCAAGTC CAAGCACAGA GAGAAATAGA AAGGCTCTCT 
    AGTGAACTGG AGGATATGAA GCAACTCTCT AAAGAGAAAG ATGCTCATGG AAACCATTTA 
    GCTGAAGAAC TGGGGGCTTC TAAAGTACGT GAAGCTCATT TAGAAGCAAG AATGCAAGCA 
    GAAATCAAGA AATTGTCAGC AGAAGTAGAA TCTCTCAAAG AAGCTTATCA TATGGAGATG 
    ATTTCACATC AAGAGAACCA TGCAAAGTGG AAGATTTCTG CTGACTCTCA AAAGTCTTCT 
    GTTCAGCAAC TAAACGAACA GTTAGAGAAG GCAAAATTGG AATTAGAAGA AGCTCAGGAT 
    ACTGTAAGCA ATTTGCATCA ACAAGTCCAA GATAGGAATG AAGTAATTGA AGCTGCAAAT 
    GAAGCATTAC TTACTAAAGA ATCAGAATTA ACCAGATTAC AGGCCAAAAT TTCTGGACAT 
    GAAAAGGCAG AAGACATCAA GTTTCTGCCA GCCCCATTTA CATCTCCAAC AGAAATTATG 
    CCTGATGTTC AAGATCCAAA ATTTGCTAAA TGTTTTCACA CATCTTTTTC CAAGTGTACA 
    AAATTACGTC GCTCTATTAG TGCCAGTGAT CTTACTTTCA AAATTCATGG TGATGAAGAT 
    CTTTCTGAAG AATTACTACA GGACTTAAAG AAAATGCAAT TAGAACAGCC TTCAACATTA 
    GAAGAAAGCC ATAAGAATCT GACTTACACC CAGCCAGACT CATTTAAACC TCTCACATAT 
    AACCTAGAAG CTGATAGTTC TGAGAATAAT GACTTTAACA CGCTTAGTGG GATGCTAAGA 
    TACATAAACA AAGAAGTAAG ACTATTAAAA AAGTCTTCTA TGCAAACAGG TGCTGGTTTA 
    AATCAGGTAT GTATTTTATA CACTGTAAAC TGTAATAATT TGTTTCCAAA GAATATCATT 
    TTATTACTTG GAAGAAAATT CATATATTTA AATGAAAAAC TACTAATATT TGAAGAAGGA 
    AGATTTTACA TTTTATACAT TAAGTAA

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

    RefSeq XP_016856655.1
    CDS101..4327
    Translation

    Target ORF information:

    RefSeq Version XM_017001166.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001166.1

    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
    ATGGAGTTTG CAGAGTTTAG GGGAAGAGTT ATCCAGATGT TTTCATCTTC TGCCCCTGTG 
    GATCAGGAGA TTAAAAGCCT TCGAGAGAAA CTAAATAAAC TTAGGCAACA GAATGCTTGT 
    TTGGTCACAC AGAATCATTC CTTAATGACT AAATTTGAAT CTATTCACTT TGAATTAACA 
    CAGTCAAGAG CAAAAGTTTC TATGCTTGAG TCTGCTCAAC AGCAGGCAGC CAGTGTCCCA 
    ATCTTAGAAG AACAGATTAT AAATTTGGAA GCAGAGGTTT CAGCTCAAGA TAAAGTTTTG 
    AGAGAGGCAG AAAATAAGCT GGAACAGAGC CAGAAAATGG TAATTGAAAA GGAACAGAGT 
    TTGCAGGAGT CCAAAGAGGA ATGTATAAAA TTAAAGGTGG ACTTACTTGA ACAAACCAAA 
    CAAGGAAAAA GAGCTGAACG ACAAAGGAAT GAAGCACTAT ATAATGCCGA AGAGCTGAGT 
    AAAGCTTTCC AACAATATAA AAAAAAAGTG GCTGAAAAAC TGGAAAAGGT TCAAGCTGAA 
    GAAGAAATAT TAGAGAGAAA TCTAACTAAC TGTGAAAAAG AAAATAAAAG GCTACAAGAA 
    AGGTGTGGTC TATATAAAAG TGAACTTGAA ATTCTGAAAG AGAAATTAAG GCAGTTAAAA 
    GAAGAAAATA ACAACGGAAA AGAAAAATTA AGGATCATGG CAGTGAAAAA TTCAGAAGTC 
    ATGGCACAAC TAACTGAATC TAGACAAAGT ATTTTGAAGC TAGAGAGTGA GTTAGAGAAC 
    AAAGACGAAA TACTTAGAGA CAAATTTTCT TTAATGAATG AAAACCGAGA ATTAAAGGTC 
    CGTGTTGCAG CACAGAATGA GCGACTAGAT TTATGTCAAC AAGAAATTGA AAGTTCAAGG 
    GTAGAACTAA GAAGTTTGGA AAAGATTATA TCCCAGTTGC CATTAAAAAG AGAATTATTT 
    GGCTTTAAAT CATATCTTTC TAAATACCAG ATGAGTAGCT TCTCAAACAA GGAAGACCGT 
    TGCATTGGCT GCTGTGAGGC AAATAAATTG GTGATTTCGG AATTGAGAAT TAAGCTTGCA 
    ATAAAAGAGG CAGAAATTCA AAAGCTTCAT GCAAACCTGA CTGCAAATCA GTTATCTCAG 
    AGTCTTATTA CTTGTAATGA CAGCCAAGAA AGTAGCAAAT TAAGTAGTTT AGAAACAGAA 
    CCTGTAAAGC TAGGTGGTCA TCAAGTAGCA GAAAGCGTAA AAGATCAAAA TCAACATACT 
    ATGAACAAGC AATATGAAAA AGAGAGGCAA AGACTTGTTA CTGGAATAGA AGAACTACGT 
    ACTAAGCTGA TACAAATAGA AGCTGAAAAT TCTGATTTGA AGGTTAACAT GGCTCACAGA 
    ACTAGTCAGT TTCAGCTGAT TCAAGAGGAG CTGCTAGAGA AAGCTTCAAA CTCCAGCAAA 
    CTGGAAAGTG AAATGACAAA GAAATGTTCT CAACTTTTAA CTCTTGAGAA ACAGCTGGAA 
    GAAAAGATAG TTGCTTATTC CTCTATTGCT GCAAAAAATG CAGAACTAGA ACAGGAGCTT 
    ATGGAAAAGA ATGAAAAGAT AAGGAGTCTA GAAACCAATA TTAATACAGA GCATGAGAAA 
    ATTTGTTTAG CCTTTGAAAA AGCAAAGAAA ATTCACTTGG AACAGCATAA AGAAATGGAA 
    AAGCAGATTG AAAGACTTGA AGCTCAACTA GAGAAAAAGG ACCAACAATT TAAAGAACAA 
    GAAAAGACTA TGTCCATGTT GCAACAAGAT ATAATATGCA AACAACATCA TCTTGAATCA 
    CTAGATAGAC TCTTGACGGA AAGCAAAGGG GAAATGAAAA AGGAAAATAT GAAGAAAGAT 
    GAAGCTTTAA AAGCATTACA GAACCAAGTA TCTGAAGAAA CAATCAAGGT TAGGCAACTA 
    GATTCAGCAT TGGAAATTTG TAAGGAAGAA CTTGTCTTGC ATTTGAATCA ATTGGAAGGA 
    AATAAGGAAA AGTTTGAAAA ACAGTTAAAG AAGAAATCTG AAGAGGTATA TTGTTTACAG 
    AAAGAGCTAA AGATAAAAAA TCACAGTCTT CAAGAGACTT CTGAGCAAAA CGTTATTCTA 
    CAGCATACTC TTCAGCAACA GCAGCAAATG TTACAACAAG AGACAATTAG AAATGGAGAG 
    CTAGAAGATA CTCAAACTAA ACTTGAAAAA CAGGTGTCAA AACTGGAACA AGAACTTCAA 
    AAACAAAGGG AAAGTTCAGC TGAAAAGTTG AGAAAAATGG AGGAGAAATG TGAATCAGCT 
    GCACATGAAG CAGATTTGAA AAGGCAAAAA GTGATTGAGC TTACTGGCAC TGCCAGGCAA 
    GTAAAGATTG AGATGGATCA GTACAAAGAA GAGCTGTCTA AAATGGAAAA GGAAATAATG 
    CACCTAAAAC GAGATGGAGA AAATAAAGCA ATGCACCTCT CTCAATTAGA TATGATCTTA 
    GATCAGACAA AGACAGAGCT AGAAAAGAAA ACAAATGCTG TAAAGGAGTT AGAAAAGTTA 
    CAGCACAGTA CTGAAACTGA ACTAACAGAA GCCTTGCAAA AACGGGAAGT ACTTGAGACT 
    GAACTACAAA ATGCTCATGG AGAATTAAAA AGTACTTTAA GACAACTCCA GGAATTGAGA 
    GATGTACTAC AGAAGGCTCA ATTATCATTA GAGGAAAAAT ACACTACTAT AAAGGATCTC 
    ACAGCTGAAC TTAGAGAATG CAAGATGGAG ATTGAAGACA AAAAGCAGGA GCTCCTTGAA 
    ATGGATCAGG CACTTAAAGA GAGAAATTGG GAACTAAAGC AAAGAGCAGC TCAGGTTACA 
    CATTTGGATA TGACTATTCG TGAGCACAGA GGAGAAATGG AACAAAAAAT AATTAAATTA 
    GAAGGTACTC TGGAGAAATC AGAATTGGAA CTTAAAGAAT GTAACAAACA GATAGAAAGT 
    CTGAATGACA AATTACAAAA TGCTAAAGAA CAGCTTCGAG AAAAAGAGTT TATAATGCTA 
    CAAAATGAAC AGGAGATAAG TCAACTGAAA AAAGAAATTG AAAGAACACA ACAAAGGATG 
    AAAGAAATGG AGAGTGTTAT GAAAGAGCAA GAACAGTACA TTGCCACTCA GTACAAGGAG 
    GCCATAGATT TGGGGCAAGA ATTGAGGCTG ACCCGGGAGC AGGTGCAGAA CTCTCATACA 
    GAATTGGCAG AGGCTCGTCA TCAGCAAGTC CAAGCACAGA GAGAAATAGA AAGGCTCTCT 
    AGTGAACTGG AGGATATGAA GCAACTCTCT AAAGAGAAAG ATGCTCATGG AAACCATTTA 
    GCTGAAGAAC TGGGGGCTTC TAAAGTACGT GAAGCTCATT TAGAAGCAAG AATGCAAGCA 
    GAAATCAAGA AATTGTCAGC AGAAGTAGAA TCTCTCAAAG AAGCTTATCA TATGGAGATG 
    ATTTCACATC AAGAGAACCA TGCAAAGTGG AAGATTTCTG CTGACTCTCA AAAGTCTTCT 
    GTTCAGCAAC TAAACGAACA GTTAGAGAAG GCAAAATTGG AATTAGAAGA AGCTCAGGAT 
    ACTGTAAGCA ATTTGCATCA ACAAGTCCAA GATAGGAATG AAGTAATTGA AGCTGCAAAT 
    GAAGCATTAC TTACTAAAGA ATCAGAATTA ACCAGATTAC AGGCCAAAAT TTCTGGACAT 
    GAAAAGGCAG AAGACATCAA GTTTCTGCCA GCCCCATTTA CATCTCCAAC AGAAATTATG 
    CCTGATGTTC AAGATCCAAA ATTTGCTAAA TGTTTTCACA CATCTTTTTC CAAGTGTACA 
    AAATTACGTC GCTCTATTAG TGCCAGTGAT CTTACTTTCA AAATTCATGG TGATGAAGAT 
    CTTTCTGAAG AATTACTACA GGACTTAAAG AAAATGCAAT TAGAACAGCC TTCAACATTA 
    GAAGAAAGCC ATAAGAATCT GACTTACACC CAGCCAGACT CATTTAAACC TCTCACATAT 
    AACCTAGAAG CTGATAGTTC TGAGAATAAT GACTTTAACA CGCTTAGTGG GATGCTAAGA 
    TACATAAACA AAGAAGTAAG ACTATTAAAA AAGTCTTCTA TGCAAACAGG TGCTGGTTTA 
    AATCAGGTAT GTATTTTATA CACTGTAAAC TGTAATAATT TGTTTCCAAA GAATATCATT 
    TTATTACTTG GAAGAAAATT CATATATTTA AATGAAAAAC TACTAATATT TGAAGAAGGA 
    AGATTTTACA TTTTATACAT TAAGTAA

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

    CCDC18 ( XM_017001167.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856656.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OHu87323
    Clone ID Related Accession (Same CDS sequence) XM_017001167.2 , XM_017001167.1
    Accession Version XM_017001167.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4191bp)
    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 coiled-coil domain-containing protein 18 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001167.1. ##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
    3961
    4021
    4081
    4141
    ATGTTTTCAT CTTCTGCCCC TGTGGATCAG GAGATTAAAA GCCTTCGAGA GAAACTAAAT 
    AAACTTAGGC AACAGAATGC TTGTTTGGTC ACACAGAATC ATTCCTTAAT GACTAAATTT 
    GAATCTATTC ACTTTGAATT AACACAGTCA AGAGCAAAAG TTTCTATGCT TGAGTCTGCT 
    CAACAGCAGG CAGCCAGTGT CCCAATCTTA GAAGAACAGA TTATAAATTT GGAAGCAGAG 
    GTTTCAGCTC AAGATAAAGT TTTGAGAGAG GCAGAAAATA AGCTGGAACA GAGCCAGAAA 
    ATGGTAATTG AAAAGGAACA GAGTTTGCAG GAGTCCAAAG AGGAATGTAT AAAATTAAAG 
    GTGGACTTAC TTGAACAAAC CAAACAAGGA AAAAGAGCTG AACGACAAAG GAATGAAGCA 
    CTATATAATG CCGAAGAGCT GAGTAAAGCT TTCCAACAAT ATAAAAAAAA AGTGGCTGAA 
    AAACTGGAAA AGGTTCAAGC TGAAGAAGAA ATATTAGAGA GAAATCTAAC TAACTGTGAA 
    AAAGAAAATA AAAGGCTACA AGAAAGGTGT GGTCTATATA AAAGTGAACT TGAAATTCTG 
    AAAGAGAAAT TAAGGCAGTT AAAAGAAGAA AATAACAACG GAAAAGAAAA ATTAAGGATC 
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAACTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTT TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AAAGAGAATT ATTTGGCTTT AAATCATATC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT AGCAGAAAGC 
    GTAAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAACT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAAGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATATTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGACCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAAC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    AAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTGGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAGATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACGTTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTAGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTG GCACTGCCAG GCAAGTAAAG ATTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTA AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGTACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAATTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AAGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGTGAGCA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACTCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTCTGAAT GACAAATTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATTGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAAGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTGACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCAGAGGCTC GTCATCAGCA AGTCCAAGCA 
    CAGAGAGAAA TAGAAAGGCT CTCTAGTGAA CTGGAGGATA TGAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAACTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGTC TTCTGTTCAG CAACTAAACG AACAGTTAGA GAAGGCAAAA 
    TTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAGGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA TCAAGTTTCT GCCAGCCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAATGTTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAATTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT AAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATTAGAAGAA AGCCATAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC ATATAACCTA GAAGCTGATA GTTCTGAGAA TAATGACTTT 
    AACACGCTTA GTGGGATGCT AAGATACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAAA CAGGTGCTGG TTTAAATCAG GTATGTATTT TATACACTGT AAACTGTAAT 
    AATTTGTTTC CAAAGAATAT CATTTTATTA CTTGGAAGAA AATTCATATA TTTAAATGAA 
    AAACTACTAA TATTTGAAGA AGGAAGATTT TACATTTTAT ACATTAAGTA A

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

    RefSeq XP_016856656.1
    CDS133..4323
    Translation

    Target ORF information:

    RefSeq Version XM_017001167.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001167.2

    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
    3961
    4021
    4081
    4141
    ATGTTTTCAT CTTCTGCCCC TGTGGATCAG GAGATTAAAA GCCTTCGAGA GAAACTAAAT 
    AAACTTAGGC AACAGAATGC TTGTTTGGTC ACACAGAATC ATTCCTTAAT GACTAAATTT 
    GAATCTATTC ACTTTGAATT AACACAGTCA AGAGCAAAAG TTTCTATGCT TGAGTCTGCT 
    CAACAGCAGG CAGCCAGTGT CCCAATCTTA GAAGAACAGA TTATAAATTT GGAAGCAGAG 
    GTTTCAGCTC AAGATAAAGT TTTGAGAGAG GCAGAAAATA AGCTGGAACA GAGCCAGAAA 
    ATGGTAATTG AAAAGGAACA GAGTTTGCAG GAGTCCAAAG AGGAATGTAT AAAATTAAAG 
    GTGGACTTAC TTGAACAAAC CAAACAAGGA AAAAGAGCTG AACGACAAAG GAATGAAGCA 
    CTATATAATG CCGAAGAGCT GAGTAAAGCT TTCCAACAAT ATAAAAAAAA AGTGGCTGAA 
    AAACTGGAAA AGGTTCAAGC TGAAGAAGAA ATATTAGAGA GAAATCTAAC TAACTGTGAA 
    AAAGAAAATA AAAGGCTACA AGAAAGGTGT GGTCTATATA AAAGTGAACT TGAAATTCTG 
    AAAGAGAAAT TAAGGCAGTT AAAAGAAGAA AATAACAACG GAAAAGAAAA ATTAAGGATC 
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAACTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTT TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AAAGAGAATT ATTTGGCTTT AAATCATATC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT AGCAGAAAGC 
    GTAAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAACT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAAGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATATTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGACCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAAC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    AAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTGGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAGATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACGTTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTAGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTG GCACTGCCAG GCAAGTAAAG ATTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTA AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGTACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAATTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AAGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGTGAGCA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACTCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTCTGAAT GACAAATTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATTGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAAGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTGACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCAGAGGCTC GTCATCAGCA AGTCCAAGCA 
    CAGAGAGAAA TAGAAAGGCT CTCTAGTGAA CTGGAGGATA TGAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAACTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGTC TTCTGTTCAG CAACTAAACG AACAGTTAGA GAAGGCAAAA 
    TTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAGGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA TCAAGTTTCT GCCAGCCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAATGTTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAATTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT AAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATTAGAAGAA AGCCATAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC ATATAACCTA GAAGCTGATA GTTCTGAGAA TAATGACTTT 
    AACACGCTTA GTGGGATGCT AAGATACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAAA CAGGTGCTGG TTTAAATCAG GTATGTATTT TATACACTGT AAACTGTAAT 
    AATTTGTTTC CAAAGAATAT CATTTTATTA CTTGGAAGAA AATTCATATA TTTAAATGAA 
    AAACTACTAA TATTTGAAGA AGGAAGATTT TACATTTTAT ACATTAAGTA A

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

    CCDC18 ( XM_017001167.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856656.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu87323
    Clone ID Related Accession (Same CDS sequence) XM_017001167.2 , XM_017001167.1
    Accession Version XM_017001167.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4191bp)
    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 coiled-coil domain-containing protein 18 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGTTTTCAT CTTCTGCCCC TGTGGATCAG GAGATTAAAA GCCTTCGAGA GAAACTAAAT 
    AAACTTAGGC AACAGAATGC TTGTTTGGTC ACACAGAATC ATTCCTTAAT GACTAAATTT 
    GAATCTATTC ACTTTGAATT AACACAGTCA AGAGCAAAAG TTTCTATGCT TGAGTCTGCT 
    CAACAGCAGG CAGCCAGTGT CCCAATCTTA GAAGAACAGA TTATAAATTT GGAAGCAGAG 
    GTTTCAGCTC AAGATAAAGT TTTGAGAGAG GCAGAAAATA AGCTGGAACA GAGCCAGAAA 
    ATGGTAATTG AAAAGGAACA GAGTTTGCAG GAGTCCAAAG AGGAATGTAT AAAATTAAAG 
    GTGGACTTAC TTGAACAAAC CAAACAAGGA AAAAGAGCTG AACGACAAAG GAATGAAGCA 
    CTATATAATG CCGAAGAGCT GAGTAAAGCT TTCCAACAAT ATAAAAAAAA AGTGGCTGAA 
    AAACTGGAAA AGGTTCAAGC TGAAGAAGAA ATATTAGAGA GAAATCTAAC TAACTGTGAA 
    AAAGAAAATA AAAGGCTACA AGAAAGGTGT GGTCTATATA AAAGTGAACT TGAAATTCTG 
    AAAGAGAAAT TAAGGCAGTT AAAAGAAGAA AATAACAACG GAAAAGAAAA ATTAAGGATC 
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAACTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTT TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AAAGAGAATT ATTTGGCTTT AAATCATATC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT AGCAGAAAGC 
    GTAAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAACT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAAGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATATTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGACCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAAC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    AAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTGGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAGATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACGTTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTAGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTG GCACTGCCAG GCAAGTAAAG ATTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTA AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGTACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAATTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AAGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGTGAGCA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACTCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTCTGAAT GACAAATTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATTGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAAGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTGACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCAGAGGCTC GTCATCAGCA AGTCCAAGCA 
    CAGAGAGAAA TAGAAAGGCT CTCTAGTGAA CTGGAGGATA TGAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAACTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGTC TTCTGTTCAG CAACTAAACG AACAGTTAGA GAAGGCAAAA 
    TTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAGGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA TCAAGTTTCT GCCAGCCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAATGTTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAATTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT AAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATTAGAAGAA AGCCATAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC ATATAACCTA GAAGCTGATA GTTCTGAGAA TAATGACTTT 
    AACACGCTTA GTGGGATGCT AAGATACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAAA CAGGTGCTGG TTTAAATCAG GTATGTATTT TATACACTGT AAACTGTAAT 
    AATTTGTTTC CAAAGAATAT CATTTTATTA CTTGGAAGAA AATTCATATA TTTAAATGAA 
    AAACTACTAA TATTTGAAGA AGGAAGATTT TACATTTTAT ACATTAAGTA A

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

    RefSeq XP_016856656.1
    CDS72..4262
    Translation

    Target ORF information:

    RefSeq Version XM_017001167.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001167.1

    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
    ATGTTTTCAT CTTCTGCCCC TGTGGATCAG GAGATTAAAA GCCTTCGAGA GAAACTAAAT 
    AAACTTAGGC AACAGAATGC TTGTTTGGTC ACACAGAATC ATTCCTTAAT GACTAAATTT 
    GAATCTATTC ACTTTGAATT AACACAGTCA AGAGCAAAAG TTTCTATGCT TGAGTCTGCT 
    CAACAGCAGG CAGCCAGTGT CCCAATCTTA GAAGAACAGA TTATAAATTT GGAAGCAGAG 
    GTTTCAGCTC AAGATAAAGT TTTGAGAGAG GCAGAAAATA AGCTGGAACA GAGCCAGAAA 
    ATGGTAATTG AAAAGGAACA GAGTTTGCAG GAGTCCAAAG AGGAATGTAT AAAATTAAAG 
    GTGGACTTAC TTGAACAAAC CAAACAAGGA AAAAGAGCTG AACGACAAAG GAATGAAGCA 
    CTATATAATG CCGAAGAGCT GAGTAAAGCT TTCCAACAAT ATAAAAAAAA AGTGGCTGAA 
    AAACTGGAAA AGGTTCAAGC TGAAGAAGAA ATATTAGAGA GAAATCTAAC TAACTGTGAA 
    AAAGAAAATA AAAGGCTACA AGAAAGGTGT GGTCTATATA AAAGTGAACT TGAAATTCTG 
    AAAGAGAAAT TAAGGCAGTT AAAAGAAGAA AATAACAACG GAAAAGAAAA ATTAAGGATC 
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAACTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTT TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AAAGAGAATT ATTTGGCTTT AAATCATATC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT AGCAGAAAGC 
    GTAAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAACT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAAGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATATTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGACCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAAC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    AAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTGGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAGATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACGTTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTAGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTG GCACTGCCAG GCAAGTAAAG ATTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTA AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGTACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAATTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AAGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGTGAGCA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACTCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTCTGAAT GACAAATTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATTGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAAGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTGACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCAGAGGCTC GTCATCAGCA AGTCCAAGCA 
    CAGAGAGAAA TAGAAAGGCT CTCTAGTGAA CTGGAGGATA TGAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAACTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGTC TTCTGTTCAG CAACTAAACG AACAGTTAGA GAAGGCAAAA 
    TTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAGGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA TCAAGTTTCT GCCAGCCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAATGTTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAATTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT AAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATTAGAAGAA AGCCATAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC ATATAACCTA GAAGCTGATA GTTCTGAGAA TAATGACTTT 
    AACACGCTTA GTGGGATGCT AAGATACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAAA CAGGTGCTGG TTTAAATCAG GTATGTATTT TATACACTGT AAACTGTAAT 
    AATTTGTTTC CAAAGAATAT CATTTTATTA CTTGGAAGAA AATTCATATA TTTAAATGAA 
    AAACTACTAA TATTTGAAGA AGGAAGATTT TACATTTTAT ACATTAAGTA A

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

    CCDC18 ( XM_017001168.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856657.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OHu87324
    Clone ID Related Accession (Same CDS sequence) XM_017001168.2 , XM_017001168.1
    Accession Version XM_017001168.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3531bp)
    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 coiled-coil domain-containing protein 18 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001168.1. ##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
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAACTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTT TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AAAGAGAATT ATTTGGCTTT AAATCATATC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT AGCAGAAAGC 
    GTAAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAACT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAAGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATATTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGACCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAAC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    AAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTGGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAGATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACGTTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTAGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTG GCACTGCCAG GCAAGTAAAG ATTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTA AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGTACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAATTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AAGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGTGAGCA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACTCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTCTGAAT GACAAATTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATTGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAAGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTGACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCAGAGGCTC GTCATCAGCA AGTCCAAGCA 
    CAGAGAGAAA TAGAAAGGCT CTCTAGTGAA CTGGAGGATA TGAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAACTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGTC TTCTGTTCAG CAACTAAACG AACAGTTAGA GAAGGCAAAA 
    TTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAGGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA TCAAGTTTCT GCCAGCCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAATGTTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAATTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT AAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATTAGAAGAA AGCCATAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC ATATAACCTA GAAGCTGATA GTTCTGAGAA TAATGACTTT 
    AACACGCTTA GTGGGATGCT AAGATACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAAA CAGGTGCTGG TTTAAATCAG GTATGTATTT TATACACTGT AAACTGTAAT 
    AATTTGTTTC CAAAGAATAT CATTTTATTA CTTGGAAGAA AATTCATATA TTTAAATGAA 
    AAACTACTAA TATTTGAAGA AGGAAGATTT TACATTTTAT ACATTAAGTA A

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

    RefSeq XP_016856657.1
    CDS497..4027
    Translation

    Target ORF information:

    RefSeq Version XM_017001168.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001168.2

    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
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAACTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTT TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AAAGAGAATT ATTTGGCTTT AAATCATATC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT AGCAGAAAGC 
    GTAAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAACT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAAGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATATTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGACCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAAC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    AAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTGGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAGATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACGTTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTAGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTG GCACTGCCAG GCAAGTAAAG ATTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTA AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGTACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAATTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AAGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGTGAGCA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACTCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTCTGAAT GACAAATTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATTGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAAGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTGACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCAGAGGCTC GTCATCAGCA AGTCCAAGCA 
    CAGAGAGAAA TAGAAAGGCT CTCTAGTGAA CTGGAGGATA TGAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAACTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGTC TTCTGTTCAG CAACTAAACG AACAGTTAGA GAAGGCAAAA 
    TTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAGGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA TCAAGTTTCT GCCAGCCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAATGTTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAATTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT AAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATTAGAAGAA AGCCATAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC ATATAACCTA GAAGCTGATA GTTCTGAGAA TAATGACTTT 
    AACACGCTTA GTGGGATGCT AAGATACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAAA CAGGTGCTGG TTTAAATCAG GTATGTATTT TATACACTGT AAACTGTAAT 
    AATTTGTTTC CAAAGAATAT CATTTTATTA CTTGGAAGAA AATTCATATA TTTAAATGAA 
    AAACTACTAA TATTTGAAGA AGGAAGATTT TACATTTTAT ACATTAAGTA A

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

    CCDC18 ( XM_017001168.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856657.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu87324
    Clone ID Related Accession (Same CDS sequence) XM_017001168.2 , XM_017001168.1
    Accession Version XM_017001168.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3531bp)
    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 coiled-coil domain-containing protein 18 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAACTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTT TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AAAGAGAATT ATTTGGCTTT AAATCATATC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT AGCAGAAAGC 
    GTAAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAACT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAAGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATATTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGACCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAAC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    AAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTGGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAGATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACGTTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTAGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTG GCACTGCCAG GCAAGTAAAG ATTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTA AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGTACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAATTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AAGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGTGAGCA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACTCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTCTGAAT GACAAATTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATTGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAAGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTGACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCAGAGGCTC GTCATCAGCA AGTCCAAGCA 
    CAGAGAGAAA TAGAAAGGCT CTCTAGTGAA CTGGAGGATA TGAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAACTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGTC TTCTGTTCAG CAACTAAACG AACAGTTAGA GAAGGCAAAA 
    TTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAGGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA TCAAGTTTCT GCCAGCCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAATGTTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAATTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT AAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATTAGAAGAA AGCCATAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC ATATAACCTA GAAGCTGATA GTTCTGAGAA TAATGACTTT 
    AACACGCTTA GTGGGATGCT AAGATACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAAA CAGGTGCTGG TTTAAATCAG GTATGTATTT TATACACTGT AAACTGTAAT 
    AATTTGTTTC CAAAGAATAT CATTTTATTA CTTGGAAGAA AATTCATATA TTTAAATGAA 
    AAACTACTAA TATTTGAAGA AGGAAGATTT TACATTTTAT ACATTAAGTA A

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

    RefSeq XP_016856657.1
    CDS497..4027
    Translation

    Target ORF information:

    RefSeq Version XM_017001168.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001168.1

    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
    ATGGCAGTGA AAAATTCAGA AGTCATGGCA CAACTAACTG AATCTAGACA AAGTATTTTG 
    AAGCTAGAGA GTGAGTTAGA GAACAAAGAC GAAATACTTA GAGACAAATT TTCTTTAATG 
    AATGAAAACC GAGAATTAAA GGTCCGTGTT GCAGCACAGA ATGAGCGACT AGATTTATGT 
    CAACAAGAAA TTGAAAGTTC AAGGGTAGAA CTAAGAAGTT TGGAAAAGAT TATATCCCAG 
    TTGCCATTAA AAAGAGAATT ATTTGGCTTT AAATCATATC TTTCTAAATA CCAGATGAGT 
    AGCTTCTCAA ACAAGGAAGA CCGTTGCATT GGCTGCTGTG AGGCAAATAA ATTGGTGATT 
    TCGGAATTGA GAATTAAGCT TGCAATAAAA GAGGCAGAAA TTCAAAAGCT TCATGCAAAC 
    CTGACTGCAA ATCAGTTATC TCAGAGTCTT ATTACTTGTA ATGACAGCCA AGAAAGTAGC 
    AAATTAAGTA GTTTAGAAAC AGAACCTGTA AAGCTAGGTG GTCATCAAGT AGCAGAAAGC 
    GTAAAAGATC AAAATCAACA TACTATGAAC AAGCAATATG AAAAAGAGAG GCAAAGACTT 
    GTTACTGGAA TAGAAGAACT ACGTACTAAG CTGATACAAA TAGAAGCTGA AAATTCTGAT 
    TTGAAGGTTA ACATGGCTCA CAGAACTAGT CAGTTTCAGC TGATTCAAGA GGAGCTGCTA 
    GAGAAAGCTT CAAACTCCAG CAAACTGGAA AGTGAAATGA CAAAGAAATG TTCTCAACTT 
    TTAACTCTTG AGAAACAGCT GGAAGAAAAG ATAGTTGCTT ATTCCTCTAT TGCTGCAAAA 
    AATGCAGAAC TAGAACAGGA GCTTATGGAA AAGAATGAAA AGATAAGGAG TCTAGAAACC 
    AATATTAATA CAGAGCATGA GAAAATTTGT TTAGCCTTTG AAAAAGCAAA GAAAATTCAC 
    TTGGAACAGC ATAAAGAAAT GGAAAAGCAG ATTGAAAGAC TTGAAGCTCA ACTAGAGAAA 
    AAGGACCAAC AATTTAAAGA ACAAGAAAAG ACTATGTCCA TGTTGCAACA AGATATAATA 
    TGCAAACAAC ATCATCTTGA ATCACTAGAT AGACTCTTGA CGGAAAGCAA AGGGGAAATG 
    AAAAAGGAAA ATATGAAGAA AGATGAAGCT TTAAAAGCAT TACAGAACCA AGTATCTGAA 
    GAAACAATCA AGGTTAGGCA ACTAGATTCA GCATTGGAAA TTTGTAAGGA AGAACTTGTC 
    TTGCATTTGA ATCAATTGGA AGGAAATAAG GAAAAGTTTG AAAAACAGTT AAAGAAGAAA 
    TCTGAAGAGG TATATTGTTT ACAGAAAGAG CTAAAGATAA AAAATCACAG TCTTCAAGAG 
    ACTTCTGAGC AAAACGTTAT TCTACAGCAT ACTCTTCAGC AACAGCAGCA AATGTTACAA 
    CAAGAGACAA TTAGAAATGG AGAGCTAGAA GATACTCAAA CTAAACTTGA AAAACAGGTG 
    TCAAAACTGG AACAAGAACT TCAAAAACAA AGGGAAAGTT CAGCTGAAAA GTTGAGAAAA 
    ATGGAGGAGA AATGTGAATC AGCTGCACAT GAAGCAGATT TGAAAAGGCA AAAAGTGATT 
    GAGCTTACTG GCACTGCCAG GCAAGTAAAG ATTGAGATGG ATCAGTACAA AGAAGAGCTG 
    TCTAAAATGG AAAAGGAAAT AATGCACCTA AAACGAGATG GAGAAAATAA AGCAATGCAC 
    CTCTCTCAAT TAGATATGAT CTTAGATCAG ACAAAGACAG AGCTAGAAAA GAAAACAAAT 
    GCTGTAAAGG AGTTAGAAAA GTTACAGCAC AGTACTGAAA CTGAACTAAC AGAAGCCTTG 
    CAAAAACGGG AAGTACTTGA GACTGAACTA CAAAATGCTC ATGGAGAATT AAAAAGTACT 
    TTAAGACAAC TCCAGGAATT GAGAGATGTA CTACAGAAGG CTCAATTATC ATTAGAGGAA 
    AAATACACTA CTATAAAGGA TCTCACAGCT GAACTTAGAG AATGCAAGAT GGAGATTGAA 
    GACAAAAAGC AGGAGCTCCT TGAAATGGAT CAGGCACTTA AAGAGAGAAA TTGGGAACTA 
    AAGCAAAGAG CAGCTCAGGT TACACATTTG GATATGACTA TTCGTGAGCA CAGAGGAGAA 
    ATGGAACAAA AAATAATTAA ATTAGAAGGT ACTCTGGAGA AATCAGAATT GGAACTTAAA 
    GAATGTAACA AACAGATAGA AAGTCTGAAT GACAAATTAC AAAATGCTAA AGAACAGCTT 
    CGAGAAAAAG AGTTTATAAT GCTACAAAAT GAACAGGAGA TAAGTCAACT GAAAAAAGAA 
    ATTGAAAGAA CACAACAAAG GATGAAAGAA ATGGAGAGTG TTATGAAAGA GCAAGAACAG 
    TACATTGCCA CTCAGTACAA GGAGGCCATA GATTTGGGGC AAGAATTGAG GCTGACCCGG 
    GAGCAGGTGC AGAACTCTCA TACAGAATTG GCAGAGGCTC GTCATCAGCA AGTCCAAGCA 
    CAGAGAGAAA TAGAAAGGCT CTCTAGTGAA CTGGAGGATA TGAAGCAACT CTCTAAAGAG 
    AAAGATGCTC ATGGAAACCA TTTAGCTGAA GAACTGGGGG CTTCTAAAGT ACGTGAAGCT 
    CATTTAGAAG CAAGAATGCA AGCAGAAATC AAGAAATTGT CAGCAGAAGT AGAATCTCTC 
    AAAGAAGCTT ATCATATGGA GATGATTTCA CATCAAGAGA ACCATGCAAA GTGGAAGATT 
    TCTGCTGACT CTCAAAAGTC TTCTGTTCAG CAACTAAACG AACAGTTAGA GAAGGCAAAA 
    TTGGAATTAG AAGAAGCTCA GGATACTGTA AGCAATTTGC ATCAACAAGT CCAAGATAGG 
    AATGAAGTAA TTGAAGCTGC AAATGAAGCA TTACTTACTA AAGAATCAGA ATTAACCAGA 
    TTACAGGCCA AAATTTCTGG ACATGAAAAG GCAGAAGACA TCAAGTTTCT GCCAGCCCCA 
    TTTACATCTC CAACAGAAAT TATGCCTGAT GTTCAAGATC CAAAATTTGC TAAATGTTTT 
    CACACATCTT TTTCCAAGTG TACAAAATTA CGTCGCTCTA TTAGTGCCAG TGATCTTACT 
    TTCAAAATTC ATGGTGATGA AGATCTTTCT GAAGAATTAC TACAGGACTT AAAGAAAATG 
    CAATTAGAAC AGCCTTCAAC ATTAGAAGAA AGCCATAAGA ATCTGACTTA CACCCAGCCA 
    GACTCATTTA AACCTCTCAC ATATAACCTA GAAGCTGATA GTTCTGAGAA TAATGACTTT 
    AACACGCTTA GTGGGATGCT AAGATACATA AACAAAGAAG TAAGACTATT AAAAAAGTCT 
    TCTATGCAAA CAGGTGCTGG TTTAAATCAG GTATGTATTT TATACACTGT AAACTGTAAT 
    AATTTGTTTC CAAAGAATAT CATTTTATTA CTTGGAAGAA AATTCATATA TTTAAATGAA 
    AAACTACTAA TATTTGAAGA AGGAAGATTT TACATTTTAT ACATTAAGTA A

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

    CCDC18 ( XM_017001169.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856658.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OHu87325
    Clone ID Related Accession (Same CDS sequence) XM_017001169.1 , XM_017001169.2
    Accession Version XM_017001169.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3399bp)
    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 coiled-coil domain-containing protein 18 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGACTGG AAAATCATAT GAAGATTTTC 
    AAGATCAACA TTTTCAACCT TTGTCTTATC AGAACTTAG

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

    RefSeq XP_016856658.1
    CDS25..3423
    Translation

    Target ORF information:

    RefSeq Version XM_017001169.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001169.1

    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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGACTGG AAAATCATAT GAAGATTTTC 
    AAGATCAACA TTTTCAACCT TTGTCTTATC AGAACTTAG

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

    CCDC18 ( XM_017001169.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856658.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID OHu87325
    Clone ID Related Accession (Same CDS sequence) XM_017001169.1 , XM_017001169.2
    Accession Version XM_017001169.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3399bp)
    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 coiled-coil domain-containing protein 18 isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001169.1. ##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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGACTGG AAAATCATAT GAAGATTTTC 
    AAGATCAACA TTTTCAACCT TTGTCTTATC AGAACTTAG

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

    RefSeq XP_016856658.1
    CDS97..3495
    Translation

    Target ORF information:

    RefSeq Version XM_017001169.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001169.2

    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
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGACTGG AAAATCATAT GAAGATTTTC 
    AAGATCAACA TTTTCAACCT TTGTCTTATC AGAACTTAG

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

    CCDC18 ( NM_206886.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_996769.3 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu15066
    Clone ID Related Accession (Same CDS sequence) NM_206886.4
    Accession Version NM_206886.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3900bp)
    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 2019-02-23
    Organism Homo sapiens(human)
    Product coiled-coil domain-containing protein 18 isoform b
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX099893.1, BC056667.1, AC126124.2, AK126045.1, AL139421.12 and CA428763.1. On Mar 14, 2014 this sequence version replaced NM_206886.3. Transcript Variant: This variant (2) uses an alternate in-frame splice site in the central coding region and lacks an alternate in-frame exon in the 3' coding region, compared to variant 1, resulting in an isoform (b) that is shorter than isoform a. The exon combination of this variant is inferred from partial transcript alignments. Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968968 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-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
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGGAGA AAATGTGTAA

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

    RefSeq NP_996769.3
    CDS170..4069
    Translation

    Target ORF information:

    RefSeq Version NM_206886.4
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_206886.4

    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
    ATGGAATCTA GTTCATCAGA CTACTATAAT AAAGACAATG AAGAGGAAAG TTTGCTTGCA 
    AATGTTGCTT CCTTAAGACA TGAACTGAAG ATAACAGAAT GGAGTTTGCA GAGTTTAGGG 
    GAAGAGTTAT CCAGTGTTAG TCCAAGTGAA AATTCTGATT ATGCCCCTAA TCCTTCAAGG 
    TCTGAAAAGC TAATTTTGGA TGTTCAGCCT AGCCACCCTG GACTTTTGAA TTATTCACCT 
    TATGAAAACG TCTGTAAAAT ATCTGGTAGC AGCACTGATT TTCAAAAAAA GCCAAGAGAT 
    AAGATGTTTT CATCTTCTGC CCCTGTGGAT CAGGAGATTA AAAGCCTTCG AGAGAAACTA 
    AATAAACTTA GGCAACAGAA TGCTTGTTTG GTCACACAGA ATCATTCCTT AATGACTAAA 
    TTTGAATCTA TTCACTTTGA ATTAACACAG TCAAGAGCAA AAGTTTCTAT GCTTGAGTCT 
    GCTCAACAGC AGGCAGCCAG TGTCCCAATC TTAGAAGAAC AGATTATAAA TTTGGAAGCA 
    GAGGTTTCAG CTCAAGATAA AGTTTTGAGA GAGGCAGAAA ATAAGCTGGA ACAGAGCCAG 
    AAAATGGTAA TTGAAAAGGA ACAGAGTTTG CAGGAGTCCA AAGAGGAATG TATAAAATTA 
    AAGGTGGACT TACTTGAACA AACCAAACAA GGAAAAAGAG CTGAACGACA AAGGAATGAA 
    GCACTATATA ATGCCGAAGA GCTGAGTAAA GCTTTCCAAC AATATAAAAA AAAAGTGGCT 
    GAAAAACTGG AAAAGGTTCA AGCTGAAGAA GAAATATTAG AGAGAAATCT AACTAACTGT 
    GAAAAAGAAA ATAAAAGGCT ACAAGAAAGG TGTGGTCTAT ATAAAAGTGA ACTTGAAATT 
    CTGAAAGAGA AATTAAGGCA GTTAAAAGAA GAAAATAACA ACGGAAAAGA AAAATTAAGG 
    ATCATGGCAG TGAAAAATTC AGAAGTCATG GCACAACTAA CTGAATCTAG ACAAAGTATT 
    TTGAAGCTAG AGAGTGAGTT AGAGAACAAA GACGAAATAC TTAGAGACAA ATTTTCTTTA 
    ATGAATGAAA ACCGAGAATT AAAGGTCCGT GTTGCAGCAC AGAATGAGCG ACTAGATTTA 
    TGTCAACAAG AAATTGAAAG TTCAAGGGTA GAACTAAGAA GTTTGGAAAA GATTATATCC 
    CAGTTGCCAT TAAAAAGAGA ATTATTTGGC TTTAAATCAT ATCTTTCTAA ATACCAGATG 
    AGTAGCTTCT CAAACAAGGA AGACCGTTGC ATTGGCTGCT GTGAGGCAAA TAAATTGGTG 
    ATTTCGGAAT TGAGAATTAA GCTTGCAATA AAAGAGGCAG AAATTCAAAA GCTTCATGCA 
    AACCTGACTG CAAATCAGTT ATCTCAGAGT CTTATTACTT GTAATGACAG CCAAGAAAGT 
    AGCAAATTAA GTAGTTTAGA AACAGAACCT GTAAAGCTAG GTGGTCATCA AGTAGCAGAA 
    AGCGTAAAAG ATCAAAATCA ACATACTATG AACAAGCAAT ATGAAAAAGA GAGGCAAAGA 
    CTTGTTACTG GAATAGAAGA ACTACGTACT AAGCTGATAC AAATAGAAGC TGAAAATTCT 
    GATTTGAAGG TTAACATGGC TCACAGAACT AGTCAGTTTC AGCTGATTCA AGAGGAGCTG 
    CTAGAGAAAG CTTCAAACTC CAGCAAACTG GAAAGTGAAA TGACAAAGAA ATGTTCTCAA 
    CTTTTAACTC TTGAGAAACA GCTGGAAGAA AAGATAGTTG CTTATTCCTC TATTGCTGCA 
    AAAAATGCAG AACTAGAACA GGAGCTTATG GAAAAGAATG AAAAGATAAG GAGTCTAGAA 
    ACCAATATTA ATACAGAGCA TGAGAAAATT TGTTTAGCCT TTGAAAAAGC AAAGAAAATT 
    CACTTGGAAC AGCATAAAGA AATGGAAAAG CAGATTGAAA GACTTGAAGC TCAACTAGAG 
    AAAAAGGACC AACAATTTAA AGAACAAGAA AAGACTATGT CCATGTTGCA ACAAGATATA 
    ATATGCAAAC AACATCATCT TGAATCACTA GATAGACTCT TGACGGAAAG CAAAGGGGAA 
    ATGAAAAAGG AAAATATGAA GAAAGATGAA GCTTTAAAAG CATTACAGAA CCAAGTATCT 
    GAAGAAACAA TCAAGGTTAG GCAACTAGAT TCAGCATTGG AAATTTGTAA GGAAGAACTT 
    GTCTTGCATT TGAATCAATT GGAAGGAAAT AAGGAAAAGT TTGAAAAACA GTTAAAGAAG 
    AAATCTGAAG AGGTATATTG TTTACAGAAA GAGCTAAAGA TAAAAAATCA CAGTCTTCAA 
    GAGACTTCTG AGCAAAACGT TATTCTACAG CATACTCTTC AGCAACAGCA GCAAATGTTA 
    CAACAAGAGA CAATTAGAAA TGGAGAGCTA GAAGATACTC AAACTAAACT TGAAAAACAG 
    GTGTCAAAAC TGGAACAAGA ACTTCAAAAA CAAAGGGAAA GTTCAGCTGA AAAGTTGAGA 
    AAAATGGAGG AGAAATGTGA ATCAGCTGCA CATGAAGCAG ATTTGAAAAG GCAAAAAGTG 
    ATTGAGCTTA CTGGCACTGC CAGGCAAGTA AAGATTGAGA TGGATCAGTA CAAAGAAGAG 
    CTGTCTAAAA TGGAAAAGGA AATAATGCAC CTAAAACGAG ATGGAGAAAA TAAAGCAATG 
    CACCTCTCTC AATTAGATAT GATCTTAGAT CAGACAAAGA CAGAGCTAGA AAAGAAAACA 
    AATGCTGTAA AGGAGTTAGA AAAGTTACAG CACAGTACTG AAACTGAACT AACAGAAGCC 
    TTGCAAAAAC GGGAAGTACT TGAGACTGAA CTACAAAATG CTCATGGAGA ATTAAAAAGT 
    ACTTTAAGAC AACTCCAGGA ATTGAGAGAT GTACTACAGA AGGCTCAATT ATCATTAGAG 
    GAAAAATACA CTACTATAAA GGATCTCACA GCTGAACTTA GAGAATGCAA GATGGAGATT 
    GAAGACAAAA AGCAGGAGCT CCTTGAAATG GATCAGGCAC TTAAAGAGAG AAATTGGGAA 
    CTAAAGCAAA GAGCAGCTCA GGTTACACAT TTGGATATGA CTATTCGTGA GCACAGAGGA 
    GAAATGGAAC AAAAAATAAT TAAATTAGAA GGTACTCTGG AGAAATCAGA ATTGGAACTT 
    AAAGAATGTA ACAAACAGAT AGAAAGTCTG AATGACAAAT TACAAAATGC TAAAGAACAG 
    CTTCGAGAAA AAGAGTTTAT AATGCTACAA AATGAACAGG AGATAAGTCA ACTGAAAAAA 
    GAAATTGAAA GAACACAACA AAGGATGAAA GAAATGGAGA GTGTTATGAA AGAGCAAGAA 
    CAGTACATTG CCACTCAGTA CAAGGAGGCC ATAGATTTGG GGCAAGAATT GAGGCTGACC 
    CGGGAGCAGG TGCAGAACTC TCATACAGAA TTGGCAGAGG CTCGTCATCA GCAAGTCCAA 
    GCACAGAGAG AAATAGAAAG GCTCTCTAGT GAACTGGAGG ATATGAAGCA ACTCTCTAAA 
    GAGAAAGATG CTCATGGAAA CCATTTAGCT GAAGAACTGG GGGCTTCTAA AGTACGTGAA 
    GCTCATTTAG AAGCAAGAAT GCAAGCAGAA ATCAAGAAAT TGTCAGCAGA AGTAGAATCT 
    CTCAAAGAAG CTTATCATAT GGAGATGATT TCACATCAAG AGAACCATGC AAAGTGGAAG 
    ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT CAGCAACTAA ACGAACAGTT AGAGAAGGCA 
    AAATTGGAAT TAGAAGAAGC TCAGGATACT GTAAGCAATT TGCATCAACA AGTCCAAGAT 
    AGGAATGAAG TAATTGAAGC TGCAAATGAA GCATTACTTA CTAAAGGAGA AAATGTGTAA

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

    CCDC18 ( XM_017001154.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856643.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu87311
    Clone ID Related Accession (Same CDS sequence) XM_017001154.2 , XM_017001154.1
    Accession Version XM_017001154.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4848bp)
    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 coiled-coil domain-containing protein 18 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001154.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG AATCAGAATT AACCAGATTA 
    CAGGCCAAAA TTTCTGGACA TGAAAAGGCA GAAGACATCA AGTTTCTGCC AGCCCCATTT 
    ACATCTCCAA CAGAAATTAT GCCTGATGTT CAAGATCCAA AATTTGCTAA ATGTTTTCAC 
    ACATCTTTTT CCAAGTGTAC AAAATTACGT CGCTCTATTA GTGCCAGTGA TCTTACTTTC 
    AAAATTCATG GTGATGAAGA TCTTTCTGAA GAATTACTAC AGGACTTAAA GAAAATGCAA 
    TTAGAACAGC CTTCAACATT AGAAGAAAGC CATAAGAATC TGACTTACAC CCAGCCAGAC 
    TCATTTAAAC CTCTCACATA TAACCTAGAA GCTGATAGTT CTGAGAATAA TGACTTTAAC 
    ACGCTTAGTG GGATGCTAAG ATACATAAAC AAAGAAGTAA GACTATTAAA AAAGTCTTCT 
    ATGCAAACAG GTGCTGGTTT AAATCAGGTA TGTATTTTAT ACACTGTAAA CTGTAATAAT 
    TTGTTTCCAA AGAATATCAT TTTATTACTT GGAAGAAAAT TCATATATTT AAATGAAAAA 
    CTACTAATAT TTGAAGAAGG AAGATTTTAC ATTTTATACA TTAAGTAA

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

    RefSeq XP_016856643.1
    CDS97..4944
    Translation

    Target ORF information:

    RefSeq Version XM_017001154.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001154.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG AATCAGAATT AACCAGATTA 
    CAGGCCAAAA TTTCTGGACA TGAAAAGGCA GAAGACATCA AGTTTCTGCC AGCCCCATTT 
    ACATCTCCAA CAGAAATTAT GCCTGATGTT CAAGATCCAA AATTTGCTAA ATGTTTTCAC 
    ACATCTTTTT CCAAGTGTAC AAAATTACGT CGCTCTATTA GTGCCAGTGA TCTTACTTTC 
    AAAATTCATG GTGATGAAGA TCTTTCTGAA GAATTACTAC AGGACTTAAA GAAAATGCAA 
    TTAGAACAGC CTTCAACATT AGAAGAAAGC CATAAGAATC TGACTTACAC CCAGCCAGAC 
    TCATTTAAAC CTCTCACATA TAACCTAGAA GCTGATAGTT CTGAGAATAA TGACTTTAAC 
    ACGCTTAGTG GGATGCTAAG ATACATAAAC AAAGAAGTAA GACTATTAAA AAAGTCTTCT 
    ATGCAAACAG GTGCTGGTTT AAATCAGGTA TGTATTTTAT ACACTGTAAA CTGTAATAAT 
    TTGTTTCCAA AGAATATCAT TTTATTACTT GGAAGAAAAT TCATATATTT AAATGAAAAA 
    CTACTAATAT TTGAAGAAGG AAGATTTTAC ATTTTATACA TTAAGTAA

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

    CCDC18 ( XM_017001154.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856643.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu87311
    Clone ID Related Accession (Same CDS sequence) XM_017001154.2 , XM_017001154.1
    Accession Version XM_017001154.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4848bp)
    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 coiled-coil domain-containing protein 18 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG AATCAGAATT AACCAGATTA 
    CAGGCCAAAA TTTCTGGACA TGAAAAGGCA GAAGACATCA AGTTTCTGCC AGCCCCATTT 
    ACATCTCCAA CAGAAATTAT GCCTGATGTT CAAGATCCAA AATTTGCTAA ATGTTTTCAC 
    ACATCTTTTT CCAAGTGTAC AAAATTACGT CGCTCTATTA GTGCCAGTGA TCTTACTTTC 
    AAAATTCATG GTGATGAAGA TCTTTCTGAA GAATTACTAC AGGACTTAAA GAAAATGCAA 
    TTAGAACAGC CTTCAACATT AGAAGAAAGC CATAAGAATC TGACTTACAC CCAGCCAGAC 
    TCATTTAAAC CTCTCACATA TAACCTAGAA GCTGATAGTT CTGAGAATAA TGACTTTAAC 
    ACGCTTAGTG GGATGCTAAG ATACATAAAC AAAGAAGTAA GACTATTAAA AAAGTCTTCT 
    ATGCAAACAG GTGCTGGTTT AAATCAGGTA TGTATTTTAT ACACTGTAAA CTGTAATAAT 
    TTGTTTCCAA AGAATATCAT TTTATTACTT GGAAGAAAAT TCATATATTT AAATGAAAAA 
    CTACTAATAT TTGAAGAAGG AAGATTTTAC ATTTTATACA TTAAGTAA

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

    RefSeq XP_016856643.1
    CDS25..4872
    Translation

    Target ORF information:

    RefSeq Version XM_017001154.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001154.1

    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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG AATCAGAATT AACCAGATTA 
    CAGGCCAAAA TTTCTGGACA TGAAAAGGCA GAAGACATCA AGTTTCTGCC AGCCCCATTT 
    ACATCTCCAA CAGAAATTAT GCCTGATGTT CAAGATCCAA AATTTGCTAA ATGTTTTCAC 
    ACATCTTTTT CCAAGTGTAC AAAATTACGT CGCTCTATTA GTGCCAGTGA TCTTACTTTC 
    AAAATTCATG GTGATGAAGA TCTTTCTGAA GAATTACTAC AGGACTTAAA GAAAATGCAA 
    TTAGAACAGC CTTCAACATT AGAAGAAAGC CATAAGAATC TGACTTACAC CCAGCCAGAC 
    TCATTTAAAC CTCTCACATA TAACCTAGAA GCTGATAGTT CTGAGAATAA TGACTTTAAC 
    ACGCTTAGTG GGATGCTAAG ATACATAAAC AAAGAAGTAA GACTATTAAA AAAGTCTTCT 
    ATGCAAACAG GTGCTGGTTT AAATCAGGTA TGTATTTTAT ACACTGTAAA CTGTAATAAT 
    TTGTTTCCAA AGAATATCAT TTTATTACTT GGAAGAAAAT TCATATATTT AAATGAAAAA 
    CTACTAATAT TTGAAGAAGG AAGATTTTAC ATTTTATACA TTAAGTAA

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

    CCDC18 ( XM_017001155.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856644.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu87312
    Clone ID Related Accession (Same CDS sequence) XM_017001155.2 , XM_017001155.1
    Accession Version XM_017001155.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4845bp)
    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 coiled-coil domain-containing protein 18 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001155.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGA AAGCGTAAAA 
    GATCAAAATC AACATACTAT GAACAAGCAA TATGAAAAAG AGAGGCAAAG ACTTGTTACT 
    GGAATAGAAG AACTACGTAC TAAGCTGATA CAAATAGAAG CTGAAAATTC TGATTTGAAG 
    GTTAACATGG CTCACAGAAC TAGTCAGTTT CAGCTGATTC AAGAGGAGCT GCTAGAGAAA 
    GCTTCAAACT CCAGCAAACT GGAAAGTGAA ATGACAAAGA AATGTTCTCA ACTTTTAACT 
    CTTGAGAAAC AGCTGGAAGA AAAGATAGTT GCTTATTCCT CTATTGCTGC AAAAAATGCA 
    GAACTAGAAC AGGAGCTTAT GGAAAAGAAT GAAAAGATAA GGAGTCTAGA AACCAATATT 
    AATACAGAGC ATGAGAAAAT TTGTTTAGCC TTTGAAAAAG CAAAGAAAAT TCACTTGGAA 
    CAGCATAAAG AAATGGAAAA GCAGATTGAA AGACTTGAAG CTCAACTAGA GAAAAAGGAC 
    CAACAATTTA AAGAACAAGA AAAGACTATG TCCATGTTGC AACAAGATAT AATATGCAAA 
    CAACATCATC TTGAATCACT AGATAGACTC TTGACGGAAA GCAAAGGGGA AATGAAAAAG 
    GAAAATATGA AGAAAGATGA AGCTTTAAAA GCATTACAGA ACCAAGTATC TGAAGAAACA 
    ATCAAGGTTA GGCAACTAGA TTCAGCATTG GAAATTTGTA AGGAAGAACT TGTCTTGCAT 
    TTGAATCAAT TGGAAGGAAA TAAGGAAAAG TTTGAAAAAC AGTTAAAGAA GAAATCTGAA 
    GAGGTATATT GTTTACAGAA AGAGCTAAAG ATAAAAAATC ACAGTCTTCA AGAGACTTCT 
    GAGCAAAACG TTATTCTACA GCATACTCTT CAGCAACAGC AGCAAATGTT ACAACAAGAG 
    ACAATTAGAA ATGGAGAGCT AGAAGATACT CAAACTAAAC TTGAAAAACA GGTGTCAAAA 
    CTGGAACAAG AACTTCAAAA ACAAAGGGAA AGTTCAGCTG AAAAGTTGAG AAAAATGGAG 
    GAGAAATGTG AATCAGCTGC ACATGAAGCA GATTTGAAAA GGCAAAAAGT GATTGAGCTT 
    ACTGGCACTG CCAGGCAAGT AAAGATTGAG ATGGATCAGT ACAAAGAAGA GCTGTCTAAA 
    ATGGAAAAGG AAATAATGCA CCTAAAACGA GATGGAGAAA ATAAAGCAAT GCACCTCTCT 
    CAATTAGATA TGATCTTAGA TCAGACAAAG ACAGAGCTAG AAAAGAAAAC AAATGCTGTA 
    AAGGAGTTAG AAAAGTTACA GCACAGTACT GAAACTGAAC TAACAGAAGC CTTGCAAAAA 
    CGGGAAGTAC TTGAGACTGA ACTACAAAAT GCTCATGGAG AATTAAAAAG TACTTTAAGA 
    CAACTCCAGG AATTGAGAGA TGTACTACAG AAGGCTCAAT TATCATTAGA GGAAAAATAC 
    ACTACTATAA AGGATCTCAC AGCTGAACTT AGAGAATGCA AGATGGAGAT TGAAGACAAA 
    AAGCAGGAGC TCCTTGAAAT GGATCAGGCA CTTAAAGAGA GAAATTGGGA ACTAAAGCAA 
    AGAGCAGCTC AGGTTACACA TTTGGATATG ACTATTCGTG AGCACAGAGG AGAAATGGAA 
    CAAAAAATAA TTAAATTAGA AGGTACTCTG GAGAAATCAG AATTGGAACT TAAAGAATGT 
    AACAAACAGA TAGAAAGTCT GAATGACAAA TTACAAAATG CTAAAGAACA GCTTCGAGAA 
    AAAGAGTTTA TAATGCTACA AAATGAACAG GAGATAAGTC AACTGAAAAA AGAAATTGAA 
    AGAACACAAC AAAGGATGAA AGAAATGGAG AGTGTTATGA AAGAGCAAGA ACAGTACATT 
    GCCACTCAGT ACAAGGAGGC CATAGATTTG GGGCAAGAAT TGAGGCTGAC CCGGGAGCAG 
    GTGCAGAACT CTCATACAGA ATTGGCAGAG GCTCGTCATC AGCAAGTCCA AGCACAGAGA 
    GAAATAGAAA GGCTCTCTAG TGAACTGGAG GATATGAAGC AACTCTCTAA AGAGAAAGAT 
    GCTCATGGAA ACCATTTAGC TGAAGAACTG GGGGCTTCTA AAGTACGTGA AGCTCATTTA 
    GAAGCAAGAA TGCAAGCAGA AATCAAGAAA TTGTCAGCAG AAGTAGAATC TCTCAAAGAA 
    GCTTATCATA TGGAGATGAT TTCACATCAA GAGAACCATG CAAAGTGGAA GATTTCTGCT 
    GACTCTCAAA AGTCTTCTGT TCAGCAACTA AACGAACAGT TAGAGAAGGC AAAATTGGAA 
    TTAGAAGAAG CTCAGGATAC TGTAAGCAAT TTGCATCAAC AAGTCCAAGA TAGGAATGAA 
    GTAATTGAAG CTGCAAATGA AGCATTACTT ACTAAAGAAT CAGAATTAAC CAGATTACAG 
    GCCAAAATTT CTGGACATGA AAAGGCAGAA GACATCAAGT TTCTGCCAGC CCCATTTACA 
    TCTCCAACAG AAATTATGCC TGATGTTCAA GATCCAAAAT TTGCTAAATG TTTTCACACA 
    TCTTTTTCCA AGTGTACAAA ATTACGTCGC TCTATTAGTG CCAGTGATCT TACTTTCAAA 
    ATTCATGGTG ATGAAGATCT TTCTGAAGAA TTACTACAGG ACTTAAAGAA AATGCAATTA 
    GAACAGCCTT CAACATTAGA AGAAAGCCAT AAGAATCTGA CTTACACCCA GCCAGACTCA 
    TTTAAACCTC TCACATATAA CCTAGAAGCT GATAGTTCTG AGAATAATGA CTTTAACACG 
    CTTAGTGGGA TGCTAAGATA CATAAACAAA GAAGTAAGAC TATTAAAAAA GTCTTCTATG 
    CAAACAGGTG CTGGTTTAAA TCAGGTATGT ATTTTATACA CTGTAAACTG TAATAATTTG 
    TTTCCAAAGA ATATCATTTT ATTACTTGGA AGAAAATTCA TATATTTAAA TGAAAAACTA 
    CTAATATTTG AAGAAGGAAG ATTTTACATT TTATACATTA AGTAA

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

    RefSeq XP_016856644.1
    CDS97..4941
    Translation

    Target ORF information:

    RefSeq Version XM_017001155.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001155.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGA AAGCGTAAAA 
    GATCAAAATC AACATACTAT GAACAAGCAA TATGAAAAAG AGAGGCAAAG ACTTGTTACT 
    GGAATAGAAG AACTACGTAC TAAGCTGATA CAAATAGAAG CTGAAAATTC TGATTTGAAG 
    GTTAACATGG CTCACAGAAC TAGTCAGTTT CAGCTGATTC AAGAGGAGCT GCTAGAGAAA 
    GCTTCAAACT CCAGCAAACT GGAAAGTGAA ATGACAAAGA AATGTTCTCA ACTTTTAACT 
    CTTGAGAAAC AGCTGGAAGA AAAGATAGTT GCTTATTCCT CTATTGCTGC AAAAAATGCA 
    GAACTAGAAC AGGAGCTTAT GGAAAAGAAT GAAAAGATAA GGAGTCTAGA AACCAATATT 
    AATACAGAGC ATGAGAAAAT TTGTTTAGCC TTTGAAAAAG CAAAGAAAAT TCACTTGGAA 
    CAGCATAAAG AAATGGAAAA GCAGATTGAA AGACTTGAAG CTCAACTAGA GAAAAAGGAC 
    CAACAATTTA AAGAACAAGA AAAGACTATG TCCATGTTGC AACAAGATAT AATATGCAAA 
    CAACATCATC TTGAATCACT AGATAGACTC TTGACGGAAA GCAAAGGGGA AATGAAAAAG 
    GAAAATATGA AGAAAGATGA AGCTTTAAAA GCATTACAGA ACCAAGTATC TGAAGAAACA 
    ATCAAGGTTA GGCAACTAGA TTCAGCATTG GAAATTTGTA AGGAAGAACT TGTCTTGCAT 
    TTGAATCAAT TGGAAGGAAA TAAGGAAAAG TTTGAAAAAC AGTTAAAGAA GAAATCTGAA 
    GAGGTATATT GTTTACAGAA AGAGCTAAAG ATAAAAAATC ACAGTCTTCA AGAGACTTCT 
    GAGCAAAACG TTATTCTACA GCATACTCTT CAGCAACAGC AGCAAATGTT ACAACAAGAG 
    ACAATTAGAA ATGGAGAGCT AGAAGATACT CAAACTAAAC TTGAAAAACA GGTGTCAAAA 
    CTGGAACAAG AACTTCAAAA ACAAAGGGAA AGTTCAGCTG AAAAGTTGAG AAAAATGGAG 
    GAGAAATGTG AATCAGCTGC ACATGAAGCA GATTTGAAAA GGCAAAAAGT GATTGAGCTT 
    ACTGGCACTG CCAGGCAAGT AAAGATTGAG ATGGATCAGT ACAAAGAAGA GCTGTCTAAA 
    ATGGAAAAGG AAATAATGCA CCTAAAACGA GATGGAGAAA ATAAAGCAAT GCACCTCTCT 
    CAATTAGATA TGATCTTAGA TCAGACAAAG ACAGAGCTAG AAAAGAAAAC AAATGCTGTA 
    AAGGAGTTAG AAAAGTTACA GCACAGTACT GAAACTGAAC TAACAGAAGC CTTGCAAAAA 
    CGGGAAGTAC TTGAGACTGA ACTACAAAAT GCTCATGGAG AATTAAAAAG TACTTTAAGA 
    CAACTCCAGG AATTGAGAGA TGTACTACAG AAGGCTCAAT TATCATTAGA GGAAAAATAC 
    ACTACTATAA AGGATCTCAC AGCTGAACTT AGAGAATGCA AGATGGAGAT TGAAGACAAA 
    AAGCAGGAGC TCCTTGAAAT GGATCAGGCA CTTAAAGAGA GAAATTGGGA ACTAAAGCAA 
    AGAGCAGCTC AGGTTACACA TTTGGATATG ACTATTCGTG AGCACAGAGG AGAAATGGAA 
    CAAAAAATAA TTAAATTAGA AGGTACTCTG GAGAAATCAG AATTGGAACT TAAAGAATGT 
    AACAAACAGA TAGAAAGTCT GAATGACAAA TTACAAAATG CTAAAGAACA GCTTCGAGAA 
    AAAGAGTTTA TAATGCTACA AAATGAACAG GAGATAAGTC AACTGAAAAA AGAAATTGAA 
    AGAACACAAC AAAGGATGAA AGAAATGGAG AGTGTTATGA AAGAGCAAGA ACAGTACATT 
    GCCACTCAGT ACAAGGAGGC CATAGATTTG GGGCAAGAAT TGAGGCTGAC CCGGGAGCAG 
    GTGCAGAACT CTCATACAGA ATTGGCAGAG GCTCGTCATC AGCAAGTCCA AGCACAGAGA 
    GAAATAGAAA GGCTCTCTAG TGAACTGGAG GATATGAAGC AACTCTCTAA AGAGAAAGAT 
    GCTCATGGAA ACCATTTAGC TGAAGAACTG GGGGCTTCTA AAGTACGTGA AGCTCATTTA 
    GAAGCAAGAA TGCAAGCAGA AATCAAGAAA TTGTCAGCAG AAGTAGAATC TCTCAAAGAA 
    GCTTATCATA TGGAGATGAT TTCACATCAA GAGAACCATG CAAAGTGGAA GATTTCTGCT 
    GACTCTCAAA AGTCTTCTGT TCAGCAACTA AACGAACAGT TAGAGAAGGC AAAATTGGAA 
    TTAGAAGAAG CTCAGGATAC TGTAAGCAAT TTGCATCAAC AAGTCCAAGA TAGGAATGAA 
    GTAATTGAAG CTGCAAATGA AGCATTACTT ACTAAAGAAT CAGAATTAAC CAGATTACAG 
    GCCAAAATTT CTGGACATGA AAAGGCAGAA GACATCAAGT TTCTGCCAGC CCCATTTACA 
    TCTCCAACAG AAATTATGCC TGATGTTCAA GATCCAAAAT TTGCTAAATG TTTTCACACA 
    TCTTTTTCCA AGTGTACAAA ATTACGTCGC TCTATTAGTG CCAGTGATCT TACTTTCAAA 
    ATTCATGGTG ATGAAGATCT TTCTGAAGAA TTACTACAGG ACTTAAAGAA AATGCAATTA 
    GAACAGCCTT CAACATTAGA AGAAAGCCAT AAGAATCTGA CTTACACCCA GCCAGACTCA 
    TTTAAACCTC TCACATATAA CCTAGAAGCT GATAGTTCTG AGAATAATGA CTTTAACACG 
    CTTAGTGGGA TGCTAAGATA CATAAACAAA GAAGTAAGAC TATTAAAAAA GTCTTCTATG 
    CAAACAGGTG CTGGTTTAAA TCAGGTATGT ATTTTATACA CTGTAAACTG TAATAATTTG 
    TTTCCAAAGA ATATCATTTT ATTACTTGGA AGAAAATTCA TATATTTAAA TGAAAAACTA 
    CTAATATTTG AAGAAGGAAG ATTTTACATT TTATACATTA AGTAA

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

    CCDC18 ( XM_017001155.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856644.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu87312
    Clone ID Related Accession (Same CDS sequence) XM_017001155.2 , XM_017001155.1
    Accession Version XM_017001155.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4845bp)
    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 coiled-coil domain-containing protein 18 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGA AAGCGTAAAA 
    GATCAAAATC AACATACTAT GAACAAGCAA TATGAAAAAG AGAGGCAAAG ACTTGTTACT 
    GGAATAGAAG AACTACGTAC TAAGCTGATA CAAATAGAAG CTGAAAATTC TGATTTGAAG 
    GTTAACATGG CTCACAGAAC TAGTCAGTTT CAGCTGATTC AAGAGGAGCT GCTAGAGAAA 
    GCTTCAAACT CCAGCAAACT GGAAAGTGAA ATGACAAAGA AATGTTCTCA ACTTTTAACT 
    CTTGAGAAAC AGCTGGAAGA AAAGATAGTT GCTTATTCCT CTATTGCTGC AAAAAATGCA 
    GAACTAGAAC AGGAGCTTAT GGAAAAGAAT GAAAAGATAA GGAGTCTAGA AACCAATATT 
    AATACAGAGC ATGAGAAAAT TTGTTTAGCC TTTGAAAAAG CAAAGAAAAT TCACTTGGAA 
    CAGCATAAAG AAATGGAAAA GCAGATTGAA AGACTTGAAG CTCAACTAGA GAAAAAGGAC 
    CAACAATTTA AAGAACAAGA AAAGACTATG TCCATGTTGC AACAAGATAT AATATGCAAA 
    CAACATCATC TTGAATCACT AGATAGACTC TTGACGGAAA GCAAAGGGGA AATGAAAAAG 
    GAAAATATGA AGAAAGATGA AGCTTTAAAA GCATTACAGA ACCAAGTATC TGAAGAAACA 
    ATCAAGGTTA GGCAACTAGA TTCAGCATTG GAAATTTGTA AGGAAGAACT TGTCTTGCAT 
    TTGAATCAAT TGGAAGGAAA TAAGGAAAAG TTTGAAAAAC AGTTAAAGAA GAAATCTGAA 
    GAGGTATATT GTTTACAGAA AGAGCTAAAG ATAAAAAATC ACAGTCTTCA AGAGACTTCT 
    GAGCAAAACG TTATTCTACA GCATACTCTT CAGCAACAGC AGCAAATGTT ACAACAAGAG 
    ACAATTAGAA ATGGAGAGCT AGAAGATACT CAAACTAAAC TTGAAAAACA GGTGTCAAAA 
    CTGGAACAAG AACTTCAAAA ACAAAGGGAA AGTTCAGCTG AAAAGTTGAG AAAAATGGAG 
    GAGAAATGTG AATCAGCTGC ACATGAAGCA GATTTGAAAA GGCAAAAAGT GATTGAGCTT 
    ACTGGCACTG CCAGGCAAGT AAAGATTGAG ATGGATCAGT ACAAAGAAGA GCTGTCTAAA 
    ATGGAAAAGG AAATAATGCA CCTAAAACGA GATGGAGAAA ATAAAGCAAT GCACCTCTCT 
    CAATTAGATA TGATCTTAGA TCAGACAAAG ACAGAGCTAG AAAAGAAAAC AAATGCTGTA 
    AAGGAGTTAG AAAAGTTACA GCACAGTACT GAAACTGAAC TAACAGAAGC CTTGCAAAAA 
    CGGGAAGTAC TTGAGACTGA ACTACAAAAT GCTCATGGAG AATTAAAAAG TACTTTAAGA 
    CAACTCCAGG AATTGAGAGA TGTACTACAG AAGGCTCAAT TATCATTAGA GGAAAAATAC 
    ACTACTATAA AGGATCTCAC AGCTGAACTT AGAGAATGCA AGATGGAGAT TGAAGACAAA 
    AAGCAGGAGC TCCTTGAAAT GGATCAGGCA CTTAAAGAGA GAAATTGGGA ACTAAAGCAA 
    AGAGCAGCTC AGGTTACACA TTTGGATATG ACTATTCGTG AGCACAGAGG AGAAATGGAA 
    CAAAAAATAA TTAAATTAGA AGGTACTCTG GAGAAATCAG AATTGGAACT TAAAGAATGT 
    AACAAACAGA TAGAAAGTCT GAATGACAAA TTACAAAATG CTAAAGAACA GCTTCGAGAA 
    AAAGAGTTTA TAATGCTACA AAATGAACAG GAGATAAGTC AACTGAAAAA AGAAATTGAA 
    AGAACACAAC AAAGGATGAA AGAAATGGAG AGTGTTATGA AAGAGCAAGA ACAGTACATT 
    GCCACTCAGT ACAAGGAGGC CATAGATTTG GGGCAAGAAT TGAGGCTGAC CCGGGAGCAG 
    GTGCAGAACT CTCATACAGA ATTGGCAGAG GCTCGTCATC AGCAAGTCCA AGCACAGAGA 
    GAAATAGAAA GGCTCTCTAG TGAACTGGAG GATATGAAGC AACTCTCTAA AGAGAAAGAT 
    GCTCATGGAA ACCATTTAGC TGAAGAACTG GGGGCTTCTA AAGTACGTGA AGCTCATTTA 
    GAAGCAAGAA TGCAAGCAGA AATCAAGAAA TTGTCAGCAG AAGTAGAATC TCTCAAAGAA 
    GCTTATCATA TGGAGATGAT TTCACATCAA GAGAACCATG CAAAGTGGAA GATTTCTGCT 
    GACTCTCAAA AGTCTTCTGT TCAGCAACTA AACGAACAGT TAGAGAAGGC AAAATTGGAA 
    TTAGAAGAAG CTCAGGATAC TGTAAGCAAT TTGCATCAAC AAGTCCAAGA TAGGAATGAA 
    GTAATTGAAG CTGCAAATGA AGCATTACTT ACTAAAGAAT CAGAATTAAC CAGATTACAG 
    GCCAAAATTT CTGGACATGA AAAGGCAGAA GACATCAAGT TTCTGCCAGC CCCATTTACA 
    TCTCCAACAG AAATTATGCC TGATGTTCAA GATCCAAAAT TTGCTAAATG TTTTCACACA 
    TCTTTTTCCA AGTGTACAAA ATTACGTCGC TCTATTAGTG CCAGTGATCT TACTTTCAAA 
    ATTCATGGTG ATGAAGATCT TTCTGAAGAA TTACTACAGG ACTTAAAGAA AATGCAATTA 
    GAACAGCCTT CAACATTAGA AGAAAGCCAT AAGAATCTGA CTTACACCCA GCCAGACTCA 
    TTTAAACCTC TCACATATAA CCTAGAAGCT GATAGTTCTG AGAATAATGA CTTTAACACG 
    CTTAGTGGGA TGCTAAGATA CATAAACAAA GAAGTAAGAC TATTAAAAAA GTCTTCTATG 
    CAAACAGGTG CTGGTTTAAA TCAGGTATGT ATTTTATACA CTGTAAACTG TAATAATTTG 
    TTTCCAAAGA ATATCATTTT ATTACTTGGA AGAAAATTCA TATATTTAAA TGAAAAACTA 
    CTAATATTTG AAGAAGGAAG ATTTTACATT TTATACATTA AGTAA

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

    RefSeq XP_016856644.1
    CDS25..4869
    Translation

    Target ORF information:

    RefSeq Version XM_017001155.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001155.1

    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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGA AAGCGTAAAA 
    GATCAAAATC AACATACTAT GAACAAGCAA TATGAAAAAG AGAGGCAAAG ACTTGTTACT 
    GGAATAGAAG AACTACGTAC TAAGCTGATA CAAATAGAAG CTGAAAATTC TGATTTGAAG 
    GTTAACATGG CTCACAGAAC TAGTCAGTTT CAGCTGATTC AAGAGGAGCT GCTAGAGAAA 
    GCTTCAAACT CCAGCAAACT GGAAAGTGAA ATGACAAAGA AATGTTCTCA ACTTTTAACT 
    CTTGAGAAAC AGCTGGAAGA AAAGATAGTT GCTTATTCCT CTATTGCTGC AAAAAATGCA 
    GAACTAGAAC AGGAGCTTAT GGAAAAGAAT GAAAAGATAA GGAGTCTAGA AACCAATATT 
    AATACAGAGC ATGAGAAAAT TTGTTTAGCC TTTGAAAAAG CAAAGAAAAT TCACTTGGAA 
    CAGCATAAAG AAATGGAAAA GCAGATTGAA AGACTTGAAG CTCAACTAGA GAAAAAGGAC 
    CAACAATTTA AAGAACAAGA AAAGACTATG TCCATGTTGC AACAAGATAT AATATGCAAA 
    CAACATCATC TTGAATCACT AGATAGACTC TTGACGGAAA GCAAAGGGGA AATGAAAAAG 
    GAAAATATGA AGAAAGATGA AGCTTTAAAA GCATTACAGA ACCAAGTATC TGAAGAAACA 
    ATCAAGGTTA GGCAACTAGA TTCAGCATTG GAAATTTGTA AGGAAGAACT TGTCTTGCAT 
    TTGAATCAAT TGGAAGGAAA TAAGGAAAAG TTTGAAAAAC AGTTAAAGAA GAAATCTGAA 
    GAGGTATATT GTTTACAGAA AGAGCTAAAG ATAAAAAATC ACAGTCTTCA AGAGACTTCT 
    GAGCAAAACG TTATTCTACA GCATACTCTT CAGCAACAGC AGCAAATGTT ACAACAAGAG 
    ACAATTAGAA ATGGAGAGCT AGAAGATACT CAAACTAAAC TTGAAAAACA GGTGTCAAAA 
    CTGGAACAAG AACTTCAAAA ACAAAGGGAA AGTTCAGCTG AAAAGTTGAG AAAAATGGAG 
    GAGAAATGTG AATCAGCTGC ACATGAAGCA GATTTGAAAA GGCAAAAAGT GATTGAGCTT 
    ACTGGCACTG CCAGGCAAGT AAAGATTGAG ATGGATCAGT ACAAAGAAGA GCTGTCTAAA 
    ATGGAAAAGG AAATAATGCA CCTAAAACGA GATGGAGAAA ATAAAGCAAT GCACCTCTCT 
    CAATTAGATA TGATCTTAGA TCAGACAAAG ACAGAGCTAG AAAAGAAAAC AAATGCTGTA 
    AAGGAGTTAG AAAAGTTACA GCACAGTACT GAAACTGAAC TAACAGAAGC CTTGCAAAAA 
    CGGGAAGTAC TTGAGACTGA ACTACAAAAT GCTCATGGAG AATTAAAAAG TACTTTAAGA 
    CAACTCCAGG AATTGAGAGA TGTACTACAG AAGGCTCAAT TATCATTAGA GGAAAAATAC 
    ACTACTATAA AGGATCTCAC AGCTGAACTT AGAGAATGCA AGATGGAGAT TGAAGACAAA 
    AAGCAGGAGC TCCTTGAAAT GGATCAGGCA CTTAAAGAGA GAAATTGGGA ACTAAAGCAA 
    AGAGCAGCTC AGGTTACACA TTTGGATATG ACTATTCGTG AGCACAGAGG AGAAATGGAA 
    CAAAAAATAA TTAAATTAGA AGGTACTCTG GAGAAATCAG AATTGGAACT TAAAGAATGT 
    AACAAACAGA TAGAAAGTCT GAATGACAAA TTACAAAATG CTAAAGAACA GCTTCGAGAA 
    AAAGAGTTTA TAATGCTACA AAATGAACAG GAGATAAGTC AACTGAAAAA AGAAATTGAA 
    AGAACACAAC AAAGGATGAA AGAAATGGAG AGTGTTATGA AAGAGCAAGA ACAGTACATT 
    GCCACTCAGT ACAAGGAGGC CATAGATTTG GGGCAAGAAT TGAGGCTGAC CCGGGAGCAG 
    GTGCAGAACT CTCATACAGA ATTGGCAGAG GCTCGTCATC AGCAAGTCCA AGCACAGAGA 
    GAAATAGAAA GGCTCTCTAG TGAACTGGAG GATATGAAGC AACTCTCTAA AGAGAAAGAT 
    GCTCATGGAA ACCATTTAGC TGAAGAACTG GGGGCTTCTA AAGTACGTGA AGCTCATTTA 
    GAAGCAAGAA TGCAAGCAGA AATCAAGAAA TTGTCAGCAG AAGTAGAATC TCTCAAAGAA 
    GCTTATCATA TGGAGATGAT TTCACATCAA GAGAACCATG CAAAGTGGAA GATTTCTGCT 
    GACTCTCAAA AGTCTTCTGT TCAGCAACTA AACGAACAGT TAGAGAAGGC AAAATTGGAA 
    TTAGAAGAAG CTCAGGATAC TGTAAGCAAT TTGCATCAAC AAGTCCAAGA TAGGAATGAA 
    GTAATTGAAG CTGCAAATGA AGCATTACTT ACTAAAGAAT CAGAATTAAC CAGATTACAG 
    GCCAAAATTT CTGGACATGA AAAGGCAGAA GACATCAAGT TTCTGCCAGC CCCATTTACA 
    TCTCCAACAG AAATTATGCC TGATGTTCAA GATCCAAAAT TTGCTAAATG TTTTCACACA 
    TCTTTTTCCA AGTGTACAAA ATTACGTCGC TCTATTAGTG CCAGTGATCT TACTTTCAAA 
    ATTCATGGTG ATGAAGATCT TTCTGAAGAA TTACTACAGG ACTTAAAGAA AATGCAATTA 
    GAACAGCCTT CAACATTAGA AGAAAGCCAT AAGAATCTGA CTTACACCCA GCCAGACTCA 
    TTTAAACCTC TCACATATAA CCTAGAAGCT GATAGTTCTG AGAATAATGA CTTTAACACG 
    CTTAGTGGGA TGCTAAGATA CATAAACAAA GAAGTAAGAC TATTAAAAAA GTCTTCTATG 
    CAAACAGGTG CTGGTTTAAA TCAGGTATGT ATTTTATACA CTGTAAACTG TAATAATTTG 
    TTTCCAAAGA ATATCATTTT ATTACTTGGA AGAAAATTCA TATATTTAAA TGAAAAACTA 
    CTAATATTTG AAGAAGGAAG ATTTTACATT TTATACATTA AGTAA

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

    CCDC18 ( XM_017001156.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856645.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu87313
    Clone ID Related Accession (Same CDS sequence) XM_017001156.2 , XM_017001156.1
    Accession Version XM_017001156.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4818bp)
    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 coiled-coil domain-containing protein 18 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001156.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGAAATGGAA TCTAGTTCAT CAGACTACTA TAATAAAGAC 
    AATGAAGAGG AAAGTTTGCT TGCAAATGTT GCTTCCTTAA GACATGAACT GAAGATAACA 
    GAATGGAGTT TGCAGAGTTT AGGGGAAGAG TTATCCAGTG TTAGTCCAAG TGAAAATTCT 
    GATTATGCCC CTAATCCTTC AAGGTCTGAA AAGCTAATTT TGGATGTTCA GCCTAGCCAC 
    CCTGGACTTT TGAATTATTC ACCTTATGAA AACGTCTGTA AAATATCTGG TAGCAGCACT 
    GATTTTCAAA AAAAGCCAAG AGATAAGATG TTTTCATCTT CTGCCCCTGT GGATCAGGAG 
    ATTAAAAGCC TTCGAGAGAA ACTAAATAAA CTTAGGCAAC AGAATGCTTG TTTGGTCACA 
    CAGAATCATT CCTTAATGAC TAAATTTGAA TCTATTCACT TTGAATTAAC ACAGTCAAGA 
    GCAAAAGTTT CTATGCTTGA GTCTGCTCAA CAGCAGGCAG CCAGTGTCCC AATCTTAGAA 
    GAACAGATTA TAAATTTGGA AGCAGAGGTT TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA 
    GAAAATAAGC TGGAACAGAG CCAGAAAATG GTAATTGAAA AGGAACAGAG TTTGCAGGAG 
    TCCAAAGAGG AATGTATAAA ATTAAAGGTG GACTTACTTG AACAAACCAA ACAAGGAAAA 
    AGAGCTGAAC GACAAAGGAA TGAAGCACTA TATAATGCCG AAGAGCTGAG TAAAGCTTTC 
    CAACAATATA AAAAAAAAGT GGCTGAAAAA CTGGAAAAGG TTCAAGCTGA AGAAGAAATA 
    TTAGAGAGAA ATCTAACTAA CTGTGAAAAA GAAAATAAAA GGCTACAAGA AAGGTGTGGT 
    CTATATAAAA GTGAACTTGA AATTCTGAAA GAGAAATTAA GGCAGTTAAA AGAAGAAAAT 
    AACAACGGAA AAGAAAAATT AAGGATCATG GCAGTGAAAA ATTCAGAAGT CATGGCACAA 
    CTAACTGAAT CTAGACAAAG TATTTTGAAG CTAGAGAGTG AGTTAGAGAA CAAAGACGAA 
    ATACTTAGAG ACAAATTTTC TTTAATGAAT GAAAACCGAG AATTAAAGGT CCGTGTTGCA 
    GCACAGAATG AGCGACTAGA TTTATGTCAA CAAGAAATTG AAAGTTCAAG GGTAGAACTA 
    AGAAGTTTGG AAAAGATTAT ATCCCAGTTG CCATTAAAAA GAGAATTATT TGGCTTTAAA 
    TCATATCTTT CTAAATACCA GATGAGTAGC TTCTCAAACA AGGAAGACCG TTGCATTGGC 
    TGCTGTGAGG CAAATAAATT GGTGATTTCG GAATTGAGAA TTAAGCTTGC AATAAAAGAG 
    GCAGAAATTC AAAAGCTTCA TGCAAACCTG ACTGCAAATC AGTTATCTCA GAGTCTTATT 
    ACTTGTAATG ACAGCCAAGA AAGTAGCAAA TTAAGTAGTT TAGAAACAGA ACCTGTAAAG 
    CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA AAAGATCAAA ATCAACATAC TATGAACAAG 
    CAATATGAAA AAGAGAGGCA AAGACTTGTT ACTGGAATAG AAGAACTACG TACTAAGCTG 
    ATACAAATAG AAGCTGAAAA TTCTGATTTG AAGGTTAACA TGGCTCACAG AACTAGTCAG 
    TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT 
    GAAATGACAA AGAAATGTTC TCAACTTTTA ACTCTTGAGA AACAGCTGGA AGAAAAGATA 
    GTTGCTTATT CCTCTATTGC TGCAAAAAAT GCAGAACTAG AACAGGAGCT TATGGAAAAG 
    AATGAAAAGA TAAGGAGTCT AGAAACCAAT ATTAATACAG AGCATGAGAA AATTTGTTTA 
    GCCTTTGAAA AAGCAAAGAA AATTCACTTG GAACAGCATA AAGAAATGGA AAAGCAGATT 
    GAAAGACTTG AAGCTCAACT AGAGAAAAAG GACCAACAAT TTAAAGAACA AGAAAAGACT 
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    RefSeq XP_016856645.1
    CDS97..4914
    Translation

    Target ORF information:

    RefSeq Version XM_017001156.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001156.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGAAATGGAA TCTAGTTCAT CAGACTACTA TAATAAAGAC 
    AATGAAGAGG AAAGTTTGCT TGCAAATGTT GCTTCCTTAA GACATGAACT GAAGATAACA 
    GAATGGAGTT TGCAGAGTTT AGGGGAAGAG TTATCCAGTG TTAGTCCAAG TGAAAATTCT 
    GATTATGCCC CTAATCCTTC AAGGTCTGAA AAGCTAATTT TGGATGTTCA GCCTAGCCAC 
    CCTGGACTTT TGAATTATTC ACCTTATGAA AACGTCTGTA AAATATCTGG TAGCAGCACT 
    GATTTTCAAA AAAAGCCAAG AGATAAGATG TTTTCATCTT CTGCCCCTGT GGATCAGGAG 
    ATTAAAAGCC TTCGAGAGAA ACTAAATAAA CTTAGGCAAC AGAATGCTTG TTTGGTCACA 
    CAGAATCATT CCTTAATGAC TAAATTTGAA TCTATTCACT TTGAATTAAC ACAGTCAAGA 
    GCAAAAGTTT CTATGCTTGA GTCTGCTCAA CAGCAGGCAG CCAGTGTCCC AATCTTAGAA 
    GAACAGATTA TAAATTTGGA AGCAGAGGTT TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA 
    GAAAATAAGC TGGAACAGAG CCAGAAAATG GTAATTGAAA AGGAACAGAG TTTGCAGGAG 
    TCCAAAGAGG AATGTATAAA ATTAAAGGTG GACTTACTTG AACAAACCAA ACAAGGAAAA 
    AGAGCTGAAC GACAAAGGAA TGAAGCACTA TATAATGCCG AAGAGCTGAG TAAAGCTTTC 
    CAACAATATA AAAAAAAAGT GGCTGAAAAA CTGGAAAAGG TTCAAGCTGA AGAAGAAATA 
    TTAGAGAGAA ATCTAACTAA CTGTGAAAAA GAAAATAAAA GGCTACAAGA AAGGTGTGGT 
    CTATATAAAA GTGAACTTGA AATTCTGAAA GAGAAATTAA GGCAGTTAAA AGAAGAAAAT 
    AACAACGGAA AAGAAAAATT AAGGATCATG GCAGTGAAAA ATTCAGAAGT CATGGCACAA 
    CTAACTGAAT CTAGACAAAG TATTTTGAAG CTAGAGAGTG AGTTAGAGAA CAAAGACGAA 
    ATACTTAGAG ACAAATTTTC TTTAATGAAT GAAAACCGAG AATTAAAGGT CCGTGTTGCA 
    GCACAGAATG AGCGACTAGA TTTATGTCAA CAAGAAATTG AAAGTTCAAG GGTAGAACTA 
    AGAAGTTTGG AAAAGATTAT ATCCCAGTTG CCATTAAAAA GAGAATTATT TGGCTTTAAA 
    TCATATCTTT CTAAATACCA GATGAGTAGC TTCTCAAACA AGGAAGACCG TTGCATTGGC 
    TGCTGTGAGG CAAATAAATT GGTGATTTCG GAATTGAGAA TTAAGCTTGC AATAAAAGAG 
    GCAGAAATTC AAAAGCTTCA TGCAAACCTG ACTGCAAATC AGTTATCTCA GAGTCTTATT 
    ACTTGTAATG ACAGCCAAGA AAGTAGCAAA TTAAGTAGTT TAGAAACAGA ACCTGTAAAG 
    CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA AAAGATCAAA ATCAACATAC TATGAACAAG 
    CAATATGAAA AAGAGAGGCA AAGACTTGTT ACTGGAATAG AAGAACTACG TACTAAGCTG 
    ATACAAATAG AAGCTGAAAA TTCTGATTTG AAGGTTAACA TGGCTCACAG AACTAGTCAG 
    TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT 
    GAAATGACAA AGAAATGTTC TCAACTTTTA ACTCTTGAGA AACAGCTGGA AGAAAAGATA 
    GTTGCTTATT CCTCTATTGC TGCAAAAAAT GCAGAACTAG AACAGGAGCT TATGGAAAAG 
    AATGAAAAGA TAAGGAGTCT AGAAACCAAT ATTAATACAG AGCATGAGAA AATTTGTTTA 
    GCCTTTGAAA AAGCAAAGAA AATTCACTTG GAACAGCATA AAGAAATGGA AAAGCAGATT 
    GAAAGACTTG AAGCTCAACT AGAGAAAAAG GACCAACAAT TTAAAGAACA AGAAAAGACT 
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    CCDC18 ( XM_017001156.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856645.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu87313
    Clone ID Related Accession (Same CDS sequence) XM_017001156.2 , XM_017001156.1
    Accession Version XM_017001156.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4818bp)
    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 coiled-coil domain-containing protein 18 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGAAATGGAA TCTAGTTCAT CAGACTACTA TAATAAAGAC 
    AATGAAGAGG AAAGTTTGCT TGCAAATGTT GCTTCCTTAA GACATGAACT GAAGATAACA 
    GAATGGAGTT TGCAGAGTTT AGGGGAAGAG TTATCCAGTG TTAGTCCAAG TGAAAATTCT 
    GATTATGCCC CTAATCCTTC AAGGTCTGAA AAGCTAATTT TGGATGTTCA GCCTAGCCAC 
    CCTGGACTTT TGAATTATTC ACCTTATGAA AACGTCTGTA AAATATCTGG TAGCAGCACT 
    GATTTTCAAA AAAAGCCAAG AGATAAGATG TTTTCATCTT CTGCCCCTGT GGATCAGGAG 
    ATTAAAAGCC TTCGAGAGAA ACTAAATAAA CTTAGGCAAC AGAATGCTTG TTTGGTCACA 
    CAGAATCATT CCTTAATGAC TAAATTTGAA TCTATTCACT TTGAATTAAC ACAGTCAAGA 
    GCAAAAGTTT CTATGCTTGA GTCTGCTCAA CAGCAGGCAG CCAGTGTCCC AATCTTAGAA 
    GAACAGATTA TAAATTTGGA AGCAGAGGTT TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA 
    GAAAATAAGC TGGAACAGAG CCAGAAAATG GTAATTGAAA AGGAACAGAG TTTGCAGGAG 
    TCCAAAGAGG AATGTATAAA ATTAAAGGTG GACTTACTTG AACAAACCAA ACAAGGAAAA 
    AGAGCTGAAC GACAAAGGAA TGAAGCACTA TATAATGCCG AAGAGCTGAG TAAAGCTTTC 
    CAACAATATA AAAAAAAAGT GGCTGAAAAA CTGGAAAAGG TTCAAGCTGA AGAAGAAATA 
    TTAGAGAGAA ATCTAACTAA CTGTGAAAAA GAAAATAAAA GGCTACAAGA AAGGTGTGGT 
    CTATATAAAA GTGAACTTGA AATTCTGAAA GAGAAATTAA GGCAGTTAAA AGAAGAAAAT 
    AACAACGGAA AAGAAAAATT AAGGATCATG GCAGTGAAAA ATTCAGAAGT CATGGCACAA 
    CTAACTGAAT CTAGACAAAG TATTTTGAAG CTAGAGAGTG AGTTAGAGAA CAAAGACGAA 
    ATACTTAGAG ACAAATTTTC TTTAATGAAT GAAAACCGAG AATTAAAGGT CCGTGTTGCA 
    GCACAGAATG AGCGACTAGA TTTATGTCAA CAAGAAATTG AAAGTTCAAG GGTAGAACTA 
    AGAAGTTTGG AAAAGATTAT ATCCCAGTTG CCATTAAAAA GAGAATTATT TGGCTTTAAA 
    TCATATCTTT CTAAATACCA GATGAGTAGC TTCTCAAACA AGGAAGACCG TTGCATTGGC 
    TGCTGTGAGG CAAATAAATT GGTGATTTCG GAATTGAGAA TTAAGCTTGC AATAAAAGAG 
    GCAGAAATTC AAAAGCTTCA TGCAAACCTG ACTGCAAATC AGTTATCTCA GAGTCTTATT 
    ACTTGTAATG ACAGCCAAGA AAGTAGCAAA TTAAGTAGTT TAGAAACAGA ACCTGTAAAG 
    CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA AAAGATCAAA ATCAACATAC TATGAACAAG 
    CAATATGAAA AAGAGAGGCA AAGACTTGTT ACTGGAATAG AAGAACTACG TACTAAGCTG 
    ATACAAATAG AAGCTGAAAA TTCTGATTTG AAGGTTAACA TGGCTCACAG AACTAGTCAG 
    TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT 
    GAAATGACAA AGAAATGTTC TCAACTTTTA ACTCTTGAGA AACAGCTGGA AGAAAAGATA 
    GTTGCTTATT CCTCTATTGC TGCAAAAAAT GCAGAACTAG AACAGGAGCT TATGGAAAAG 
    AATGAAAAGA TAAGGAGTCT AGAAACCAAT ATTAATACAG AGCATGAGAA AATTTGTTTA 
    GCCTTTGAAA AAGCAAAGAA AATTCACTTG GAACAGCATA AAGAAATGGA AAAGCAGATT 
    GAAAGACTTG AAGCTCAACT AGAGAAAAAG GACCAACAAT TTAAAGAACA AGAAAAGACT 
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    RefSeq XP_016856645.1
    CDS25..4842
    Translation

    Target ORF information:

    RefSeq Version XM_017001156.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001156.1

    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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGAAATGGAA TCTAGTTCAT CAGACTACTA TAATAAAGAC 
    AATGAAGAGG AAAGTTTGCT TGCAAATGTT GCTTCCTTAA GACATGAACT GAAGATAACA 
    GAATGGAGTT TGCAGAGTTT AGGGGAAGAG TTATCCAGTG TTAGTCCAAG TGAAAATTCT 
    GATTATGCCC CTAATCCTTC AAGGTCTGAA AAGCTAATTT TGGATGTTCA GCCTAGCCAC 
    CCTGGACTTT TGAATTATTC ACCTTATGAA AACGTCTGTA AAATATCTGG TAGCAGCACT 
    GATTTTCAAA AAAAGCCAAG AGATAAGATG TTTTCATCTT CTGCCCCTGT GGATCAGGAG 
    ATTAAAAGCC TTCGAGAGAA ACTAAATAAA CTTAGGCAAC AGAATGCTTG TTTGGTCACA 
    CAGAATCATT CCTTAATGAC TAAATTTGAA TCTATTCACT TTGAATTAAC ACAGTCAAGA 
    GCAAAAGTTT CTATGCTTGA GTCTGCTCAA CAGCAGGCAG CCAGTGTCCC AATCTTAGAA 
    GAACAGATTA TAAATTTGGA AGCAGAGGTT TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA 
    GAAAATAAGC TGGAACAGAG CCAGAAAATG GTAATTGAAA AGGAACAGAG TTTGCAGGAG 
    TCCAAAGAGG AATGTATAAA ATTAAAGGTG GACTTACTTG AACAAACCAA ACAAGGAAAA 
    AGAGCTGAAC GACAAAGGAA TGAAGCACTA TATAATGCCG AAGAGCTGAG TAAAGCTTTC 
    CAACAATATA AAAAAAAAGT GGCTGAAAAA CTGGAAAAGG TTCAAGCTGA AGAAGAAATA 
    TTAGAGAGAA ATCTAACTAA CTGTGAAAAA GAAAATAAAA GGCTACAAGA AAGGTGTGGT 
    CTATATAAAA GTGAACTTGA AATTCTGAAA GAGAAATTAA GGCAGTTAAA AGAAGAAAAT 
    AACAACGGAA AAGAAAAATT AAGGATCATG GCAGTGAAAA ATTCAGAAGT CATGGCACAA 
    CTAACTGAAT CTAGACAAAG TATTTTGAAG CTAGAGAGTG AGTTAGAGAA CAAAGACGAA 
    ATACTTAGAG ACAAATTTTC TTTAATGAAT GAAAACCGAG AATTAAAGGT CCGTGTTGCA 
    GCACAGAATG AGCGACTAGA TTTATGTCAA CAAGAAATTG AAAGTTCAAG GGTAGAACTA 
    AGAAGTTTGG AAAAGATTAT ATCCCAGTTG CCATTAAAAA GAGAATTATT TGGCTTTAAA 
    TCATATCTTT CTAAATACCA GATGAGTAGC TTCTCAAACA AGGAAGACCG TTGCATTGGC 
    TGCTGTGAGG CAAATAAATT GGTGATTTCG GAATTGAGAA TTAAGCTTGC AATAAAAGAG 
    GCAGAAATTC AAAAGCTTCA TGCAAACCTG ACTGCAAATC AGTTATCTCA GAGTCTTATT 
    ACTTGTAATG ACAGCCAAGA AAGTAGCAAA TTAAGTAGTT TAGAAACAGA ACCTGTAAAG 
    CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA AAAGATCAAA ATCAACATAC TATGAACAAG 
    CAATATGAAA AAGAGAGGCA AAGACTTGTT ACTGGAATAG AAGAACTACG TACTAAGCTG 
    ATACAAATAG AAGCTGAAAA TTCTGATTTG AAGGTTAACA TGGCTCACAG AACTAGTCAG 
    TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT 
    GAAATGACAA AGAAATGTTC TCAACTTTTA ACTCTTGAGA AACAGCTGGA AGAAAAGATA 
    GTTGCTTATT CCTCTATTGC TGCAAAAAAT GCAGAACTAG AACAGGAGCT TATGGAAAAG 
    AATGAAAAGA TAAGGAGTCT AGAAACCAAT ATTAATACAG AGCATGAGAA AATTTGTTTA 
    GCCTTTGAAA AAGCAAAGAA AATTCACTTG GAACAGCATA AAGAAATGGA AAAGCAGATT 
    GAAAGACTTG AAGCTCAACT AGAGAAAAAG GACCAACAAT TTAAAGAACA AGAAAAGACT 
    ATGTCCATGT TGCAACAAGA TATAATATGC AAACAACATC ATCTTGAATC ACTAGATAGA 
    CTCTTGACGG AAAGCAAAGG GGAAATGAAA AAGGAAAATA TGAAGAAAGA TGAAGCTTTA 
    AAAGCATTAC AGAACCAAGT ATCTGAAGAA ACAATCAAGG TTAGGCAACT AGATTCAGCA 
    TTGGAAATTT GTAAGGAAGA ACTTGTCTTG CATTTGAATC AATTGGAAGG AAATAAGGAA 
    AAGTTTGAAA AACAGTTAAA GAAGAAATCT GAAGAGGTAT ATTGTTTACA GAAAGAGCTA 
    AAGATAAAAA ATCACAGTCT TCAAGAGACT TCTGAGCAAA ACGTTATTCT ACAGCATACT 
    CTTCAGCAAC AGCAGCAAAT GTTACAACAA GAGACAATTA GAAATGGAGA GCTAGAAGAT 
    ACTCAAACTA AACTTGAAAA ACAGGTGTCA AAACTGGAAC AAGAACTTCA AAAACAAAGG 
    GAAAGTTCAG CTGAAAAGTT GAGAAAAATG GAGGAGAAAT GTGAATCAGC TGCACATGAA 
    GCAGATTTGA AAAGGCAAAA AGTGATTGAG CTTACTGGCA CTGCCAGGCA AGTAAAGATT 
    GAGATGGATC AGTACAAAGA AGAGCTGTCT AAAATGGAAA AGGAAATAAT GCACCTAAAA 
    CGAGATGGAG AAAATAAAGC AATGCACCTC TCTCAATTAG ATATGATCTT AGATCAGACA 
    AAGACAGAGC TAGAAAAGAA AACAAATGCT GTAAAGGAGT TAGAAAAGTT ACAGCACAGT 
    ACTGAAACTG AACTAACAGA AGCCTTGCAA AAACGGGAAG TACTTGAGAC TGAACTACAA 
    AATGCTCATG GAGAATTAAA AAGTACTTTA AGACAACTCC AGGAATTGAG AGATGTACTA 
    CAGAAGGCTC AATTATCATT AGAGGAAAAA TACACTACTA TAAAGGATCT CACAGCTGAA 
    CTTAGAGAAT GCAAGATGGA GATTGAAGAC AAAAAGCAGG AGCTCCTTGA AATGGATCAG 
    GCACTTAAAG AGAGAAATTG GGAACTAAAG CAAAGAGCAG CTCAGGTTAC ACATTTGGAT 
    ATGACTATTC GTGAGCACAG AGGAGAAATG GAACAAAAAA TAATTAAATT AGAAGGTACT 
    CTGGAGAAAT CAGAATTGGA ACTTAAAGAA TGTAACAAAC AGATAGAAAG TCTGAATGAC 
    AAATTACAAA ATGCTAAAGA ACAGCTTCGA GAAAAAGAGT TTATAATGCT ACAAAATGAA 
    CAGGAGATAA GTCAACTGAA AAAAGAAATT GAAAGAACAC AACAAAGGAT GAAAGAAATG 
    GAGAGTGTTA TGAAAGAGCA AGAACAGTAC ATTGCCACTC AGTACAAGGA GGCCATAGAT 
    TTGGGGCAAG AATTGAGGCT GACCCGGGAG CAGGTGCAGA ACTCTCATAC AGAATTGGCA 
    GAGGCTCGTC ATCAGCAAGT CCAAGCACAG AGAGAAATAG AAAGGCTCTC TAGTGAACTG 
    GAGGATATGA AGCAACTCTC TAAAGAGAAA GATGCTCATG GAAACCATTT AGCTGAAGAA 
    CTGGGGGCTT CTAAAGTACG TGAAGCTCAT TTAGAAGCAA GAATGCAAGC AGAAATCAAG 
    AAATTGTCAG CAGAAGTAGA ATCTCTCAAA GAAGCTTATC ATATGGAGAT GATTTCACAT 
    CAAGAGAACC ATGCAAAGTG GAAGATTTCT GCTGACTCTC AAAAGTCTTC TGTTCAGCAA 
    CTAAACGAAC AGTTAGAGAA GGCAAAATTG GAATTAGAAG AAGCTCAGGA TACTGTAAGC 
    AATTTGCATC AACAAGTCCA AGATAGGAAT GAAGTAATTG AAGCTGCAAA TGAAGCATTA 
    CTTACTAAAG AATCAGAATT AACCAGATTA CAGGCCAAAA TTTCTGGACA TGAAAAGGCA 
    GAAGACATCA AGTTTCTGCC AGCCCCATTT ACATCTCCAA CAGAAATTAT GCCTGATGTT 
    CAAGATCCAA AATTTGCTAA ATGTTTTCAC ACATCTTTTT CCAAGTGTAC AAAATTACGT 
    CGCTCTATTA GTGCCAGTGA TCTTACTTTC AAAATTCATG GTGATGAAGA TCTTTCTGAA 
    GAATTACTAC AGGACTTAAA GAAAATGCAA TTAGAACAGC CTTCAACATT AGAAGAAAGC 
    CATAAGAATC TGACTTACAC CCAGCCAGAC TCATTTAAAC CTCTCACATA TAACCTAGAA 
    GCTGATAGTT CTGAGAATAA TGACTTTAAC ACGCTTAGTG GGATGCTAAG ATACATAAAC 
    AAAGAAGTAA GACTATTAAA AAAGTCTTCT ATGCAAACAG GTGCTGGTTT AAATCAGGTA 
    TGTATTTTAT ACACTGTAAA CTGTAATAAT TTGTTTCCAA AGAATATCAT TTTATTACTT 
    GGAAGAAAAT TCATATATTT AAATGAAAAA CTACTAATAT TTGAAGAAGG AAGATTTTAC 
    ATTTTATACA TTAAGTAA

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

    CCDC18 ( XM_017001157.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856646.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu87314
    Clone ID Related Accession (Same CDS sequence) XM_017001157.1 , XM_017001157.2
    Accession Version XM_017001157.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4800bp)
    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 coiled-coil domain-containing protein 18 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCAATGAGTA GCTTCTCAAA CAAGGAAGAC CGTTGCATTG GCTGCTGTGA GGCAAATAAA 
    TTGGTGATTT CGGAATTGAG AATTAAGCTT GCAATAAAAG AGGCAGAAAT TCAAAAGCTT 
    CATGCAAACC TGACTGCAAA TCAGTTATCT CAGAGTCTTA TTACTTGTAA TGACAGCCAA 
    GAAAGTAGCA AATTAAGTAG TTTAGAAACA GAACCTGTAA AGCTAGGTGG TCATCAAGTA 
    GCAGAAAGCG TAAAAGATCA AAATCAACAT ACTATGAACA AGCAATATGA AAAAGAGAGG 
    CAAAGACTTG TTACTGGAAT AGAAGAACTA CGTACTAAGC TGATACAAAT AGAAGCTGAA 
    AATTCTGATT TGAAGGTTAA CATGGCTCAC AGAACTAGTC AGTTTCAGCT GATTCAAGAG 
    GAGCTGCTAG AGAAAGCTTC AAACTCCAGC AAACTGGAAA GTGAAATGAC AAAGAAATGT 
    TCTCAACTTT TAACTCTTGA GAAACAGCTG GAAGAAAAGA TAGTTGCTTA TTCCTCTATT 
    GCTGCAAAAA ATGCAGAACT AGAACAGGAG CTTATGGAAA AGAATGAAAA GATAAGGAGT 
    CTAGAAACCA ATATTAATAC AGAGCATGAG AAAATTTGTT TAGCCTTTGA AAAAGCAAAG 
    AAAATTCACT TGGAACAGCA TAAAGAAATG GAAAAGCAGA TTGAAAGACT TGAAGCTCAA 
    CTAGAGAAAA AGGACCAACA ATTTAAAGAA CAAGAAAAGA CTATGTCCAT GTTGCAACAA 
    GATATAATAT GCAAACAACA TCATCTTGAA TCACTAGATA GACTCTTGAC GGAAAGCAAA 
    GGGGAAATGA AAAAGGAAAA TATGAAGAAA GATGAAGCTT TAAAAGCATT ACAGAACCAA 
    GTATCTGAAG AAACAATCAA GGTTAGGCAA CTAGATTCAG CATTGGAAAT TTGTAAGGAA 
    GAACTTGTCT TGCATTTGAA TCAATTGGAA GGAAATAAGG AAAAGTTTGA AAAACAGTTA 
    AAGAAGAAAT CTGAAGAGGT ATATTGTTTA CAGAAAGAGC TAAAGATAAA AAATCACAGT 
    CTTCAAGAGA CTTCTGAGCA AAACGTTATT CTACAGCATA CTCTTCAGCA ACAGCAGCAA 
    ATGTTACAAC AAGAGACAAT TAGAAATGGA GAGCTAGAAG ATACTCAAAC TAAACTTGAA 
    AAACAGGTGT CAAAACTGGA ACAAGAACTT CAAAAACAAA GGGAAAGTTC AGCTGAAAAG 
    TTGAGAAAAA TGGAGGAGAA ATGTGAATCA GCTGCACATG AAGCAGATTT GAAAAGGCAA 
    AAAGTGATTG AGCTTACTGG CACTGCCAGG CAAGTAAAGA TTGAGATGGA TCAGTACAAA 
    GAAGAGCTGT CTAAAATGGA AAAGGAAATA ATGCACCTAA AACGAGATGG AGAAAATAAA 
    GCAATGCACC TCTCTCAATT AGATATGATC TTAGATCAGA CAAAGACAGA GCTAGAAAAG 
    AAAACAAATG CTGTAAAGGA GTTAGAAAAG TTACAGCACA GTACTGAAAC TGAACTAACA 
    GAAGCCTTGC AAAAACGGGA AGTACTTGAG ACTGAACTAC AAAATGCTCA TGGAGAATTA 
    AAAAGTACTT TAAGACAACT CCAGGAATTG AGAGATGTAC TACAGAAGGC TCAATTATCA 
    TTAGAGGAAA AATACACTAC TATAAAGGAT CTCACAGCTG AACTTAGAGA ATGCAAGATG 
    GAGATTGAAG ACAAAAAGCA GGAGCTCCTT GAAATGGATC AGGCACTTAA AGAGAGAAAT 
    TGGGAACTAA AGCAAAGAGC AGCTCAGGTT ACACATTTGG ATATGACTAT TCGTGAGCAC 
    AGAGGAGAAA TGGAACAAAA AATAATTAAA TTAGAAGGTA CTCTGGAGAA ATCAGAATTG 
    GAACTTAAAG AATGTAACAA ACAGATAGAA AGTCTGAATG ACAAATTACA AAATGCTAAA 
    GAACAGCTTC GAGAAAAAGA GTTTATAATG CTACAAAATG AACAGGAGAT AAGTCAACTG 
    AAAAAAGAAA TTGAAAGAAC ACAACAAAGG ATGAAAGAAA TGGAGAGTGT TATGAAAGAG 
    CAAGAACAGT ACATTGCCAC TCAGTACAAG GAGGCCATAG ATTTGGGGCA AGAATTGAGG 
    CTGACCCGGG AGCAGGTGCA GAACTCTCAT ACAGAATTGG CAGAGGCTCG TCATCAGCAA 
    GTCCAAGCAC AGAGAGAAAT AGAAAGGCTC TCTAGTGAAC TGGAGGATAT GAAGCAACTC 
    TCTAAAGAGA AAGATGCTCA TGGAAACCAT TTAGCTGAAG AACTGGGGGC TTCTAAAGTA 
    CGTGAAGCTC ATTTAGAAGC AAGAATGCAA GCAGAAATCA AGAAATTGTC AGCAGAAGTA 
    GAATCTCTCA AAGAAGCTTA TCATATGGAG ATGATTTCAC ATCAAGAGAA CCATGCAAAG 
    TGGAAGATTT CTGCTGACTC TCAAAAGTCT TCTGTTCAGC AACTAAACGA ACAGTTAGAG 
    AAGGCAAAAT TGGAATTAGA AGAAGCTCAG GATACTGTAA GCAATTTGCA TCAACAAGTC 
    CAAGATAGGA ATGAAGTAAT TGAAGCTGCA AATGAAGCAT TACTTACTAA AGAATCAGAA 
    TTAACCAGAT TACAGGCCAA AATTTCTGGA CATGAAAAGG CAGAAGACAT CAAGTTTCTG 
    CCAGCCCCAT TTACATCTCC AACAGAAATT ATGCCTGATG TTCAAGATCC AAAATTTGCT 
    AAATGTTTTC ACACATCTTT TTCCAAGTGT ACAAAATTAC GTCGCTCTAT TAGTGCCAGT 
    GATCTTACTT TCAAAATTCA TGGTGATGAA GATCTTTCTG AAGAATTACT ACAGGACTTA 
    AAGAAAATGC AATTAGAACA GCCTTCAACA TTAGAAGAAA GCCATAAGAA TCTGACTTAC 
    ACCCAGCCAG ACTCATTTAA ACCTCTCACA TATAACCTAG AAGCTGATAG TTCTGAGAAT 
    AATGACTTTA ACACGCTTAG TGGGATGCTA AGATACATAA ACAAAGAAGT AAGACTATTA 
    AAAAAGTCTT CTATGCAAAC AGGTGCTGGT TTAAATCAGG TATGTATTTT ATACACTGTA 
    AACTGTAATA ATTTGTTTCC AAAGAATATC ATTTTATTAC TTGGAAGAAA ATTCATATAT 
    TTAAATGAAA AACTACTAAT ATTTGAAGAA GGAAGATTTT ACATTTTATA CATTAAGTAA

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

    RefSeq XP_016856646.1
    CDS25..4824
    Translation

    Target ORF information:

    RefSeq Version XM_017001157.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001157.1

    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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCAATGAGTA GCTTCTCAAA CAAGGAAGAC CGTTGCATTG GCTGCTGTGA GGCAAATAAA 
    TTGGTGATTT CGGAATTGAG AATTAAGCTT GCAATAAAAG AGGCAGAAAT TCAAAAGCTT 
    CATGCAAACC TGACTGCAAA TCAGTTATCT CAGAGTCTTA TTACTTGTAA TGACAGCCAA 
    GAAAGTAGCA AATTAAGTAG TTTAGAAACA GAACCTGTAA AGCTAGGTGG TCATCAAGTA 
    GCAGAAAGCG TAAAAGATCA AAATCAACAT ACTATGAACA AGCAATATGA AAAAGAGAGG 
    CAAAGACTTG TTACTGGAAT AGAAGAACTA CGTACTAAGC TGATACAAAT AGAAGCTGAA 
    AATTCTGATT TGAAGGTTAA CATGGCTCAC AGAACTAGTC AGTTTCAGCT GATTCAAGAG 
    GAGCTGCTAG AGAAAGCTTC AAACTCCAGC AAACTGGAAA GTGAAATGAC AAAGAAATGT 
    TCTCAACTTT TAACTCTTGA GAAACAGCTG GAAGAAAAGA TAGTTGCTTA TTCCTCTATT 
    GCTGCAAAAA ATGCAGAACT AGAACAGGAG CTTATGGAAA AGAATGAAAA GATAAGGAGT 
    CTAGAAACCA ATATTAATAC AGAGCATGAG AAAATTTGTT TAGCCTTTGA AAAAGCAAAG 
    AAAATTCACT TGGAACAGCA TAAAGAAATG GAAAAGCAGA TTGAAAGACT TGAAGCTCAA 
    CTAGAGAAAA AGGACCAACA ATTTAAAGAA CAAGAAAAGA CTATGTCCAT GTTGCAACAA 
    GATATAATAT GCAAACAACA TCATCTTGAA TCACTAGATA GACTCTTGAC GGAAAGCAAA 
    GGGGAAATGA AAAAGGAAAA TATGAAGAAA GATGAAGCTT TAAAAGCATT ACAGAACCAA 
    GTATCTGAAG AAACAATCAA GGTTAGGCAA CTAGATTCAG CATTGGAAAT TTGTAAGGAA 
    GAACTTGTCT TGCATTTGAA TCAATTGGAA GGAAATAAGG AAAAGTTTGA AAAACAGTTA 
    AAGAAGAAAT CTGAAGAGGT ATATTGTTTA CAGAAAGAGC TAAAGATAAA AAATCACAGT 
    CTTCAAGAGA CTTCTGAGCA AAACGTTATT CTACAGCATA CTCTTCAGCA ACAGCAGCAA 
    ATGTTACAAC AAGAGACAAT TAGAAATGGA GAGCTAGAAG ATACTCAAAC TAAACTTGAA 
    AAACAGGTGT CAAAACTGGA ACAAGAACTT CAAAAACAAA GGGAAAGTTC AGCTGAAAAG 
    TTGAGAAAAA TGGAGGAGAA ATGTGAATCA GCTGCACATG AAGCAGATTT GAAAAGGCAA 
    AAAGTGATTG AGCTTACTGG CACTGCCAGG CAAGTAAAGA TTGAGATGGA TCAGTACAAA 
    GAAGAGCTGT CTAAAATGGA AAAGGAAATA ATGCACCTAA AACGAGATGG AGAAAATAAA 
    GCAATGCACC TCTCTCAATT AGATATGATC TTAGATCAGA CAAAGACAGA GCTAGAAAAG 
    AAAACAAATG CTGTAAAGGA GTTAGAAAAG TTACAGCACA GTACTGAAAC TGAACTAACA 
    GAAGCCTTGC AAAAACGGGA AGTACTTGAG ACTGAACTAC AAAATGCTCA TGGAGAATTA 
    AAAAGTACTT TAAGACAACT CCAGGAATTG AGAGATGTAC TACAGAAGGC TCAATTATCA 
    TTAGAGGAAA AATACACTAC TATAAAGGAT CTCACAGCTG AACTTAGAGA ATGCAAGATG 
    GAGATTGAAG ACAAAAAGCA GGAGCTCCTT GAAATGGATC AGGCACTTAA AGAGAGAAAT 
    TGGGAACTAA AGCAAAGAGC AGCTCAGGTT ACACATTTGG ATATGACTAT TCGTGAGCAC 
    AGAGGAGAAA TGGAACAAAA AATAATTAAA TTAGAAGGTA CTCTGGAGAA ATCAGAATTG 
    GAACTTAAAG AATGTAACAA ACAGATAGAA AGTCTGAATG ACAAATTACA AAATGCTAAA 
    GAACAGCTTC GAGAAAAAGA GTTTATAATG CTACAAAATG AACAGGAGAT AAGTCAACTG 
    AAAAAAGAAA TTGAAAGAAC ACAACAAAGG ATGAAAGAAA TGGAGAGTGT TATGAAAGAG 
    CAAGAACAGT ACATTGCCAC TCAGTACAAG GAGGCCATAG ATTTGGGGCA AGAATTGAGG 
    CTGACCCGGG AGCAGGTGCA GAACTCTCAT ACAGAATTGG CAGAGGCTCG TCATCAGCAA 
    GTCCAAGCAC AGAGAGAAAT AGAAAGGCTC TCTAGTGAAC TGGAGGATAT GAAGCAACTC 
    TCTAAAGAGA AAGATGCTCA TGGAAACCAT TTAGCTGAAG AACTGGGGGC TTCTAAAGTA 
    CGTGAAGCTC ATTTAGAAGC AAGAATGCAA GCAGAAATCA AGAAATTGTC AGCAGAAGTA 
    GAATCTCTCA AAGAAGCTTA TCATATGGAG ATGATTTCAC ATCAAGAGAA CCATGCAAAG 
    TGGAAGATTT CTGCTGACTC TCAAAAGTCT TCTGTTCAGC AACTAAACGA ACAGTTAGAG 
    AAGGCAAAAT TGGAATTAGA AGAAGCTCAG GATACTGTAA GCAATTTGCA TCAACAAGTC 
    CAAGATAGGA ATGAAGTAAT TGAAGCTGCA AATGAAGCAT TACTTACTAA AGAATCAGAA 
    TTAACCAGAT TACAGGCCAA AATTTCTGGA CATGAAAAGG CAGAAGACAT CAAGTTTCTG 
    CCAGCCCCAT TTACATCTCC AACAGAAATT ATGCCTGATG TTCAAGATCC AAAATTTGCT 
    AAATGTTTTC ACACATCTTT TTCCAAGTGT ACAAAATTAC GTCGCTCTAT TAGTGCCAGT 
    GATCTTACTT TCAAAATTCA TGGTGATGAA GATCTTTCTG AAGAATTACT ACAGGACTTA 
    AAGAAAATGC AATTAGAACA GCCTTCAACA TTAGAAGAAA GCCATAAGAA TCTGACTTAC 
    ACCCAGCCAG ACTCATTTAA ACCTCTCACA TATAACCTAG AAGCTGATAG TTCTGAGAAT 
    AATGACTTTA ACACGCTTAG TGGGATGCTA AGATACATAA ACAAAGAAGT AAGACTATTA 
    AAAAAGTCTT CTATGCAAAC AGGTGCTGGT TTAAATCAGG TATGTATTTT ATACACTGTA 
    AACTGTAATA ATTTGTTTCC AAAGAATATC ATTTTATTAC TTGGAAGAAA ATTCATATAT 
    TTAAATGAAA AACTACTAAT ATTTGAAGAA GGAAGATTTT ACATTTTATA CATTAAGTAA

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

    CCDC18 ( XM_017001157.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856646.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu87314
    Clone ID Related Accession (Same CDS sequence) XM_017001157.1 , XM_017001157.2
    Accession Version XM_017001157.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4800bp)
    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 coiled-coil domain-containing protein 18 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001157.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCAATGAGTA GCTTCTCAAA CAAGGAAGAC CGTTGCATTG GCTGCTGTGA GGCAAATAAA 
    TTGGTGATTT CGGAATTGAG AATTAAGCTT GCAATAAAAG AGGCAGAAAT TCAAAAGCTT 
    CATGCAAACC TGACTGCAAA TCAGTTATCT CAGAGTCTTA TTACTTGTAA TGACAGCCAA 
    GAAAGTAGCA AATTAAGTAG TTTAGAAACA GAACCTGTAA AGCTAGGTGG TCATCAAGTA 
    GCAGAAAGCG TAAAAGATCA AAATCAACAT ACTATGAACA AGCAATATGA AAAAGAGAGG 
    CAAAGACTTG TTACTGGAAT AGAAGAACTA CGTACTAAGC TGATACAAAT AGAAGCTGAA 
    AATTCTGATT TGAAGGTTAA CATGGCTCAC AGAACTAGTC AGTTTCAGCT GATTCAAGAG 
    GAGCTGCTAG AGAAAGCTTC AAACTCCAGC AAACTGGAAA GTGAAATGAC AAAGAAATGT 
    TCTCAACTTT TAACTCTTGA GAAACAGCTG GAAGAAAAGA TAGTTGCTTA TTCCTCTATT 
    GCTGCAAAAA ATGCAGAACT AGAACAGGAG CTTATGGAAA AGAATGAAAA GATAAGGAGT 
    CTAGAAACCA ATATTAATAC AGAGCATGAG AAAATTTGTT TAGCCTTTGA AAAAGCAAAG 
    AAAATTCACT TGGAACAGCA TAAAGAAATG GAAAAGCAGA TTGAAAGACT TGAAGCTCAA 
    CTAGAGAAAA AGGACCAACA ATTTAAAGAA CAAGAAAAGA CTATGTCCAT GTTGCAACAA 
    GATATAATAT GCAAACAACA TCATCTTGAA TCACTAGATA GACTCTTGAC GGAAAGCAAA 
    GGGGAAATGA AAAAGGAAAA TATGAAGAAA GATGAAGCTT TAAAAGCATT ACAGAACCAA 
    GTATCTGAAG AAACAATCAA GGTTAGGCAA CTAGATTCAG CATTGGAAAT TTGTAAGGAA 
    GAACTTGTCT TGCATTTGAA TCAATTGGAA GGAAATAAGG AAAAGTTTGA AAAACAGTTA 
    AAGAAGAAAT CTGAAGAGGT ATATTGTTTA CAGAAAGAGC TAAAGATAAA AAATCACAGT 
    CTTCAAGAGA CTTCTGAGCA AAACGTTATT CTACAGCATA CTCTTCAGCA ACAGCAGCAA 
    ATGTTACAAC AAGAGACAAT TAGAAATGGA GAGCTAGAAG ATACTCAAAC TAAACTTGAA 
    AAACAGGTGT CAAAACTGGA ACAAGAACTT CAAAAACAAA GGGAAAGTTC AGCTGAAAAG 
    TTGAGAAAAA TGGAGGAGAA ATGTGAATCA GCTGCACATG AAGCAGATTT GAAAAGGCAA 
    AAAGTGATTG AGCTTACTGG CACTGCCAGG CAAGTAAAGA TTGAGATGGA TCAGTACAAA 
    GAAGAGCTGT CTAAAATGGA AAAGGAAATA ATGCACCTAA AACGAGATGG AGAAAATAAA 
    GCAATGCACC TCTCTCAATT AGATATGATC TTAGATCAGA CAAAGACAGA GCTAGAAAAG 
    AAAACAAATG CTGTAAAGGA GTTAGAAAAG TTACAGCACA GTACTGAAAC TGAACTAACA 
    GAAGCCTTGC AAAAACGGGA AGTACTTGAG ACTGAACTAC AAAATGCTCA TGGAGAATTA 
    AAAAGTACTT TAAGACAACT CCAGGAATTG AGAGATGTAC TACAGAAGGC TCAATTATCA 
    TTAGAGGAAA AATACACTAC TATAAAGGAT CTCACAGCTG AACTTAGAGA ATGCAAGATG 
    GAGATTGAAG ACAAAAAGCA GGAGCTCCTT GAAATGGATC AGGCACTTAA AGAGAGAAAT 
    TGGGAACTAA AGCAAAGAGC AGCTCAGGTT ACACATTTGG ATATGACTAT TCGTGAGCAC 
    AGAGGAGAAA TGGAACAAAA AATAATTAAA TTAGAAGGTA CTCTGGAGAA ATCAGAATTG 
    GAACTTAAAG AATGTAACAA ACAGATAGAA AGTCTGAATG ACAAATTACA AAATGCTAAA 
    GAACAGCTTC GAGAAAAAGA GTTTATAATG CTACAAAATG AACAGGAGAT AAGTCAACTG 
    AAAAAAGAAA TTGAAAGAAC ACAACAAAGG ATGAAAGAAA TGGAGAGTGT TATGAAAGAG 
    CAAGAACAGT ACATTGCCAC TCAGTACAAG GAGGCCATAG ATTTGGGGCA AGAATTGAGG 
    CTGACCCGGG AGCAGGTGCA GAACTCTCAT ACAGAATTGG CAGAGGCTCG TCATCAGCAA 
    GTCCAAGCAC AGAGAGAAAT AGAAAGGCTC TCTAGTGAAC TGGAGGATAT GAAGCAACTC 
    TCTAAAGAGA AAGATGCTCA TGGAAACCAT TTAGCTGAAG AACTGGGGGC TTCTAAAGTA 
    CGTGAAGCTC ATTTAGAAGC AAGAATGCAA GCAGAAATCA AGAAATTGTC AGCAGAAGTA 
    GAATCTCTCA AAGAAGCTTA TCATATGGAG ATGATTTCAC ATCAAGAGAA CCATGCAAAG 
    TGGAAGATTT CTGCTGACTC TCAAAAGTCT TCTGTTCAGC AACTAAACGA ACAGTTAGAG 
    AAGGCAAAAT TGGAATTAGA AGAAGCTCAG GATACTGTAA GCAATTTGCA TCAACAAGTC 
    CAAGATAGGA ATGAAGTAAT TGAAGCTGCA AATGAAGCAT TACTTACTAA AGAATCAGAA 
    TTAACCAGAT TACAGGCCAA AATTTCTGGA CATGAAAAGG CAGAAGACAT CAAGTTTCTG 
    CCAGCCCCAT TTACATCTCC AACAGAAATT ATGCCTGATG TTCAAGATCC AAAATTTGCT 
    AAATGTTTTC ACACATCTTT TTCCAAGTGT ACAAAATTAC GTCGCTCTAT TAGTGCCAGT 
    GATCTTACTT TCAAAATTCA TGGTGATGAA GATCTTTCTG AAGAATTACT ACAGGACTTA 
    AAGAAAATGC AATTAGAACA GCCTTCAACA TTAGAAGAAA GCCATAAGAA TCTGACTTAC 
    ACCCAGCCAG ACTCATTTAA ACCTCTCACA TATAACCTAG AAGCTGATAG TTCTGAGAAT 
    AATGACTTTA ACACGCTTAG TGGGATGCTA AGATACATAA ACAAAGAAGT AAGACTATTA 
    AAAAAGTCTT CTATGCAAAC AGGTGCTGGT TTAAATCAGG TATGTATTTT ATACACTGTA 
    AACTGTAATA ATTTGTTTCC AAAGAATATC ATTTTATTAC TTGGAAGAAA ATTCATATAT 
    TTAAATGAAA AACTACTAAT ATTTGAAGAA GGAAGATTTT ACATTTTATA CATTAAGTAA

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

    RefSeq XP_016856646.1
    CDS97..4896
    Translation

    Target ORF information:

    RefSeq Version XM_017001157.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001157.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCAATGAGTA GCTTCTCAAA CAAGGAAGAC CGTTGCATTG GCTGCTGTGA GGCAAATAAA 
    TTGGTGATTT CGGAATTGAG AATTAAGCTT GCAATAAAAG AGGCAGAAAT TCAAAAGCTT 
    CATGCAAACC TGACTGCAAA TCAGTTATCT CAGAGTCTTA TTACTTGTAA TGACAGCCAA 
    GAAAGTAGCA AATTAAGTAG TTTAGAAACA GAACCTGTAA AGCTAGGTGG TCATCAAGTA 
    GCAGAAAGCG TAAAAGATCA AAATCAACAT ACTATGAACA AGCAATATGA AAAAGAGAGG 
    CAAAGACTTG TTACTGGAAT AGAAGAACTA CGTACTAAGC TGATACAAAT AGAAGCTGAA 
    AATTCTGATT TGAAGGTTAA CATGGCTCAC AGAACTAGTC AGTTTCAGCT GATTCAAGAG 
    GAGCTGCTAG AGAAAGCTTC AAACTCCAGC AAACTGGAAA GTGAAATGAC AAAGAAATGT 
    TCTCAACTTT TAACTCTTGA GAAACAGCTG GAAGAAAAGA TAGTTGCTTA TTCCTCTATT 
    GCTGCAAAAA ATGCAGAACT AGAACAGGAG CTTATGGAAA AGAATGAAAA GATAAGGAGT 
    CTAGAAACCA ATATTAATAC AGAGCATGAG AAAATTTGTT TAGCCTTTGA AAAAGCAAAG 
    AAAATTCACT TGGAACAGCA TAAAGAAATG GAAAAGCAGA TTGAAAGACT TGAAGCTCAA 
    CTAGAGAAAA AGGACCAACA ATTTAAAGAA CAAGAAAAGA CTATGTCCAT GTTGCAACAA 
    GATATAATAT GCAAACAACA TCATCTTGAA TCACTAGATA GACTCTTGAC GGAAAGCAAA 
    GGGGAAATGA AAAAGGAAAA TATGAAGAAA GATGAAGCTT TAAAAGCATT ACAGAACCAA 
    GTATCTGAAG AAACAATCAA GGTTAGGCAA CTAGATTCAG CATTGGAAAT TTGTAAGGAA 
    GAACTTGTCT TGCATTTGAA TCAATTGGAA GGAAATAAGG AAAAGTTTGA AAAACAGTTA 
    AAGAAGAAAT CTGAAGAGGT ATATTGTTTA CAGAAAGAGC TAAAGATAAA AAATCACAGT 
    CTTCAAGAGA CTTCTGAGCA AAACGTTATT CTACAGCATA CTCTTCAGCA ACAGCAGCAA 
    ATGTTACAAC AAGAGACAAT TAGAAATGGA GAGCTAGAAG ATACTCAAAC TAAACTTGAA 
    AAACAGGTGT CAAAACTGGA ACAAGAACTT CAAAAACAAA GGGAAAGTTC AGCTGAAAAG 
    TTGAGAAAAA TGGAGGAGAA ATGTGAATCA GCTGCACATG AAGCAGATTT GAAAAGGCAA 
    AAAGTGATTG AGCTTACTGG CACTGCCAGG CAAGTAAAGA TTGAGATGGA TCAGTACAAA 
    GAAGAGCTGT CTAAAATGGA AAAGGAAATA ATGCACCTAA AACGAGATGG AGAAAATAAA 
    GCAATGCACC TCTCTCAATT AGATATGATC TTAGATCAGA CAAAGACAGA GCTAGAAAAG 
    AAAACAAATG CTGTAAAGGA GTTAGAAAAG TTACAGCACA GTACTGAAAC TGAACTAACA 
    GAAGCCTTGC AAAAACGGGA AGTACTTGAG ACTGAACTAC AAAATGCTCA TGGAGAATTA 
    AAAAGTACTT TAAGACAACT CCAGGAATTG AGAGATGTAC TACAGAAGGC TCAATTATCA 
    TTAGAGGAAA AATACACTAC TATAAAGGAT CTCACAGCTG AACTTAGAGA ATGCAAGATG 
    GAGATTGAAG ACAAAAAGCA GGAGCTCCTT GAAATGGATC AGGCACTTAA AGAGAGAAAT 
    TGGGAACTAA AGCAAAGAGC AGCTCAGGTT ACACATTTGG ATATGACTAT TCGTGAGCAC 
    AGAGGAGAAA TGGAACAAAA AATAATTAAA TTAGAAGGTA CTCTGGAGAA ATCAGAATTG 
    GAACTTAAAG AATGTAACAA ACAGATAGAA AGTCTGAATG ACAAATTACA AAATGCTAAA 
    GAACAGCTTC GAGAAAAAGA GTTTATAATG CTACAAAATG AACAGGAGAT AAGTCAACTG 
    AAAAAAGAAA TTGAAAGAAC ACAACAAAGG ATGAAAGAAA TGGAGAGTGT TATGAAAGAG 
    CAAGAACAGT ACATTGCCAC TCAGTACAAG GAGGCCATAG ATTTGGGGCA AGAATTGAGG 
    CTGACCCGGG AGCAGGTGCA GAACTCTCAT ACAGAATTGG CAGAGGCTCG TCATCAGCAA 
    GTCCAAGCAC AGAGAGAAAT AGAAAGGCTC TCTAGTGAAC TGGAGGATAT GAAGCAACTC 
    TCTAAAGAGA AAGATGCTCA TGGAAACCAT TTAGCTGAAG AACTGGGGGC TTCTAAAGTA 
    CGTGAAGCTC ATTTAGAAGC AAGAATGCAA GCAGAAATCA AGAAATTGTC AGCAGAAGTA 
    GAATCTCTCA AAGAAGCTTA TCATATGGAG ATGATTTCAC ATCAAGAGAA CCATGCAAAG 
    TGGAAGATTT CTGCTGACTC TCAAAAGTCT TCTGTTCAGC AACTAAACGA ACAGTTAGAG 
    AAGGCAAAAT TGGAATTAGA AGAAGCTCAG GATACTGTAA GCAATTTGCA TCAACAAGTC 
    CAAGATAGGA ATGAAGTAAT TGAAGCTGCA AATGAAGCAT TACTTACTAA AGAATCAGAA 
    TTAACCAGAT TACAGGCCAA AATTTCTGGA CATGAAAAGG CAGAAGACAT CAAGTTTCTG 
    CCAGCCCCAT TTACATCTCC AACAGAAATT ATGCCTGATG TTCAAGATCC AAAATTTGCT 
    AAATGTTTTC ACACATCTTT TTCCAAGTGT ACAAAATTAC GTCGCTCTAT TAGTGCCAGT 
    GATCTTACTT TCAAAATTCA TGGTGATGAA GATCTTTCTG AAGAATTACT ACAGGACTTA 
    AAGAAAATGC AATTAGAACA GCCTTCAACA TTAGAAGAAA GCCATAAGAA TCTGACTTAC 
    ACCCAGCCAG ACTCATTTAA ACCTCTCACA TATAACCTAG AAGCTGATAG TTCTGAGAAT 
    AATGACTTTA ACACGCTTAG TGGGATGCTA AGATACATAA ACAAAGAAGT AAGACTATTA 
    AAAAAGTCTT CTATGCAAAC AGGTGCTGGT TTAAATCAGG TATGTATTTT ATACACTGTA 
    AACTGTAATA ATTTGTTTCC AAAGAATATC ATTTTATTAC TTGGAAGAAA ATTCATATAT 
    TTAAATGAAA AACTACTAAT ATTTGAAGAA GGAAGATTTT ACATTTTATA CATTAAGTAA

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

    CCDC18 ( XM_011541361.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539663.2 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu87315
    Clone ID Related Accession (Same CDS sequence) XM_011541361.2 , XM_011541361.3
    Accession Version XM_011541361.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
    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 coiled-coil domain-containing protein 18 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011541361.1. ##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
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG AATCAGAATT AACCAGATTA 
    CAGGCCAAAA TTTCTGGACA TGAAAAGGCA GAAGACATCA AGTTTCTGCC AGCCCCATTT 
    ACATCTCCAA CAGAAATTAT GCCTGATGTT CAAGATCCAA AATTTGCTAA ATGTTTTCAC 
    ACATCTTTTT CCAAGTGTAC AAAATTACGT CGCTCTATTA GTGCCAGTGA TCTTACTTTC 
    AAAATTCATG GTGATGAAGA TCTTTCTGAA GAATTACTAC AGGACTTAAA GAAAATGCAA 
    TTAGAACAGC CTTCAACATT AGAAGAAAGC CATAAGAATC TGACTTACAC CCAGCCAGAC 
    TCATTTAAAC CTCTCACATA TAACCTAGAA GCTGATAGTT CTGAGAATAA TGACTTTAAC 
    ACGCTTAGTG GGATGCTAAG ATACATAAAC AAAGAAGTAA GACTATTAAA AAAGTCTTCT 
    ATGCAAACAG GTGCTGGTTT AAATCAGGGA GAAAATGTGT AA

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

    RefSeq XP_011539663.2
    CDS25..4746
    Translation

    Target ORF information:

    RefSeq Version XM_011541361.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011541361.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG AATCAGAATT AACCAGATTA 
    CAGGCCAAAA TTTCTGGACA TGAAAAGGCA GAAGACATCA AGTTTCTGCC AGCCCCATTT 
    ACATCTCCAA CAGAAATTAT GCCTGATGTT CAAGATCCAA AATTTGCTAA ATGTTTTCAC 
    ACATCTTTTT CCAAGTGTAC AAAATTACGT CGCTCTATTA GTGCCAGTGA TCTTACTTTC 
    AAAATTCATG GTGATGAAGA TCTTTCTGAA GAATTACTAC AGGACTTAAA GAAAATGCAA 
    TTAGAACAGC CTTCAACATT AGAAGAAAGC CATAAGAATC TGACTTACAC CCAGCCAGAC 
    TCATTTAAAC CTCTCACATA TAACCTAGAA GCTGATAGTT CTGAGAATAA TGACTTTAAC 
    ACGCTTAGTG GGATGCTAAG ATACATAAAC AAAGAAGTAA GACTATTAAA AAAGTCTTCT 
    ATGCAAACAG GTGCTGGTTT AAATCAGGGA GAAAATGTGT AA

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

    CCDC18 ( XM_011541361.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539663.2 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu87315
    Clone ID Related Accession (Same CDS sequence) XM_011541361.2 , XM_011541361.3
    Accession Version XM_011541361.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
    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 coiled-coil domain-containing protein 18 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011541361.2. ##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
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG AATCAGAATT AACCAGATTA 
    CAGGCCAAAA TTTCTGGACA TGAAAAGGCA GAAGACATCA AGTTTCTGCC AGCCCCATTT 
    ACATCTCCAA CAGAAATTAT GCCTGATGTT CAAGATCCAA AATTTGCTAA ATGTTTTCAC 
    ACATCTTTTT CCAAGTGTAC AAAATTACGT CGCTCTATTA GTGCCAGTGA TCTTACTTTC 
    AAAATTCATG GTGATGAAGA TCTTTCTGAA GAATTACTAC AGGACTTAAA GAAAATGCAA 
    TTAGAACAGC CTTCAACATT AGAAGAAAGC CATAAGAATC TGACTTACAC CCAGCCAGAC 
    TCATTTAAAC CTCTCACATA TAACCTAGAA GCTGATAGTT CTGAGAATAA TGACTTTAAC 
    ACGCTTAGTG GGATGCTAAG ATACATAAAC AAAGAAGTAA GACTATTAAA AAAGTCTTCT 
    ATGCAAACAG GTGCTGGTTT AAATCAGGGA GAAAATGTGT AA

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

    RefSeq XP_011539663.2
    CDS97..4818
    Translation

    Target ORF information:

    RefSeq Version XM_011541361.3
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011541361.3

    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
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGATAGAAAG TCTGAATGAC AAATTACAAA ATGCTAAAGA ACAGCTTCGA 
    GAAAAAGAGT TTATAATGCT ACAAAATGAA CAGGAGATAA GTCAACTGAA AAAAGAAATT 
    GAAAGAACAC AACAAAGGAT GAAAGAAATG GAGAGTGTTA TGAAAGAGCA AGAACAGTAC 
    ATTGCCACTC AGTACAAGGA GGCCATAGAT TTGGGGCAAG AATTGAGGCT GACCCGGGAG 
    CAGGTGCAGA ACTCTCATAC AGAATTGGCA GAGGCTCGTC ATCAGCAAGT CCAAGCACAG 
    AGAGAAATAG AAAGGCTCTC TAGTGAACTG GAGGATATGA AGCAACTCTC TAAAGAGAAA 
    GATGCTCATG GAAACCATTT AGCTGAAGAA CTGGGGGCTT CTAAAGTACG TGAAGCTCAT 
    TTAGAAGCAA GAATGCAAGC AGAAATCAAG AAATTGTCAG CAGAAGTAGA ATCTCTCAAA 
    GAAGCTTATC ATATGGAGAT GATTTCACAT CAAGAGAACC ATGCAAAGTG GAAGATTTCT 
    GCTGACTCTC AAAAGTCTTC TGTTCAGCAA CTAAACGAAC AGTTAGAGAA GGCAAAATTG 
    GAATTAGAAG AAGCTCAGGA TACTGTAAGC AATTTGCATC AACAAGTCCA AGATAGGAAT 
    GAAGTAATTG AAGCTGCAAA TGAAGCATTA CTTACTAAAG AATCAGAATT AACCAGATTA 
    CAGGCCAAAA TTTCTGGACA TGAAAAGGCA GAAGACATCA AGTTTCTGCC AGCCCCATTT 
    ACATCTCCAA CAGAAATTAT GCCTGATGTT CAAGATCCAA AATTTGCTAA ATGTTTTCAC 
    ACATCTTTTT CCAAGTGTAC AAAATTACGT CGCTCTATTA GTGCCAGTGA TCTTACTTTC 
    AAAATTCATG GTGATGAAGA TCTTTCTGAA GAATTACTAC AGGACTTAAA GAAAATGCAA 
    TTAGAACAGC CTTCAACATT AGAAGAAAGC CATAAGAATC TGACTTACAC CCAGCCAGAC 
    TCATTTAAAC CTCTCACATA TAACCTAGAA GCTGATAGTT CTGAGAATAA TGACTTTAAC 
    ACGCTTAGTG GGATGCTAAG ATACATAAAC AAAGAAGTAA GACTATTAAA AAAGTCTTCT 
    ATGCAAACAG GTGCTGGTTT AAATCAGGGA GAAAATGTGT AA

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

    CCDC18 ( XM_017001158.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856647.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu87316
    Clone ID Related Accession (Same CDS sequence) XM_017001158.2 , XM_017001158.1
    Accession Version XM_017001158.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4719bp)
    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 coiled-coil domain-containing protein 18 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001158.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGA AAGCGTAAAA 
    GATCAAAATC AACATACTAT GAACAAGCAA TATGAAAAAG AGAGGCAAAG ACTTGTTACT 
    GGAATAGAAG AACTACGTAC TAAGCTGATA CAAATAGAAG CTGAAAATTC TGATTTGAAG 
    GTTAACATGG CTCACAGAAC TAGTCAGTTT CAGCTGATTC AAGAGGAGCT GCTAGAGAAA 
    GCTTCAAACT CCAGCAAACT GGAAAGTGAA ATGACAAAGA AATGTTCTCA ACTTTTAACT 
    CTTGAGAAAC AGCTGGAAGA AAAGATAGTT GCTTATTCCT CTATTGCTGC AAAAAATGCA 
    GAACTAGAAC AGGAGCTTAT GGAAAAGAAT GAAAAGATAA GGAGTCTAGA AACCAATATT 
    AATACAGAGC ATGAGAAAAT TTGTTTAGCC TTTGAAAAAG CAAAGAAAAT TCACTTGGAA 
    CAGCATAAAG AAATGGAAAA GCAGATTGAA AGACTTGAAG CTCAACTAGA GAAAAAGGAC 
    CAACAATTTA AAGAACAAGA AAAGACTATG TCCATGTTGC AACAAGATAT AATATGCAAA 
    CAACATCATC TTGAATCACT AGATAGACTC TTGACGGAAA GCAAAGGGGA AATGAAAAAG 
    GAAAATATGA AGAAAGATGA AGCTTTAAAA GCATTACAGA ACCAAGTATC TGAAGAAACA 
    ATCAAGGTTA GGCAACTAGA TTCAGCATTG GAAATTTGTA AGGAAGAACT TGTCTTGCAT 
    TTGAATCAAT TGGAAGGAAA TAAGGAAAAG TTTGAAAAAC AGTTAAAGAA GAAATCTGAA 
    GAGGTATATT GTTTACAGAA AGAGCTAAAG ATAAAAAATC ACAGTCTTCA AGAGACTTCT 
    GAGCAAAACG TTATTCTACA GCATACTCTT CAGCAACAGC AGCAAATGTT ACAACAAGAG 
    ACAATTAGAA ATGGAGAGCT AGAAGATACT CAAACTAAAC TTGAAAAACA GGTGTCAAAA 
    CTGGAACAAG AACTTCAAAA ACAAAGGGAA AGTTCAGCTG AAAAGTTGAG AAAAATGGAG 
    GAGAAATGTG AATCAGCTGC ACATGAAGCA GATTTGAAAA GGCAAAAAGT GATTGAGCTT 
    ACTGGCACTG CCAGGCAAGT AAAGATTGAG ATGGATCAGT ACAAAGAAGA GCTGTCTAAA 
    ATGGAAAAGG AAATAATGCA CCTAAAACGA GATGGAGAAA ATAAAGCAAT GCACCTCTCT 
    CAATTAGATA TGATCTTAGA TCAGACAAAG ACAGAGCTAG AAAAGAAAAC AAATGCTGTA 
    AAGGAGTTAG AAAAGTTACA GCACAGTACT GAAACTGAAC TAACAGAAGC CTTGCAAAAA 
    CGGGAAGTAC TTGAGACTGA ACTACAAAAT GCTCATGGAG AATTAAAAAG TACTTTAAGA 
    CAACTCCAGG AATTGAGAGA TGTACTACAG AAGGCTCAAT TATCATTAGA GGAAAAATAC 
    ACTACTATAA AGGATCTCAC AGCTGAACTT AGAGAATGCA AGATGGAGAT TGAAGACAAA 
    AAGCAGGAGC TCCTTGAAAT GGATCAGGCA CTTAAAGAGA GAAATTGGGA ACTAAAGCAA 
    AGAGCAGCTC AGGTTACACA TTTGGATATG ACTATTCGTG AGCACAGAGG AGAAATGGAA 
    CAAAAAATAA TTAAATTAGA AGGTACTCTG GAGAAATCAG AATTGGAACT TAAAGAATGT 
    AACAAACAGA TAGAAAGTCT GAATGACAAA TTACAAAATG CTAAAGAACA GCTTCGAGAA 
    AAAGAGTTTA TAATGCTACA AAATGAACAG GAGATAAGTC AACTGAAAAA AGAAATTGAA 
    AGAACACAAC AAAGGATGAA AGAAATGGAG AGTGTTATGA AAGAGCAAGA ACAGTACATT 
    GCCACTCAGT ACAAGGAGGC CATAGATTTG GGGCAAGAAT TGAGGCTGAC CCGGGAGCAG 
    GTGCAGAACT CTCATACAGA ATTGGCAGAG GCTCGTCATC AGCAAGTCCA AGCACAGAGA 
    GAAATAGAAA GGCTCTCTAG TGAACTGGAG GATATGAAGC AACTCTCTAA AGAGAAAGAT 
    GCTCATGGAA ACCATTTAGC TGAAGAACTG GGGGCTTCTA AAGTACGTGA AGCTCATTTA 
    GAAGCAAGAA TGCAAGCAGA AATCAAGAAA TTGTCAGCAG AAGTAGAATC TCTCAAAGAA 
    GCTTATCATA TGGAGATGAT TTCACATCAA GAGAACCATG CAAAGTGGAA GATTTCTGCT 
    GACTCTCAAA AGTCTTCTGT TCAGCAACTA AACGAACAGT TAGAGAAGGC AAAATTGGAA 
    TTAGAAGAAG CTCAGGATAC TGTAAGCAAT TTGCATCAAC AAGTCCAAGA TAGGAATGAA 
    GTAATTGAAG CTGCAAATGA AGCATTACTT ACTAAAGAAT CAGAATTAAC CAGATTACAG 
    GCCAAAATTT CTGGACATGA AAAGGCAGAA GACATCAAGT TTCTGCCAGC CCCATTTACA 
    TCTCCAACAG AAATTATGCC TGATGTTCAA GATCCAAAAT TTGCTAAATG TTTTCACACA 
    TCTTTTTCCA AGTGTACAAA ATTACGTCGC TCTATTAGTG CCAGTGATCT TACTTTCAAA 
    ATTCATGGTG ATGAAGATCT TTCTGAAGAA TTACTACAGG ACTTAAAGAA AATGCAATTA 
    GAACAGCCTT CAACATTAGA AGAAAGCCAT AAGAATCTGA CTTACACCCA GCCAGACTCA 
    TTTAAACCTC TCACATATAA CCTAGAAGCT GATAGTTCTG AGAATAATGA CTTTAACACG 
    CTTAGTGGGA TGCTAAGATA CATAAACAAA GAAGTAAGAC TATTAAAAAA GTCTTCTATG 
    CAAACAGGTG CTGGTTTAAA TCAGGGAGAA AATGTGTAA

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

    RefSeq XP_016856647.1
    CDS97..4815
    Translation

    Target ORF information:

    RefSeq Version XM_017001158.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001158.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGA AAGCGTAAAA 
    GATCAAAATC AACATACTAT GAACAAGCAA TATGAAAAAG AGAGGCAAAG ACTTGTTACT 
    GGAATAGAAG AACTACGTAC TAAGCTGATA CAAATAGAAG CTGAAAATTC TGATTTGAAG 
    GTTAACATGG CTCACAGAAC TAGTCAGTTT CAGCTGATTC AAGAGGAGCT GCTAGAGAAA 
    GCTTCAAACT CCAGCAAACT GGAAAGTGAA ATGACAAAGA AATGTTCTCA ACTTTTAACT 
    CTTGAGAAAC AGCTGGAAGA AAAGATAGTT GCTTATTCCT CTATTGCTGC AAAAAATGCA 
    GAACTAGAAC AGGAGCTTAT GGAAAAGAAT GAAAAGATAA GGAGTCTAGA AACCAATATT 
    AATACAGAGC ATGAGAAAAT TTGTTTAGCC TTTGAAAAAG CAAAGAAAAT TCACTTGGAA 
    CAGCATAAAG AAATGGAAAA GCAGATTGAA AGACTTGAAG CTCAACTAGA GAAAAAGGAC 
    CAACAATTTA AAGAACAAGA AAAGACTATG TCCATGTTGC AACAAGATAT AATATGCAAA 
    CAACATCATC TTGAATCACT AGATAGACTC TTGACGGAAA GCAAAGGGGA AATGAAAAAG 
    GAAAATATGA AGAAAGATGA AGCTTTAAAA GCATTACAGA ACCAAGTATC TGAAGAAACA 
    ATCAAGGTTA GGCAACTAGA TTCAGCATTG GAAATTTGTA AGGAAGAACT TGTCTTGCAT 
    TTGAATCAAT TGGAAGGAAA TAAGGAAAAG TTTGAAAAAC AGTTAAAGAA GAAATCTGAA 
    GAGGTATATT GTTTACAGAA AGAGCTAAAG ATAAAAAATC ACAGTCTTCA AGAGACTTCT 
    GAGCAAAACG TTATTCTACA GCATACTCTT CAGCAACAGC AGCAAATGTT ACAACAAGAG 
    ACAATTAGAA ATGGAGAGCT AGAAGATACT CAAACTAAAC TTGAAAAACA GGTGTCAAAA 
    CTGGAACAAG AACTTCAAAA ACAAAGGGAA AGTTCAGCTG AAAAGTTGAG AAAAATGGAG 
    GAGAAATGTG AATCAGCTGC ACATGAAGCA GATTTGAAAA GGCAAAAAGT GATTGAGCTT 
    ACTGGCACTG CCAGGCAAGT AAAGATTGAG ATGGATCAGT ACAAAGAAGA GCTGTCTAAA 
    ATGGAAAAGG AAATAATGCA CCTAAAACGA GATGGAGAAA ATAAAGCAAT GCACCTCTCT 
    CAATTAGATA TGATCTTAGA TCAGACAAAG ACAGAGCTAG AAAAGAAAAC AAATGCTGTA 
    AAGGAGTTAG AAAAGTTACA GCACAGTACT GAAACTGAAC TAACAGAAGC CTTGCAAAAA 
    CGGGAAGTAC TTGAGACTGA ACTACAAAAT GCTCATGGAG AATTAAAAAG TACTTTAAGA 
    CAACTCCAGG AATTGAGAGA TGTACTACAG AAGGCTCAAT TATCATTAGA GGAAAAATAC 
    ACTACTATAA AGGATCTCAC AGCTGAACTT AGAGAATGCA AGATGGAGAT TGAAGACAAA 
    AAGCAGGAGC TCCTTGAAAT GGATCAGGCA CTTAAAGAGA GAAATTGGGA ACTAAAGCAA 
    AGAGCAGCTC AGGTTACACA TTTGGATATG ACTATTCGTG AGCACAGAGG AGAAATGGAA 
    CAAAAAATAA TTAAATTAGA AGGTACTCTG GAGAAATCAG AATTGGAACT TAAAGAATGT 
    AACAAACAGA TAGAAAGTCT GAATGACAAA TTACAAAATG CTAAAGAACA GCTTCGAGAA 
    AAAGAGTTTA TAATGCTACA AAATGAACAG GAGATAAGTC AACTGAAAAA AGAAATTGAA 
    AGAACACAAC AAAGGATGAA AGAAATGGAG AGTGTTATGA AAGAGCAAGA ACAGTACATT 
    GCCACTCAGT ACAAGGAGGC CATAGATTTG GGGCAAGAAT TGAGGCTGAC CCGGGAGCAG 
    GTGCAGAACT CTCATACAGA ATTGGCAGAG GCTCGTCATC AGCAAGTCCA AGCACAGAGA 
    GAAATAGAAA GGCTCTCTAG TGAACTGGAG GATATGAAGC AACTCTCTAA AGAGAAAGAT 
    GCTCATGGAA ACCATTTAGC TGAAGAACTG GGGGCTTCTA AAGTACGTGA AGCTCATTTA 
    GAAGCAAGAA TGCAAGCAGA AATCAAGAAA TTGTCAGCAG AAGTAGAATC TCTCAAAGAA 
    GCTTATCATA TGGAGATGAT TTCACATCAA GAGAACCATG CAAAGTGGAA GATTTCTGCT 
    GACTCTCAAA AGTCTTCTGT TCAGCAACTA AACGAACAGT TAGAGAAGGC AAAATTGGAA 
    TTAGAAGAAG CTCAGGATAC TGTAAGCAAT TTGCATCAAC AAGTCCAAGA TAGGAATGAA 
    GTAATTGAAG CTGCAAATGA AGCATTACTT ACTAAAGAAT CAGAATTAAC CAGATTACAG 
    GCCAAAATTT CTGGACATGA AAAGGCAGAA GACATCAAGT TTCTGCCAGC CCCATTTACA 
    TCTCCAACAG AAATTATGCC TGATGTTCAA GATCCAAAAT TTGCTAAATG TTTTCACACA 
    TCTTTTTCCA AGTGTACAAA ATTACGTCGC TCTATTAGTG CCAGTGATCT TACTTTCAAA 
    ATTCATGGTG ATGAAGATCT TTCTGAAGAA TTACTACAGG ACTTAAAGAA AATGCAATTA 
    GAACAGCCTT CAACATTAGA AGAAAGCCAT AAGAATCTGA CTTACACCCA GCCAGACTCA 
    TTTAAACCTC TCACATATAA CCTAGAAGCT GATAGTTCTG AGAATAATGA CTTTAACACG 
    CTTAGTGGGA TGCTAAGATA CATAAACAAA GAAGTAAGAC TATTAAAAAA GTCTTCTATG 
    CAAACAGGTG CTGGTTTAAA TCAGGGAGAA AATGTGTAA

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

    CCDC18 ( XM_017001158.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856647.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu87316
    Clone ID Related Accession (Same CDS sequence) XM_017001158.2 , XM_017001158.1
    Accession Version XM_017001158.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4719bp)
    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 coiled-coil domain-containing protein 18 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGA AAGCGTAAAA 
    GATCAAAATC AACATACTAT GAACAAGCAA TATGAAAAAG AGAGGCAAAG ACTTGTTACT 
    GGAATAGAAG AACTACGTAC TAAGCTGATA CAAATAGAAG CTGAAAATTC TGATTTGAAG 
    GTTAACATGG CTCACAGAAC TAGTCAGTTT CAGCTGATTC AAGAGGAGCT GCTAGAGAAA 
    GCTTCAAACT CCAGCAAACT GGAAAGTGAA ATGACAAAGA AATGTTCTCA ACTTTTAACT 
    CTTGAGAAAC AGCTGGAAGA AAAGATAGTT GCTTATTCCT CTATTGCTGC AAAAAATGCA 
    GAACTAGAAC AGGAGCTTAT GGAAAAGAAT GAAAAGATAA GGAGTCTAGA AACCAATATT 
    AATACAGAGC ATGAGAAAAT TTGTTTAGCC TTTGAAAAAG CAAAGAAAAT TCACTTGGAA 
    CAGCATAAAG AAATGGAAAA GCAGATTGAA AGACTTGAAG CTCAACTAGA GAAAAAGGAC 
    CAACAATTTA AAGAACAAGA AAAGACTATG TCCATGTTGC AACAAGATAT AATATGCAAA 
    CAACATCATC TTGAATCACT AGATAGACTC TTGACGGAAA GCAAAGGGGA AATGAAAAAG 
    GAAAATATGA AGAAAGATGA AGCTTTAAAA GCATTACAGA ACCAAGTATC TGAAGAAACA 
    ATCAAGGTTA GGCAACTAGA TTCAGCATTG GAAATTTGTA AGGAAGAACT TGTCTTGCAT 
    TTGAATCAAT TGGAAGGAAA TAAGGAAAAG TTTGAAAAAC AGTTAAAGAA GAAATCTGAA 
    GAGGTATATT GTTTACAGAA AGAGCTAAAG ATAAAAAATC ACAGTCTTCA AGAGACTTCT 
    GAGCAAAACG TTATTCTACA GCATACTCTT CAGCAACAGC AGCAAATGTT ACAACAAGAG 
    ACAATTAGAA ATGGAGAGCT AGAAGATACT CAAACTAAAC TTGAAAAACA GGTGTCAAAA 
    CTGGAACAAG AACTTCAAAA ACAAAGGGAA AGTTCAGCTG AAAAGTTGAG AAAAATGGAG 
    GAGAAATGTG AATCAGCTGC ACATGAAGCA GATTTGAAAA GGCAAAAAGT GATTGAGCTT 
    ACTGGCACTG CCAGGCAAGT AAAGATTGAG ATGGATCAGT ACAAAGAAGA GCTGTCTAAA 
    ATGGAAAAGG AAATAATGCA CCTAAAACGA GATGGAGAAA ATAAAGCAAT GCACCTCTCT 
    CAATTAGATA TGATCTTAGA TCAGACAAAG ACAGAGCTAG AAAAGAAAAC AAATGCTGTA 
    AAGGAGTTAG AAAAGTTACA GCACAGTACT GAAACTGAAC TAACAGAAGC CTTGCAAAAA 
    CGGGAAGTAC TTGAGACTGA ACTACAAAAT GCTCATGGAG AATTAAAAAG TACTTTAAGA 
    CAACTCCAGG AATTGAGAGA TGTACTACAG AAGGCTCAAT TATCATTAGA GGAAAAATAC 
    ACTACTATAA AGGATCTCAC AGCTGAACTT AGAGAATGCA AGATGGAGAT TGAAGACAAA 
    AAGCAGGAGC TCCTTGAAAT GGATCAGGCA CTTAAAGAGA GAAATTGGGA ACTAAAGCAA 
    AGAGCAGCTC AGGTTACACA TTTGGATATG ACTATTCGTG AGCACAGAGG AGAAATGGAA 
    CAAAAAATAA TTAAATTAGA AGGTACTCTG GAGAAATCAG AATTGGAACT TAAAGAATGT 
    AACAAACAGA TAGAAAGTCT GAATGACAAA TTACAAAATG CTAAAGAACA GCTTCGAGAA 
    AAAGAGTTTA TAATGCTACA AAATGAACAG GAGATAAGTC AACTGAAAAA AGAAATTGAA 
    AGAACACAAC AAAGGATGAA AGAAATGGAG AGTGTTATGA AAGAGCAAGA ACAGTACATT 
    GCCACTCAGT ACAAGGAGGC CATAGATTTG GGGCAAGAAT TGAGGCTGAC CCGGGAGCAG 
    GTGCAGAACT CTCATACAGA ATTGGCAGAG GCTCGTCATC AGCAAGTCCA AGCACAGAGA 
    GAAATAGAAA GGCTCTCTAG TGAACTGGAG GATATGAAGC AACTCTCTAA AGAGAAAGAT 
    GCTCATGGAA ACCATTTAGC TGAAGAACTG GGGGCTTCTA AAGTACGTGA AGCTCATTTA 
    GAAGCAAGAA TGCAAGCAGA AATCAAGAAA TTGTCAGCAG AAGTAGAATC TCTCAAAGAA 
    GCTTATCATA TGGAGATGAT TTCACATCAA GAGAACCATG CAAAGTGGAA GATTTCTGCT 
    GACTCTCAAA AGTCTTCTGT TCAGCAACTA AACGAACAGT TAGAGAAGGC AAAATTGGAA 
    TTAGAAGAAG CTCAGGATAC TGTAAGCAAT TTGCATCAAC AAGTCCAAGA TAGGAATGAA 
    GTAATTGAAG CTGCAAATGA AGCATTACTT ACTAAAGAAT CAGAATTAAC CAGATTACAG 
    GCCAAAATTT CTGGACATGA AAAGGCAGAA GACATCAAGT TTCTGCCAGC CCCATTTACA 
    TCTCCAACAG AAATTATGCC TGATGTTCAA GATCCAAAAT TTGCTAAATG TTTTCACACA 
    TCTTTTTCCA AGTGTACAAA ATTACGTCGC TCTATTAGTG CCAGTGATCT TACTTTCAAA 
    ATTCATGGTG ATGAAGATCT TTCTGAAGAA TTACTACAGG ACTTAAAGAA AATGCAATTA 
    GAACAGCCTT CAACATTAGA AGAAAGCCAT AAGAATCTGA CTTACACCCA GCCAGACTCA 
    TTTAAACCTC TCACATATAA CCTAGAAGCT GATAGTTCTG AGAATAATGA CTTTAACACG 
    CTTAGTGGGA TGCTAAGATA CATAAACAAA GAAGTAAGAC TATTAAAAAA GTCTTCTATG 
    CAAACAGGTG CTGGTTTAAA TCAGGGAGAA AATGTGTAA

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

    RefSeq XP_016856647.1
    CDS25..4743
    Translation

    Target ORF information:

    RefSeq Version XM_017001158.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001158.1

    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
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGA AAGCGTAAAA 
    GATCAAAATC AACATACTAT GAACAAGCAA TATGAAAAAG AGAGGCAAAG ACTTGTTACT 
    GGAATAGAAG AACTACGTAC TAAGCTGATA CAAATAGAAG CTGAAAATTC TGATTTGAAG 
    GTTAACATGG CTCACAGAAC TAGTCAGTTT CAGCTGATTC AAGAGGAGCT GCTAGAGAAA 
    GCTTCAAACT CCAGCAAACT GGAAAGTGAA ATGACAAAGA AATGTTCTCA ACTTTTAACT 
    CTTGAGAAAC AGCTGGAAGA AAAGATAGTT GCTTATTCCT CTATTGCTGC AAAAAATGCA 
    GAACTAGAAC AGGAGCTTAT GGAAAAGAAT GAAAAGATAA GGAGTCTAGA AACCAATATT 
    AATACAGAGC ATGAGAAAAT TTGTTTAGCC TTTGAAAAAG CAAAGAAAAT TCACTTGGAA 
    CAGCATAAAG AAATGGAAAA GCAGATTGAA AGACTTGAAG CTCAACTAGA GAAAAAGGAC 
    CAACAATTTA AAGAACAAGA AAAGACTATG TCCATGTTGC AACAAGATAT AATATGCAAA 
    CAACATCATC TTGAATCACT AGATAGACTC TTGACGGAAA GCAAAGGGGA AATGAAAAAG 
    GAAAATATGA AGAAAGATGA AGCTTTAAAA GCATTACAGA ACCAAGTATC TGAAGAAACA 
    ATCAAGGTTA GGCAACTAGA TTCAGCATTG GAAATTTGTA AGGAAGAACT TGTCTTGCAT 
    TTGAATCAAT TGGAAGGAAA TAAGGAAAAG TTTGAAAAAC AGTTAAAGAA GAAATCTGAA 
    GAGGTATATT GTTTACAGAA AGAGCTAAAG ATAAAAAATC ACAGTCTTCA AGAGACTTCT 
    GAGCAAAACG TTATTCTACA GCATACTCTT CAGCAACAGC AGCAAATGTT ACAACAAGAG 
    ACAATTAGAA ATGGAGAGCT AGAAGATACT CAAACTAAAC TTGAAAAACA GGTGTCAAAA 
    CTGGAACAAG AACTTCAAAA ACAAAGGGAA AGTTCAGCTG AAAAGTTGAG AAAAATGGAG 
    GAGAAATGTG AATCAGCTGC ACATGAAGCA GATTTGAAAA GGCAAAAAGT GATTGAGCTT 
    ACTGGCACTG CCAGGCAAGT AAAGATTGAG ATGGATCAGT ACAAAGAAGA GCTGTCTAAA 
    ATGGAAAAGG AAATAATGCA CCTAAAACGA GATGGAGAAA ATAAAGCAAT GCACCTCTCT 
    CAATTAGATA TGATCTTAGA TCAGACAAAG ACAGAGCTAG AAAAGAAAAC AAATGCTGTA 
    AAGGAGTTAG AAAAGTTACA GCACAGTACT GAAACTGAAC TAACAGAAGC CTTGCAAAAA 
    CGGGAAGTAC TTGAGACTGA ACTACAAAAT GCTCATGGAG AATTAAAAAG TACTTTAAGA 
    CAACTCCAGG AATTGAGAGA TGTACTACAG AAGGCTCAAT TATCATTAGA GGAAAAATAC 
    ACTACTATAA AGGATCTCAC AGCTGAACTT AGAGAATGCA AGATGGAGAT TGAAGACAAA 
    AAGCAGGAGC TCCTTGAAAT GGATCAGGCA CTTAAAGAGA GAAATTGGGA ACTAAAGCAA 
    AGAGCAGCTC AGGTTACACA TTTGGATATG ACTATTCGTG AGCACAGAGG AGAAATGGAA 
    CAAAAAATAA TTAAATTAGA AGGTACTCTG GAGAAATCAG AATTGGAACT TAAAGAATGT 
    AACAAACAGA TAGAAAGTCT GAATGACAAA TTACAAAATG CTAAAGAACA GCTTCGAGAA 
    AAAGAGTTTA TAATGCTACA AAATGAACAG GAGATAAGTC AACTGAAAAA AGAAATTGAA 
    AGAACACAAC AAAGGATGAA AGAAATGGAG AGTGTTATGA AAGAGCAAGA ACAGTACATT 
    GCCACTCAGT ACAAGGAGGC CATAGATTTG GGGCAAGAAT TGAGGCTGAC CCGGGAGCAG 
    GTGCAGAACT CTCATACAGA ATTGGCAGAG GCTCGTCATC AGCAAGTCCA AGCACAGAGA 
    GAAATAGAAA GGCTCTCTAG TGAACTGGAG GATATGAAGC AACTCTCTAA AGAGAAAGAT 
    GCTCATGGAA ACCATTTAGC TGAAGAACTG GGGGCTTCTA AAGTACGTGA AGCTCATTTA 
    GAAGCAAGAA TGCAAGCAGA AATCAAGAAA TTGTCAGCAG AAGTAGAATC TCTCAAAGAA 
    GCTTATCATA TGGAGATGAT TTCACATCAA GAGAACCATG CAAAGTGGAA GATTTCTGCT 
    GACTCTCAAA AGTCTTCTGT TCAGCAACTA AACGAACAGT TAGAGAAGGC AAAATTGGAA 
    TTAGAAGAAG CTCAGGATAC TGTAAGCAAT TTGCATCAAC AAGTCCAAGA TAGGAATGAA 
    GTAATTGAAG CTGCAAATGA AGCATTACTT ACTAAAGAAT CAGAATTAAC CAGATTACAG 
    GCCAAAATTT CTGGACATGA AAAGGCAGAA GACATCAAGT TTCTGCCAGC CCCATTTACA 
    TCTCCAACAG AAATTATGCC TGATGTTCAA GATCCAAAAT TTGCTAAATG TTTTCACACA 
    TCTTTTTCCA AGTGTACAAA ATTACGTCGC TCTATTAGTG CCAGTGATCT TACTTTCAAA 
    ATTCATGGTG ATGAAGATCT TTCTGAAGAA TTACTACAGG ACTTAAAGAA AATGCAATTA 
    GAACAGCCTT CAACATTAGA AGAAAGCCAT AAGAATCTGA CTTACACCCA GCCAGACTCA 
    TTTAAACCTC TCACATATAA CCTAGAAGCT GATAGTTCTG AGAATAATGA CTTTAACACG 
    CTTAGTGGGA TGCTAAGATA CATAAACAAA GAAGTAAGAC TATTAAAAAA GTCTTCTATG 
    CAAACAGGTG CTGGTTTAAA TCAGGGAGAA AATGTGTAA

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

    CCDC18 ( XM_017001159.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856648.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu87317
    Clone ID Related Accession (Same CDS sequence) XM_017001159.1 , XM_017001159.2
    Accession Version XM_017001159.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4716bp)
    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 coiled-coil domain-containing protein 18 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGCTTGAA GCTCAACTAG AGAAAAAGGA CCAACAATTT 
    AAAGAACAAG AAAAGACTAT GTCCATGTTG CAACAAGATA TAATATGCAA ACAACATCAT 
    CTTGAATCAC TAGATAGACT CTTGACGGAA AGCAAAGGGG AAATGAAAAA GGAAAATATG 
    AAGAAAGATG AAGCTTTAAA AGCATTACAG AACCAAGTAT CTGAAGAAAC AATCAAGGTT 
    AGGCAACTAG ATTCAGCATT GGAAATTTGT AAGGAAGAAC TTGTCTTGCA TTTGAATCAA 
    TTGGAAGGAA ATAAGGAAAA GTTTGAAAAA CAGTTAAAGA AGAAATCTGA AGAGGTATAT 
    TGTTTACAGA AAGAGCTAAA GATAAAAAAT CACAGTCTTC AAGAGACTTC TGAGCAAAAC 
    GTTATTCTAC AGCATACTCT TCAGCAACAG CAGCAAATGT TACAACAAGA GACAATTAGA 
    AATGGAGAGC TAGAAGATAC TCAAACTAAA CTTGAAAAAC AGGTGTCAAA ACTGGAACAA 
    GAACTTCAAA AACAAAGGGA AAGTTCAGCT GAAAAGTTGA GAAAAATGGA GGAGAAATGT 
    GAATCAGCTG CACATGAAGC AGATTTGAAA AGGCAAAAAG TGATTGAGCT TACTGGCACT 
    GCCAGGCAAG TAAAGATTGA GATGGATCAG TACAAAGAAG AGCTGTCTAA AATGGAAAAG 
    GAAATAATGC ACCTAAAACG AGATGGAGAA AATAAAGCAA TGCACCTCTC TCAATTAGAT 
    ATGATCTTAG ATCAGACAAA GACAGAGCTA GAAAAGAAAA CAAATGCTGT AAAGGAGTTA 
    GAAAAGTTAC AGCACAGTAC TGAAACTGAA CTAACAGAAG CCTTGCAAAA ACGGGAAGTA 
    CTTGAGACTG AACTACAAAA TGCTCATGGA GAATTAAAAA GTACTTTAAG ACAACTCCAG 
    GAATTGAGAG ATGTACTACA GAAGGCTCAA TTATCATTAG AGGAAAAATA CACTACTATA 
    AAGGATCTCA CAGCTGAACT TAGAGAATGC AAGATGGAGA TTGAAGACAA AAAGCAGGAG 
    CTCCTTGAAA TGGATCAGGC ACTTAAAGAG AGAAATTGGG AACTAAAGCA AAGAGCAGCT 
    CAGGTTACAC ATTTGGATAT GACTATTCGT GAGCACAGAG GAGAAATGGA ACAAAAAATA 
    ATTAAATTAG AAGGTACTCT GGAGAAATCA GAATTGGAAC TTAAAGAATG TAACAAACAG 
    ATAGAAAGTC TGAATGACAA ATTACAAAAT GCTAAAGAAC AGCTTCGAGA AAAAGAGTTT 
    ATAATGCTAC AAAATGAACA GGAGATAAGT CAACTGAAAA AAGAAATTGA AAGAACACAA 
    CAAAGGATGA AAGAAATGGA GAGTGTTATG AAAGAGCAAG AACAGTACAT TGCCACTCAG 
    TACAAGGAGG CCATAGATTT GGGGCAAGAA TTGAGGCTGA CCCGGGAGCA GGTGCAGAAC 
    TCTCATACAG AATTGGCAGA GGCTCGTCAT CAGCAAGTCC AAGCACAGAG AGAAATAGAA 
    AGGCTCTCTA GTGAACTGGA GGATATGAAG CAACTCTCTA AAGAGAAAGA TGCTCATGGA 
    AACCATTTAG CTGAAGAACT GGGGGCTTCT AAAGTACGTG AAGCTCATTT AGAAGCAAGA 
    ATGCAAGCAG AAATCAAGAA ATTGTCAGCA GAAGTAGAAT CTCTCAAAGA AGCTTATCAT 
    ATGGAGATGA TTTCACATCA AGAGAACCAT GCAAAGTGGA AGATTTCTGC TGACTCTCAA 
    AAGTCTTCTG TTCAGCAACT AAACGAACAG TTAGAGAAGG CAAAATTGGA ATTAGAAGAA 
    GCTCAGGATA CTGTAAGCAA TTTGCATCAA CAAGTCCAAG ATAGGAATGA AGTAATTGAA 
    GCTGCAAATG AAGCATTACT TACTAAAGAA TCAGAATTAA CCAGATTACA GGCCAAAATT 
    TCTGGACATG AAAAGGCAGA AGACATCAAG TTTCTGCCAG CCCCATTTAC ATCTCCAACA 
    GAAATTATGC CTGATGTTCA AGATCCAAAA TTTGCTAAAT GTTTTCACAC ATCTTTTTCC 
    AAGTGTACAA AATTACGTCG CTCTATTAGT GCCAGTGATC TTACTTTCAA AATTCATGGT 
    GATGAAGATC TTTCTGAAGA ATTACTACAG GACTTAAAGA AAATGCAATT AGAACAGCCT 
    TCAACATTAG AAGAAAGCCA TAAGAATCTG ACTTACACCC AGCCAGACTC ATTTAAACCT 
    CTCACATATA ACCTAGAAGC TGATAGTTCT GAGAATAATG ACTTTAACAC GCTTAGTGGG 
    ATGCTAAGAT ACATAAACAA AGAAGTAAGA CTATTAAAAA AGTCTTCTAT GCAAACAGGT 
    GCTGGTTTAA ATCAGGTATG TATTTTATAC ACTGTAAACT GTAATAATTT GTTTCCAAAG 
    AATATCATTT TATTACTTGG AAGAAAATTC ATATATTTAA ATGAAAAACT ACTAATATTT 
    GAAGAAGGAA GATTTTACAT TTTATACATT AAGTAA

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

    RefSeq XP_016856648.1
    CDS25..4740
    Translation

    Target ORF information:

    RefSeq Version XM_017001159.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001159.1

    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
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGCTTGAA GCTCAACTAG AGAAAAAGGA CCAACAATTT 
    AAAGAACAAG AAAAGACTAT GTCCATGTTG CAACAAGATA TAATATGCAA ACAACATCAT 
    CTTGAATCAC TAGATAGACT CTTGACGGAA AGCAAAGGGG AAATGAAAAA GGAAAATATG 
    AAGAAAGATG AAGCTTTAAA AGCATTACAG AACCAAGTAT CTGAAGAAAC AATCAAGGTT 
    AGGCAACTAG ATTCAGCATT GGAAATTTGT AAGGAAGAAC TTGTCTTGCA TTTGAATCAA 
    TTGGAAGGAA ATAAGGAAAA GTTTGAAAAA CAGTTAAAGA AGAAATCTGA AGAGGTATAT 
    TGTTTACAGA AAGAGCTAAA GATAAAAAAT CACAGTCTTC AAGAGACTTC TGAGCAAAAC 
    GTTATTCTAC AGCATACTCT TCAGCAACAG CAGCAAATGT TACAACAAGA GACAATTAGA 
    AATGGAGAGC TAGAAGATAC TCAAACTAAA CTTGAAAAAC AGGTGTCAAA ACTGGAACAA 
    GAACTTCAAA AACAAAGGGA AAGTTCAGCT GAAAAGTTGA GAAAAATGGA GGAGAAATGT 
    GAATCAGCTG CACATGAAGC AGATTTGAAA AGGCAAAAAG TGATTGAGCT TACTGGCACT 
    GCCAGGCAAG TAAAGATTGA GATGGATCAG TACAAAGAAG AGCTGTCTAA AATGGAAAAG 
    GAAATAATGC ACCTAAAACG AGATGGAGAA AATAAAGCAA TGCACCTCTC TCAATTAGAT 
    ATGATCTTAG ATCAGACAAA GACAGAGCTA GAAAAGAAAA CAAATGCTGT AAAGGAGTTA 
    GAAAAGTTAC AGCACAGTAC TGAAACTGAA CTAACAGAAG CCTTGCAAAA ACGGGAAGTA 
    CTTGAGACTG AACTACAAAA TGCTCATGGA GAATTAAAAA GTACTTTAAG ACAACTCCAG 
    GAATTGAGAG ATGTACTACA GAAGGCTCAA TTATCATTAG AGGAAAAATA CACTACTATA 
    AAGGATCTCA CAGCTGAACT TAGAGAATGC AAGATGGAGA TTGAAGACAA AAAGCAGGAG 
    CTCCTTGAAA TGGATCAGGC ACTTAAAGAG AGAAATTGGG AACTAAAGCA AAGAGCAGCT 
    CAGGTTACAC ATTTGGATAT GACTATTCGT GAGCACAGAG GAGAAATGGA ACAAAAAATA 
    ATTAAATTAG AAGGTACTCT GGAGAAATCA GAATTGGAAC TTAAAGAATG TAACAAACAG 
    ATAGAAAGTC TGAATGACAA ATTACAAAAT GCTAAAGAAC AGCTTCGAGA AAAAGAGTTT 
    ATAATGCTAC AAAATGAACA GGAGATAAGT CAACTGAAAA AAGAAATTGA AAGAACACAA 
    CAAAGGATGA AAGAAATGGA GAGTGTTATG AAAGAGCAAG AACAGTACAT TGCCACTCAG 
    TACAAGGAGG CCATAGATTT GGGGCAAGAA TTGAGGCTGA CCCGGGAGCA GGTGCAGAAC 
    TCTCATACAG AATTGGCAGA GGCTCGTCAT CAGCAAGTCC AAGCACAGAG AGAAATAGAA 
    AGGCTCTCTA GTGAACTGGA GGATATGAAG CAACTCTCTA AAGAGAAAGA TGCTCATGGA 
    AACCATTTAG CTGAAGAACT GGGGGCTTCT AAAGTACGTG AAGCTCATTT AGAAGCAAGA 
    ATGCAAGCAG AAATCAAGAA ATTGTCAGCA GAAGTAGAAT CTCTCAAAGA AGCTTATCAT 
    ATGGAGATGA TTTCACATCA AGAGAACCAT GCAAAGTGGA AGATTTCTGC TGACTCTCAA 
    AAGTCTTCTG TTCAGCAACT AAACGAACAG TTAGAGAAGG CAAAATTGGA ATTAGAAGAA 
    GCTCAGGATA CTGTAAGCAA TTTGCATCAA CAAGTCCAAG ATAGGAATGA AGTAATTGAA 
    GCTGCAAATG AAGCATTACT TACTAAAGAA TCAGAATTAA CCAGATTACA GGCCAAAATT 
    TCTGGACATG AAAAGGCAGA AGACATCAAG TTTCTGCCAG CCCCATTTAC ATCTCCAACA 
    GAAATTATGC CTGATGTTCA AGATCCAAAA TTTGCTAAAT GTTTTCACAC ATCTTTTTCC 
    AAGTGTACAA AATTACGTCG CTCTATTAGT GCCAGTGATC TTACTTTCAA AATTCATGGT 
    GATGAAGATC TTTCTGAAGA ATTACTACAG GACTTAAAGA AAATGCAATT AGAACAGCCT 
    TCAACATTAG AAGAAAGCCA TAAGAATCTG ACTTACACCC AGCCAGACTC ATTTAAACCT 
    CTCACATATA ACCTAGAAGC TGATAGTTCT GAGAATAATG ACTTTAACAC GCTTAGTGGG 
    ATGCTAAGAT ACATAAACAA AGAAGTAAGA CTATTAAAAA AGTCTTCTAT GCAAACAGGT 
    GCTGGTTTAA ATCAGGTATG TATTTTATAC ACTGTAAACT GTAATAATTT GTTTCCAAAG 
    AATATCATTT TATTACTTGG AAGAAAATTC ATATATTTAA ATGAAAAACT ACTAATATTT 
    GAAGAAGGAA GATTTTACAT TTTATACATT AAGTAA

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

    CCDC18 ( XM_017001159.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856648.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu87317
    Clone ID Related Accession (Same CDS sequence) XM_017001159.1 , XM_017001159.2
    Accession Version XM_017001159.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4716bp)
    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 coiled-coil domain-containing protein 18 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001159.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGCTTGAA GCTCAACTAG AGAAAAAGGA CCAACAATTT 
    AAAGAACAAG AAAAGACTAT GTCCATGTTG CAACAAGATA TAATATGCAA ACAACATCAT 
    CTTGAATCAC TAGATAGACT CTTGACGGAA AGCAAAGGGG AAATGAAAAA GGAAAATATG 
    AAGAAAGATG AAGCTTTAAA AGCATTACAG AACCAAGTAT CTGAAGAAAC AATCAAGGTT 
    AGGCAACTAG ATTCAGCATT GGAAATTTGT AAGGAAGAAC TTGTCTTGCA TTTGAATCAA 
    TTGGAAGGAA ATAAGGAAAA GTTTGAAAAA CAGTTAAAGA AGAAATCTGA AGAGGTATAT 
    TGTTTACAGA AAGAGCTAAA GATAAAAAAT CACAGTCTTC AAGAGACTTC TGAGCAAAAC 
    GTTATTCTAC AGCATACTCT TCAGCAACAG CAGCAAATGT TACAACAAGA GACAATTAGA 
    AATGGAGAGC TAGAAGATAC TCAAACTAAA CTTGAAAAAC AGGTGTCAAA ACTGGAACAA 
    GAACTTCAAA AACAAAGGGA AAGTTCAGCT GAAAAGTTGA GAAAAATGGA GGAGAAATGT 
    GAATCAGCTG CACATGAAGC AGATTTGAAA AGGCAAAAAG TGATTGAGCT TACTGGCACT 
    GCCAGGCAAG TAAAGATTGA GATGGATCAG TACAAAGAAG AGCTGTCTAA AATGGAAAAG 
    GAAATAATGC ACCTAAAACG AGATGGAGAA AATAAAGCAA TGCACCTCTC TCAATTAGAT 
    ATGATCTTAG ATCAGACAAA GACAGAGCTA GAAAAGAAAA CAAATGCTGT AAAGGAGTTA 
    GAAAAGTTAC AGCACAGTAC TGAAACTGAA CTAACAGAAG CCTTGCAAAA ACGGGAAGTA 
    CTTGAGACTG AACTACAAAA TGCTCATGGA GAATTAAAAA GTACTTTAAG ACAACTCCAG 
    GAATTGAGAG ATGTACTACA GAAGGCTCAA TTATCATTAG AGGAAAAATA CACTACTATA 
    AAGGATCTCA CAGCTGAACT TAGAGAATGC AAGATGGAGA TTGAAGACAA AAAGCAGGAG 
    CTCCTTGAAA TGGATCAGGC ACTTAAAGAG AGAAATTGGG AACTAAAGCA AAGAGCAGCT 
    CAGGTTACAC ATTTGGATAT GACTATTCGT GAGCACAGAG GAGAAATGGA ACAAAAAATA 
    ATTAAATTAG AAGGTACTCT GGAGAAATCA GAATTGGAAC TTAAAGAATG TAACAAACAG 
    ATAGAAAGTC TGAATGACAA ATTACAAAAT GCTAAAGAAC AGCTTCGAGA AAAAGAGTTT 
    ATAATGCTAC AAAATGAACA GGAGATAAGT CAACTGAAAA AAGAAATTGA AAGAACACAA 
    CAAAGGATGA AAGAAATGGA GAGTGTTATG AAAGAGCAAG AACAGTACAT TGCCACTCAG 
    TACAAGGAGG CCATAGATTT GGGGCAAGAA TTGAGGCTGA CCCGGGAGCA GGTGCAGAAC 
    TCTCATACAG AATTGGCAGA GGCTCGTCAT CAGCAAGTCC AAGCACAGAG AGAAATAGAA 
    AGGCTCTCTA GTGAACTGGA GGATATGAAG CAACTCTCTA AAGAGAAAGA TGCTCATGGA 
    AACCATTTAG CTGAAGAACT GGGGGCTTCT AAAGTACGTG AAGCTCATTT AGAAGCAAGA 
    ATGCAAGCAG AAATCAAGAA ATTGTCAGCA GAAGTAGAAT CTCTCAAAGA AGCTTATCAT 
    ATGGAGATGA TTTCACATCA AGAGAACCAT GCAAAGTGGA AGATTTCTGC TGACTCTCAA 
    AAGTCTTCTG TTCAGCAACT AAACGAACAG TTAGAGAAGG CAAAATTGGA ATTAGAAGAA 
    GCTCAGGATA CTGTAAGCAA TTTGCATCAA CAAGTCCAAG ATAGGAATGA AGTAATTGAA 
    GCTGCAAATG AAGCATTACT TACTAAAGAA TCAGAATTAA CCAGATTACA GGCCAAAATT 
    TCTGGACATG AAAAGGCAGA AGACATCAAG TTTCTGCCAG CCCCATTTAC ATCTCCAACA 
    GAAATTATGC CTGATGTTCA AGATCCAAAA TTTGCTAAAT GTTTTCACAC ATCTTTTTCC 
    AAGTGTACAA AATTACGTCG CTCTATTAGT GCCAGTGATC TTACTTTCAA AATTCATGGT 
    GATGAAGATC TTTCTGAAGA ATTACTACAG GACTTAAAGA AAATGCAATT AGAACAGCCT 
    TCAACATTAG AAGAAAGCCA TAAGAATCTG ACTTACACCC AGCCAGACTC ATTTAAACCT 
    CTCACATATA ACCTAGAAGC TGATAGTTCT GAGAATAATG ACTTTAACAC GCTTAGTGGG 
    ATGCTAAGAT ACATAAACAA AGAAGTAAGA CTATTAAAAA AGTCTTCTAT GCAAACAGGT 
    GCTGGTTTAA ATCAGGTATG TATTTTATAC ACTGTAAACT GTAATAATTT GTTTCCAAAG 
    AATATCATTT TATTACTTGG AAGAAAATTC ATATATTTAA ATGAAAAACT ACTAATATTT 
    GAAGAAGGAA GATTTTACAT TTTATACATT AAGTAA

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

    RefSeq XP_016856648.1
    CDS97..4812
    Translation

    Target ORF information:

    RefSeq Version XM_017001159.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001159.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGCTTGAA GCTCAACTAG AGAAAAAGGA CCAACAATTT 
    AAAGAACAAG AAAAGACTAT GTCCATGTTG CAACAAGATA TAATATGCAA ACAACATCAT 
    CTTGAATCAC TAGATAGACT CTTGACGGAA AGCAAAGGGG AAATGAAAAA GGAAAATATG 
    AAGAAAGATG AAGCTTTAAA AGCATTACAG AACCAAGTAT CTGAAGAAAC AATCAAGGTT 
    AGGCAACTAG ATTCAGCATT GGAAATTTGT AAGGAAGAAC TTGTCTTGCA TTTGAATCAA 
    TTGGAAGGAA ATAAGGAAAA GTTTGAAAAA CAGTTAAAGA AGAAATCTGA AGAGGTATAT 
    TGTTTACAGA AAGAGCTAAA GATAAAAAAT CACAGTCTTC AAGAGACTTC TGAGCAAAAC 
    GTTATTCTAC AGCATACTCT TCAGCAACAG CAGCAAATGT TACAACAAGA GACAATTAGA 
    AATGGAGAGC TAGAAGATAC TCAAACTAAA CTTGAAAAAC AGGTGTCAAA ACTGGAACAA 
    GAACTTCAAA AACAAAGGGA AAGTTCAGCT GAAAAGTTGA GAAAAATGGA GGAGAAATGT 
    GAATCAGCTG CACATGAAGC AGATTTGAAA AGGCAAAAAG TGATTGAGCT TACTGGCACT 
    GCCAGGCAAG TAAAGATTGA GATGGATCAG TACAAAGAAG AGCTGTCTAA AATGGAAAAG 
    GAAATAATGC ACCTAAAACG AGATGGAGAA AATAAAGCAA TGCACCTCTC TCAATTAGAT 
    ATGATCTTAG ATCAGACAAA GACAGAGCTA GAAAAGAAAA CAAATGCTGT AAAGGAGTTA 
    GAAAAGTTAC AGCACAGTAC TGAAACTGAA CTAACAGAAG CCTTGCAAAA ACGGGAAGTA 
    CTTGAGACTG AACTACAAAA TGCTCATGGA GAATTAAAAA GTACTTTAAG ACAACTCCAG 
    GAATTGAGAG ATGTACTACA GAAGGCTCAA TTATCATTAG AGGAAAAATA CACTACTATA 
    AAGGATCTCA CAGCTGAACT TAGAGAATGC AAGATGGAGA TTGAAGACAA AAAGCAGGAG 
    CTCCTTGAAA TGGATCAGGC ACTTAAAGAG AGAAATTGGG AACTAAAGCA AAGAGCAGCT 
    CAGGTTACAC ATTTGGATAT GACTATTCGT GAGCACAGAG GAGAAATGGA ACAAAAAATA 
    ATTAAATTAG AAGGTACTCT GGAGAAATCA GAATTGGAAC TTAAAGAATG TAACAAACAG 
    ATAGAAAGTC TGAATGACAA ATTACAAAAT GCTAAAGAAC AGCTTCGAGA AAAAGAGTTT 
    ATAATGCTAC AAAATGAACA GGAGATAAGT CAACTGAAAA AAGAAATTGA AAGAACACAA 
    CAAAGGATGA AAGAAATGGA GAGTGTTATG AAAGAGCAAG AACAGTACAT TGCCACTCAG 
    TACAAGGAGG CCATAGATTT GGGGCAAGAA TTGAGGCTGA CCCGGGAGCA GGTGCAGAAC 
    TCTCATACAG AATTGGCAGA GGCTCGTCAT CAGCAAGTCC AAGCACAGAG AGAAATAGAA 
    AGGCTCTCTA GTGAACTGGA GGATATGAAG CAACTCTCTA AAGAGAAAGA TGCTCATGGA 
    AACCATTTAG CTGAAGAACT GGGGGCTTCT AAAGTACGTG AAGCTCATTT AGAAGCAAGA 
    ATGCAAGCAG AAATCAAGAA ATTGTCAGCA GAAGTAGAAT CTCTCAAAGA AGCTTATCAT 
    ATGGAGATGA TTTCACATCA AGAGAACCAT GCAAAGTGGA AGATTTCTGC TGACTCTCAA 
    AAGTCTTCTG TTCAGCAACT AAACGAACAG TTAGAGAAGG CAAAATTGGA ATTAGAAGAA 
    GCTCAGGATA CTGTAAGCAA TTTGCATCAA CAAGTCCAAG ATAGGAATGA AGTAATTGAA 
    GCTGCAAATG AAGCATTACT TACTAAAGAA TCAGAATTAA CCAGATTACA GGCCAAAATT 
    TCTGGACATG AAAAGGCAGA AGACATCAAG TTTCTGCCAG CCCCATTTAC ATCTCCAACA 
    GAAATTATGC CTGATGTTCA AGATCCAAAA TTTGCTAAAT GTTTTCACAC ATCTTTTTCC 
    AAGTGTACAA AATTACGTCG CTCTATTAGT GCCAGTGATC TTACTTTCAA AATTCATGGT 
    GATGAAGATC TTTCTGAAGA ATTACTACAG GACTTAAAGA AAATGCAATT AGAACAGCCT 
    TCAACATTAG AAGAAAGCCA TAAGAATCTG ACTTACACCC AGCCAGACTC ATTTAAACCT 
    CTCACATATA ACCTAGAAGC TGATAGTTCT GAGAATAATG ACTTTAACAC GCTTAGTGGG 
    ATGCTAAGAT ACATAAACAA AGAAGTAAGA CTATTAAAAA AGTCTTCTAT GCAAACAGGT 
    GCTGGTTTAA ATCAGGTATG TATTTTATAC ACTGTAAACT GTAATAATTT GTTTCCAAAG 
    AATATCATTT TATTACTTGG AAGAAAATTC ATATATTTAA ATGAAAAACT ACTAATATTT 
    GAAGAAGGAA GATTTTACAT TTTATACATT AAGTAA

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

    CCDC18 ( XM_017001160.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856649.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu87318
    Clone ID Related Accession (Same CDS sequence) XM_017001160.1 , XM_017001160.2
    Accession Version XM_017001160.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4704bp)
    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 coiled-coil domain-containing protein 18 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGGTTATGAA AGAGCAAGAA CAGTACATTG CCACTCAGTA CAAGGAGGCC 
    ATAGATTTGG GGCAAGAATT GAGGCTGACC CGGGAGCAGG TGCAGAACTC TCATACAGAA 
    TTGGCAGAGG CTCGTCATCA GCAAGTCCAA GCACAGAGAG AAATAGAAAG GCTCTCTAGT 
    GAACTGGAGG ATATGAAGCA ACTCTCTAAA GAGAAAGATG CTCATGGAAA CCATTTAGCT 
    GAAGAACTGG GGGCTTCTAA AGTACGTGAA GCTCATTTAG AAGCAAGAAT GCAAGCAGAA 
    ATCAAGAAAT TGTCAGCAGA AGTAGAATCT CTCAAAGAAG CTTATCATAT GGAGATGATT 
    TCACATCAAG AGAACCATGC AAAGTGGAAG ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT 
    CAGCAACTAA ACGAACAGTT AGAGAAGGCA AAATTGGAAT TAGAAGAAGC TCAGGATACT 
    GTAAGCAATT TGCATCAACA AGTCCAAGAT AGGAATGAAG TAATTGAAGC TGCAAATGAA 
    GCATTACTTA CTAAAGAATC AGAATTAACC AGATTACAGG CCAAAATTTC TGGACATGAA 
    AAGGCAGAAG ACATCAAGTT TCTGCCAGCC CCATTTACAT CTCCAACAGA AATTATGCCT 
    GATGTTCAAG ATCCAAAATT TGCTAAATGT TTTCACACAT CTTTTTCCAA GTGTACAAAA 
    TTACGTCGCT CTATTAGTGC CAGTGATCTT ACTTTCAAAA TTCATGGTGA TGAAGATCTT 
    TCTGAAGAAT TACTACAGGA CTTAAAGAAA ATGCAATTAG AACAGCCTTC AACATTAGAA 
    GAAAGCCATA AGAATCTGAC TTACACCCAG CCAGACTCAT TTAAACCTCT CACATATAAC 
    CTAGAAGCTG ATAGTTCTGA GAATAATGAC TTTAACACGC TTAGTGGGAT GCTAAGATAC 
    ATAAACAAAG AAGTAAGACT ATTAAAAAAG TCTTCTATGC AAACAGGTGC TGGTTTAAAT 
    CAGGTATGTA TTTTATACAC TGTAAACTGT AATAATTTGT TTCCAAAGAA TATCATTTTA 
    TTACTTGGAA GAAAATTCAT ATATTTAAAT GAAAAACTAC TAATATTTGA AGAAGGAAGA 
    TTTTACATTT TATACATTAA GTAA

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

    RefSeq XP_016856649.1
    CDS25..4728
    Translation

    Target ORF information:

    RefSeq Version XM_017001160.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001160.1

    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
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGGTTATGAA AGAGCAAGAA CAGTACATTG CCACTCAGTA CAAGGAGGCC 
    ATAGATTTGG GGCAAGAATT GAGGCTGACC CGGGAGCAGG TGCAGAACTC TCATACAGAA 
    TTGGCAGAGG CTCGTCATCA GCAAGTCCAA GCACAGAGAG AAATAGAAAG GCTCTCTAGT 
    GAACTGGAGG ATATGAAGCA ACTCTCTAAA GAGAAAGATG CTCATGGAAA CCATTTAGCT 
    GAAGAACTGG GGGCTTCTAA AGTACGTGAA GCTCATTTAG AAGCAAGAAT GCAAGCAGAA 
    ATCAAGAAAT TGTCAGCAGA AGTAGAATCT CTCAAAGAAG CTTATCATAT GGAGATGATT 
    TCACATCAAG AGAACCATGC AAAGTGGAAG ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT 
    CAGCAACTAA ACGAACAGTT AGAGAAGGCA AAATTGGAAT TAGAAGAAGC TCAGGATACT 
    GTAAGCAATT TGCATCAACA AGTCCAAGAT AGGAATGAAG TAATTGAAGC TGCAAATGAA 
    GCATTACTTA CTAAAGAATC AGAATTAACC AGATTACAGG CCAAAATTTC TGGACATGAA 
    AAGGCAGAAG ACATCAAGTT TCTGCCAGCC CCATTTACAT CTCCAACAGA AATTATGCCT 
    GATGTTCAAG ATCCAAAATT TGCTAAATGT TTTCACACAT CTTTTTCCAA GTGTACAAAA 
    TTACGTCGCT CTATTAGTGC CAGTGATCTT ACTTTCAAAA TTCATGGTGA TGAAGATCTT 
    TCTGAAGAAT TACTACAGGA CTTAAAGAAA ATGCAATTAG AACAGCCTTC AACATTAGAA 
    GAAAGCCATA AGAATCTGAC TTACACCCAG CCAGACTCAT TTAAACCTCT CACATATAAC 
    CTAGAAGCTG ATAGTTCTGA GAATAATGAC TTTAACACGC TTAGTGGGAT GCTAAGATAC 
    ATAAACAAAG AAGTAAGACT ATTAAAAAAG TCTTCTATGC AAACAGGTGC TGGTTTAAAT 
    CAGGTATGTA TTTTATACAC TGTAAACTGT AATAATTTGT TTCCAAAGAA TATCATTTTA 
    TTACTTGGAA GAAAATTCAT ATATTTAAAT GAAAAACTAC TAATATTTGA AGAAGGAAGA 
    TTTTACATTT TATACATTAA GTAA

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

    CCDC18 ( XM_017001160.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856649.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu87318
    Clone ID Related Accession (Same CDS sequence) XM_017001160.1 , XM_017001160.2
    Accession Version XM_017001160.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4704bp)
    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 coiled-coil domain-containing protein 18 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001160.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGGTTATGAA AGAGCAAGAA CAGTACATTG CCACTCAGTA CAAGGAGGCC 
    ATAGATTTGG GGCAAGAATT GAGGCTGACC CGGGAGCAGG TGCAGAACTC TCATACAGAA 
    TTGGCAGAGG CTCGTCATCA GCAAGTCCAA GCACAGAGAG AAATAGAAAG GCTCTCTAGT 
    GAACTGGAGG ATATGAAGCA ACTCTCTAAA GAGAAAGATG CTCATGGAAA CCATTTAGCT 
    GAAGAACTGG GGGCTTCTAA AGTACGTGAA GCTCATTTAG AAGCAAGAAT GCAAGCAGAA 
    ATCAAGAAAT TGTCAGCAGA AGTAGAATCT CTCAAAGAAG CTTATCATAT GGAGATGATT 
    TCACATCAAG AGAACCATGC AAAGTGGAAG ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT 
    CAGCAACTAA ACGAACAGTT AGAGAAGGCA AAATTGGAAT TAGAAGAAGC TCAGGATACT 
    GTAAGCAATT TGCATCAACA AGTCCAAGAT AGGAATGAAG TAATTGAAGC TGCAAATGAA 
    GCATTACTTA CTAAAGAATC AGAATTAACC AGATTACAGG CCAAAATTTC TGGACATGAA 
    AAGGCAGAAG ACATCAAGTT TCTGCCAGCC CCATTTACAT CTCCAACAGA AATTATGCCT 
    GATGTTCAAG ATCCAAAATT TGCTAAATGT TTTCACACAT CTTTTTCCAA GTGTACAAAA 
    TTACGTCGCT CTATTAGTGC CAGTGATCTT ACTTTCAAAA TTCATGGTGA TGAAGATCTT 
    TCTGAAGAAT TACTACAGGA CTTAAAGAAA ATGCAATTAG AACAGCCTTC AACATTAGAA 
    GAAAGCCATA AGAATCTGAC TTACACCCAG CCAGACTCAT TTAAACCTCT CACATATAAC 
    CTAGAAGCTG ATAGTTCTGA GAATAATGAC TTTAACACGC TTAGTGGGAT GCTAAGATAC 
    ATAAACAAAG AAGTAAGACT ATTAAAAAAG TCTTCTATGC AAACAGGTGC TGGTTTAAAT 
    CAGGTATGTA TTTTATACAC TGTAAACTGT AATAATTTGT TTCCAAAGAA TATCATTTTA 
    TTACTTGGAA GAAAATTCAT ATATTTAAAT GAAAAACTAC TAATATTTGA AGAAGGAAGA 
    TTTTACATTT TATACATTAA GTAA

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

    RefSeq XP_016856649.1
    CDS97..4800
    Translation

    Target ORF information:

    RefSeq Version XM_017001160.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001160.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGGTTATGAA AGAGCAAGAA CAGTACATTG CCACTCAGTA CAAGGAGGCC 
    ATAGATTTGG GGCAAGAATT GAGGCTGACC CGGGAGCAGG TGCAGAACTC TCATACAGAA 
    TTGGCAGAGG CTCGTCATCA GCAAGTCCAA GCACAGAGAG AAATAGAAAG GCTCTCTAGT 
    GAACTGGAGG ATATGAAGCA ACTCTCTAAA GAGAAAGATG CTCATGGAAA CCATTTAGCT 
    GAAGAACTGG GGGCTTCTAA AGTACGTGAA GCTCATTTAG AAGCAAGAAT GCAAGCAGAA 
    ATCAAGAAAT TGTCAGCAGA AGTAGAATCT CTCAAAGAAG CTTATCATAT GGAGATGATT 
    TCACATCAAG AGAACCATGC AAAGTGGAAG ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT 
    CAGCAACTAA ACGAACAGTT AGAGAAGGCA AAATTGGAAT TAGAAGAAGC TCAGGATACT 
    GTAAGCAATT TGCATCAACA AGTCCAAGAT AGGAATGAAG TAATTGAAGC TGCAAATGAA 
    GCATTACTTA CTAAAGAATC AGAATTAACC AGATTACAGG CCAAAATTTC TGGACATGAA 
    AAGGCAGAAG ACATCAAGTT TCTGCCAGCC CCATTTACAT CTCCAACAGA AATTATGCCT 
    GATGTTCAAG ATCCAAAATT TGCTAAATGT TTTCACACAT CTTTTTCCAA GTGTACAAAA 
    TTACGTCGCT CTATTAGTGC CAGTGATCTT ACTTTCAAAA TTCATGGTGA TGAAGATCTT 
    TCTGAAGAAT TACTACAGGA CTTAAAGAAA ATGCAATTAG AACAGCCTTC AACATTAGAA 
    GAAAGCCATA AGAATCTGAC TTACACCCAG CCAGACTCAT TTAAACCTCT CACATATAAC 
    CTAGAAGCTG ATAGTTCTGA GAATAATGAC TTTAACACGC TTAGTGGGAT GCTAAGATAC 
    ATAAACAAAG AAGTAAGACT ATTAAAAAAG TCTTCTATGC AAACAGGTGC TGGTTTAAAT 
    CAGGTATGTA TTTTATACAC TGTAAACTGT AATAATTTGT TTCCAAAGAA TATCATTTTA 
    TTACTTGGAA GAAAATTCAT ATATTTAAAT GAAAAACTAC TAATATTTGA AGAAGGAAGA 
    TTTTACATTT TATACATTAA GTAA

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

    CCDC18 ( XM_017001161.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856650.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu87319
    Clone ID Related Accession (Same CDS sequence) XM_017001161.2 , XM_017001161.1
    Accession Version XM_017001161.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4578bp)
    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 coiled-coil domain-containing protein 18 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_017001161.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGGTTATGAA AGAGCAAGAA CAGTACATTG CCACTCAGTA CAAGGAGGCC 
    ATAGATTTGG GGCAAGAATT GAGGCTGACC CGGGAGCAGG TGCAGAACTC TCATACAGAA 
    TTGGCAGAGG CTCGTCATCA GCAAGTCCAA GCACAGAGAG AAATAGAAAG GCTCTCTAGT 
    GAACTGGAGG ATATGAAGCA ACTCTCTAAA GAGAAAGATG CTCATGGAAA CCATTTAGCT 
    GAAGAACTGG GGGCTTCTAA AGTACGTGAA GCTCATTTAG AAGCAAGAAT GCAAGCAGAA 
    ATCAAGAAAT TGTCAGCAGA AGTAGAATCT CTCAAAGAAG CTTATCATAT GGAGATGATT 
    TCACATCAAG AGAACCATGC AAAGTGGAAG ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT 
    CAGCAACTAA ACGAACAGTT AGAGAAGGCA AAATTGGAAT TAGAAGAAGC TCAGGATACT 
    GTAAGCAATT TGCATCAACA AGTCCAAGAT AGGAATGAAG TAATTGAAGC TGCAAATGAA 
    GCATTACTTA CTAAAGAATC AGAATTAACC AGATTACAGG CCAAAATTTC TGGACATGAA 
    AAGGCAGAAG ACATCAAGTT TCTGCCAGCC CCATTTACAT CTCCAACAGA AATTATGCCT 
    GATGTTCAAG ATCCAAAATT TGCTAAATGT TTTCACACAT CTTTTTCCAA GTGTACAAAA 
    TTACGTCGCT CTATTAGTGC CAGTGATCTT ACTTTCAAAA TTCATGGTGA TGAAGATCTT 
    TCTGAAGAAT TACTACAGGA CTTAAAGAAA ATGCAATTAG AACAGCCTTC AACATTAGAA 
    GAAAGCCATA AGAATCTGAC TTACACCCAG CCAGACTCAT TTAAACCTCT CACATATAAC 
    CTAGAAGCTG ATAGTTCTGA GAATAATGAC TTTAACACGC TTAGTGGGAT GCTAAGATAC 
    ATAAACAAAG AAGTAAGACT ATTAAAAAAG TCTTCTATGC AAACAGGTGC TGGTTTAAAT 
    CAGGGAGAAA ATGTGTAA

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

    RefSeq XP_016856650.1
    CDS97..4674
    Translation

    Target ORF information:

    RefSeq Version XM_017001161.2
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001161.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGGTTATGAA AGAGCAAGAA CAGTACATTG CCACTCAGTA CAAGGAGGCC 
    ATAGATTTGG GGCAAGAATT GAGGCTGACC CGGGAGCAGG TGCAGAACTC TCATACAGAA 
    TTGGCAGAGG CTCGTCATCA GCAAGTCCAA GCACAGAGAG AAATAGAAAG GCTCTCTAGT 
    GAACTGGAGG ATATGAAGCA ACTCTCTAAA GAGAAAGATG CTCATGGAAA CCATTTAGCT 
    GAAGAACTGG GGGCTTCTAA AGTACGTGAA GCTCATTTAG AAGCAAGAAT GCAAGCAGAA 
    ATCAAGAAAT TGTCAGCAGA AGTAGAATCT CTCAAAGAAG CTTATCATAT GGAGATGATT 
    TCACATCAAG AGAACCATGC AAAGTGGAAG ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT 
    CAGCAACTAA ACGAACAGTT AGAGAAGGCA AAATTGGAAT TAGAAGAAGC TCAGGATACT 
    GTAAGCAATT TGCATCAACA AGTCCAAGAT AGGAATGAAG TAATTGAAGC TGCAAATGAA 
    GCATTACTTA CTAAAGAATC AGAATTAACC AGATTACAGG CCAAAATTTC TGGACATGAA 
    AAGGCAGAAG ACATCAAGTT TCTGCCAGCC CCATTTACAT CTCCAACAGA AATTATGCCT 
    GATGTTCAAG ATCCAAAATT TGCTAAATGT TTTCACACAT CTTTTTCCAA GTGTACAAAA 
    TTACGTCGCT CTATTAGTGC CAGTGATCTT ACTTTCAAAA TTCATGGTGA TGAAGATCTT 
    TCTGAAGAAT TACTACAGGA CTTAAAGAAA ATGCAATTAG AACAGCCTTC AACATTAGAA 
    GAAAGCCATA AGAATCTGAC TTACACCCAG CCAGACTCAT TTAAACCTCT CACATATAAC 
    CTAGAAGCTG ATAGTTCTGA GAATAATGAC TTTAACACGC TTAGTGGGAT GCTAAGATAC 
    ATAAACAAAG AAGTAAGACT ATTAAAAAAG TCTTCTATGC AAACAGGTGC TGGTTTAAAT 
    CAGGGAGAAA ATGTGTAA

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

    CCDC18 ( XM_017001161.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856650.1 Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu87319
    Clone ID Related Accession (Same CDS sequence) XM_017001161.2 , XM_017001161.1
    Accession Version XM_017001161.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4578bp)
    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 coiled-coil domain-containing protein 18 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGGTTATGAA AGAGCAAGAA CAGTACATTG CCACTCAGTA CAAGGAGGCC 
    ATAGATTTGG GGCAAGAATT GAGGCTGACC CGGGAGCAGG TGCAGAACTC TCATACAGAA 
    TTGGCAGAGG CTCGTCATCA GCAAGTCCAA GCACAGAGAG AAATAGAAAG GCTCTCTAGT 
    GAACTGGAGG ATATGAAGCA ACTCTCTAAA GAGAAAGATG CTCATGGAAA CCATTTAGCT 
    GAAGAACTGG GGGCTTCTAA AGTACGTGAA GCTCATTTAG AAGCAAGAAT GCAAGCAGAA 
    ATCAAGAAAT TGTCAGCAGA AGTAGAATCT CTCAAAGAAG CTTATCATAT GGAGATGATT 
    TCACATCAAG AGAACCATGC AAAGTGGAAG ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT 
    CAGCAACTAA ACGAACAGTT AGAGAAGGCA AAATTGGAAT TAGAAGAAGC TCAGGATACT 
    GTAAGCAATT TGCATCAACA AGTCCAAGAT AGGAATGAAG TAATTGAAGC TGCAAATGAA 
    GCATTACTTA CTAAAGAATC AGAATTAACC AGATTACAGG CCAAAATTTC TGGACATGAA 
    AAGGCAGAAG ACATCAAGTT TCTGCCAGCC CCATTTACAT CTCCAACAGA AATTATGCCT 
    GATGTTCAAG ATCCAAAATT TGCTAAATGT TTTCACACAT CTTTTTCCAA GTGTACAAAA 
    TTACGTCGCT CTATTAGTGC CAGTGATCTT ACTTTCAAAA TTCATGGTGA TGAAGATCTT 
    TCTGAAGAAT TACTACAGGA CTTAAAGAAA ATGCAATTAG AACAGCCTTC AACATTAGAA 
    GAAAGCCATA AGAATCTGAC TTACACCCAG CCAGACTCAT TTAAACCTCT CACATATAAC 
    CTAGAAGCTG ATAGTTCTGA GAATAATGAC TTTAACACGC TTAGTGGGAT GCTAAGATAC 
    ATAAACAAAG AAGTAAGACT ATTAAAAAAG TCTTCTATGC AAACAGGTGC TGGTTTAAAT 
    CAGGGAGAAA ATGTGTAA

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

    RefSeq XP_016856650.1
    CDS25..4602
    Translation

    Target ORF information:

    RefSeq Version XM_017001161.1
    Organism Homo sapiens(human)
    Definition Homo sapiens coiled-coil domain containing 18 (CCDC18), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017001161.1

    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
    4381
    4441
    4501
    4561
    ATGGCTTCCC CCACCAATGG GCATCATGGC GGTAATTGTG GGAAATGTAG TCCCGGGCGG 
    GCTCCGCTAG TGGGCTCGGG CGCGCTCGCC GACCACGATC CCCGGCAAGC CCCGCGCCTT 
    CGGCGGCGCC TCACGCAGTC TGCGCCGGGG CGGGGCAGTG ACCGGGTAGG CGCGTCCCAA 
    CGGCTCCCGC GGCGGTTCGA ATTCTGTGCT GCCGGGGTTC GCTGGTTCTC CGAGTTGTGT 
    CCGAGGCTTC CACGCGCAGG GGCCCGGGAA AGGGTCAGAG GCTTCCTAAC GCAGACTCGA 
    GTGCGAAGCG CGCAGTCGCC GGGTGGGTCT CTCCCCAGCG ACGATTTGGG TGAAATGGAA 
    TCTAGTTCAT CAGACTACTA TAATAAAGAC AATGAAGAGG AAAGTTTGCT TGCAAATGTT 
    GCTTCCTTAA GACATGAACT GAAGATAACA GAATGGAGTT TGCAGAGTTT AGGGGAAGAG 
    TTATCCAGTG TTAGTCCAAG TGAAAATTCT GATTATGCCC CTAATCCTTC AAGGTCTGAA 
    AAGCTAATTT TGGATGTTCA GCCTAGCCAC CCTGGACTTT TGAATTATTC ACCTTATGAA 
    AACGTCTGTA AAATATCTGG TAGCAGCACT GATTTTCAAA AAAAGCCAAG AGATAAGATG 
    TTTTCATCTT CTGCCCCTGT GGATCAGGAG ATTAAAAGCC TTCGAGAGAA ACTAAATAAA 
    CTTAGGCAAC AGAATGCTTG TTTGGTCACA CAGAATCATT CCTTAATGAC TAAATTTGAA 
    TCTATTCACT TTGAATTAAC ACAGTCAAGA GCAAAAGTTT CTATGCTTGA GTCTGCTCAA 
    CAGCAGGCAG CCAGTGTCCC AATCTTAGAA GAACAGATTA TAAATTTGGA AGCAGAGGTT 
    TCAGCTCAAG ATAAAGTTTT GAGAGAGGCA GAAAATAAGC TGGAACAGAG CCAGAAAATG 
    GTAATTGAAA AGGAACAGAG TTTGCAGGAG TCCAAAGAGG AATGTATAAA ATTAAAGGTG 
    GACTTACTTG AACAAACCAA ACAAGGAAAA AGAGCTGAAC GACAAAGGAA TGAAGCACTA 
    TATAATGCCG AAGAGCTGAG TAAAGCTTTC CAACAATATA AAAAAAAAGT GGCTGAAAAA 
    CTGGAAAAGG TTCAAGCTGA AGAAGAAATA TTAGAGAGAA ATCTAACTAA CTGTGAAAAA 
    GAAAATAAAA GGCTACAAGA AAGGTGTGGT CTATATAAAA GTGAACTTGA AATTCTGAAA 
    GAGAAATTAA GGCAGTTAAA AGAAGAAAAT AACAACGGAA AAGAAAAATT AAGGATCATG 
    GCAGTGAAAA ATTCAGAAGT CATGGCACAA CTAACTGAAT CTAGACAAAG TATTTTGAAG 
    CTAGAGAGTG AGTTAGAGAA CAAAGACGAA ATACTTAGAG ACAAATTTTC TTTAATGAAT 
    GAAAACCGAG AATTAAAGGT CCGTGTTGCA GCACAGAATG AGCGACTAGA TTTATGTCAA 
    CAAGAAATTG AAAGTTCAAG GGTAGAACTA AGAAGTTTGG AAAAGATTAT ATCCCAGTTG 
    CCATTAAAAA GAGAATTATT TGGCTTTAAA TCATATCTTT CTAAATACCA GATGAGTAGC 
    TTCTCAAACA AGGAAGACCG TTGCATTGGC TGCTGTGAGG CAAATAAATT GGTGATTTCG 
    GAATTGAGAA TTAAGCTTGC AATAAAAGAG GCAGAAATTC AAAAGCTTCA TGCAAACCTG 
    ACTGCAAATC AGTTATCTCA GAGTCTTATT ACTTGTAATG ACAGCCAAGA AAGTAGCAAA 
    TTAAGTAGTT TAGAAACAGA ACCTGTAAAG CTAGGTGGTC ATCAAGTAGC AGAAAGCGTA 
    AAAGATCAAA ATCAACATAC TATGAACAAG CAATATGAAA AAGAGAGGCA AAGACTTGTT 
    ACTGGAATAG AAGAACTACG TACTAAGCTG ATACAAATAG AAGCTGAAAA TTCTGATTTG 
    AAGGTTAACA TGGCTCACAG AACTAGTCAG TTTCAGCTGA TTCAAGAGGA GCTGCTAGAG 
    AAAGCTTCAA ACTCCAGCAA ACTGGAAAGT GAAATGACAA AGAAATGTTC TCAACTTTTA 
    ACTCTTGAGA AACAGCTGGA AGAAAAGATA GTTGCTTATT CCTCTATTGC TGCAAAAAAT 
    GCAGAACTAG AACAGGAGCT TATGGAAAAG AATGAAAAGA TAAGGAGTCT AGAAACCAAT 
    ATTAATACAG AGCATGAGAA AATTTGTTTA GCCTTTGAAA AAGCAAAGAA AATTCACTTG 
    GAACAGCATA AAGAAATGGA AAAGCAGATT GAAAGACTTG AAGCTCAACT AGAGAAAAAG 
    GACCAACAAT TTAAAGAACA AGAAAAGACT ATGTCCATGT TGCAACAAGA TATAATATGC 
    AAACAACATC ATCTTGAATC ACTAGATAGA CTCTTGACGG AAAGCAAAGG GGAAATGAAA 
    AAGGAAAATA TGAAGAAAGA TGAAGCTTTA AAAGCATTAC AGAACCAAGT ATCTGAAGAA 
    ACAATCAAGG TTAGGCAACT AGATTCAGCA TTGGAAATTT GTAAGGAAGA ACTTGTCTTG 
    CATTTGAATC AATTGGAAGG AAATAAGGAA AAGTTTGAAA AACAGTTAAA GAAGAAATCT 
    GAAGAGGTAT ATTGTTTACA GAAAGAGCTA AAGATAAAAA ATCACAGTCT TCAAGAGACT 
    TCTGAGCAAA ACGTTATTCT ACAGCATACT CTTCAGCAAC AGCAGCAAAT GTTACAACAA 
    GAGACAATTA GAAATGGAGA GCTAGAAGAT ACTCAAACTA AACTTGAAAA ACAGGTGTCA 
    AAACTGGAAC AAGAACTTCA AAAACAAAGG GAAAGTTCAG CTGAAAAGTT GAGAAAAATG 
    GAGGAGAAAT GTGAATCAGC TGCACATGAA GCAGATTTGA AAAGGCAAAA AGTGATTGAG 
    CTTACTGGCA CTGCCAGGCA AGTAAAGATT GAGATGGATC AGTACAAAGA AGAGCTGTCT 
    AAAATGGAAA AGGAAATAAT GCACCTAAAA CGAGATGGAG AAAATAAAGC AATGCACCTC 
    TCTCAATTAG ATATGATCTT AGATCAGACA AAGACAGAGC TAGAAAAGAA AACAAATGCT 
    GTAAAGGAGT TAGAAAAGTT ACAGCACAGT ACTGAAACTG AACTAACAGA AGCCTTGCAA 
    AAACGGGAAG TACTTGAGAC TGAACTACAA AATGCTCATG GAGAATTAAA AAGTACTTTA 
    AGACAACTCC AGGAATTGAG AGATGTACTA CAGAAGGCTC AATTATCATT AGAGGAAAAA 
    TACACTACTA TAAAGGATCT CACAGCTGAA CTTAGAGAAT GCAAGATGGA GATTGAAGAC 
    AAAAAGCAGG AGCTCCTTGA AATGGATCAG GCACTTAAAG AGAGAAATTG GGAACTAAAG 
    CAAAGAGCAG CTCAGGTTAC ACATTTGGAT ATGACTATTC GTGAGCACAG AGGAGAAATG 
    GAACAAAAAA TAATTAAATT AGAAGGTACT CTGGAGAAAT CAGAATTGGA ACTTAAAGAA 
    TGTAACAAAC AGGTTATGAA AGAGCAAGAA CAGTACATTG CCACTCAGTA CAAGGAGGCC 
    ATAGATTTGG GGCAAGAATT GAGGCTGACC CGGGAGCAGG TGCAGAACTC TCATACAGAA 
    TTGGCAGAGG CTCGTCATCA GCAAGTCCAA GCACAGAGAG AAATAGAAAG GCTCTCTAGT 
    GAACTGGAGG ATATGAAGCA ACTCTCTAAA GAGAAAGATG CTCATGGAAA CCATTTAGCT 
    GAAGAACTGG GGGCTTCTAA AGTACGTGAA GCTCATTTAG AAGCAAGAAT GCAAGCAGAA 
    ATCAAGAAAT TGTCAGCAGA AGTAGAATCT CTCAAAGAAG CTTATCATAT GGAGATGATT 
    TCACATCAAG AGAACCATGC AAAGTGGAAG ATTTCTGCTG ACTCTCAAAA GTCTTCTGTT 
    CAGCAACTAA ACGAACAGTT AGAGAAGGCA AAATTGGAAT TAGAAGAAGC TCAGGATACT 
    GTAAGCAATT TGCATCAACA AGTCCAAGAT AGGAATGAAG TAATTGAAGC TGCAAATGAA 
    GCATTACTTA CTAAAGAATC AGAATTAACC AGATTACAGG CCAAAATTTC TGGACATGAA 
    AAGGCAGAAG ACATCAAGTT TCTGCCAGCC CCATTTACAT CTCCAACAGA AATTATGCCT 
    GATGTTCAAG ATCCAAAATT TGCTAAATGT TTTCACACAT CTTTTTCCAA GTGTACAAAA 
    TTACGTCGCT CTATTAGTGC CAGTGATCTT ACTTTCAAAA TTCATGGTGA TGAAGATCTT 
    TCTGAAGAAT TACTACAGGA CTTAAAGAAA ATGCAATTAG AACAGCCTTC AACATTAGAA 
    GAAAGCCATA AGAATCTGAC TTACACCCAG CCAGACTCAT TTAAACCTCT CACATATAAC 
    CTAGAAGCTG ATAGTTCTGA GAATAATGAC TTTAACACGC TTAGTGGGAT GCTAAGATAC 
    ATAAACAAAG AAGTAAGACT ATTAAAAAAG TCTTCTATGC AAACAGGTGC TGGTTTAAAT 
    CAGGGAGAAA ATGTGTAA

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

  • PubMed

    Immunomic analysis of human sarcoma.
    Proceedings of the National Academy of Sciences of the United States of America100(5)2651-6(2003 Mar)
    Lee SY,Obata Y,Yoshida M,Stockert E,Williamson B,Jungbluth AA,Chen YT,Old LJ,Scanlan MJ


見積依頼

Eメール

japanmarket@genscript.com

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文