CCDC18 cDNA ORF clone, Gallus gallus(chicken)

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
OGa39126 XM_015290636.2
Latest version!
Gallus gallus coiled-coil domain containing 18 (CCDC18), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OGa39126 XM_015290635.2
Latest version!
Gallus gallus coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OGa39127 XM_015290637.2
Latest version!
Gallus gallus coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OGa25123 NM_001252034.1
Latest version!
Gallus gallus coiled-coil domain containing 18 (CCDC18), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
View Old Accession Versions >>
OGa39127 XM_015290637.1 Gallus gallus coiled-coil domain containing 18 (CCDC18), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OGa39126 XM_015290635.1 Gallus gallus coiled-coil domain containing 18 (CCDC18), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OGa39126 XM_015290636.1 Gallus gallus coiled-coil domain containing 18 (CCDC18), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OGa39126
    Clone ID Related Accession (Same CDS sequence) XM_015290635.2 , XM_015290636.2 , XM_015290635.1 , XM_015290636.1
    Accession Version XM_015290635.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3876bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-05-16
    Organism Gallus gallus(chicken)
    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_006095.5) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 17, 2018 this sequence version replaced XM_015290635.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Gallus gallus Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT ACTTCAGACA CAGCTAGATA AGAAACATCA ACAATTTGTA
    GAACAAGCGA CAACAATATC TGTTTTGCAA CAAGACATTA TACATAAACA GCATCACATC
    GAATCATTGG ATGGGCTACT GATGGAGAGC AGAGAGGAAA CGAAGAAGCG AGATCTCAAG
    AAAGATGAGA GACTGAAGAT ACTGGAGAGT CAGTTAAATG AGCAAACAAT CAAAGTGAAA
    CAACTTGAGT CAGCACTGGA TGTATGTAAG GAAGAACTTG CACTGTATTT GAGTCAGACA
    GAAGAAAATA AGGAGATGTT TCAAAATCAG CTCAAAAAGA AGTCTGAAGA GGTTTGTTAT
    TTACAAAAAG AAATAAAACT AAAAGGTCGT AATCTTCAGG ACACAAGTGA ACAGAATATT
    CTCCTGCAAC AAACTTTGCA TCAGCAGCAG CAAATGTTGC AGCAAGAAAC TATTAGAACT
    GGGGAACTGG AAGATAATCA AACTAAGCTT GAAGAACAGG TATCTACTTT AGAACAAGAA
    CTTCAGAAAC AGAAAGTATA TGCAGAAGAT GAGTTGAGAA AGGTAGAGGA GAAACTCTAC
    CTAGCTTGCC AGGAAGCAGA TTTAAACAGA CAAAAGGTGG ATGAACTTAA TAGCATAATC
    CGACAGAAAA CACTGGAGAT GGATGAGTAT AAGAATGAAC TTACTGGTAT GGAAAAAGAA
    GTAGTGCGAT TAAAACGAGA CATAGATGAC AAAGCGATGC AAATAAGTCA TTTGGACATC
    ACTTTGAAGG AAGCACAGTC AGAGCTCAGT GAAAAGACAA GTGAGGTGAC TGTTTTAGAA
    GATAAACTGC TTCAAAGCGA GACTTGCCAC AGGGAAGCAT TACAGAAAAT AGTAGAACTA
    GAATCTGCAT TGCAAAATGC CCGTGGAGAA TTAAAAGTTG TTTCACTGCA GCTTCAGGGA
    TTGCAAGATG CGTTACAGAA TGCACAGTTG TCTCTGGAGG AGAAGCAGGT TGCTATCATG
    AATCTAACAG CTGAACTCAG GTATTGCAAG GGAGAAATTG AAGACAAAAA ACAAGAGCTT
    CTTGACATGG ACCAAGCATT GAAAGAAAGG AATTGGGAAC TGAAACAAAG AGCAGCACAG
    ATCACACAGT TGGATATGAC CGTTCGTGAA CATAAGGGAG AAATGGAACA ACAAATAATT
    CAGTTAGAGT GCAATTTAGA GAAATCAGAG TTAGAAGTTA AGGAATGTAA TAAACAGATT
    GAGAGCTTAG AGAGCAAACT CCAGCATTCC AAGGAGGAAC TTCACGAAAA AGACTTTGAA
    CTGCTCCAGA GAAATCAAGA AATAAATCAG CTGAAGAAGA AAATGGAAAG ACAACAACAG
    AGCCTAGAAG CTCTTGAAAA GACAGTGAAA GACCAGGAGA ATTGCATTGG AGACCAGTTC
    AGGGAAGCAT TAGATTTGGG TCAGCAACTG AAGCTAGAAC GAGAACAGCT GCAGCGCACT
    CACTCAGAGC TGCTGGAGGC TCGTCAAATG CTGGCGCAGT CCCAAAGAGA AGCAGACAAA
    CTCGCGTGTG AATTAGAAGA AGTAAACTGT CTGTCCCAAG AGAAGGAATC TCGTGCAAAC
    CGTCTGGCAG AAGAACTGGG TGCTGCCAAA GCTCATGAAG CTCAGCTAGA ACTACAAATG
    CAATCTGAGA TAAAGAAGCT TTTTGCAGAA ATAAGTTCGT TAAAAGATGC TTGTCAGATA
    AAGCTTGCTC ATGAGAGAGA CCAAGCAAAA AGACAGACTT CAACAGAACA CCAGAAATTT
    GGTTCTTACC ATCTGAGCGA ACAGTTGCAA CAGGTGAAGG TAGAGTTAGA AGAGGCTCAA
    GATAATGTCA CTAATCTGCA GCAGCAGCTT CAGATGAGAG ATGAAATGGT TCGTGCTGCA
    AGTGAAACAC TGCTTGTTAA GGTTAGAGAA TTATGA

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

    RefSeq XP_015146121.1
    CDS89..3964
    Translation

    Target ORF information:

    RefSeq Version XM_015290635.2
    Organism Gallus gallus(chicken)
    Definition Gallus gallus 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_015290635.2

    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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT ACTTCAGACA CAGCTAGATA AGAAACATCA ACAATTTGTA
    GAACAAGCGA CAACAATATC TGTTTTGCAA CAAGACATTA TACATAAACA GCATCACATC
    GAATCATTGG ATGGGCTACT GATGGAGAGC AGAGAGGAAA CGAAGAAGCG AGATCTCAAG
    AAAGATGAGA GACTGAAGAT ACTGGAGAGT CAGTTAAATG AGCAAACAAT CAAAGTGAAA
    CAACTTGAGT CAGCACTGGA TGTATGTAAG GAAGAACTTG CACTGTATTT GAGTCAGACA
    GAAGAAAATA AGGAGATGTT TCAAAATCAG CTCAAAAAGA AGTCTGAAGA GGTTTGTTAT
    TTACAAAAAG AAATAAAACT AAAAGGTCGT AATCTTCAGG ACACAAGTGA ACAGAATATT
    CTCCTGCAAC AAACTTTGCA TCAGCAGCAG CAAATGTTGC AGCAAGAAAC TATTAGAACT
    GGGGAACTGG AAGATAATCA AACTAAGCTT GAAGAACAGG TATCTACTTT AGAACAAGAA
    CTTCAGAAAC AGAAAGTATA TGCAGAAGAT GAGTTGAGAA AGGTAGAGGA GAAACTCTAC
    CTAGCTTGCC AGGAAGCAGA TTTAAACAGA CAAAAGGTGG ATGAACTTAA TAGCATAATC
    CGACAGAAAA CACTGGAGAT GGATGAGTAT AAGAATGAAC TTACTGGTAT GGAAAAAGAA
    GTAGTGCGAT TAAAACGAGA CATAGATGAC AAAGCGATGC AAATAAGTCA TTTGGACATC
    ACTTTGAAGG AAGCACAGTC AGAGCTCAGT GAAAAGACAA GTGAGGTGAC TGTTTTAGAA
    GATAAACTGC TTCAAAGCGA GACTTGCCAC AGGGAAGCAT TACAGAAAAT AGTAGAACTA
    GAATCTGCAT TGCAAAATGC CCGTGGAGAA TTAAAAGTTG TTTCACTGCA GCTTCAGGGA
    TTGCAAGATG CGTTACAGAA TGCACAGTTG TCTCTGGAGG AGAAGCAGGT TGCTATCATG
    AATCTAACAG CTGAACTCAG GTATTGCAAG GGAGAAATTG AAGACAAAAA ACAAGAGCTT
    CTTGACATGG ACCAAGCATT GAAAGAAAGG AATTGGGAAC TGAAACAAAG AGCAGCACAG
    ATCACACAGT TGGATATGAC CGTTCGTGAA CATAAGGGAG AAATGGAACA ACAAATAATT
    CAGTTAGAGT GCAATTTAGA GAAATCAGAG TTAGAAGTTA AGGAATGTAA TAAACAGATT
    GAGAGCTTAG AGAGCAAACT CCAGCATTCC AAGGAGGAAC TTCACGAAAA AGACTTTGAA
    CTGCTCCAGA GAAATCAAGA AATAAATCAG CTGAAGAAGA AAATGGAAAG ACAACAACAG
    AGCCTAGAAG CTCTTGAAAA GACAGTGAAA GACCAGGAGA ATTGCATTGG AGACCAGTTC
    AGGGAAGCAT TAGATTTGGG TCAGCAACTG AAGCTAGAAC GAGAACAGCT GCAGCGCACT
    CACTCAGAGC TGCTGGAGGC TCGTCAAATG CTGGCGCAGT CCCAAAGAGA AGCAGACAAA
    CTCGCGTGTG AATTAGAAGA AGTAAACTGT CTGTCCCAAG AGAAGGAATC TCGTGCAAAC
    CGTCTGGCAG AAGAACTGGG TGCTGCCAAA GCTCATGAAG CTCAGCTAGA ACTACAAATG
    CAATCTGAGA TAAAGAAGCT TTTTGCAGAA ATAAGTTCGT TAAAAGATGC TTGTCAGATA
    AAGCTTGCTC ATGAGAGAGA CCAAGCAAAA AGACAGACTT CAACAGAACA CCAGAAATTT
    GGTTCTTACC ATCTGAGCGA ACAGTTGCAA CAGGTGAAGG TAGAGTTAGA AGAGGCTCAA
    GATAATGTCA CTAATCTGCA GCAGCAGCTT CAGATGAGAG ATGAAATGGT TCGTGCTGCA
    AGTGAAACAC TGCTTGTTAA GGTTAGAGAA TTATGA

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

    CloneID OGa39126
    Clone ID Related Accession (Same CDS sequence) XM_015290635.2 , XM_015290636.2 , XM_015290635.1 , XM_015290636.1
    Accession Version XM_015290636.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3876bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-05-16
    Organism Gallus gallus(chicken)
    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_006095.5) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 17, 2018 this sequence version replaced XM_015290636.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Gallus gallus Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT ACTTCAGACA CAGCTAGATA AGAAACATCA ACAATTTGTA
    GAACAAGCGA CAACAATATC TGTTTTGCAA CAAGACATTA TACATAAACA GCATCACATC
    GAATCATTGG ATGGGCTACT GATGGAGAGC AGAGAGGAAA CGAAGAAGCG AGATCTCAAG
    AAAGATGAGA GACTGAAGAT ACTGGAGAGT CAGTTAAATG AGCAAACAAT CAAAGTGAAA
    CAACTTGAGT CAGCACTGGA TGTATGTAAG GAAGAACTTG CACTGTATTT GAGTCAGACA
    GAAGAAAATA AGGAGATGTT TCAAAATCAG CTCAAAAAGA AGTCTGAAGA GGTTTGTTAT
    TTACAAAAAG AAATAAAACT AAAAGGTCGT AATCTTCAGG ACACAAGTGA ACAGAATATT
    CTCCTGCAAC AAACTTTGCA TCAGCAGCAG CAAATGTTGC AGCAAGAAAC TATTAGAACT
    GGGGAACTGG AAGATAATCA AACTAAGCTT GAAGAACAGG TATCTACTTT AGAACAAGAA
    CTTCAGAAAC AGAAAGTATA TGCAGAAGAT GAGTTGAGAA AGGTAGAGGA GAAACTCTAC
    CTAGCTTGCC AGGAAGCAGA TTTAAACAGA CAAAAGGTGG ATGAACTTAA TAGCATAATC
    CGACAGAAAA CACTGGAGAT GGATGAGTAT AAGAATGAAC TTACTGGTAT GGAAAAAGAA
    GTAGTGCGAT TAAAACGAGA CATAGATGAC AAAGCGATGC AAATAAGTCA TTTGGACATC
    ACTTTGAAGG AAGCACAGTC AGAGCTCAGT GAAAAGACAA GTGAGGTGAC TGTTTTAGAA
    GATAAACTGC TTCAAAGCGA GACTTGCCAC AGGGAAGCAT TACAGAAAAT AGTAGAACTA
    GAATCTGCAT TGCAAAATGC CCGTGGAGAA TTAAAAGTTG TTTCACTGCA GCTTCAGGGA
    TTGCAAGATG CGTTACAGAA TGCACAGTTG TCTCTGGAGG AGAAGCAGGT TGCTATCATG
    AATCTAACAG CTGAACTCAG GTATTGCAAG GGAGAAATTG AAGACAAAAA ACAAGAGCTT
    CTTGACATGG ACCAAGCATT GAAAGAAAGG AATTGGGAAC TGAAACAAAG AGCAGCACAG
    ATCACACAGT TGGATATGAC CGTTCGTGAA CATAAGGGAG AAATGGAACA ACAAATAATT
    CAGTTAGAGT GCAATTTAGA GAAATCAGAG TTAGAAGTTA AGGAATGTAA TAAACAGATT
    GAGAGCTTAG AGAGCAAACT CCAGCATTCC AAGGAGGAAC TTCACGAAAA AGACTTTGAA
    CTGCTCCAGA GAAATCAAGA AATAAATCAG CTGAAGAAGA AAATGGAAAG ACAACAACAG
    AGCCTAGAAG CTCTTGAAAA GACAGTGAAA GACCAGGAGA ATTGCATTGG AGACCAGTTC
    AGGGAAGCAT TAGATTTGGG TCAGCAACTG AAGCTAGAAC GAGAACAGCT GCAGCGCACT
    CACTCAGAGC TGCTGGAGGC TCGTCAAATG CTGGCGCAGT CCCAAAGAGA AGCAGACAAA
    CTCGCGTGTG AATTAGAAGA AGTAAACTGT CTGTCCCAAG AGAAGGAATC TCGTGCAAAC
    CGTCTGGCAG AAGAACTGGG TGCTGCCAAA GCTCATGAAG CTCAGCTAGA ACTACAAATG
    CAATCTGAGA TAAAGAAGCT TTTTGCAGAA ATAAGTTCGT TAAAAGATGC TTGTCAGATA
    AAGCTTGCTC ATGAGAGAGA CCAAGCAAAA AGACAGACTT CAACAGAACA CCAGAAATTT
    GGTTCTTACC ATCTGAGCGA ACAGTTGCAA CAGGTGAAGG TAGAGTTAGA AGAGGCTCAA
    GATAATGTCA CTAATCTGCA GCAGCAGCTT CAGATGAGAG ATGAAATGGT TCGTGCTGCA
    AGTGAAACAC TGCTTGTTAA GGTTAGAGAA TTATGA

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

    RefSeq XP_015146122.1
    CDS90..3965
    Translation

    Target ORF information:

    RefSeq Version XM_015290636.2
    Organism Gallus gallus(chicken)
    Definition Gallus gallus 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_015290636.2

    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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT ACTTCAGACA CAGCTAGATA AGAAACATCA ACAATTTGTA
    GAACAAGCGA CAACAATATC TGTTTTGCAA CAAGACATTA TACATAAACA GCATCACATC
    GAATCATTGG ATGGGCTACT GATGGAGAGC AGAGAGGAAA CGAAGAAGCG AGATCTCAAG
    AAAGATGAGA GACTGAAGAT ACTGGAGAGT CAGTTAAATG AGCAAACAAT CAAAGTGAAA
    CAACTTGAGT CAGCACTGGA TGTATGTAAG GAAGAACTTG CACTGTATTT GAGTCAGACA
    GAAGAAAATA AGGAGATGTT TCAAAATCAG CTCAAAAAGA AGTCTGAAGA GGTTTGTTAT
    TTACAAAAAG AAATAAAACT AAAAGGTCGT AATCTTCAGG ACACAAGTGA ACAGAATATT
    CTCCTGCAAC AAACTTTGCA TCAGCAGCAG CAAATGTTGC AGCAAGAAAC TATTAGAACT
    GGGGAACTGG AAGATAATCA AACTAAGCTT GAAGAACAGG TATCTACTTT AGAACAAGAA
    CTTCAGAAAC AGAAAGTATA TGCAGAAGAT GAGTTGAGAA AGGTAGAGGA GAAACTCTAC
    CTAGCTTGCC AGGAAGCAGA TTTAAACAGA CAAAAGGTGG ATGAACTTAA TAGCATAATC
    CGACAGAAAA CACTGGAGAT GGATGAGTAT AAGAATGAAC TTACTGGTAT GGAAAAAGAA
    GTAGTGCGAT TAAAACGAGA CATAGATGAC AAAGCGATGC AAATAAGTCA TTTGGACATC
    ACTTTGAAGG AAGCACAGTC AGAGCTCAGT GAAAAGACAA GTGAGGTGAC TGTTTTAGAA
    GATAAACTGC TTCAAAGCGA GACTTGCCAC AGGGAAGCAT TACAGAAAAT AGTAGAACTA
    GAATCTGCAT TGCAAAATGC CCGTGGAGAA TTAAAAGTTG TTTCACTGCA GCTTCAGGGA
    TTGCAAGATG CGTTACAGAA TGCACAGTTG TCTCTGGAGG AGAAGCAGGT TGCTATCATG
    AATCTAACAG CTGAACTCAG GTATTGCAAG GGAGAAATTG AAGACAAAAA ACAAGAGCTT
    CTTGACATGG ACCAAGCATT GAAAGAAAGG AATTGGGAAC TGAAACAAAG AGCAGCACAG
    ATCACACAGT TGGATATGAC CGTTCGTGAA CATAAGGGAG AAATGGAACA ACAAATAATT
    CAGTTAGAGT GCAATTTAGA GAAATCAGAG TTAGAAGTTA AGGAATGTAA TAAACAGATT
    GAGAGCTTAG AGAGCAAACT CCAGCATTCC AAGGAGGAAC TTCACGAAAA AGACTTTGAA
    CTGCTCCAGA GAAATCAAGA AATAAATCAG CTGAAGAAGA AAATGGAAAG ACAACAACAG
    AGCCTAGAAG CTCTTGAAAA GACAGTGAAA GACCAGGAGA ATTGCATTGG AGACCAGTTC
    AGGGAAGCAT TAGATTTGGG TCAGCAACTG AAGCTAGAAC GAGAACAGCT GCAGCGCACT
    CACTCAGAGC TGCTGGAGGC TCGTCAAATG CTGGCGCAGT CCCAAAGAGA AGCAGACAAA
    CTCGCGTGTG AATTAGAAGA AGTAAACTGT CTGTCCCAAG AGAAGGAATC TCGTGCAAAC
    CGTCTGGCAG AAGAACTGGG TGCTGCCAAA GCTCATGAAG CTCAGCTAGA ACTACAAATG
    CAATCTGAGA TAAAGAAGCT TTTTGCAGAA ATAAGTTCGT TAAAAGATGC TTGTCAGATA
    AAGCTTGCTC ATGAGAGAGA CCAAGCAAAA AGACAGACTT CAACAGAACA CCAGAAATTT
    GGTTCTTACC ATCTGAGCGA ACAGTTGCAA CAGGTGAAGG TAGAGTTAGA AGAGGCTCAA
    GATAATGTCA CTAATCTGCA GCAGCAGCTT CAGATGAGAG ATGAAATGGT TCGTGCTGCA
    AGTGAAACAC TGCTTGTTAA GGTTAGAGAA TTATGA

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

    CloneID OGa39126
    Clone ID Related Accession (Same CDS sequence) XM_015290635.2 , XM_015290636.2 , XM_015290635.1 , XM_015290636.1
    Accession Version XM_015290635.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3876bp)
    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 2016-01-03
    Organism Gallus gallus(chicken)
    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 (NT_455911.1) 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 :: Gallus gallus Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT ACTTCAGACA CAGCTAGATA AGAAACATCA ACAATTTGTA
    GAACAAGCGA CAACAATATC TGTTTTGCAA CAAGACATTA TACATAAACA GCATCACATC
    GAATCATTGG ATGGGCTACT GATGGAGAGC AGAGAGGAAA CGAAGAAGCG AGATCTCAAG
    AAAGATGAGA GACTGAAGAT ACTGGAGAGT CAGTTAAATG AGCAAACAAT CAAAGTGAAA
    CAACTTGAGT CAGCACTGGA TGTATGTAAG GAAGAACTTG CACTGTATTT GAGTCAGACA
    GAAGAAAATA AGGAGATGTT TCAAAATCAG CTCAAAAAGA AGTCTGAAGA GGTTTGTTAT
    TTACAAAAAG AAATAAAACT AAAAGGTCGT AATCTTCAGG ACACAAGTGA ACAGAATATT
    CTCCTGCAAC AAACTTTGCA TCAGCAGCAG CAAATGTTGC AGCAAGAAAC TATTAGAACT
    GGGGAACTGG AAGATAATCA AACTAAGCTT GAAGAACAGG TATCTACTTT AGAACAAGAA
    CTTCAGAAAC AGAAAGTATA TGCAGAAGAT GAGTTGAGAA AGGTAGAGGA GAAACTCTAC
    CTAGCTTGCC AGGAAGCAGA TTTAAACAGA CAAAAGGTGG ATGAACTTAA TAGCATAATC
    CGACAGAAAA CACTGGAGAT GGATGAGTAT AAGAATGAAC TTACTGGTAT GGAAAAAGAA
    GTAGTGCGAT TAAAACGAGA CATAGATGAC AAAGCGATGC AAATAAGTCA TTTGGACATC
    ACTTTGAAGG AAGCACAGTC AGAGCTCAGT GAAAAGACAA GTGAGGTGAC TGTTTTAGAA
    GATAAACTGC TTCAAAGCGA GACTTGCCAC AGGGAAGCAT TACAGAAAAT AGTAGAACTA
    GAATCTGCAT TGCAAAATGC CCGTGGAGAA TTAAAAGTTG TTTCACTGCA GCTTCAGGGA
    TTGCAAGATG CGTTACAGAA TGCACAGTTG TCTCTGGAGG AGAAGCAGGT TGCTATCATG
    AATCTAACAG CTGAACTCAG GTATTGCAAG GGAGAAATTG AAGACAAAAA ACAAGAGCTT
    CTTGACATGG ACCAAGCATT GAAAGAAAGG AATTGGGAAC TGAAACAAAG AGCAGCACAG
    ATCACACAGT TGGATATGAC CGTTCGTGAA CATAAGGGAG AAATGGAACA ACAAATAATT
    CAGTTAGAGT GCAATTTAGA GAAATCAGAG TTAGAAGTTA AGGAATGTAA TAAACAGATT
    GAGAGCTTAG AGAGCAAACT CCAGCATTCC AAGGAGGAAC TTCACGAAAA AGACTTTGAA
    CTGCTCCAGA GAAATCAAGA AATAAATCAG CTGAAGAAGA AAATGGAAAG ACAACAACAG
    AGCCTAGAAG CTCTTGAAAA GACAGTGAAA GACCAGGAGA ATTGCATTGG AGACCAGTTC
    AGGGAAGCAT TAGATTTGGG TCAGCAACTG AAGCTAGAAC GAGAACAGCT GCAGCGCACT
    CACTCAGAGC TGCTGGAGGC TCGTCAAATG CTGGCGCAGT CCCAAAGAGA AGCAGACAAA
    CTCGCGTGTG AATTAGAAGA AGTAAACTGT CTGTCCCAAG AGAAGGAATC TCGTGCAAAC
    CGTCTGGCAG AAGAACTGGG TGCTGCCAAA GCTCATGAAG CTCAGCTAGA ACTACAAATG
    CAATCTGAGA TAAAGAAGCT TTTTGCAGAA ATAAGTTCGT TAAAAGATGC TTGTCAGATA
    AAGCTTGCTC ATGAGAGAGA CCAAGCAAAA AGACAGACTT CAACAGAACA CCAGAAATTT
    GGTTCTTACC ATCTGAGCGA ACAGTTGCAA CAGGTGAAGG TAGAGTTAGA AGAGGCTCAA
    GATAATGTCA CTAATCTGCA GCAGCAGCTT CAGATGAGAG ATGAAATGGT TCGTGCTGCA
    AGTGAAACAC TGCTTGTTAA GGTTAGAGAA TTATGA

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

    RefSeq XP_015146121.1
    CDS106..3981
    Translation

    Target ORF information:

    RefSeq Version XM_015290635.1
    Organism Gallus gallus(chicken)
    Definition Gallus gallus 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_015290635.1

    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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT ACTTCAGACA CAGCTAGATA AGAAACATCA ACAATTTGTA
    GAACAAGCGA CAACAATATC TGTTTTGCAA CAAGACATTA TACATAAACA GCATCACATC
    GAATCATTGG ATGGGCTACT GATGGAGAGC AGAGAGGAAA CGAAGAAGCG AGATCTCAAG
    AAAGATGAGA GACTGAAGAT ACTGGAGAGT CAGTTAAATG AGCAAACAAT CAAAGTGAAA
    CAACTTGAGT CAGCACTGGA TGTATGTAAG GAAGAACTTG CACTGTATTT GAGTCAGACA
    GAAGAAAATA AGGAGATGTT TCAAAATCAG CTCAAAAAGA AGTCTGAAGA GGTTTGTTAT
    TTACAAAAAG AAATAAAACT AAAAGGTCGT AATCTTCAGG ACACAAGTGA ACAGAATATT
    CTCCTGCAAC AAACTTTGCA TCAGCAGCAG CAAATGTTGC AGCAAGAAAC TATTAGAACT
    GGGGAACTGG AAGATAATCA AACTAAGCTT GAAGAACAGG TATCTACTTT AGAACAAGAA
    CTTCAGAAAC AGAAAGTATA TGCAGAAGAT GAGTTGAGAA AGGTAGAGGA GAAACTCTAC
    CTAGCTTGCC AGGAAGCAGA TTTAAACAGA CAAAAGGTGG ATGAACTTAA TAGCATAATC
    CGACAGAAAA CACTGGAGAT GGATGAGTAT AAGAATGAAC TTACTGGTAT GGAAAAAGAA
    GTAGTGCGAT TAAAACGAGA CATAGATGAC AAAGCGATGC AAATAAGTCA TTTGGACATC
    ACTTTGAAGG AAGCACAGTC AGAGCTCAGT GAAAAGACAA GTGAGGTGAC TGTTTTAGAA
    GATAAACTGC TTCAAAGCGA GACTTGCCAC AGGGAAGCAT TACAGAAAAT AGTAGAACTA
    GAATCTGCAT TGCAAAATGC CCGTGGAGAA TTAAAAGTTG TTTCACTGCA GCTTCAGGGA
    TTGCAAGATG CGTTACAGAA TGCACAGTTG TCTCTGGAGG AGAAGCAGGT TGCTATCATG
    AATCTAACAG CTGAACTCAG GTATTGCAAG GGAGAAATTG AAGACAAAAA ACAAGAGCTT
    CTTGACATGG ACCAAGCATT GAAAGAAAGG AATTGGGAAC TGAAACAAAG AGCAGCACAG
    ATCACACAGT TGGATATGAC CGTTCGTGAA CATAAGGGAG AAATGGAACA ACAAATAATT
    CAGTTAGAGT GCAATTTAGA GAAATCAGAG TTAGAAGTTA AGGAATGTAA TAAACAGATT
    GAGAGCTTAG AGAGCAAACT CCAGCATTCC AAGGAGGAAC TTCACGAAAA AGACTTTGAA
    CTGCTCCAGA GAAATCAAGA AATAAATCAG CTGAAGAAGA AAATGGAAAG ACAACAACAG
    AGCCTAGAAG CTCTTGAAAA GACAGTGAAA GACCAGGAGA ATTGCATTGG AGACCAGTTC
    AGGGAAGCAT TAGATTTGGG TCAGCAACTG AAGCTAGAAC GAGAACAGCT GCAGCGCACT
    CACTCAGAGC TGCTGGAGGC TCGTCAAATG CTGGCGCAGT CCCAAAGAGA AGCAGACAAA
    CTCGCGTGTG AATTAGAAGA AGTAAACTGT CTGTCCCAAG AGAAGGAATC TCGTGCAAAC
    CGTCTGGCAG AAGAACTGGG TGCTGCCAAA GCTCATGAAG CTCAGCTAGA ACTACAAATG
    CAATCTGAGA TAAAGAAGCT TTTTGCAGAA ATAAGTTCGT TAAAAGATGC TTGTCAGATA
    AAGCTTGCTC ATGAGAGAGA CCAAGCAAAA AGACAGACTT CAACAGAACA CCAGAAATTT
    GGTTCTTACC ATCTGAGCGA ACAGTTGCAA CAGGTGAAGG TAGAGTTAGA AGAGGCTCAA
    GATAATGTCA CTAATCTGCA GCAGCAGCTT CAGATGAGAG ATGAAATGGT TCGTGCTGCA
    AGTGAAACAC TGCTTGTTAA GGTTAGAGAA TTATGA

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

    CloneID OGa39126
    Clone ID Related Accession (Same CDS sequence) XM_015290635.2 , XM_015290636.2 , XM_015290635.1 , XM_015290636.1
    Accession Version XM_015290636.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3876bp)
    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 2016-01-03
    Organism Gallus gallus(chicken)
    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 (NT_455911.1) 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 :: Gallus gallus Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT ACTTCAGACA CAGCTAGATA AGAAACATCA ACAATTTGTA
    GAACAAGCGA CAACAATATC TGTTTTGCAA CAAGACATTA TACATAAACA GCATCACATC
    GAATCATTGG ATGGGCTACT GATGGAGAGC AGAGAGGAAA CGAAGAAGCG AGATCTCAAG
    AAAGATGAGA GACTGAAGAT ACTGGAGAGT CAGTTAAATG AGCAAACAAT CAAAGTGAAA
    CAACTTGAGT CAGCACTGGA TGTATGTAAG GAAGAACTTG CACTGTATTT GAGTCAGACA
    GAAGAAAATA AGGAGATGTT TCAAAATCAG CTCAAAAAGA AGTCTGAAGA GGTTTGTTAT
    TTACAAAAAG AAATAAAACT AAAAGGTCGT AATCTTCAGG ACACAAGTGA ACAGAATATT
    CTCCTGCAAC AAACTTTGCA TCAGCAGCAG CAAATGTTGC AGCAAGAAAC TATTAGAACT
    GGGGAACTGG AAGATAATCA AACTAAGCTT GAAGAACAGG TATCTACTTT AGAACAAGAA
    CTTCAGAAAC AGAAAGTATA TGCAGAAGAT GAGTTGAGAA AGGTAGAGGA GAAACTCTAC
    CTAGCTTGCC AGGAAGCAGA TTTAAACAGA CAAAAGGTGG ATGAACTTAA TAGCATAATC
    CGACAGAAAA CACTGGAGAT GGATGAGTAT AAGAATGAAC TTACTGGTAT GGAAAAAGAA
    GTAGTGCGAT TAAAACGAGA CATAGATGAC AAAGCGATGC AAATAAGTCA TTTGGACATC
    ACTTTGAAGG AAGCACAGTC AGAGCTCAGT GAAAAGACAA GTGAGGTGAC TGTTTTAGAA
    GATAAACTGC TTCAAAGCGA GACTTGCCAC AGGGAAGCAT TACAGAAAAT AGTAGAACTA
    GAATCTGCAT TGCAAAATGC CCGTGGAGAA TTAAAAGTTG TTTCACTGCA GCTTCAGGGA
    TTGCAAGATG CGTTACAGAA TGCACAGTTG TCTCTGGAGG AGAAGCAGGT TGCTATCATG
    AATCTAACAG CTGAACTCAG GTATTGCAAG GGAGAAATTG AAGACAAAAA ACAAGAGCTT
    CTTGACATGG ACCAAGCATT GAAAGAAAGG AATTGGGAAC TGAAACAAAG AGCAGCACAG
    ATCACACAGT TGGATATGAC CGTTCGTGAA CATAAGGGAG AAATGGAACA ACAAATAATT
    CAGTTAGAGT GCAATTTAGA GAAATCAGAG TTAGAAGTTA AGGAATGTAA TAAACAGATT
    GAGAGCTTAG AGAGCAAACT CCAGCATTCC AAGGAGGAAC TTCACGAAAA AGACTTTGAA
    CTGCTCCAGA GAAATCAAGA AATAAATCAG CTGAAGAAGA AAATGGAAAG ACAACAACAG
    AGCCTAGAAG CTCTTGAAAA GACAGTGAAA GACCAGGAGA ATTGCATTGG AGACCAGTTC
    AGGGAAGCAT TAGATTTGGG TCAGCAACTG AAGCTAGAAC GAGAACAGCT GCAGCGCACT
    CACTCAGAGC TGCTGGAGGC TCGTCAAATG CTGGCGCAGT CCCAAAGAGA AGCAGACAAA
    CTCGCGTGTG AATTAGAAGA AGTAAACTGT CTGTCCCAAG AGAAGGAATC TCGTGCAAAC
    CGTCTGGCAG AAGAACTGGG TGCTGCCAAA GCTCATGAAG CTCAGCTAGA ACTACAAATG
    CAATCTGAGA TAAAGAAGCT TTTTGCAGAA ATAAGTTCGT TAAAAGATGC TTGTCAGATA
    AAGCTTGCTC ATGAGAGAGA CCAAGCAAAA AGACAGACTT CAACAGAACA CCAGAAATTT
    GGTTCTTACC ATCTGAGCGA ACAGTTGCAA CAGGTGAAGG TAGAGTTAGA AGAGGCTCAA
    GATAATGTCA CTAATCTGCA GCAGCAGCTT CAGATGAGAG ATGAAATGGT TCGTGCTGCA
    AGTGAAACAC TGCTTGTTAA GGTTAGAGAA TTATGA

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

    RefSeq XP_015146122.1
    CDS90..3965
    Translation

    Target ORF information:

    RefSeq Version XM_015290636.1
    Organism Gallus gallus(chicken)
    Definition Gallus gallus 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_015290636.1

    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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT ACTTCAGACA CAGCTAGATA AGAAACATCA ACAATTTGTA
    GAACAAGCGA CAACAATATC TGTTTTGCAA CAAGACATTA TACATAAACA GCATCACATC
    GAATCATTGG ATGGGCTACT GATGGAGAGC AGAGAGGAAA CGAAGAAGCG AGATCTCAAG
    AAAGATGAGA GACTGAAGAT ACTGGAGAGT CAGTTAAATG AGCAAACAAT CAAAGTGAAA
    CAACTTGAGT CAGCACTGGA TGTATGTAAG GAAGAACTTG CACTGTATTT GAGTCAGACA
    GAAGAAAATA AGGAGATGTT TCAAAATCAG CTCAAAAAGA AGTCTGAAGA GGTTTGTTAT
    TTACAAAAAG AAATAAAACT AAAAGGTCGT AATCTTCAGG ACACAAGTGA ACAGAATATT
    CTCCTGCAAC AAACTTTGCA TCAGCAGCAG CAAATGTTGC AGCAAGAAAC TATTAGAACT
    GGGGAACTGG AAGATAATCA AACTAAGCTT GAAGAACAGG TATCTACTTT AGAACAAGAA
    CTTCAGAAAC AGAAAGTATA TGCAGAAGAT GAGTTGAGAA AGGTAGAGGA GAAACTCTAC
    CTAGCTTGCC AGGAAGCAGA TTTAAACAGA CAAAAGGTGG ATGAACTTAA TAGCATAATC
    CGACAGAAAA CACTGGAGAT GGATGAGTAT AAGAATGAAC TTACTGGTAT GGAAAAAGAA
    GTAGTGCGAT TAAAACGAGA CATAGATGAC AAAGCGATGC AAATAAGTCA TTTGGACATC
    ACTTTGAAGG AAGCACAGTC AGAGCTCAGT GAAAAGACAA GTGAGGTGAC TGTTTTAGAA
    GATAAACTGC TTCAAAGCGA GACTTGCCAC AGGGAAGCAT TACAGAAAAT AGTAGAACTA
    GAATCTGCAT TGCAAAATGC CCGTGGAGAA TTAAAAGTTG TTTCACTGCA GCTTCAGGGA
    TTGCAAGATG CGTTACAGAA TGCACAGTTG TCTCTGGAGG AGAAGCAGGT TGCTATCATG
    AATCTAACAG CTGAACTCAG GTATTGCAAG GGAGAAATTG AAGACAAAAA ACAAGAGCTT
    CTTGACATGG ACCAAGCATT GAAAGAAAGG AATTGGGAAC TGAAACAAAG AGCAGCACAG
    ATCACACAGT TGGATATGAC CGTTCGTGAA CATAAGGGAG AAATGGAACA ACAAATAATT
    CAGTTAGAGT GCAATTTAGA GAAATCAGAG TTAGAAGTTA AGGAATGTAA TAAACAGATT
    GAGAGCTTAG AGAGCAAACT CCAGCATTCC AAGGAGGAAC TTCACGAAAA AGACTTTGAA
    CTGCTCCAGA GAAATCAAGA AATAAATCAG CTGAAGAAGA AAATGGAAAG ACAACAACAG
    AGCCTAGAAG CTCTTGAAAA GACAGTGAAA GACCAGGAGA ATTGCATTGG AGACCAGTTC
    AGGGAAGCAT TAGATTTGGG TCAGCAACTG AAGCTAGAAC GAGAACAGCT GCAGCGCACT
    CACTCAGAGC TGCTGGAGGC TCGTCAAATG CTGGCGCAGT CCCAAAGAGA AGCAGACAAA
    CTCGCGTGTG AATTAGAAGA AGTAAACTGT CTGTCCCAAG AGAAGGAATC TCGTGCAAAC
    CGTCTGGCAG AAGAACTGGG TGCTGCCAAA GCTCATGAAG CTCAGCTAGA ACTACAAATG
    CAATCTGAGA TAAAGAAGCT TTTTGCAGAA ATAAGTTCGT TAAAAGATGC TTGTCAGATA
    AAGCTTGCTC ATGAGAGAGA CCAAGCAAAA AGACAGACTT CAACAGAACA CCAGAAATTT
    GGTTCTTACC ATCTGAGCGA ACAGTTGCAA CAGGTGAAGG TAGAGTTAGA AGAGGCTCAA
    GATAATGTCA CTAATCTGCA GCAGCAGCTT CAGATGAGAG ATGAAATGGT TCGTGCTGCA
    AGTGAAACAC TGCTTGTTAA GGTTAGAGAA TTATGA

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

    CloneID OGa39127
    Clone ID Related Accession (Same CDS sequence) XM_015290637.2 , XM_015290637.1
    Accession Version XM_015290637.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3741bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-05-16
    Organism Gallus gallus(chicken)
    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_006095.5) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 17, 2018 this sequence version replaced XM_015290637.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Gallus gallus Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT AGAAACGAAG AAGCGAGATC TCAAGAAAGA TGAGAGACTG
    AAGATACTGG AGAGTCAGTT AAATGAGCAA ACAATCAAAG TGAAACAACT TGAGTCAGCA
    CTGGATGTAT GTAAGGAAGA ACTTGCACTG TATTTGAGTC AGACAGAAGA AAATAAGGAG
    ATGTTTCAAA ATCAGCTCAA AAAGAAGTCT GAAGAGGTTT GTTATTTACA AAAAGAAATA
    AAACTAAAAG GTCGTAATCT TCAGGACACA AGTGAACAGA ATATTCTCCT GCAACAAACT
    TTGCATCAGC AGCAGCAAAT GTTGCAGCAA GAAACTATTA GAACTGGGGA ACTGGAAGAT
    AATCAAACTA AGCTTGAAGA ACAGGTATCT ACTTTAGAAC AAGAACTTCA GAAACAGAAA
    GTATATGCAG AAGATGAGTT GAGAAAGGTA GAGGAGAAAC TCTACCTAGC TTGCCAGGAA
    GCAGATTTAA ACAGACAAAA GGTGGATGAA CTTAATAGCA TAATCCGACA GAAAACACTG
    GAGATGGATG AGTATAAGAA TGAACTTACT GGTATGGAAA AAGAAGTAGT GCGATTAAAA
    CGAGACATAG ATGACAAAGC GATGCAAATA AGTCATTTGG ACATCACTTT GAAGGAAGCA
    CAGTCAGAGC TCAGTGAAAA GACAAGTGAG GTGACTGTTT TAGAAGATAA ACTGCTTCAA
    AGCGAGACTT GCCACAGGGA AGCATTACAG AAAATAGTAG AACTAGAATC TGCATTGCAA
    AATGCCCGTG GAGAATTAAA AGTTGTTTCA CTGCAGCTTC AGGGATTGCA AGATGCGTTA
    CAGAATGCAC AGTTGTCTCT GGAGGAGAAG CAGGTTGCTA TCATGAATCT AACAGCTGAA
    CTCAGGTATT GCAAGGGAGA AATTGAAGAC AAAAAACAAG AGCTTCTTGA CATGGACCAA
    GCATTGAAAG AAAGGAATTG GGAACTGAAA CAAAGAGCAG CACAGATCAC ACAGTTGGAT
    ATGACCGTTC GTGAACATAA GGGAGAAATG GAACAACAAA TAATTCAGTT AGAGTGCAAT
    TTAGAGAAAT CAGAGTTAGA AGTTAAGGAA TGTAATAAAC AGATTGAGAG CTTAGAGAGC
    AAACTCCAGC ATTCCAAGGA GGAACTTCAC GAAAAAGACT TTGAACTGCT CCAGAGAAAT
    CAAGAAATAA ATCAGCTGAA GAAGAAAATG GAAAGACAAC AACAGAGCCT AGAAGCTCTT
    GAAAAGACAG TGAAAGACCA GGAGAATTGC ATTGGAGACC AGTTCAGGGA AGCATTAGAT
    TTGGGTCAGC AACTGAAGCT AGAACGAGAA CAGCTGCAGC GCACTCACTC AGAGCTGCTG
    GAGGCTCGTC AAATGCTGGC GCAGTCCCAA AGAGAAGCAG ACAAACTCGC GTGTGAATTA
    GAAGAAGTAA ACTGTCTGTC CCAAGAGAAG GAATCTCGTG CAAACCGTCT GGCAGAAGAA
    CTGGGTGCTG CCAAAGCTCA TGAAGCTCAG CTAGAACTAC AAATGCAATC TGAGATAAAG
    AAGCTTTTTG CAGAAATAAG TTCGTTAAAA GATGCTTGTC AGATAAAGCT TGCTCATGAG
    AGAGACCAAG CAAAAAGACA GACTTCAACA GAACACCAGA AATTTGGTTC TTACCATCTG
    AGCGAACAGT TGCAACAGGT GAAGGTAGAG TTAGAAGAGG CTCAAGATAA TGTCACTAAT
    CTGCAGCAGC AGCTTCAGAT GAGAGATGAA ATGGTTCGTG CTGCAAGTGA AACACTGCTT
    GTTAAGGTTA GAGAATTATG A

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

    RefSeq XP_015146123.1
    CDS89..3829
    Translation

    Target ORF information:

    RefSeq Version XM_015290637.2
    Organism Gallus gallus(chicken)
    Definition Gallus gallus 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_015290637.2

    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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT AGAAACGAAG AAGCGAGATC TCAAGAAAGA TGAGAGACTG
    AAGATACTGG AGAGTCAGTT AAATGAGCAA ACAATCAAAG TGAAACAACT TGAGTCAGCA
    CTGGATGTAT GTAAGGAAGA ACTTGCACTG TATTTGAGTC AGACAGAAGA AAATAAGGAG
    ATGTTTCAAA ATCAGCTCAA AAAGAAGTCT GAAGAGGTTT GTTATTTACA AAAAGAAATA
    AAACTAAAAG GTCGTAATCT TCAGGACACA AGTGAACAGA ATATTCTCCT GCAACAAACT
    TTGCATCAGC AGCAGCAAAT GTTGCAGCAA GAAACTATTA GAACTGGGGA ACTGGAAGAT
    AATCAAACTA AGCTTGAAGA ACAGGTATCT ACTTTAGAAC AAGAACTTCA GAAACAGAAA
    GTATATGCAG AAGATGAGTT GAGAAAGGTA GAGGAGAAAC TCTACCTAGC TTGCCAGGAA
    GCAGATTTAA ACAGACAAAA GGTGGATGAA CTTAATAGCA TAATCCGACA GAAAACACTG
    GAGATGGATG AGTATAAGAA TGAACTTACT GGTATGGAAA AAGAAGTAGT GCGATTAAAA
    CGAGACATAG ATGACAAAGC GATGCAAATA AGTCATTTGG ACATCACTTT GAAGGAAGCA
    CAGTCAGAGC TCAGTGAAAA GACAAGTGAG GTGACTGTTT TAGAAGATAA ACTGCTTCAA
    AGCGAGACTT GCCACAGGGA AGCATTACAG AAAATAGTAG AACTAGAATC TGCATTGCAA
    AATGCCCGTG GAGAATTAAA AGTTGTTTCA CTGCAGCTTC AGGGATTGCA AGATGCGTTA
    CAGAATGCAC AGTTGTCTCT GGAGGAGAAG CAGGTTGCTA TCATGAATCT AACAGCTGAA
    CTCAGGTATT GCAAGGGAGA AATTGAAGAC AAAAAACAAG AGCTTCTTGA CATGGACCAA
    GCATTGAAAG AAAGGAATTG GGAACTGAAA CAAAGAGCAG CACAGATCAC ACAGTTGGAT
    ATGACCGTTC GTGAACATAA GGGAGAAATG GAACAACAAA TAATTCAGTT AGAGTGCAAT
    TTAGAGAAAT CAGAGTTAGA AGTTAAGGAA TGTAATAAAC AGATTGAGAG CTTAGAGAGC
    AAACTCCAGC ATTCCAAGGA GGAACTTCAC GAAAAAGACT TTGAACTGCT CCAGAGAAAT
    CAAGAAATAA ATCAGCTGAA GAAGAAAATG GAAAGACAAC AACAGAGCCT AGAAGCTCTT
    GAAAAGACAG TGAAAGACCA GGAGAATTGC ATTGGAGACC AGTTCAGGGA AGCATTAGAT
    TTGGGTCAGC AACTGAAGCT AGAACGAGAA CAGCTGCAGC GCACTCACTC AGAGCTGCTG
    GAGGCTCGTC AAATGCTGGC GCAGTCCCAA AGAGAAGCAG ACAAACTCGC GTGTGAATTA
    GAAGAAGTAA ACTGTCTGTC CCAAGAGAAG GAATCTCGTG CAAACCGTCT GGCAGAAGAA
    CTGGGTGCTG CCAAAGCTCA TGAAGCTCAG CTAGAACTAC AAATGCAATC TGAGATAAAG
    AAGCTTTTTG CAGAAATAAG TTCGTTAAAA GATGCTTGTC AGATAAAGCT TGCTCATGAG
    AGAGACCAAG CAAAAAGACA GACTTCAACA GAACACCAGA AATTTGGTTC TTACCATCTG
    AGCGAACAGT TGCAACAGGT GAAGGTAGAG TTAGAAGAGG CTCAAGATAA TGTCACTAAT
    CTGCAGCAGC AGCTTCAGAT GAGAGATGAA ATGGTTCGTG CTGCAAGTGA AACACTGCTT
    GTTAAGGTTA GAGAATTATG A

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

    CloneID OGa39127
    Clone ID Related Accession (Same CDS sequence) XM_015290637.2 , XM_015290637.1
    Accession Version XM_015290637.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3741bp)
    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 2016-01-03
    Organism Gallus gallus(chicken)
    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 (NT_455911.1) 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 :: Gallus gallus Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT AGAAACGAAG AAGCGAGATC TCAAGAAAGA TGAGAGACTG
    AAGATACTGG AGAGTCAGTT AAATGAGCAA ACAATCAAAG TGAAACAACT TGAGTCAGCA
    CTGGATGTAT GTAAGGAAGA ACTTGCACTG TATTTGAGTC AGACAGAAGA AAATAAGGAG
    ATGTTTCAAA ATCAGCTCAA AAAGAAGTCT GAAGAGGTTT GTTATTTACA AAAAGAAATA
    AAACTAAAAG GTCGTAATCT TCAGGACACA AGTGAACAGA ATATTCTCCT GCAACAAACT
    TTGCATCAGC AGCAGCAAAT GTTGCAGCAA GAAACTATTA GAACTGGGGA ACTGGAAGAT
    AATCAAACTA AGCTTGAAGA ACAGGTATCT ACTTTAGAAC AAGAACTTCA GAAACAGAAA
    GTATATGCAG AAGATGAGTT GAGAAAGGTA GAGGAGAAAC TCTACCTAGC TTGCCAGGAA
    GCAGATTTAA ACAGACAAAA GGTGGATGAA CTTAATAGCA TAATCCGACA GAAAACACTG
    GAGATGGATG AGTATAAGAA TGAACTTACT GGTATGGAAA AAGAAGTAGT GCGATTAAAA
    CGAGACATAG ATGACAAAGC GATGCAAATA AGTCATTTGG ACATCACTTT GAAGGAAGCA
    CAGTCAGAGC TCAGTGAAAA GACAAGTGAG GTGACTGTTT TAGAAGATAA ACTGCTTCAA
    AGCGAGACTT GCCACAGGGA AGCATTACAG AAAATAGTAG AACTAGAATC TGCATTGCAA
    AATGCCCGTG GAGAATTAAA AGTTGTTTCA CTGCAGCTTC AGGGATTGCA AGATGCGTTA
    CAGAATGCAC AGTTGTCTCT GGAGGAGAAG CAGGTTGCTA TCATGAATCT AACAGCTGAA
    CTCAGGTATT GCAAGGGAGA AATTGAAGAC AAAAAACAAG AGCTTCTTGA CATGGACCAA
    GCATTGAAAG AAAGGAATTG GGAACTGAAA CAAAGAGCAG CACAGATCAC ACAGTTGGAT
    ATGACCGTTC GTGAACATAA GGGAGAAATG GAACAACAAA TAATTCAGTT AGAGTGCAAT
    TTAGAGAAAT CAGAGTTAGA AGTTAAGGAA TGTAATAAAC AGATTGAGAG CTTAGAGAGC
    AAACTCCAGC ATTCCAAGGA GGAACTTCAC GAAAAAGACT TTGAACTGCT CCAGAGAAAT
    CAAGAAATAA ATCAGCTGAA GAAGAAAATG GAAAGACAAC AACAGAGCCT AGAAGCTCTT
    GAAAAGACAG TGAAAGACCA GGAGAATTGC ATTGGAGACC AGTTCAGGGA AGCATTAGAT
    TTGGGTCAGC AACTGAAGCT AGAACGAGAA CAGCTGCAGC GCACTCACTC AGAGCTGCTG
    GAGGCTCGTC AAATGCTGGC GCAGTCCCAA AGAGAAGCAG ACAAACTCGC GTGTGAATTA
    GAAGAAGTAA ACTGTCTGTC CCAAGAGAAG GAATCTCGTG CAAACCGTCT GGCAGAAGAA
    CTGGGTGCTG CCAAAGCTCA TGAAGCTCAG CTAGAACTAC AAATGCAATC TGAGATAAAG
    AAGCTTTTTG CAGAAATAAG TTCGTTAAAA GATGCTTGTC AGATAAAGCT TGCTCATGAG
    AGAGACCAAG CAAAAAGACA GACTTCAACA GAACACCAGA AATTTGGTTC TTACCATCTG
    AGCGAACAGT TGCAACAGGT GAAGGTAGAG TTAGAAGAGG CTCAAGATAA TGTCACTAAT
    CTGCAGCAGC AGCTTCAGAT GAGAGATGAA ATGGTTCGTG CTGCAAGTGA AACACTGCTT
    GTTAAGGTTA GAGAATTATG A

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

    RefSeq XP_015146123.1
    CDS106..3846
    Translation

    Target ORF information:

    RefSeq Version XM_015290637.1
    Organism Gallus gallus(chicken)
    Definition Gallus gallus 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_015290637.1

    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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AGTACATCTG AAGAGTTTAA ATGGCATAAT TTGAAATGTC AGCTATCCAG TTCATCCACC
    AAAGAAGCTG TCTCTGAATC TTGTGAATCA AATAAACCTT TGACTGCAGA CCTAAGCGTT
    GAACTAGCAA CGAAAGAAGC AGAAACTGGA AAGCCCCACA CAAACTTAAC TGCCTGTAAT
    ACAGTTGAGC ATTTATTGAA TGATAATGAA AGACAAGAAA AAAGAGGGTT TTGTGGCCTG
    GAAACAGAAC CTGTCAAATT GATCAAAACT CAAGAAGAGA GGAGAAAATG TCAGCAGTTG
    GAACTTGTCA GCAAACAATT TGAAAAGGAG AGACAAAGAT TCAAGAAAGA GATGGAAAAA
    TTACGTCTTA AACTGGCAAA ACTAGATAAT GAGAATTTGT CTTTGAAGAC CAGCATGGCT
    CAGAGAACCA GTCAGTTTCA AAGCATGCAG GAAGAGCTAT CAGCAAAGAC TTTAAAAGCT
    AATACCTTAA AGCAAGAGAT AGCAAAGAAA TCTTCTCAGC TTTCTGCACT TAAAAAGCAA
    TTGGAAGAAA AGGCTGCTGC TTATTCTGCT GCTGCAGCAC GAAGTACGGA GTTGGAACAG
    GAACTCATGG GAAAAAAGAA ACGCATTCGC GAGTTGGAAA CAACTGTCAG CGAAGAGTAC
    AAGCAACTAA CTTCTGCTTT TGAAAAAGCA AAACTGATTC ATCTTGAGGA GCACAGAGAG
    ATGGAGAAAC AGATAGAAAT AGAAACGAAG AAGCGAGATC TCAAGAAAGA TGAGAGACTG
    AAGATACTGG AGAGTCAGTT AAATGAGCAA ACAATCAAAG TGAAACAACT TGAGTCAGCA
    CTGGATGTAT GTAAGGAAGA ACTTGCACTG TATTTGAGTC AGACAGAAGA AAATAAGGAG
    ATGTTTCAAA ATCAGCTCAA AAAGAAGTCT GAAGAGGTTT GTTATTTACA AAAAGAAATA
    AAACTAAAAG GTCGTAATCT TCAGGACACA AGTGAACAGA ATATTCTCCT GCAACAAACT
    TTGCATCAGC AGCAGCAAAT GTTGCAGCAA GAAACTATTA GAACTGGGGA ACTGGAAGAT
    AATCAAACTA AGCTTGAAGA ACAGGTATCT ACTTTAGAAC AAGAACTTCA GAAACAGAAA
    GTATATGCAG AAGATGAGTT GAGAAAGGTA GAGGAGAAAC TCTACCTAGC TTGCCAGGAA
    GCAGATTTAA ACAGACAAAA GGTGGATGAA CTTAATAGCA TAATCCGACA GAAAACACTG
    GAGATGGATG AGTATAAGAA TGAACTTACT GGTATGGAAA AAGAAGTAGT GCGATTAAAA
    CGAGACATAG ATGACAAAGC GATGCAAATA AGTCATTTGG ACATCACTTT GAAGGAAGCA
    CAGTCAGAGC TCAGTGAAAA GACAAGTGAG GTGACTGTTT TAGAAGATAA ACTGCTTCAA
    AGCGAGACTT GCCACAGGGA AGCATTACAG AAAATAGTAG AACTAGAATC TGCATTGCAA
    AATGCCCGTG GAGAATTAAA AGTTGTTTCA CTGCAGCTTC AGGGATTGCA AGATGCGTTA
    CAGAATGCAC AGTTGTCTCT GGAGGAGAAG CAGGTTGCTA TCATGAATCT AACAGCTGAA
    CTCAGGTATT GCAAGGGAGA AATTGAAGAC AAAAAACAAG AGCTTCTTGA CATGGACCAA
    GCATTGAAAG AAAGGAATTG GGAACTGAAA CAAAGAGCAG CACAGATCAC ACAGTTGGAT
    ATGACCGTTC GTGAACATAA GGGAGAAATG GAACAACAAA TAATTCAGTT AGAGTGCAAT
    TTAGAGAAAT CAGAGTTAGA AGTTAAGGAA TGTAATAAAC AGATTGAGAG CTTAGAGAGC
    AAACTCCAGC ATTCCAAGGA GGAACTTCAC GAAAAAGACT TTGAACTGCT CCAGAGAAAT
    CAAGAAATAA ATCAGCTGAA GAAGAAAATG GAAAGACAAC AACAGAGCCT AGAAGCTCTT
    GAAAAGACAG TGAAAGACCA GGAGAATTGC ATTGGAGACC AGTTCAGGGA AGCATTAGAT
    TTGGGTCAGC AACTGAAGCT AGAACGAGAA CAGCTGCAGC GCACTCACTC AGAGCTGCTG
    GAGGCTCGTC AAATGCTGGC GCAGTCCCAA AGAGAAGCAG ACAAACTCGC GTGTGAATTA
    GAAGAAGTAA ACTGTCTGTC CCAAGAGAAG GAATCTCGTG CAAACCGTCT GGCAGAAGAA
    CTGGGTGCTG CCAAAGCTCA TGAAGCTCAG CTAGAACTAC AAATGCAATC TGAGATAAAG
    AAGCTTTTTG CAGAAATAAG TTCGTTAAAA GATGCTTGTC AGATAAAGCT TGCTCATGAG
    AGAGACCAAG CAAAAAGACA GACTTCAACA GAACACCAGA AATTTGGTTC TTACCATCTG
    AGCGAACAGT TGCAACAGGT GAAGGTAGAG TTAGAAGAGG CTCAAGATAA TGTCACTAAT
    CTGCAGCAGC AGCTTCAGAT GAGAGATGAA ATGGTTCGTG CTGCAAGTGA AACACTGCTT
    GTTAAGGTTA GAGAATTATG A

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

    CloneID OGa25123
    Clone ID Related Accession (Same CDS sequence) NM_001252034.1
    Accession Version NM_001252034.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3882bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-08-04
    Organism Gallus gallus(chicken)
    Product coiled-coil domain-containing protein 18
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AADN05000647.1. On Oct 30, 2011 this sequence version replaced XM_001232489.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA2201357, SAMEA2201358 [ECO:0000350] ##Evidence-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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AAGAAACATG CAAGGTTAGG ATTTAAATGG CATAATTTGA AATGTCAGCT ATCCAGTTCA
    TCCACCAAAG AAGCTGTCTC TGAATCTTGT GAATCAAATA AACCTTTGAC TGCAGACCTA
    AGCGTTGAAC TAGCAACGAA AGAAGCAGAA ACTGGAAAGC CCCACACAAA CTTAACTGCC
    TGTAATACAG TTGAGCATTT ATTGAATGAT AATGAAAGAC AAGAAAAAAG AGGGTTTTGT
    GGCCTGGAAA CAGAACCTGT CAAATTGATC AAAACTCAAG AAGAGAGGAG AAAATGTCAG
    CAGTTGGAAC TTGTCAGCAA ACAATTTGAA AAGGAGAGAC AAAGATTCAA GAAAGAGATG
    GAAAAATTAC GTCTTAAACT GGCAAAACTA GATAATGAGA ATTTGTCTTT GAAGACCAGC
    ATGGCTCAGA GAACCAGTCA GTTTCAAAGC ATGCAGGAAG AGCTATCAGC AAAGACTTTA
    AAAGCTAATA CCTTAAAGCA AGAGGTAACA AAGAAATCTT CTCAGCTTTC TGCACTTAAA
    AAGCAATTGG AAGAAAAGGC TGCTGCTTAT TCTGCTGCTG CAGCACGAAG TACGGAGTTG
    GAACAGGAAC TCATGGGAAA AAAGAAACGC ATTCGCGAGT TGGAAACAAC TGTCAGCGAA
    GAGTACAAGC AACTAACTTC TGCTTTTGAA AAAGCAAAAC TGATTCATCT TGAGGAGCAC
    AGAGAGATGG AGAAACAGAT AGAAATACTT CAGACACAGC TAGATAAGAA ACATCAACAA
    TTTGTAGAAC AAGCGACAAC AATATCTGTT TTGCAACAAG ACATTATACA TAAACAGCAT
    CACATCGAAT CATTGGATGG GCTACTGATG GAGAGCAGAG AGGAAACGAA GAAGCGAGAT
    CTCAAGAAAG ATGAGAGACT GAAGATACTG GAGAGTCAGT TAAATGAGCA AACAATCAAA
    GTGAAACAAC TTGAGTCAGC ACTGGATGTA TGTAAGGAAG AACTTGCACT GTATTTGAGT
    CAGACAGAAG AAAATAAGGA GATGTTTCAA AATCAGCTCA AAAAGAAGTC TGAAGAGGTT
    TGTTATTTAC AAAAAGAAAT AAAACTAAAA GGTCGTAATC TTCAGGACAC AAGTGAACAG
    AATATTCTCC TGCAACAAAC TTTGCATCAG CAGCAGCAAA TGTTGCAGCA AGAAACTATT
    AGAACTGGGG AACTGGAAGA TAATCAAACT AAGCTTGAAG AACAGGTATC TACTTTAGAA
    CAAGAACTTC AGAAACAGAA AGTATATGCA GAAGATGAGT TGAGAAAGGT AGAGGAGAAA
    CTCTACCTAG CTTGCCAGGA AGCAGATTTA AACAGACAAA AGGTGGATGA ACTTAATAGC
    ATAATCCGAC AGAAAACACT GGAGATGGAT GAGTATAAGA ATGAACTTAC TGGTATGGAA
    AAAGAAGTAG TGCGATTAAA ACGAGACATA GATGACAAAG CGATGCAAAT AAGTCATTTG
    GACATCACTT TGAAGGAAGC ACAGTCAGAG CTCAGTGAAA AGACAAGTGA GGTGACTGTT
    TTAGAAGATA AACTGCTTCA AAGCGAGACT TGCCACAGGG AAGCATTACA GAAAATAGTA
    GAACTAGAAT CTGCATTGCA AAATGCCCGT GGAGAATTAA AAGTTGTTTC ACTGCAGCTT
    CAGGGATTGC AAGATGCGTT ACAGAATGCA CAGTTGTCTC TGGAGGAGAA GCAGGTTGCT
    ATCATGAATC TAACAGCTGA ACTCAGGTAT TGCAAGGGAG AAATTGAAGA CAAAAAACAA
    GAGCTTCTTG ACATGGACCA AGCATTGAAA GAAAGGAATT GGGAACTGAA ACAAAGAGCA
    GCACAGATCA CACAGTTGGA TATGACCGTT CGTGAACATA AGGGAGAAAT GGAACAACAA
    ATAATTCAGT TAGAGTGCAA TTTAGAGAAA TCAGAGTTAG AAGTTAAGGA ATGTAATAAA
    CAGATTGAGA GCTTAGAGAG CAAACTCCAG CATTCCAAGG AGGAACTTCA CGAAAAAGAC
    TTTGAACTGC TCCAGAGAAA TCAAGAAATA AATCAGCTGA AGAAGAAAAT GGAAAGACAA
    CAACAGAGCC TAGAAGCTCT TGAAAAGACA GTGAAAGACC AGGAGAATTG CATTGGAGAC
    CAGTTCAGGG AAGCATTAGA TTTGGGTCAG CAACTGAAGC TAGAACGAGA ACAGCTGCAG
    CGCACTCACT CAGAGCTGCT GGAGGCTCGT CAAATGCTGG CGCAGTCCCA AAGAGAAGCA
    GACAAACTCG CGTGTGAATT AGAAGAAGTA AACTGTCTGT CCCAAGAGAA GGAATCTCGT
    GCAAACCGTC TGGCAGAAGA ACTGGGTGCT GCCAAAGCTC ATGAAGCTCA GCTAGAACTA
    CAAATGCAAT CTGAGATAAA GAAGCTTTTT GCAGAAATAA GTTCGTTAAA AGATGCTTGT
    CAGATAAAGC TTGCTCATGA GAGAGACCAA GCAAAAAGAC AGACTTCAAC AGAACACCAG
    AAATTTGGTT CTTACCATCT GAGCGAACAG TTGCAACAGG TGAAGGTAGA GTTAGAAGAG
    GCTCAAGATA ATGTCACTAA TCTGCAGCAG CAGCTTCAGA TGAGAGATGA AATGGTTCGT
    GCTGCAAGTG AAACACTGCT TGTTAAGGTT AGAGAATTAT GA

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

    RefSeq NP_001238963.1
    CDS74..3955
    Translation

    Target ORF information:

    RefSeq Version NM_001252034.1
    Organism Gallus gallus(chicken)
    Definition Gallus gallus coiled-coil domain containing 18 (CCDC18), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001252034.1

    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
    ATGGAGTACA GCATGTGGGC TCATCCTAGA AGTGACGATG AAGAACTGCT CCTGGAGTCA 
    TTACGGAGAC AGCTGAGGAG AACTGAAGAA AACCTACAGA GTGTGGGGGC AGAGCTCTCC
    AGCACTGGTA CAAGGGAACA TTCTGACCGC TGCTTTGAAG AGGCTGCAAA CCTCACCTTG
    GAGGACCTTG TTCAGCTTAA CTGCAACAGT CAGTGCTCTT CCAACTGCAA GAAGACTGTT
    GGTAAAACGT CTTGCTGGGA TTTTCAAAGG AAATCCAAAT CTGACTTGCT GCCTACAGCT
    TTTGATAAAG CTGTGAAAGA AAATGAACGT CTTAAGGAGA AACTGAATAA TCTTCATGAG
    CAAAATGCAT CTTTGGCTTC TCAGAACCAT TACTTAAAGA ATAGAATTGA AACAACAAAC
    ATGGAATTGA TGGAGTCAAA AACAAGAATT TCTTACCTTG AATCAACTTT AGGTATGCAT
    TTAGTCAGCA TTCCTAAGTT AGAAGAAAGA ATTGTAACTT TAGAAGCAGA AGTTTCAGCA
    CAAGATAAAA TTCTAAGAGA TGCAGAAGAT AAACTAGAGC AAAGTCAGAA AACAGTAGTG
    GAAAGAGAAA GCGTGTTGCA AAGATACAAA AAGGACTATG AAGATCTGAA AATTGAGTTA
    ATTGAACAAA ACAAGCAAGG AAAAAGAGCA GAACAACAAA GAAATGAAGC TTTATTGAAT
    GCTGAGGAGC TAACAAGAGT TTTCCAAAAG TATAAGGAGA AAATAACTGG AAGGTTTGAA
    AAGGTTCAAG CGGAAGGAGC ACGTTTAGAA AACTATATAA TTAATTGTGA AAAAGAAAGA
    GAGAAGCTGA ATGAAAAATG TGTCAGCTAC AGAAAGCAAC TAGACATCCA AGACGAGCAA
    TTAAGGCAAC TAAGGGAAGA GAATCACAAC GCAAAAGAAG AAATTATGAC TCTAGAGACA
    AAGAACAGTG AAATGATGTC ATTGTTGAAT CAGTCTAATC AGAAGATCCT TGAGCTTGAA
    AAGGAACTTA ATGAAAAAAA AAGACTACTT AAAGAGAAAA ATGTTCTTGT CAGTGAAAAT
    GCAGAGCTGA GAGCGCTTAA TGCACAACAG CACAACAACT TGAACTTATG CCATCAAGAA
    ATGGAGAATT CAAGGCGAGA GCTCAACTTA CTACAAACCA TTATTTCCCA GTTGTCTTTA
    AAGAAACATG CAAGGTTAGG ATTTAAATGG CATAATTTGA AATGTCAGCT ATCCAGTTCA
    TCCACCAAAG AAGCTGTCTC TGAATCTTGT GAATCAAATA AACCTTTGAC TGCAGACCTA
    AGCGTTGAAC TAGCAACGAA AGAAGCAGAA ACTGGAAAGC CCCACACAAA CTTAACTGCC
    TGTAATACAG TTGAGCATTT ATTGAATGAT AATGAAAGAC AAGAAAAAAG AGGGTTTTGT
    GGCCTGGAAA CAGAACCTGT CAAATTGATC AAAACTCAAG AAGAGAGGAG AAAATGTCAG
    CAGTTGGAAC TTGTCAGCAA ACAATTTGAA AAGGAGAGAC AAAGATTCAA GAAAGAGATG
    GAAAAATTAC GTCTTAAACT GGCAAAACTA GATAATGAGA ATTTGTCTTT GAAGACCAGC
    ATGGCTCAGA GAACCAGTCA GTTTCAAAGC ATGCAGGAAG AGCTATCAGC AAAGACTTTA
    AAAGCTAATA CCTTAAAGCA AGAGGTAACA AAGAAATCTT CTCAGCTTTC TGCACTTAAA
    AAGCAATTGG AAGAAAAGGC TGCTGCTTAT TCTGCTGCTG CAGCACGAAG TACGGAGTTG
    GAACAGGAAC TCATGGGAAA AAAGAAACGC ATTCGCGAGT TGGAAACAAC TGTCAGCGAA
    GAGTACAAGC AACTAACTTC TGCTTTTGAA AAAGCAAAAC TGATTCATCT TGAGGAGCAC
    AGAGAGATGG AGAAACAGAT AGAAATACTT CAGACACAGC TAGATAAGAA ACATCAACAA
    TTTGTAGAAC AAGCGACAAC AATATCTGTT TTGCAACAAG ACATTATACA TAAACAGCAT
    CACATCGAAT CATTGGATGG GCTACTGATG GAGAGCAGAG AGGAAACGAA GAAGCGAGAT
    CTCAAGAAAG ATGAGAGACT GAAGATACTG GAGAGTCAGT TAAATGAGCA AACAATCAAA
    GTGAAACAAC TTGAGTCAGC ACTGGATGTA TGTAAGGAAG AACTTGCACT GTATTTGAGT
    CAGACAGAAG AAAATAAGGA GATGTTTCAA AATCAGCTCA AAAAGAAGTC TGAAGAGGTT
    TGTTATTTAC AAAAAGAAAT AAAACTAAAA GGTCGTAATC TTCAGGACAC AAGTGAACAG
    AATATTCTCC TGCAACAAAC TTTGCATCAG CAGCAGCAAA TGTTGCAGCA AGAAACTATT
    AGAACTGGGG AACTGGAAGA TAATCAAACT AAGCTTGAAG AACAGGTATC TACTTTAGAA
    CAAGAACTTC AGAAACAGAA AGTATATGCA GAAGATGAGT TGAGAAAGGT AGAGGAGAAA
    CTCTACCTAG CTTGCCAGGA AGCAGATTTA AACAGACAAA AGGTGGATGA ACTTAATAGC
    ATAATCCGAC AGAAAACACT GGAGATGGAT GAGTATAAGA ATGAACTTAC TGGTATGGAA
    AAAGAAGTAG TGCGATTAAA ACGAGACATA GATGACAAAG CGATGCAAAT AAGTCATTTG
    GACATCACTT TGAAGGAAGC ACAGTCAGAG CTCAGTGAAA AGACAAGTGA GGTGACTGTT
    TTAGAAGATA AACTGCTTCA AAGCGAGACT TGCCACAGGG AAGCATTACA GAAAATAGTA
    GAACTAGAAT CTGCATTGCA AAATGCCCGT GGAGAATTAA AAGTTGTTTC ACTGCAGCTT
    CAGGGATTGC AAGATGCGTT ACAGAATGCA CAGTTGTCTC TGGAGGAGAA GCAGGTTGCT
    ATCATGAATC TAACAGCTGA ACTCAGGTAT TGCAAGGGAG AAATTGAAGA CAAAAAACAA
    GAGCTTCTTG ACATGGACCA AGCATTGAAA GAAAGGAATT GGGAACTGAA ACAAAGAGCA
    GCACAGATCA CACAGTTGGA TATGACCGTT CGTGAACATA AGGGAGAAAT GGAACAACAA
    ATAATTCAGT TAGAGTGCAA TTTAGAGAAA TCAGAGTTAG AAGTTAAGGA ATGTAATAAA
    CAGATTGAGA GCTTAGAGAG CAAACTCCAG CATTCCAAGG AGGAACTTCA CGAAAAAGAC
    TTTGAACTGC TCCAGAGAAA TCAAGAAATA AATCAGCTGA AGAAGAAAAT GGAAAGACAA
    CAACAGAGCC TAGAAGCTCT TGAAAAGACA GTGAAAGACC AGGAGAATTG CATTGGAGAC
    CAGTTCAGGG AAGCATTAGA TTTGGGTCAG CAACTGAAGC TAGAACGAGA ACAGCTGCAG
    CGCACTCACT CAGAGCTGCT GGAGGCTCGT CAAATGCTGG CGCAGTCCCA AAGAGAAGCA
    GACAAACTCG CGTGTGAATT AGAAGAAGTA AACTGTCTGT CCCAAGAGAA GGAATCTCGT
    GCAAACCGTC TGGCAGAAGA ACTGGGTGCT GCCAAAGCTC ATGAAGCTCA GCTAGAACTA
    CAAATGCAAT CTGAGATAAA GAAGCTTTTT GCAGAAATAA GTTCGTTAAA AGATGCTTGT
    CAGATAAAGC TTGCTCATGA GAGAGACCAA GCAAAAAGAC AGACTTCAAC AGAACACCAG
    AAATTTGGTT CTTACCATCT GAGCGAACAG TTGCAACAGG TGAAGGTAGA GTTAGAAGAG
    GCTCAAGATA ATGTCACTAA TCTGCAGCAG CAGCTTCAGA TGAGAGATGA AATGGTTCGT
    GCTGCAAGTG AAACACTGCT TGTTAAGGTT AGAGAATTAT GA

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