ORF » Species Summary » Homo sapiens » COL27A1 cDNA ORF clone

COL27A1 cDNA ORF clone, Homo sapiens(human)

The following COL27A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL27A1 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
OHu13132 NM_032888.4
Latest version!		 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$679.50-$951.30
$1359.00
OHu43564 XM_006717308.2
Latest version!		 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu43566 XM_006717310.3
Latest version!		 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu73932 XM_011519138.2
Latest version!		 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu73934 XM_011519140.1
Latest version!		 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu73936 XM_011519142.3
Latest version!		 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu73937 XM_011519143.2
Latest version!		 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu73938 XM_011519144.2
Latest version!		 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu73939 XM_011519145.3
Latest version!		 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu98967 XM_017015239.1
Latest version!		 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
View Old Accession Versions >>
OHu13132 NM_032888.3 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$679.50-$951.30
$1359.00
OHu73936 XM_011519142.2 Homo sapiens collagen type XXVII alpha 1 (COL27A1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu73939 XM_011519145.2 Homo sapiens collagen type XXVII alpha 1 (COL27A1), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
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)
    COL27A1 ( NM_032888.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_116277.2 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), mRNA.
    Price & Availability↑
    CloneID OHu13132
    Clone ID Related Accession (Same CDS sequence) NM_032888.3 , NM_032888.4
    Accession Version NM_032888.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5583bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-10-02
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXVII) chain preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BU076480.1, BC035728.1, AY149237.1, AL356796.16 and AI808820.1. This sequence is a reference standard in the RefSeqGene project. On Sep 17, 2014 this sequence version replaced NM_032888.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AY149237.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968189, SAMEA1968540 [ECO:0000348] ##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
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG TGAGATGGGC GTCCCTGGAG ACCCTGGACC CCCTGGCACT 
    CCAGGCCCTA AAGGGTCCCG GGGCAGCCTG GGACCAACGG GTGCTCCGGG ACGCATGGGG 
    GCCCAAGGAG AACCGGGACT GGCTGGTTAT GATGGACACA AAGGCATTGT GGGACCCCTT 
    GGACCTCCTG GACCAAAAGG CGAAAAGGGG GAGCAGGGCG AGGACGGCAA GGCTGAGGGG 
    CCCCCTGGGC CACCTGGAGA TCGGGGCCCT GTGGGTGATC GAGGAGACCG CGGGGAACCG 
    GGAGACCCTG GGTACCCTGG ACAGGAGGGT GTGCAAGGCC TCCGTGGAAA GCCAGGCCAG 
    CAGGGCCAAC CCGGGCATCC GGGACCCCGG GGGTGGCCGG GACCCAAAGG ATCGAAAGGC 
    GCAGAGGGAC CAAAGGGAAA GCAAGGCAAG GCAGGGGCCC CAGGCCGGAG GGGGGTCCAG 
    GGCCTGCAGG GGCTGCCAGG GCCCCGGGGC GTGGTGGGGA GACAGGGCCT CGAGGGCATC 
    GCTGGACCAG ATGGGCTTCC TGGCAGGGAC GGGCAAGCAG GACAGCAGGG GGAGCAGGGA 
    GACGATGGGG ACCCTGGCCC CATGGGCCCT GCTGGGAAGA GAGGAAATCC AGGTGTGGCC 
    GGCTTACCTG GAGCACAGGG ACCCCCAGGA TTCAAGGGTG AGAGTGGGTT ACCCGGACAG 
    CTGGGTCCCC CTGGCAAGCG AGGAACAGAG GGCAGAACGG GGCTCCCTGG AAACCAGGGG 
    GAGCCTGGGT CCAAAGGCCA GCCGGGCGAC TCTGGCGAGA TGGGCTTCCC AGGAATGGCA 
    GGTCTCTTCG GACCCAAGGG CCCGCCTGGA GACATTGGCT TCAAAGGCAT CCAGGGCCCT 
    CGGGGGCCAC CTGGCTTGAT GGGAAAGGAA GGCATCGTCG GGCCCCTCGG AATCCTGGGA 
    CCTTCGGGAC TCCCGGGTCC GAAGGGTGAC AAAGGCAGCC GTGGGGACTG GGGATTGCAA 
    GGTCCGAGGG GTCCTCCCGG CCCCAGAGGG CGGCCCGGCC CCCCGGGTCC TCCAGGGGGT 
    CCTATCCAAT TGCAACAAGA TGATCTTGGG GCAGCTTTCC AGACGTGGAT GGACACCAGT 
    GGAGCACTCA GGCCAGAGAG TTACAGCTAT CCAGACCGGC TGGTGCTGGA CCAGGGAGGA 
    GAGATCTTTA AAACCTTACA CTACCTCAGC AACCTCATCC AGAGCATTAA GACGCCCCTG 
    GGCACCAAAG AGAACCCCGC CCGGGTCTGC AGGGACCTCA TGGACTGTGA GCAGAAGATG 
    GTGGATGGTA CCTACTGGGT GGATCCAAAC CTTGGCTGCT CCTCTGACAC CATCGAGGTC 
    TCCTGCAACT TCACTCATGG TGGACAGACG TGTCTCAAGC CCATCACGGC CTCCAAGGTC 
    GAGTTTGCCA TCAGCCGGGT CCAGATGAAT TTCCTGCACC TGCTAAGCTC CGAGGTGACC 
    CAGCACATCA CCATCCACTG CCTTAACATG ACCGTGTGGC AGGAGGGCAC TGGGCAGACC 
    CCAGCCAAGC AGGCCGTACG CTTCCGGGCC TGGAATGGAC AGATTTTTGA AGCTGGGGGT 
    CAGTTCCGGC CCGAGGTGTC CATGGATGGC TGCAAGGTCC AAGATGGCCG CTGGCATCAG 
    ACACTCTTCA CCTTCCGGAC CCAAGACCCC CAACAGCTGC CCATCATCAG TGTGGACAAC 
    CTCCCTCCTG CCTCATCAGG GAAGCAGTAC CGCCTGGAAG TTGGACCTGC GTGCTTCCTC 
    TGA

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

    RefSeq NP_116277.2
    CDS407..5989
    Translation

    Target ORF information:

    RefSeq Version NM_032888.3
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_032888.3

    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
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG TGAGATGGGC GTCCCTGGAG ACCCTGGACC CCCTGGCACT 
    CCAGGCCCTA AAGGGTCCCG GGGCAGCCTG GGACCAACGG GTGCTCCGGG ACGCATGGGG 
    GCCCAAGGAG AACCGGGACT GGCTGGTTAT GATGGACACA AAGGCATTGT GGGACCCCTT 
    GGACCTCCTG GACCAAAAGG CGAAAAGGGG GAGCAGGGCG AGGACGGCAA GGCTGAGGGG 
    CCCCCTGGGC CACCTGGAGA TCGGGGCCCT GTGGGTGATC GAGGAGACCG CGGGGAACCG 
    GGAGACCCTG GGTACCCTGG ACAGGAGGGT GTGCAAGGCC TCCGTGGAAA GCCAGGCCAG 
    CAGGGCCAAC CCGGGCATCC GGGACCCCGG GGGTGGCCGG GACCCAAAGG ATCGAAAGGC 
    GCAGAGGGAC CAAAGGGAAA GCAAGGCAAG GCAGGGGCCC CAGGCCGGAG GGGGGTCCAG 
    GGCCTGCAGG GGCTGCCAGG GCCCCGGGGC GTGGTGGGGA GACAGGGCCT CGAGGGCATC 
    GCTGGACCAG ATGGGCTTCC TGGCAGGGAC GGGCAAGCAG GACAGCAGGG GGAGCAGGGA 
    GACGATGGGG ACCCTGGCCC CATGGGCCCT GCTGGGAAGA GAGGAAATCC AGGTGTGGCC 
    GGCTTACCTG GAGCACAGGG ACCCCCAGGA TTCAAGGGTG AGAGTGGGTT ACCCGGACAG 
    CTGGGTCCCC CTGGCAAGCG AGGAACAGAG GGCAGAACGG GGCTCCCTGG AAACCAGGGG 
    GAGCCTGGGT CCAAAGGCCA GCCGGGCGAC TCTGGCGAGA TGGGCTTCCC AGGAATGGCA 
    GGTCTCTTCG GACCCAAGGG CCCGCCTGGA GACATTGGCT TCAAAGGCAT CCAGGGCCCT 
    CGGGGGCCAC CTGGCTTGAT GGGAAAGGAA GGCATCGTCG GGCCCCTCGG AATCCTGGGA 
    CCTTCGGGAC TCCCGGGTCC GAAGGGTGAC AAAGGCAGCC GTGGGGACTG GGGATTGCAA 
    GGTCCGAGGG GTCCTCCCGG CCCCAGAGGG CGGCCCGGCC CCCCGGGTCC TCCAGGGGGT 
    CCTATCCAAT TGCAACAAGA TGATCTTGGG GCAGCTTTCC AGACGTGGAT GGACACCAGT 
    GGAGCACTCA GGCCAGAGAG TTACAGCTAT CCAGACCGGC TGGTGCTGGA CCAGGGAGGA 
    GAGATCTTTA AAACCTTACA CTACCTCAGC AACCTCATCC AGAGCATTAA GACGCCCCTG 
    GGCACCAAAG AGAACCCCGC CCGGGTCTGC AGGGACCTCA TGGACTGTGA GCAGAAGATG 
    GTGGATGGTA CCTACTGGGT GGATCCAAAC CTTGGCTGCT CCTCTGACAC CATCGAGGTC 
    TCCTGCAACT TCACTCATGG TGGACAGACG TGTCTCAAGC CCATCACGGC CTCCAAGGTC 
    GAGTTTGCCA TCAGCCGGGT CCAGATGAAT TTCCTGCACC TGCTAAGCTC CGAGGTGACC 
    CAGCACATCA CCATCCACTG CCTTAACATG ACCGTGTGGC AGGAGGGCAC TGGGCAGACC 
    CCAGCCAAGC AGGCCGTACG CTTCCGGGCC TGGAATGGAC AGATTTTTGA AGCTGGGGGT 
    CAGTTCCGGC CCGAGGTGTC CATGGATGGC TGCAAGGTCC AAGATGGCCG CTGGCATCAG 
    ACACTCTTCA CCTTCCGGAC CCAAGACCCC CAACAGCTGC CCATCATCAG TGTGGACAAC 
    CTCCCTCCTG CCTCATCAGG GAAGCAGTAC CGCCTGGAAG TTGGACCTGC GTGCTTCCTC 
    TGA

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

    COL27A1 ( NM_032888.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_116277.2 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), mRNA.
    Price & Availability↑
    CloneID OHu13132
    Clone ID Related Accession (Same CDS sequence) NM_032888.3 , NM_032888.4
    Accession Version NM_032888.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5583bp)
    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 2019-12-29
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXVII) chain preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL445543.20, BU076480.1, BC035728.1, AY149237.1, AL356796.16 and AI808820.1. This sequence is a reference standard in the RefSeqGene project. On Nov 22, 2018 this sequence version replaced NM_032888.3. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AY149237.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968189, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000356083.8/ ENSP00000348385.3 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG TGAGATGGGC GTCCCTGGAG ACCCTGGACC CCCTGGCACT 
    CCAGGCCCTA AAGGGTCCCG GGGCAGCCTG GGACCAACGG GTGCTCCGGG ACGCATGGGG 
    GCCCAAGGAG AACCGGGACT GGCTGGTTAT GATGGACACA AAGGCATTGT GGGACCCCTT 
    GGACCTCCTG GACCAAAAGG CGAAAAGGGG GAGCAGGGCG AGGACGGCAA GGCTGAGGGG 
    CCCCCTGGGC CACCTGGAGA TCGGGGCCCT GTGGGTGATC GAGGAGACCG CGGGGAACCG 
    GGAGACCCTG GGTACCCTGG ACAGGAGGGT GTGCAAGGCC TCCGTGGAAA GCCAGGCCAG 
    CAGGGCCAAC CCGGGCATCC GGGACCCCGG GGGTGGCCGG GACCCAAAGG ATCGAAAGGC 
    GCAGAGGGAC CAAAGGGAAA GCAAGGCAAG GCAGGGGCCC CAGGCCGGAG GGGGGTCCAG 
    GGCCTGCAGG GGCTGCCAGG GCCCCGGGGC GTGGTGGGGA GACAGGGCCT CGAGGGCATC 
    GCTGGACCAG ATGGGCTTCC TGGCAGGGAC GGGCAAGCAG GACAGCAGGG GGAGCAGGGA 
    GACGATGGGG ACCCTGGCCC CATGGGCCCT GCTGGGAAGA GAGGAAATCC AGGTGTGGCC 
    GGCTTACCTG GAGCACAGGG ACCCCCAGGA TTCAAGGGTG AGAGTGGGTT ACCCGGACAG 
    CTGGGTCCCC CTGGCAAGCG AGGAACAGAG GGCAGAACGG GGCTCCCTGG AAACCAGGGG 
    GAGCCTGGGT CCAAAGGCCA GCCGGGCGAC TCTGGCGAGA TGGGCTTCCC AGGAATGGCA 
    GGTCTCTTCG GACCCAAGGG CCCGCCTGGA GACATTGGCT TCAAAGGCAT CCAGGGCCCT 
    CGGGGGCCAC CTGGCTTGAT GGGAAAGGAA GGCATCGTCG GGCCCCTCGG AATCCTGGGA 
    CCTTCGGGAC TCCCGGGTCC GAAGGGTGAC AAAGGCAGCC GTGGGGACTG GGGATTGCAA 
    GGTCCGAGGG GTCCTCCCGG CCCCAGAGGG CGGCCCGGCC CCCCGGGTCC TCCAGGGGGT 
    CCTATCCAAT TGCAACAAGA TGATCTTGGG GCAGCTTTCC AGACGTGGAT GGACACCAGT 
    GGAGCACTCA GGCCAGAGAG TTACAGCTAT CCAGACCGGC TGGTGCTGGA CCAGGGAGGA 
    GAGATCTTTA AAACCTTACA CTACCTCAGC AACCTCATCC AGAGCATTAA GACGCCCCTG 
    GGCACCAAAG AGAACCCCGC CCGGGTCTGC AGGGACCTCA TGGACTGTGA GCAGAAGATG 
    GTGGATGGTA CCTACTGGGT GGATCCAAAC CTTGGCTGCT CCTCTGACAC CATCGAGGTC 
    TCCTGCAACT TCACTCATGG TGGACAGACG TGTCTCAAGC CCATCACGGC CTCCAAGGTC 
    GAGTTTGCCA TCAGCCGGGT CCAGATGAAT TTCCTGCACC TGCTAAGCTC CGAGGTGACC 
    CAGCACATCA CCATCCACTG CCTTAACATG ACCGTGTGGC AGGAGGGCAC TGGGCAGACC 
    CCAGCCAAGC AGGCCGTACG CTTCCGGGCC TGGAATGGAC AGATTTTTGA AGCTGGGGGT 
    CAGTTCCGGC CCGAGGTGTC CATGGATGGC TGCAAGGTCC AAGATGGCCG CTGGCATCAG 
    ACACTCTTCA CCTTCCGGAC CCAAGACCCC CAACAGCTGC CCATCATCAG TGTGGACAAC 
    CTCCCTCCTG CCTCATCAGG GAAGCAGTAC CGCCTGGAAG TTGGACCTGC GTGCTTCCTC 
    TGA

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

    RefSeq NP_116277.2
    CDS415..5997
    Translation

    Target ORF information:

    RefSeq Version NM_032888.4
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_032888.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG TGAGATGGGC GTCCCTGGAG ACCCTGGACC CCCTGGCACT 
    CCAGGCCCTA AAGGGTCCCG GGGCAGCCTG GGACCAACGG GTGCTCCGGG ACGCATGGGG 
    GCCCAAGGAG AACCGGGACT GGCTGGTTAT GATGGACACA AAGGCATTGT GGGACCCCTT 
    GGACCTCCTG GACCAAAAGG CGAAAAGGGG GAGCAGGGCG AGGACGGCAA GGCTGAGGGG 
    CCCCCTGGGC CACCTGGAGA TCGGGGCCCT GTGGGTGATC GAGGAGACCG CGGGGAACCG 
    GGAGACCCTG GGTACCCTGG ACAGGAGGGT GTGCAAGGCC TCCGTGGAAA GCCAGGCCAG 
    CAGGGCCAAC CCGGGCATCC GGGACCCCGG GGGTGGCCGG GACCCAAAGG ATCGAAAGGC 
    GCAGAGGGAC CAAAGGGAAA GCAAGGCAAG GCAGGGGCCC CAGGCCGGAG GGGGGTCCAG 
    GGCCTGCAGG GGCTGCCAGG GCCCCGGGGC GTGGTGGGGA GACAGGGCCT CGAGGGCATC 
    GCTGGACCAG ATGGGCTTCC TGGCAGGGAC GGGCAAGCAG GACAGCAGGG GGAGCAGGGA 
    GACGATGGGG ACCCTGGCCC CATGGGCCCT GCTGGGAAGA GAGGAAATCC AGGTGTGGCC 
    GGCTTACCTG GAGCACAGGG ACCCCCAGGA TTCAAGGGTG AGAGTGGGTT ACCCGGACAG 
    CTGGGTCCCC CTGGCAAGCG AGGAACAGAG GGCAGAACGG GGCTCCCTGG AAACCAGGGG 
    GAGCCTGGGT CCAAAGGCCA GCCGGGCGAC TCTGGCGAGA TGGGCTTCCC AGGAATGGCA 
    GGTCTCTTCG GACCCAAGGG CCCGCCTGGA GACATTGGCT TCAAAGGCAT CCAGGGCCCT 
    CGGGGGCCAC CTGGCTTGAT GGGAAAGGAA GGCATCGTCG GGCCCCTCGG AATCCTGGGA 
    CCTTCGGGAC TCCCGGGTCC GAAGGGTGAC AAAGGCAGCC GTGGGGACTG GGGATTGCAA 
    GGTCCGAGGG GTCCTCCCGG CCCCAGAGGG CGGCCCGGCC CCCCGGGTCC TCCAGGGGGT 
    CCTATCCAAT TGCAACAAGA TGATCTTGGG GCAGCTTTCC AGACGTGGAT GGACACCAGT 
    GGAGCACTCA GGCCAGAGAG TTACAGCTAT CCAGACCGGC TGGTGCTGGA CCAGGGAGGA 
    GAGATCTTTA AAACCTTACA CTACCTCAGC AACCTCATCC AGAGCATTAA GACGCCCCTG 
    GGCACCAAAG AGAACCCCGC CCGGGTCTGC AGGGACCTCA TGGACTGTGA GCAGAAGATG 
    GTGGATGGTA CCTACTGGGT GGATCCAAAC CTTGGCTGCT CCTCTGACAC CATCGAGGTC 
    TCCTGCAACT TCACTCATGG TGGACAGACG TGTCTCAAGC CCATCACGGC CTCCAAGGTC 
    GAGTTTGCCA TCAGCCGGGT CCAGATGAAT TTCCTGCACC TGCTAAGCTC CGAGGTGACC 
    CAGCACATCA CCATCCACTG CCTTAACATG ACCGTGTGGC AGGAGGGCAC TGGGCAGACC 
    CCAGCCAAGC AGGCCGTACG CTTCCGGGCC TGGAATGGAC AGATTTTTGA AGCTGGGGGT 
    CAGTTCCGGC CCGAGGTGTC CATGGATGGC TGCAAGGTCC AAGATGGCCG CTGGCATCAG 
    ACACTCTTCA CCTTCCGGAC CCAAGACCCC CAACAGCTGC CCATCATCAG TGTGGACAAC 
    CTCCCTCCTG CCTCATCAGG GAAGCAGTAC CGCCTGGAAG TTGGACCTGC GTGCTTCCTC 
    TGA

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

    COL27A1 ( XM_006717308.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_006717371.1 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu43564
    Clone ID Related Accession (Same CDS sequence) XM_006717308.2
    Accession Version XM_006717308.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5529bp)
    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 collagen alpha-1(XXVII) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_006717308.1. ##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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGTG ACATGGGCTT GCCTGGGCTC 
    TCCGGGAATC CAGGACCTCC GGGACGAAAG GGACACAAGG GCTATCCTGG ACCGGCAGGG 
    CACCCCGGAG AACAGGGGCA GCCAGGACCT GAGGGCAGCC CAGGGGCCAA AGGTTACCCT 
    GGCAGGCAGG GGTTACCTGG ACCGGTAGGA GATCCCGGCC CCAAAGGCAG CAGGGGCTAC 
    ATTGGGCTCC CAGGGCTCTT CGGCCTGCCA GGGTCTGATG GAGAACGAGG CCTGCCTGGC 
    GTTCCTGGCA AGAGGGGCAA GATGGGTATG CCGGGGTTTC CTGGAGTCTT TGGGGAAAGA 
    GGCCCTCCTG GACTGGATGG AAATCCTGGA GAACTGGGCC TGCCAGGCCC CCCTGGAGTC 
    CCCGGCCTCA TTGGTGACTT AGGAGTGTTG GGTCCGATTG GCTACCCGGG ACCCAAGGGC 
    ATGAAGGGAC TGATGGGCAG CGTGGGGGAG CCCGGACTGA AAGGTGATAA GGGTGAACAA 
    GGGGTTCCAG GTGTGTCAGG AGATCCCGGA TTCCAAGGAG ACAAGGGGAG CCAGGGGTTG 
    CCAGGGTTCC CCGGTGCACG GGGGAAGCCA GGGCCTCTGG GCAAAGTCGG AGACAAAGGA 
    TCCATTGGGT TTCCCGGGCC CCCTGGACCC GAGGGATTCC CAGGAGACAT CGGCCCCCCT 
    GGCGACAATG GCCCAGAAGG CATGAAGGGT AAGCCTGGAG CCCGAGGCCT GCCGGGACCC 
    CGTGGGCAGC TGGGGCCCGA GGGAGATGAG GGACCCATGG GGCCGCCAGG GGCCCCTGGC 
    TTGGAGGGTC AGCCTGGCAG GAAGGGGTTT CCTGGGAGGC CCGGCCTGGA TGGCGTGAAG 
    GGGGAACCAG GGGATCCTGG TCGGCCGGGG CCTGTGGGAG AGCAGGGATT TATGGGATTC 
    ATTGGTCTGG TCGGGGAGCC AGGAATCGTG GGAGAAAAGG GTGATCGTGG CATGATGGGA 
    CCCCCAGGCG TGCCTGGACC CAAGGGGTCG ATGGGTCATC CTGGAATGCC AGGTGGTATG 
    GGGACCCCTG GAGAGCCTGG ACCCCAGGGT CCTCCAGGAT CTCGAGGCCC ACCAGGCATG 
    AGGGGAGCAA AGGGACGTCG GGGCCCCCGA GGACCGGACG GACCAGCTGG GGAGCAAGGG 
    TCCAGGGGCC TGAAGGGCCC TCCAGGACCC CAGGGCAGAC CGGGCCGGCC TGGACAGCAG 
    GGTGTGGCTG GTGAGCGAGG CCACTTGGGC TCGAGAGGCT TTCCTGGCAT CCCGGGTCCC 
    TCAGGCCCCC CAGGCACCAA GGGCCTCCCA GGAGAACCGG GCCCTCAGGG ACCCCAGGGG 
    CCAATTGGGC CTCCAGGAGA GATGGGACCC AAGGGGCCGC CTGGTGCAGT GGGAGAACCG 
    GGCCTTCCTG GGGAAGCCGG GATGAAGGGT GACCTTGGAC CCCTGGGCAC TCCTGGGGAG 
    CAGGGCCTCA TTGGGCAACG GGGAGAGCCA GGCCTTGAGG GTGACAGTGG CCCCATGGGA 
    CCTGATGGGC TGAAGGGGGA CAGGGGAGAC CCAGGGCCTG ATGGAGAACA TGGCGAGAAA 
    GGCCAGGAAG GGCTGATGGG TGAGGACGGG CCCCCCGGCC CCCCTGGCGT CACTGGTGTC 
    CGGGGTCCTG AAGGAAAATC AGGGAAGCAA GGCGAGAAGG GCCGCACTGG AGCCAAGGGT 
    GCCAAGGGCT ATCAAGGACA GCTGGGTGAG ATGGGCGTCC CTGGAGACCC TGGACCCCCT 
    GGCACTCCAG GCCCTAAAGG GTCCCGGGGC AGCCTGGGAC CAACGGGTGC TCCGGGACGC 
    ATGGGGGCCC AAGGAGAACC GGGACTGGCT GGTTATGATG GACACAAAGG CATTGTGGGA 
    CCCCTTGGAC CTCCTGGACC AAAAGGCGAA AAGGGGGAGC AGGGCGAGGA CGGCAAGGCT 
    GAGGGGCCCC CTGGGCCACC TGGAGATCGG GGCCCTGTGG GTGATCGAGG AGACCGCGGG 
    GAACCGGGAG ACCCTGGGTA CCCTGGACAG GAGGGTGTGC AAGGCCTCCG TGGAAAGCCA 
    GGCCAGCAGG GCCAACCCGG GCATCCGGGA CCCCGGGGGT GGCCGGGACC CAAAGGATCG 
    AAAGGCGCAG AGGGACCAAA GGGAAAGCAA GGCAAGGCAG GGGCCCCAGG CCGGAGGGGG 
    GTCCAGGGCC TGCAGGGGCT GCCAGGGCCC CGGGGCGTGG TGGGGAGACA GGGCCTCGAG 
    GGCATCGCTG GACCAGATGG GCTTCCTGGC AGGGACGGGC AAGCAGGACA GCAGGGGGAG 
    CAGGGAGACG ATGGGGACCC TGGCCCCATG GGCCCTGCTG GGAAGAGAGG AAATCCAGGT 
    GTGGCCGGCT TACCTGGAGC ACAGGGACCC CCAGGATTCA AGGGTGAGAG TGGGTTACCC 
    GGACAGCTGG GTCCCCCTGG CAAGCGAGGA ACAGAGGGCA GAACGGGGCT CCCTGGAAAC 
    CAGGGGGAGC CTGGGTCCAA AGGCCAGCCG GGCGACTCTG GCGAGATGGG CTTCCCAGGA 
    ATGGCAGGTC TCTTCGGACC CAAGGGCCCG CCTGGAGACA TTGGCTTCAA AGGCATCCAG 
    GGCCCTCGGG GGCCACCTGG CTTGATGGGA AAGGAAGGCA TCGTCGGGCC CCTCGGAATC 
    CTGGGACCTT CGGGACTCCC GGGTCCGAAG GGTGACAAAG GCAGCCGTGG GGACTGGGGA 
    TTGCAAGGTC CGAGGGGTCC TCCCGGCCCC AGAGGGCGGC CCGGCCCCCC GGGTCCTCCA 
    GGGGGTCCTA TCCAATTGCA ACAAGATGAT CTTGGGGCAG CTTTCCAGAC GTGGATGGAC 
    ACCAGTGGAG CACTCAGGCC AGAGAGTTAC AGCTATCCAG ACCGGCTGGT GCTGGACCAG 
    GGAGGAGAGA TCTTTAAAAC CTTACACTAC CTCAGCAACC TCATCCAGAG CATTAAGACG 
    CCCCTGGGCA CCAAAGAGAA CCCCGCCCGG GTCTGCAGGG ACCTCATGGA CTGTGAGCAG 
    AAGATGGTGG ATGGTACCTA CTGGGTGGAT CCAAACCTTG GCTGCTCCTC TGACACCATC 
    GAGGTCTCCT GCAACTTCAC TCATGGTGGA CAGACGTGTC TCAAGCCCAT CACGGCCTCC 
    AAGGTCGAGT TTGCCATCAG CCGGGTCCAG ATGAATTTCC TGCACCTGCT AAGCTCCGAG 
    GTGACCCAGC ACATCACCAT CCACTGCCTT AACATGACCG TGTGGCAGGA GGGCACTGGG 
    CAGACCCCAG CCAAGCAGGC CGTACGCTTC CGGGCCTGGA ATGGACAGAT TTTTGAAGCT 
    GGGGGTCAGT TCCGGCCCGA GGTGTCCATG GATGGCTGCA AGGTCCAAGA TGGCCGCTGG 
    CATCAGACAC TCTTCACCTT CCGGACCCAA GACCCCCAAC AGCTGCCCAT CATCAGTGTG 
    GACAACCTCC CTCCTGCCTC ATCAGGGAAG CAGTACCGCC TGGAAGTTGG ACCTGCGTGC 
    TTCCTCTGA

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

    RefSeq XP_006717371.1
    CDS475..6003
    Translation

    Target ORF information:

    RefSeq Version XM_006717308.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006717308.2

    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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGTG ACATGGGCTT GCCTGGGCTC 
    TCCGGGAATC CAGGACCTCC GGGACGAAAG GGACACAAGG GCTATCCTGG ACCGGCAGGG 
    CACCCCGGAG AACAGGGGCA GCCAGGACCT GAGGGCAGCC CAGGGGCCAA AGGTTACCCT 
    GGCAGGCAGG GGTTACCTGG ACCGGTAGGA GATCCCGGCC CCAAAGGCAG CAGGGGCTAC 
    ATTGGGCTCC CAGGGCTCTT CGGCCTGCCA GGGTCTGATG GAGAACGAGG CCTGCCTGGC 
    GTTCCTGGCA AGAGGGGCAA GATGGGTATG CCGGGGTTTC CTGGAGTCTT TGGGGAAAGA 
    GGCCCTCCTG GACTGGATGG AAATCCTGGA GAACTGGGCC TGCCAGGCCC CCCTGGAGTC 
    CCCGGCCTCA TTGGTGACTT AGGAGTGTTG GGTCCGATTG GCTACCCGGG ACCCAAGGGC 
    ATGAAGGGAC TGATGGGCAG CGTGGGGGAG CCCGGACTGA AAGGTGATAA GGGTGAACAA 
    GGGGTTCCAG GTGTGTCAGG AGATCCCGGA TTCCAAGGAG ACAAGGGGAG CCAGGGGTTG 
    CCAGGGTTCC CCGGTGCACG GGGGAAGCCA GGGCCTCTGG GCAAAGTCGG AGACAAAGGA 
    TCCATTGGGT TTCCCGGGCC CCCTGGACCC GAGGGATTCC CAGGAGACAT CGGCCCCCCT 
    GGCGACAATG GCCCAGAAGG CATGAAGGGT AAGCCTGGAG CCCGAGGCCT GCCGGGACCC 
    CGTGGGCAGC TGGGGCCCGA GGGAGATGAG GGACCCATGG GGCCGCCAGG GGCCCCTGGC 
    TTGGAGGGTC AGCCTGGCAG GAAGGGGTTT CCTGGGAGGC CCGGCCTGGA TGGCGTGAAG 
    GGGGAACCAG GGGATCCTGG TCGGCCGGGG CCTGTGGGAG AGCAGGGATT TATGGGATTC 
    ATTGGTCTGG TCGGGGAGCC AGGAATCGTG GGAGAAAAGG GTGATCGTGG CATGATGGGA 
    CCCCCAGGCG TGCCTGGACC CAAGGGGTCG ATGGGTCATC CTGGAATGCC AGGTGGTATG 
    GGGACCCCTG GAGAGCCTGG ACCCCAGGGT CCTCCAGGAT CTCGAGGCCC ACCAGGCATG 
    AGGGGAGCAA AGGGACGTCG GGGCCCCCGA GGACCGGACG GACCAGCTGG GGAGCAAGGG 
    TCCAGGGGCC TGAAGGGCCC TCCAGGACCC CAGGGCAGAC CGGGCCGGCC TGGACAGCAG 
    GGTGTGGCTG GTGAGCGAGG CCACTTGGGC TCGAGAGGCT TTCCTGGCAT CCCGGGTCCC 
    TCAGGCCCCC CAGGCACCAA GGGCCTCCCA GGAGAACCGG GCCCTCAGGG ACCCCAGGGG 
    CCAATTGGGC CTCCAGGAGA GATGGGACCC AAGGGGCCGC CTGGTGCAGT GGGAGAACCG 
    GGCCTTCCTG GGGAAGCCGG GATGAAGGGT GACCTTGGAC CCCTGGGCAC TCCTGGGGAG 
    CAGGGCCTCA TTGGGCAACG GGGAGAGCCA GGCCTTGAGG GTGACAGTGG CCCCATGGGA 
    CCTGATGGGC TGAAGGGGGA CAGGGGAGAC CCAGGGCCTG ATGGAGAACA TGGCGAGAAA 
    GGCCAGGAAG GGCTGATGGG TGAGGACGGG CCCCCCGGCC CCCCTGGCGT CACTGGTGTC 
    CGGGGTCCTG AAGGAAAATC AGGGAAGCAA GGCGAGAAGG GCCGCACTGG AGCCAAGGGT 
    GCCAAGGGCT ATCAAGGACA GCTGGGTGAG ATGGGCGTCC CTGGAGACCC TGGACCCCCT 
    GGCACTCCAG GCCCTAAAGG GTCCCGGGGC AGCCTGGGAC CAACGGGTGC TCCGGGACGC 
    ATGGGGGCCC AAGGAGAACC GGGACTGGCT GGTTATGATG GACACAAAGG CATTGTGGGA 
    CCCCTTGGAC CTCCTGGACC AAAAGGCGAA AAGGGGGAGC AGGGCGAGGA CGGCAAGGCT 
    GAGGGGCCCC CTGGGCCACC TGGAGATCGG GGCCCTGTGG GTGATCGAGG AGACCGCGGG 
    GAACCGGGAG ACCCTGGGTA CCCTGGACAG GAGGGTGTGC AAGGCCTCCG TGGAAAGCCA 
    GGCCAGCAGG GCCAACCCGG GCATCCGGGA CCCCGGGGGT GGCCGGGACC CAAAGGATCG 
    AAAGGCGCAG AGGGACCAAA GGGAAAGCAA GGCAAGGCAG GGGCCCCAGG CCGGAGGGGG 
    GTCCAGGGCC TGCAGGGGCT GCCAGGGCCC CGGGGCGTGG TGGGGAGACA GGGCCTCGAG 
    GGCATCGCTG GACCAGATGG GCTTCCTGGC AGGGACGGGC AAGCAGGACA GCAGGGGGAG 
    CAGGGAGACG ATGGGGACCC TGGCCCCATG GGCCCTGCTG GGAAGAGAGG AAATCCAGGT 
    GTGGCCGGCT TACCTGGAGC ACAGGGACCC CCAGGATTCA AGGGTGAGAG TGGGTTACCC 
    GGACAGCTGG GTCCCCCTGG CAAGCGAGGA ACAGAGGGCA GAACGGGGCT CCCTGGAAAC 
    CAGGGGGAGC CTGGGTCCAA AGGCCAGCCG GGCGACTCTG GCGAGATGGG CTTCCCAGGA 
    ATGGCAGGTC TCTTCGGACC CAAGGGCCCG CCTGGAGACA TTGGCTTCAA AGGCATCCAG 
    GGCCCTCGGG GGCCACCTGG CTTGATGGGA AAGGAAGGCA TCGTCGGGCC CCTCGGAATC 
    CTGGGACCTT CGGGACTCCC GGGTCCGAAG GGTGACAAAG GCAGCCGTGG GGACTGGGGA 
    TTGCAAGGTC CGAGGGGTCC TCCCGGCCCC AGAGGGCGGC CCGGCCCCCC GGGTCCTCCA 
    GGGGGTCCTA TCCAATTGCA ACAAGATGAT CTTGGGGCAG CTTTCCAGAC GTGGATGGAC 
    ACCAGTGGAG CACTCAGGCC AGAGAGTTAC AGCTATCCAG ACCGGCTGGT GCTGGACCAG 
    GGAGGAGAGA TCTTTAAAAC CTTACACTAC CTCAGCAACC TCATCCAGAG CATTAAGACG 
    CCCCTGGGCA CCAAAGAGAA CCCCGCCCGG GTCTGCAGGG ACCTCATGGA CTGTGAGCAG 
    AAGATGGTGG ATGGTACCTA CTGGGTGGAT CCAAACCTTG GCTGCTCCTC TGACACCATC 
    GAGGTCTCCT GCAACTTCAC TCATGGTGGA CAGACGTGTC TCAAGCCCAT CACGGCCTCC 
    AAGGTCGAGT TTGCCATCAG CCGGGTCCAG ATGAATTTCC TGCACCTGCT AAGCTCCGAG 
    GTGACCCAGC ACATCACCAT CCACTGCCTT AACATGACCG TGTGGCAGGA GGGCACTGGG 
    CAGACCCCAG CCAAGCAGGC CGTACGCTTC CGGGCCTGGA ATGGACAGAT TTTTGAAGCT 
    GGGGGTCAGT TCCGGCCCGA GGTGTCCATG GATGGCTGCA AGGTCCAAGA TGGCCGCTGG 
    CATCAGACAC TCTTCACCTT CCGGACCCAA GACCCCCAAC AGCTGCCCAT CATCAGTGTG 
    GACAACCTCC CTCCTGCCTC ATCAGGGAAG CAGTACCGCC TGGAAGTTGG ACCTGCGTGC 
    TTCCTCTGA

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

    COL27A1 ( XM_006717310.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006717373.1 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OHu43566
    Clone ID Related Accession (Same CDS sequence) XM_006717310.3
    Accession Version XM_006717310.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3264bp)
    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 collagen alpha-1(XXVII) chain isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006717310.2. ##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
    ATGGAGAACG AGGCCTGCCT GGCGTTCCTG GCAAGAGGGG CAAGATGGGG GTTTCCTGGA 
    GTCTTTGGGG AAAGAGGCCC TCCTGGACTG GATGGAAATC CTGGAGAACT GGGCCTGCCA 
    GGCCCCCCTG GAGTCCCCGG CCTCATTGGT GACTTAGGAG TGTTGGGTCC GATTGGCTAC 
    CCGGGACCCA AGGGCATGAA GGGACTGATG GGCAGCGTGG GGGAGCCCGG ACTGAAAGGT 
    GATAAGGGTG AACAAGGGGT TCCAGGTGTG TCAGGAGATC CCGGATTCCA AGGAGACAAG 
    GGGAGCCAGG GGTTGCCAGG GTTCCCCGGT GCACGGGGGA AGCCAGGGCC TCTGGGCAAA 
    GTCGGAGACA AAGGATCCAT TGGGTTTCCC GGGCCCCCTG GACCCGAGGG ATTCCCAGGA 
    GACATCGGCC CCCCTGGCGA CAATGGCCCA GAAGGCATGA AGGGTAAGCC TGGAGCCCGA 
    GGCCTGCCGG GACCCCGTGG GCAGCTGGGG CCCGAGGGAG ATGAGGGACC CATGGGGCCG 
    CCAGGGGCCC CTGGCTTGGA GGGTCAGCCT GGCAGGAAGG GGTTTCCTGG GAGGCCCGGC 
    CTGGATGGCG TGAAGGGGGA ACCAGGGGAT CCTGGTCGGC CGGGGCCTGT GGGAGAGCAG 
    GGATTTATGG GATTCATTGG TCTGGTCGGG GAGCCAGGAA TCGTGGGAGA AAAGGGTGAT 
    CGTGGCATGA TGGGACCCCC AGGCGTGCCT GGACCCAAGG GGTCGATGGG TCATCCTGGA 
    ATGCCAGGTG GTATGGGGAC CCCTGGAGAG CCTGGACCCC AGGGTCCTCC AGGATCTCGA 
    GGCCCACCAG GCATGAGGGG AGCAAAGGGA CGTCGGGGCC CCCGAGGACC GGACGGACCA 
    GCTGGGGAGC AAGGGTCCAG GGGCCTGAAG GGCCCTCCAG GACCCCAGGG CAGACCGGGC 
    CGGCCTGGAC AGCAGGGTGT GGCTGGTGAG CGAGGCCACT TGGGCTCGAG AGGCTTTCCT 
    GGCATCCCGG GTCCCTCAGG CCCCCCAGGC ACCAAGGGCC TCCCAGGAGA ACCGGGCCCT 
    CAGGGACCCC AGGGGCCAAT TGGGCCTCCA GGAGAGATGG GACCCAAGGG GCCGCCTGGT 
    GCAGTGGGAG AACCGGGCCT TCCTGGGGAA GCCGGGATGA AGGGTGACCT TGGACCCCTG 
    GGCACTCCTG GGGAGCAGGG CCTCATTGGG CAACGGGGAG AGCCAGGCCT TGAGGGTGAC 
    AGTGGCCCCA TGGGACCTGA TGGGCTGAAG GGGGACAGGG GAGACCCAGG GCCTGATGGA 
    GAACATGGCG AGAAAGGCCA GGAAGGGCTG ATGGGTGAGG ACGGGCCCCC CGGCCCCCCT 
    GGCGTCACTG GTGTCCGGGG TCCTGAAGGA AAATCAGGGA AGCAAGGCGA GAAGGGCCGC 
    ACTGGAGCCA AGGGTGCCAA GGGCTATCAA GGACAGCTGG GTGAGATGGG CGTCCCTGGA 
    GACCCTGGAC CCCCTGGCAC TCCAGGCCCT AAAGGGTCCC GGGGCAGCCT GGGACCAACG 
    GGTGCTCCGG GACGCATGGG GGCCCAAGGA GAACCGGGAC TGGCTGGTTA TGATGGACAC 
    AAAGGCATTG TGGGACCCCT TGGACCTCCT GGACCAAAAG GCGAAAAGGG GGAGCAGGGC 
    GAGGACGGCA AGGCTGAGGG GCCCCCTGGG CCACCTGGAG ATCGGGGCCC TGTGGGTGAT 
    CGAGGAGACC GCGGGGAACC GGGAGACCCT GGGTACCCTG GACAGGAGGG TGTGCAAGGC 
    CTCCGTGGAA AGCCAGGCCA GCAGGGCCAA CCCGGGCATC CGGGACCCCG GGGGTGGCCG 
    GGACCCAAAG GATCGAAAGG CGCAGAGGGA CCAAAGGGAA AGCAAGGCAA GGCAGGGGCC 
    CCAGGCCGGA GGGGGGTCCA GGGCCTGCAG GGGCTGCCAG GGCCCCGGGG CGTGGTGGGG 
    AGACAGGGCC TCGAGGGCAT CGCTGGACCA GATGGGCTTC CTGGCAGGGA CGGGCAAGCA 
    GGACAGCAGG GGGAGCAGGG AGACGATGGG GACCCTGGCC CCATGGGCCC TGCTGGGAAG 
    AGAGGAAATC CAGGTGTGGC CGGCTTACCT GGAGCACAGG GACCCCCAGG ATTCAAGGGT 
    GAGAGTGGGT TACCCGGACA GCTGGGTCCC CCTGGCAAGC GAGGAACAGA GGGCAGAACG 
    GGGCTCCCTG GAAACCAGGG GGAGCCTGGG TCCAAAGGCC AGCCGGGCGA CTCTGGCGAG 
    ATGGGCTTCC CAGGAATGGC AGGTCTCTTC GGACCCAAGG GCCCGCCTGG AGACATTGGC 
    TTCAAAGGCA TCCAGGGCCC TCGGGGGCCA CCTGGCTTGA TGGGAAAGGA AGGCATCGTC 
    GGGCCCCTCG GAATCCTGGG ACCTTCGGGA CTCCCGGGTC CGAAGGGTGA CAAAGGCAGC 
    CGTGGGGACT GGGGATTGCA AGGTCCGAGG GGTCCTCCCG GCCCCAGAGG GCGGCCCGGC 
    CCCCCGGGTC CTCCAGGGGG TCCTATCCAA TTGCAACAAG ATGATCTTGG GGCAGCTTTC 
    CAGACGTGGA TGGACACCAG TGGAGCACTC AGGCCAGAGA GTTACAGCTA TCCAGACCGG 
    CTGGTGCTGG ACCAGGGAGG AGAGATCTTT AAAACCTTAC ACTACCTCAG CAACCTCATC 
    CAGAGCATTA AGACGCCCCT GGGCACCAAA GAGAACCCCG CCCGGGTCTG CAGGGACCTC 
    ATGGACTGTG AGCAGAAGAT GGTGGATGGT ACCTACTGGG TGGATCCAAA CCTTGGCTGC 
    TCCTCTGACA CCATCGAGGT CTCCTGCAAC TTCACTCATG GTGGACAGAC GTGTCTCAAG 
    CCCATCACGG CCTCCAAGGT CGAGTTTGCC ATCAGCCGGG TCCAGATGAA TTTCCTGCAC 
    CTGCTAAGCT CCGAGGTGAC CCAGCACATC ACCATCCACT GCCTTAACAT GACCGTGTGG 
    CAGGAGGGCA CTGGGCAGAC CCCAGCCAAG CAGGCCGTAC GCTTCCGGGC CTGGAATGGA 
    CAGATTTTTG AAGCTGGGGG TCAGTTCCGG CCCGAGGTGT CCATGGATGG CTGCAAGGTC 
    CAAGATGGCC GCTGGCATCA GACACTCTTC ACCTTCCGGA CCCAAGACCC CCAACAGCTG 
    CCCATCATCA GTGTGGACAA CCTCCCTCCT GCCTCATCAG GGAAGCAGTA CCGCCTGGAA 
    GTTGGACCTG CGTGCTTCCT CTGA

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

    RefSeq XP_006717373.1
    CDS539..3802
    Translation

    Target ORF information:

    RefSeq Version XM_006717310.3
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006717310.3

    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
    ATGGAGAACG AGGCCTGCCT GGCGTTCCTG GCAAGAGGGG CAAGATGGGG GTTTCCTGGA 
    GTCTTTGGGG AAAGAGGCCC TCCTGGACTG GATGGAAATC CTGGAGAACT GGGCCTGCCA 
    GGCCCCCCTG GAGTCCCCGG CCTCATTGGT GACTTAGGAG TGTTGGGTCC GATTGGCTAC 
    CCGGGACCCA AGGGCATGAA GGGACTGATG GGCAGCGTGG GGGAGCCCGG ACTGAAAGGT 
    GATAAGGGTG AACAAGGGGT TCCAGGTGTG TCAGGAGATC CCGGATTCCA AGGAGACAAG 
    GGGAGCCAGG GGTTGCCAGG GTTCCCCGGT GCACGGGGGA AGCCAGGGCC TCTGGGCAAA 
    GTCGGAGACA AAGGATCCAT TGGGTTTCCC GGGCCCCCTG GACCCGAGGG ATTCCCAGGA 
    GACATCGGCC CCCCTGGCGA CAATGGCCCA GAAGGCATGA AGGGTAAGCC TGGAGCCCGA 
    GGCCTGCCGG GACCCCGTGG GCAGCTGGGG CCCGAGGGAG ATGAGGGACC CATGGGGCCG 
    CCAGGGGCCC CTGGCTTGGA GGGTCAGCCT GGCAGGAAGG GGTTTCCTGG GAGGCCCGGC 
    CTGGATGGCG TGAAGGGGGA ACCAGGGGAT CCTGGTCGGC CGGGGCCTGT GGGAGAGCAG 
    GGATTTATGG GATTCATTGG TCTGGTCGGG GAGCCAGGAA TCGTGGGAGA AAAGGGTGAT 
    CGTGGCATGA TGGGACCCCC AGGCGTGCCT GGACCCAAGG GGTCGATGGG TCATCCTGGA 
    ATGCCAGGTG GTATGGGGAC CCCTGGAGAG CCTGGACCCC AGGGTCCTCC AGGATCTCGA 
    GGCCCACCAG GCATGAGGGG AGCAAAGGGA CGTCGGGGCC CCCGAGGACC GGACGGACCA 
    GCTGGGGAGC AAGGGTCCAG GGGCCTGAAG GGCCCTCCAG GACCCCAGGG CAGACCGGGC 
    CGGCCTGGAC AGCAGGGTGT GGCTGGTGAG CGAGGCCACT TGGGCTCGAG AGGCTTTCCT 
    GGCATCCCGG GTCCCTCAGG CCCCCCAGGC ACCAAGGGCC TCCCAGGAGA ACCGGGCCCT 
    CAGGGACCCC AGGGGCCAAT TGGGCCTCCA GGAGAGATGG GACCCAAGGG GCCGCCTGGT 
    GCAGTGGGAG AACCGGGCCT TCCTGGGGAA GCCGGGATGA AGGGTGACCT TGGACCCCTG 
    GGCACTCCTG GGGAGCAGGG CCTCATTGGG CAACGGGGAG AGCCAGGCCT TGAGGGTGAC 
    AGTGGCCCCA TGGGACCTGA TGGGCTGAAG GGGGACAGGG GAGACCCAGG GCCTGATGGA 
    GAACATGGCG AGAAAGGCCA GGAAGGGCTG ATGGGTGAGG ACGGGCCCCC CGGCCCCCCT 
    GGCGTCACTG GTGTCCGGGG TCCTGAAGGA AAATCAGGGA AGCAAGGCGA GAAGGGCCGC 
    ACTGGAGCCA AGGGTGCCAA GGGCTATCAA GGACAGCTGG GTGAGATGGG CGTCCCTGGA 
    GACCCTGGAC CCCCTGGCAC TCCAGGCCCT AAAGGGTCCC GGGGCAGCCT GGGACCAACG 
    GGTGCTCCGG GACGCATGGG GGCCCAAGGA GAACCGGGAC TGGCTGGTTA TGATGGACAC 
    AAAGGCATTG TGGGACCCCT TGGACCTCCT GGACCAAAAG GCGAAAAGGG GGAGCAGGGC 
    GAGGACGGCA AGGCTGAGGG GCCCCCTGGG CCACCTGGAG ATCGGGGCCC TGTGGGTGAT 
    CGAGGAGACC GCGGGGAACC GGGAGACCCT GGGTACCCTG GACAGGAGGG TGTGCAAGGC 
    CTCCGTGGAA AGCCAGGCCA GCAGGGCCAA CCCGGGCATC CGGGACCCCG GGGGTGGCCG 
    GGACCCAAAG GATCGAAAGG CGCAGAGGGA CCAAAGGGAA AGCAAGGCAA GGCAGGGGCC 
    CCAGGCCGGA GGGGGGTCCA GGGCCTGCAG GGGCTGCCAG GGCCCCGGGG CGTGGTGGGG 
    AGACAGGGCC TCGAGGGCAT CGCTGGACCA GATGGGCTTC CTGGCAGGGA CGGGCAAGCA 
    GGACAGCAGG GGGAGCAGGG AGACGATGGG GACCCTGGCC CCATGGGCCC TGCTGGGAAG 
    AGAGGAAATC CAGGTGTGGC CGGCTTACCT GGAGCACAGG GACCCCCAGG ATTCAAGGGT 
    GAGAGTGGGT TACCCGGACA GCTGGGTCCC CCTGGCAAGC GAGGAACAGA GGGCAGAACG 
    GGGCTCCCTG GAAACCAGGG GGAGCCTGGG TCCAAAGGCC AGCCGGGCGA CTCTGGCGAG 
    ATGGGCTTCC CAGGAATGGC AGGTCTCTTC GGACCCAAGG GCCCGCCTGG AGACATTGGC 
    TTCAAAGGCA TCCAGGGCCC TCGGGGGCCA CCTGGCTTGA TGGGAAAGGA AGGCATCGTC 
    GGGCCCCTCG GAATCCTGGG ACCTTCGGGA CTCCCGGGTC CGAAGGGTGA CAAAGGCAGC 
    CGTGGGGACT GGGGATTGCA AGGTCCGAGG GGTCCTCCCG GCCCCAGAGG GCGGCCCGGC 
    CCCCCGGGTC CTCCAGGGGG TCCTATCCAA TTGCAACAAG ATGATCTTGG GGCAGCTTTC 
    CAGACGTGGA TGGACACCAG TGGAGCACTC AGGCCAGAGA GTTACAGCTA TCCAGACCGG 
    CTGGTGCTGG ACCAGGGAGG AGAGATCTTT AAAACCTTAC ACTACCTCAG CAACCTCATC 
    CAGAGCATTA AGACGCCCCT GGGCACCAAA GAGAACCCCG CCCGGGTCTG CAGGGACCTC 
    ATGGACTGTG AGCAGAAGAT GGTGGATGGT ACCTACTGGG TGGATCCAAA CCTTGGCTGC 
    TCCTCTGACA CCATCGAGGT CTCCTGCAAC TTCACTCATG GTGGACAGAC GTGTCTCAAG 
    CCCATCACGG CCTCCAAGGT CGAGTTTGCC ATCAGCCGGG TCCAGATGAA TTTCCTGCAC 
    CTGCTAAGCT CCGAGGTGAC CCAGCACATC ACCATCCACT GCCTTAACAT GACCGTGTGG 
    CAGGAGGGCA CTGGGCAGAC CCCAGCCAAG CAGGCCGTAC GCTTCCGGGC CTGGAATGGA 
    CAGATTTTTG AAGCTGGGGG TCAGTTCCGG CCCGAGGTGT CCATGGATGG CTGCAAGGTC 
    CAAGATGGCC GCTGGCATCA GACACTCTTC ACCTTCCGGA CCCAAGACCC CCAACAGCTG 
    CCCATCATCA GTGTGGACAA CCTCCCTCCT GCCTCATCAG GGAAGCAGTA CCGCCTGGAA 
    GTTGGACCTG CGTGCTTCCT CTGA

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

    COL27A1 ( XM_011519138.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517440.1 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu73932
    Clone ID Related Accession (Same CDS sequence) XM_011519138.2
    Accession Version XM_011519138.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5577bp)
    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 collagen alpha-1(XXVII) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011519138.1. ##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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGCCGTTAG GCGCCGGAGG AAGGACCGAC CGGCCAGCCT CGCACGTAGG GACCCAGGGG 
    TTTCTCTTCT CCTGGATCTT AGTCTCGTTT GCCTGTCACC TGGCCTCCAC CCAAGGAGCT 
    CCTGAAGATG TGGACATCCT CCAGCGGCTG GGCCTCAGCT GGACGAAGGC CGGGAGCCCT 
    GCACCCCCGG GAGTCATTCC TTTCCAGTCG GGCTTCATCT TTACGCAGCG GGCCCGGCTC 
    CAGGCTCCCA CGGGCACCGT CATTCCTGCC GCCTTGGGCA CAGAGCTGGC ACTGGTGCTG 
    AGCCTCTGCT CCCACCGGGT GAACCATGCC TTCCTCTTCG CTGTCCGCAG CCAGAAACGC 
    AAGCTGCAGC TGGGCCTGCA GTTCCTCCCC GGCAAGACGG TCGTCCACCT CGGGTCCCGG 
    CGCTCAGTGG CCTTCGACCT CGACATGCAC GACGGGCGCT GGCACCACCT GGCCCTCGAG 
    CTCCGAGGCC GCACAGTCAC TCTGGTGACT GCCTGCGGGC AGCGCCGGGT GCCTGTCCTG 
    CTGCCTTTCC ACAGGGACCC TGCACTCGAC CCTGGGGGCT CCTTCCTCTT TGGGAAGATG 
    AACCCGCATG CAGTCCAGTT TGAAGGTGCT CTCTGCCAGT TCAGTATCTA CCCTGTGACG 
    CAGGTCGCTC ACAATTACTG TACCCACCTG AGGAAGCAGT GTGGACAGGC TGACACGTAC 
    CAGTCCCCAC TGGGACCTCT CTTCTCCCAA GACTCTGGCA GACCTTTTAC CTTCCAGTCC 
    GACCTCGCCC TGCTAGGCCT GGAGAACTTG ACCACTGCCA CACCAGCCCT GGGGTCACTG 
    CCAGCAGGCA GGGGACCCAG GGGGACTGTG GCACCCGCCA CGCCCACCAA GCCCCAAAGG 
    ACTAGCCCCA CAAACCCTCA CCAGCATATG GCGGTGGGAG GCCCAGCCCA AACCCCGCTG 
    CTACCTGCCA AGCTGTCAGC CAGTAACGCA CTTGATCCCA TGCTCCCAGC CTCTGTTGGC 
    GGCTCTACCA GAACGCCTCG CCCTGCGGCC GCTCAACCAT CACAGAAGAT CACAGCCACC 
    AAAATCCCCA AAAGCCTCCC TACCAAGCCT TCGGCCCCTT CTACTTCAAT TGTGCCCATC 
    AAAAGCCCCC ATCCTACCCA GAAAACAGCT CCATCTTCAT TTACAAAGTC AGCCCTACCC 
    ACTCAGAAGC AAGTGCCACC TACTTCCCGT CCAGTTCCTG CCAGAGTCTC CCGTCCCGCA 
    GAGAAGCCCA TCCAGAGGAA CCCGGGAATG CCCAGGCCCC CACCGCCCAG CACCCGGCCC 
    CTACCTCCTA CCACCAGCTC CTCTAAAAAA CCCATTCCCA CACTAGCTCG GACTGAGGCC 
    AAGATAACCA GCCATGCCAG TAAGCCGGCC TCTGCCCGCA CCAGCACCCA CAAACCTCCC 
    CCATTTACTG CTTTATCCTC ATCTCCTGCC CCTACTCCTG GTTCTACCAG GAGTACTCGG 
    CCACCAGCCA CGATGGTACC TCCAACTTCG GGCACCAGCA CTCCCAGAAC AGCACCTGCC 
    GTCCCCACTC CTGGCTCAGC TCCCACTGGA AGCAAGAAGC CCATTGGATC GGAAGCCTCA 
    AAGAAAGCCG GACCCAAGAG CAGCCCCCGG AAGCCTGTCC CCCTCAGACC TGGGAAGGCA 
    GCCAGGGATG TCCCCTTGAG CGATCTGACA ACCAGGCCTA GCCCCAGACA GCCCCAGCCC 
    AGTCAGCAGA CCACCCCGGC CCTGGTATTG GCCCCGGCGC AATTCCTGTC CTCCAGCCCC 
    CGGCCCACGA GCAGTGGCTA TTCGATCTTC CACCTGGCAG GATCTACGCC TTTCCCTCTG 
    CTGATGGGGC CTCCGGGACC CAAGGGAGAC TGTGGCTTGC CGGGTCCCCC TGGGCTACCT 
    GGGCTACCTG GAATCCCTGG TGCACGTGGG CCTCGGGGTC CTCCTGGGCC TTATGGAAAT 
    CCAGGTCTCC CCGGCCCTCC TGGAGCCAAA GGACAGAAAG GGGACCCAGG GCTCTCACCA 
    GGAAAGGCCC ACGATGGGGC AAAGGGTGAC ATGGGCTTGC CTGGGCTCTC CGGGAATCCA 
    GGACCTCCGG GACGAAAGGG ACACAAGGGC TATCCTGGAC CGGCAGGGCA CCCCGGAGAA 
    CAGGGGCAGC CAGGACCTGA GGGCAGCCCA GGGGCCAAAG GTTACCCTGG CAGGCAGGGG 
    TTACCTGGAC CGGTAGGAGA TCCCGGCCCC AAAGGCAGCA GGGGCTACAT TGGGCTCCCA 
    GGGCTCTTCG GCCTGCCAGG GTCTGATGGA GAACGAGGCC TGCCTGGCGT TCCTGGCAAG 
    AGGGGCAAGA TGGGTATGCC GGGGTTTCCT GGAGTCTTTG GGGAAAGAGG CCCTCCTGGA 
    CTGGATGGAA ATCCTGGAGA ACTGGGCCTG CCAGGCCCCC CTGGAGTCCC CGGCCTCATT 
    GGTGACTTAG GAGTGTTGGG TCCGATTGGC TACCCGGGAC CCAAGGGCAT GAAGGGACTG 
    ATGGGCAGCG TGGGGGAGCC CGGACTGAAA GGTGATAAGG GTGAACAAGG GGTTCCAGGT 
    GTGTCAGGAG ATCCCGGATT CCAAGGAGAC AAGGGGAGCC AGGGGTTGCC AGGGTTCCCC 
    GGTGCACGGG GGAAGCCAGG GCCTCTGGGC AAAGTCGGAG ACAAAGGATC CATTGGGTTT 
    CCCGGGCCCC CTGGACCCGA GGGATTCCCA GGAGACATCG GCCCCCCTGG CGACAATGGC 
    CCAGAAGGCA TGAAGGGTAA GCCTGGAGCC CGAGGCCTGC CGGGACCCCG TGGGCAGCTG 
    GGGCCCGAGG GAGATGAGGG ACCCATGGGG CCGCCAGGGG CCCCTGGCTT GGAGGGTCAG 
    CCTGGCAGGA AGGGGTTTCC TGGGAGGCCC GGCCTGGATG GCGTGAAGGG GGAACCAGGG 
    GATCCTGGTC GGCCGGGGCC TGTGGGAGAG CAGGGATTTA TGGGATTCAT TGGTCTGGTC 
    GGGGAGCCAG GAATCGTGGG AGAAAAGGGT GATCGTGGCA TGATGGGACC CCCAGGCGTG 
    CCTGGACCCA AGGGGTCGAT GGGTCATCCT GGAATGCCAG GTGGTATGGG GACCCCTGGA 
    GAGCCTGGAC CCCAGGGTCC TCCAGGATCT CGAGGCCCAC CAGGCATGAG GGGAGCAAAG 
    GGACGTCGGG GCCCCCGAGG ACCGGACGGA CCAGCTGGGG AGCAAGGGTC CAGGGGCCTG 
    AAGGGCCCTC CAGGACCCCA GGGCAGACCG GGCCGGCCTG GACAGCAGGG TGTGGCTGGT 
    GAGCGAGGCC ACTTGGGCTC GAGAGGCTTT CCTGGCATCC CGGGTCCCTC AGGCCCCCCA 
    GGCACCAAGG GCCTCCCAGG AGAACCGGGC CCTCAGGGAC CCCAGGGGCC AATTGGGCCT 
    CCAGGAGAGA TGGGACCCAA GGGGCCGCCT GGTGCAGTGG GAGAACCGGG CCTTCCTGGG 
    GAAGCCGGGA TGAAGGGTGA CCTTGGACCC CTGGGCACTC CTGGGGAGCA GGGCCTCATT 
    GGGCAACGGG GAGAGCCAGG CCTTGAGGGT GACAGTGGCC CCATGGGACC TGATGGGCTG 
    AAGGGGGACA GGGGAGACCC AGGGCCTGAT GGAGAACATG GCGAGAAAGG CCAGGAAGGG 
    CTGATGGGTG AGGACGGGCC CCCCGGCCCC CCTGGCGTCA CTGGTGTCCG GGGTCCTGAA 
    GGAAAATCAG GGAAGCAAGG CGAGAAGGGC CGCACTGGAG CCAAGGGTGC CAAGGGCTAT 
    CAAGGACAGC TGGGTGAGAT GGGCGTCCCT GGAGACCCTG GACCCCCTGG CACTCCAGGC 
    CCTAAAGGGT CCCGGGGCAG CCTGGGACCA ACGGGTGCTC CGGGACGCAT GGGGGCCCAA 
    GGAGAACCGG GACTGGCTGG TTATGATGGA CACAAAGGCA TTGTGGGACC CCTTGGACCT 
    CCTGGACCAA AAGGCGAAAA GGGGGAGCAG GGCGAGGACG GCAAGGCTGA GGGGCCCCCT 
    GGGCCACCTG GAGATCGGGG CCCTGTGGGT GATCGAGGAG ACCGCGGGGA ACCGGGAGAC 
    CCTGGGTACC CTGGACAGGA GGGTGTGCAA GGCCTCCGTG GAAAGCCAGG CCAGCAGGGC 
    CAACCCGGGC ATCCGGGACC CCGGGGGTGG CCGGGACCCA AAGGATCGAA AGGCGCAGAG 
    GGACCAAAGG GAAAGCAAGG CAAGGCAGGG GCCCCAGGCC GGAGGGGGGT CCAGGGCCTG 
    CAGGGGCTGC CAGGGCCCCG GGGCGTGGTG GGGAGACAGG GCCTCGAGGG CATCGCTGGA 
    CCAGATGGGC TTCCTGGCAG GGACGGGCAA GCAGGACAGC AGGGGGAGCA GGGAGACGAT 
    GGGGACCCTG GCCCCATGGG CCCTGCTGGG AAGAGAGGAA ATCCAGGTGT GGCCGGCTTA 
    CCTGGAGCAC AGGGACCCCC AGGATTCAAG GGTGAGAGTG GGTTACCCGG ACAGCTGGGT 
    CCCCCTGGCA AGCGAGGAAC AGAGGGCAGA ACGGGGCTCC CTGGAAACCA GGGGGAGCCT 
    GGGTCCAAAG GCCAGCCGGG CGACTCTGGC GAGATGGGCT TCCCAGGAAT GGCAGGTCTC 
    TTCGGACCCA AGGGCCCGCC TGGAGACATT GGCTTCAAAG GCATCCAGGG CCCTCGGGGG 
    CCACCTGGCT TGATGGGAAA GGAAGGCATC GTCGGGCCCC TCGGAATCCT GGGACCTTCG 
    GGACTCCCGG GTCCGAAGGG TGACAAAGGC AGCCGTGGGG ACTGGGGATT GCAAGGTCCG 
    AGGGGTCCTC CCGGCCCCAG AGGGCGGCCC GGCCCCCCGG GTCCTCCAGG GGGTCCTATC 
    CAATTGCAAC AAGATGATCT TGGGGCAGCT TTCCAGACGT GGATGGACAC CAGTGGAGCA 
    CTCAGGCCAG AGAGTTACAG CTATCCAGAC CGGCTGGTGC TGGACCAGGG AGGAGAGATC 
    TTTAAAACCT TACACTACCT CAGCAACCTC ATCCAGAGCA TTAAGACGCC CCTGGGCACC 
    AAAGAGAACC CCGCCCGGGT CTGCAGGGAC CTCATGGACT GTGAGCAGAA GATGGTGGAT 
    GGTACCTACT GGGTGGATCC AAACCTTGGC TGCTCCTCTG ACACCATCGA GGTCTCCTGC 
    AACTTCACTC ATGGTGGACA GACGTGTCTC AAGCCCATCA CGGCCTCCAA GGTCGAGTTT 
    GCCATCAGCC GGGTCCAGAT GAATTTCCTG CACCTGCTAA GCTCCGAGGT GACCCAGCAC 
    ATCACCATCC ACTGCCTTAA CATGACCGTG TGGCAGGAGG GCACTGGGCA GACCCCAGCC 
    AAGCAGGCCG TACGCTTCCG GGCCTGGAAT GGACAGATTT TTGAAGCTGG GGGTCAGTTC 
    CGGCCCGAGG TGTCCATGGA TGGCTGCAAG GTCCAAGATG GCCGCTGGCA TCAGACACTC 
    TTCACCTTCC GGACCCAAGA CCCCCAACAG CTGCCCATCA TCAGTGTGGA CAACCTCCCT 
    CCTGCCTCAT CAGGGAAGCA GTACCGCCTG GAAGTTGGAC CTGCGTGCTT CCTCTGA

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

    RefSeq XP_011517440.1
    CDS45..5621
    Translation

    Target ORF information:

    RefSeq Version XM_011519138.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519138.2

    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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGCCGTTAG GCGCCGGAGG AAGGACCGAC CGGCCAGCCT CGCACGTAGG GACCCAGGGG 
    TTTCTCTTCT CCTGGATCTT AGTCTCGTTT GCCTGTCACC TGGCCTCCAC CCAAGGAGCT 
    CCTGAAGATG TGGACATCCT CCAGCGGCTG GGCCTCAGCT GGACGAAGGC CGGGAGCCCT 
    GCACCCCCGG GAGTCATTCC TTTCCAGTCG GGCTTCATCT TTACGCAGCG GGCCCGGCTC 
    CAGGCTCCCA CGGGCACCGT CATTCCTGCC GCCTTGGGCA CAGAGCTGGC ACTGGTGCTG 
    AGCCTCTGCT CCCACCGGGT GAACCATGCC TTCCTCTTCG CTGTCCGCAG CCAGAAACGC 
    AAGCTGCAGC TGGGCCTGCA GTTCCTCCCC GGCAAGACGG TCGTCCACCT CGGGTCCCGG 
    CGCTCAGTGG CCTTCGACCT CGACATGCAC GACGGGCGCT GGCACCACCT GGCCCTCGAG 
    CTCCGAGGCC GCACAGTCAC TCTGGTGACT GCCTGCGGGC AGCGCCGGGT GCCTGTCCTG 
    CTGCCTTTCC ACAGGGACCC TGCACTCGAC CCTGGGGGCT CCTTCCTCTT TGGGAAGATG 
    AACCCGCATG CAGTCCAGTT TGAAGGTGCT CTCTGCCAGT TCAGTATCTA CCCTGTGACG 
    CAGGTCGCTC ACAATTACTG TACCCACCTG AGGAAGCAGT GTGGACAGGC TGACACGTAC 
    CAGTCCCCAC TGGGACCTCT CTTCTCCCAA GACTCTGGCA GACCTTTTAC CTTCCAGTCC 
    GACCTCGCCC TGCTAGGCCT GGAGAACTTG ACCACTGCCA CACCAGCCCT GGGGTCACTG 
    CCAGCAGGCA GGGGACCCAG GGGGACTGTG GCACCCGCCA CGCCCACCAA GCCCCAAAGG 
    ACTAGCCCCA CAAACCCTCA CCAGCATATG GCGGTGGGAG GCCCAGCCCA AACCCCGCTG 
    CTACCTGCCA AGCTGTCAGC CAGTAACGCA CTTGATCCCA TGCTCCCAGC CTCTGTTGGC 
    GGCTCTACCA GAACGCCTCG CCCTGCGGCC GCTCAACCAT CACAGAAGAT CACAGCCACC 
    AAAATCCCCA AAAGCCTCCC TACCAAGCCT TCGGCCCCTT CTACTTCAAT TGTGCCCATC 
    AAAAGCCCCC ATCCTACCCA GAAAACAGCT CCATCTTCAT TTACAAAGTC AGCCCTACCC 
    ACTCAGAAGC AAGTGCCACC TACTTCCCGT CCAGTTCCTG CCAGAGTCTC CCGTCCCGCA 
    GAGAAGCCCA TCCAGAGGAA CCCGGGAATG CCCAGGCCCC CACCGCCCAG CACCCGGCCC 
    CTACCTCCTA CCACCAGCTC CTCTAAAAAA CCCATTCCCA CACTAGCTCG GACTGAGGCC 
    AAGATAACCA GCCATGCCAG TAAGCCGGCC TCTGCCCGCA CCAGCACCCA CAAACCTCCC 
    CCATTTACTG CTTTATCCTC ATCTCCTGCC CCTACTCCTG GTTCTACCAG GAGTACTCGG 
    CCACCAGCCA CGATGGTACC TCCAACTTCG GGCACCAGCA CTCCCAGAAC AGCACCTGCC 
    GTCCCCACTC CTGGCTCAGC TCCCACTGGA AGCAAGAAGC CCATTGGATC GGAAGCCTCA 
    AAGAAAGCCG GACCCAAGAG CAGCCCCCGG AAGCCTGTCC CCCTCAGACC TGGGAAGGCA 
    GCCAGGGATG TCCCCTTGAG CGATCTGACA ACCAGGCCTA GCCCCAGACA GCCCCAGCCC 
    AGTCAGCAGA CCACCCCGGC CCTGGTATTG GCCCCGGCGC AATTCCTGTC CTCCAGCCCC 
    CGGCCCACGA GCAGTGGCTA TTCGATCTTC CACCTGGCAG GATCTACGCC TTTCCCTCTG 
    CTGATGGGGC CTCCGGGACC CAAGGGAGAC TGTGGCTTGC CGGGTCCCCC TGGGCTACCT 
    GGGCTACCTG GAATCCCTGG TGCACGTGGG CCTCGGGGTC CTCCTGGGCC TTATGGAAAT 
    CCAGGTCTCC CCGGCCCTCC TGGAGCCAAA GGACAGAAAG GGGACCCAGG GCTCTCACCA 
    GGAAAGGCCC ACGATGGGGC AAAGGGTGAC ATGGGCTTGC CTGGGCTCTC CGGGAATCCA 
    GGACCTCCGG GACGAAAGGG ACACAAGGGC TATCCTGGAC CGGCAGGGCA CCCCGGAGAA 
    CAGGGGCAGC CAGGACCTGA GGGCAGCCCA GGGGCCAAAG GTTACCCTGG CAGGCAGGGG 
    TTACCTGGAC CGGTAGGAGA TCCCGGCCCC AAAGGCAGCA GGGGCTACAT TGGGCTCCCA 
    GGGCTCTTCG GCCTGCCAGG GTCTGATGGA GAACGAGGCC TGCCTGGCGT TCCTGGCAAG 
    AGGGGCAAGA TGGGTATGCC GGGGTTTCCT GGAGTCTTTG GGGAAAGAGG CCCTCCTGGA 
    CTGGATGGAA ATCCTGGAGA ACTGGGCCTG CCAGGCCCCC CTGGAGTCCC CGGCCTCATT 
    GGTGACTTAG GAGTGTTGGG TCCGATTGGC TACCCGGGAC CCAAGGGCAT GAAGGGACTG 
    ATGGGCAGCG TGGGGGAGCC CGGACTGAAA GGTGATAAGG GTGAACAAGG GGTTCCAGGT 
    GTGTCAGGAG ATCCCGGATT CCAAGGAGAC AAGGGGAGCC AGGGGTTGCC AGGGTTCCCC 
    GGTGCACGGG GGAAGCCAGG GCCTCTGGGC AAAGTCGGAG ACAAAGGATC CATTGGGTTT 
    CCCGGGCCCC CTGGACCCGA GGGATTCCCA GGAGACATCG GCCCCCCTGG CGACAATGGC 
    CCAGAAGGCA TGAAGGGTAA GCCTGGAGCC CGAGGCCTGC CGGGACCCCG TGGGCAGCTG 
    GGGCCCGAGG GAGATGAGGG ACCCATGGGG CCGCCAGGGG CCCCTGGCTT GGAGGGTCAG 
    CCTGGCAGGA AGGGGTTTCC TGGGAGGCCC GGCCTGGATG GCGTGAAGGG GGAACCAGGG 
    GATCCTGGTC GGCCGGGGCC TGTGGGAGAG CAGGGATTTA TGGGATTCAT TGGTCTGGTC 
    GGGGAGCCAG GAATCGTGGG AGAAAAGGGT GATCGTGGCA TGATGGGACC CCCAGGCGTG 
    CCTGGACCCA AGGGGTCGAT GGGTCATCCT GGAATGCCAG GTGGTATGGG GACCCCTGGA 
    GAGCCTGGAC CCCAGGGTCC TCCAGGATCT CGAGGCCCAC CAGGCATGAG GGGAGCAAAG 
    GGACGTCGGG GCCCCCGAGG ACCGGACGGA CCAGCTGGGG AGCAAGGGTC CAGGGGCCTG 
    AAGGGCCCTC CAGGACCCCA GGGCAGACCG GGCCGGCCTG GACAGCAGGG TGTGGCTGGT 
    GAGCGAGGCC ACTTGGGCTC GAGAGGCTTT CCTGGCATCC CGGGTCCCTC AGGCCCCCCA 
    GGCACCAAGG GCCTCCCAGG AGAACCGGGC CCTCAGGGAC CCCAGGGGCC AATTGGGCCT 
    CCAGGAGAGA TGGGACCCAA GGGGCCGCCT GGTGCAGTGG GAGAACCGGG CCTTCCTGGG 
    GAAGCCGGGA TGAAGGGTGA CCTTGGACCC CTGGGCACTC CTGGGGAGCA GGGCCTCATT 
    GGGCAACGGG GAGAGCCAGG CCTTGAGGGT GACAGTGGCC CCATGGGACC TGATGGGCTG 
    AAGGGGGACA GGGGAGACCC AGGGCCTGAT GGAGAACATG GCGAGAAAGG CCAGGAAGGG 
    CTGATGGGTG AGGACGGGCC CCCCGGCCCC CCTGGCGTCA CTGGTGTCCG GGGTCCTGAA 
    GGAAAATCAG GGAAGCAAGG CGAGAAGGGC CGCACTGGAG CCAAGGGTGC CAAGGGCTAT 
    CAAGGACAGC TGGGTGAGAT GGGCGTCCCT GGAGACCCTG GACCCCCTGG CACTCCAGGC 
    CCTAAAGGGT CCCGGGGCAG CCTGGGACCA ACGGGTGCTC CGGGACGCAT GGGGGCCCAA 
    GGAGAACCGG GACTGGCTGG TTATGATGGA CACAAAGGCA TTGTGGGACC CCTTGGACCT 
    CCTGGACCAA AAGGCGAAAA GGGGGAGCAG GGCGAGGACG GCAAGGCTGA GGGGCCCCCT 
    GGGCCACCTG GAGATCGGGG CCCTGTGGGT GATCGAGGAG ACCGCGGGGA ACCGGGAGAC 
    CCTGGGTACC CTGGACAGGA GGGTGTGCAA GGCCTCCGTG GAAAGCCAGG CCAGCAGGGC 
    CAACCCGGGC ATCCGGGACC CCGGGGGTGG CCGGGACCCA AAGGATCGAA AGGCGCAGAG 
    GGACCAAAGG GAAAGCAAGG CAAGGCAGGG GCCCCAGGCC GGAGGGGGGT CCAGGGCCTG 
    CAGGGGCTGC CAGGGCCCCG GGGCGTGGTG GGGAGACAGG GCCTCGAGGG CATCGCTGGA 
    CCAGATGGGC TTCCTGGCAG GGACGGGCAA GCAGGACAGC AGGGGGAGCA GGGAGACGAT 
    GGGGACCCTG GCCCCATGGG CCCTGCTGGG AAGAGAGGAA ATCCAGGTGT GGCCGGCTTA 
    CCTGGAGCAC AGGGACCCCC AGGATTCAAG GGTGAGAGTG GGTTACCCGG ACAGCTGGGT 
    CCCCCTGGCA AGCGAGGAAC AGAGGGCAGA ACGGGGCTCC CTGGAAACCA GGGGGAGCCT 
    GGGTCCAAAG GCCAGCCGGG CGACTCTGGC GAGATGGGCT TCCCAGGAAT GGCAGGTCTC 
    TTCGGACCCA AGGGCCCGCC TGGAGACATT GGCTTCAAAG GCATCCAGGG CCCTCGGGGG 
    CCACCTGGCT TGATGGGAAA GGAAGGCATC GTCGGGCCCC TCGGAATCCT GGGACCTTCG 
    GGACTCCCGG GTCCGAAGGG TGACAAAGGC AGCCGTGGGG ACTGGGGATT GCAAGGTCCG 
    AGGGGTCCTC CCGGCCCCAG AGGGCGGCCC GGCCCCCCGG GTCCTCCAGG GGGTCCTATC 
    CAATTGCAAC AAGATGATCT TGGGGCAGCT TTCCAGACGT GGATGGACAC CAGTGGAGCA 
    CTCAGGCCAG AGAGTTACAG CTATCCAGAC CGGCTGGTGC TGGACCAGGG AGGAGAGATC 
    TTTAAAACCT TACACTACCT CAGCAACCTC ATCCAGAGCA TTAAGACGCC CCTGGGCACC 
    AAAGAGAACC CCGCCCGGGT CTGCAGGGAC CTCATGGACT GTGAGCAGAA GATGGTGGAT 
    GGTACCTACT GGGTGGATCC AAACCTTGGC TGCTCCTCTG ACACCATCGA GGTCTCCTGC 
    AACTTCACTC ATGGTGGACA GACGTGTCTC AAGCCCATCA CGGCCTCCAA GGTCGAGTTT 
    GCCATCAGCC GGGTCCAGAT GAATTTCCTG CACCTGCTAA GCTCCGAGGT GACCCAGCAC 
    ATCACCATCC ACTGCCTTAA CATGACCGTG TGGCAGGAGG GCACTGGGCA GACCCCAGCC 
    AAGCAGGCCG TACGCTTCCG GGCCTGGAAT GGACAGATTT TTGAAGCTGG GGGTCAGTTC 
    CGGCCCGAGG TGTCCATGGA TGGCTGCAAG GTCCAAGATG GCCGCTGGCA TCAGACACTC 
    TTCACCTTCC GGACCCAAGA CCCCCAACAG CTGCCCATCA TCAGTGTGGA CAACCTCCCT 
    CCTGCCTCAT CAGGGAAGCA GTACCGCCTG GAAGTTGGAC CTGCGTGCTT CCTCTGA

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

    COL27A1 ( XM_011519140.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517442.1 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu73934
    Clone ID Related Accession (Same CDS sequence) XM_011519140.1
    Accession Version XM_011519140.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5529bp)
    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 collagen alpha-1(XXVII) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GTGATCGTGG CATGATGGGA 
    CCCCCAGGCG TGCCTGGACC CAAGGGGTCG ATGGGTCATC CTGGAATGCC AGGTGGTATG 
    GGGACCCCTG GAGAGCCTGG ACCCCAGGGT CCTCCAGGAT CTCGAGGCCC ACCAGGCATG 
    AGGGGAGCAA AGGGACGTCG GGGCCCCCGA GGACCGGACG GACCAGCTGG GGAGCAAGGG 
    TCCAGGGGCC TGAAGGGCCC TCCAGGACCC CAGGGCAGAC CGGGCCGGCC TGGACAGCAG 
    GGTGTGGCTG GTGAGCGAGG CCACTTGGGC TCGAGAGGCT TTCCTGGCAT CCCGGGTCCC 
    TCAGGCCCCC CAGGCACCAA GGGCCTCCCA GGAGAACCGG GCCCTCAGGG ACCCCAGGGG 
    CCAATTGGGC CTCCAGGAGA GATGGGACCC AAGGGGCCGC CTGGTGCAGT GGGAGAACCG 
    GGCCTTCCTG GGGAAGCCGG GATGAAGGGT GACCTTGGAC CCCTGGGCAC TCCTGGGGAG 
    CAGGGCCTCA TTGGGCAACG GGGAGAGCCA GGCCTTGAGG GTGACAGTGG CCCCATGGGA 
    CCTGATGGGC TGAAGGGGGA CAGGGGAGAC CCAGGGCCTG ATGGAGAACA TGGCGAGAAA 
    GGCCAGGAAG GGCTGATGGG TGAGGACGGG CCCCCCGGCC CCCCTGGCGT CACTGGTGTC 
    CGGGGTCCTG AAGGAAAATC AGGGAAGCAA GGCGAGAAGG GCCGCACTGG AGCCAAGGGT 
    GCCAAGGGCT ATCAAGGACA GCTGGGTGAG ATGGGCGTCC CTGGAGACCC TGGACCCCCT 
    GGCACTCCAG GCCCTAAAGG GTCCCGGGGC AGCCTGGGAC CAACGGGTGC TCCGGGACGC 
    ATGGGGGCCC AAGGAGAACC GGGACTGGCT GGTTATGATG GACACAAAGG CATTGTGGGA 
    CCCCTTGGAC CTCCTGGACC AAAAGGCGAA AAGGGGGAGC AGGGCGAGGA CGGCAAGGCT 
    GAGGGGCCCC CTGGGCCACC TGGAGATCGG GGCCCTGTGG GTGATCGAGG AGACCGCGGG 
    GAACCGGGAG ACCCTGGGTA CCCTGGACAG GAGGGTGTGC AAGGCCTCCG TGGAAAGCCA 
    GGCCAGCAGG GCCAACCCGG GCATCCGGGA CCCCGGGGGT GGCCGGGACC CAAAGGATCG 
    AAAGGCGCAG AGGGACCAAA GGGAAAGCAA GGCAAGGCAG GGGCCCCAGG CCGGAGGGGG 
    GTCCAGGGCC TGCAGGGGCT GCCAGGGCCC CGGGGCGTGG TGGGGAGACA GGGCCTCGAG 
    GGCATCGCTG GACCAGATGG GCTTCCTGGC AGGGACGGGC AAGCAGGACA GCAGGGGGAG 
    CAGGGAGACG ATGGGGACCC TGGCCCCATG GGCCCTGCTG GGAAGAGAGG AAATCCAGGT 
    GTGGCCGGCT TACCTGGAGC ACAGGGACCC CCAGGATTCA AGGGTGAGAG TGGGTTACCC 
    GGACAGCTGG GTCCCCCTGG CAAGCGAGGA ACAGAGGGCA GAACGGGGCT CCCTGGAAAC 
    CAGGGGGAGC CTGGGTCCAA AGGCCAGCCG GGCGACTCTG GCGAGATGGG CTTCCCAGGA 
    ATGGCAGGTC TCTTCGGACC CAAGGGCCCG CCTGGAGACA TTGGCTTCAA AGGCATCCAG 
    GGCCCTCGGG GGCCACCTGG CTTGATGGGA AAGGAAGGCA TCGTCGGGCC CCTCGGAATC 
    CTGGGACCTT CGGGACTCCC GGGTCCGAAG GGTGACAAAG GCAGCCGTGG GGACTGGGGA 
    TTGCAAGGTC CGAGGGGTCC TCCCGGCCCC AGAGGGCGGC CCGGCCCCCC GGGTCCTCCA 
    GGGGGTCCTA TCCAATTGCA ACAAGATGAT CTTGGGGCAG CTTTCCAGAC GTGGATGGAC 
    ACCAGTGGAG CACTCAGGCC AGAGAGTTAC AGCTATCCAG ACCGGCTGGT GCTGGACCAG 
    GGAGGAGAGA TCTTTAAAAC CTTACACTAC CTCAGCAACC TCATCCAGAG CATTAAGACG 
    CCCCTGGGCA CCAAAGAGAA CCCCGCCCGG GTCTGCAGGG ACCTCATGGA CTGTGAGCAG 
    AAGATGGTGG ATGGTACCTA CTGGGTGGAT CCAAACCTTG GCTGCTCCTC TGACACCATC 
    GAGGTCTCCT GCAACTTCAC TCATGGTGGA CAGACGTGTC TCAAGCCCAT CACGGCCTCC 
    AAGGTCGAGT TTGCCATCAG CCGGGTCCAG ATGAATTTCC TGCACCTGCT AAGCTCCGAG 
    GTGACCCAGC ACATCACCAT CCACTGCCTT AACATGACCG TGTGGCAGGA GGGCACTGGG 
    CAGACCCCAG CCAAGCAGGC CGTACGCTTC CGGGCCTGGA ATGGACAGAT TTTTGAAGCT 
    GGGGGTCAGT TCCGGCCCGA GGTGTCCATG GATGGCTGCA AGGTCCAAGA TGGCCGCTGG 
    CATCAGACAC TCTTCACCTT CCGGACCCAA GACCCCCAAC AGCTGCCCAT CATCAGTGTG 
    GACAACCTCC CTCCTGCCTC ATCAGGGAAG CAGTACCGCC TGGAAGTTGG ACCTGCGTGC 
    TTCCTCTGA

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

    RefSeq XP_011517442.1
    CDS475..6003
    Translation

    Target ORF information:

    RefSeq Version XM_011519140.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519140.1

    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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GTGATCGTGG CATGATGGGA 
    CCCCCAGGCG TGCCTGGACC CAAGGGGTCG ATGGGTCATC CTGGAATGCC AGGTGGTATG 
    GGGACCCCTG GAGAGCCTGG ACCCCAGGGT CCTCCAGGAT CTCGAGGCCC ACCAGGCATG 
    AGGGGAGCAA AGGGACGTCG GGGCCCCCGA GGACCGGACG GACCAGCTGG GGAGCAAGGG 
    TCCAGGGGCC TGAAGGGCCC TCCAGGACCC CAGGGCAGAC CGGGCCGGCC TGGACAGCAG 
    GGTGTGGCTG GTGAGCGAGG CCACTTGGGC TCGAGAGGCT TTCCTGGCAT CCCGGGTCCC 
    TCAGGCCCCC CAGGCACCAA GGGCCTCCCA GGAGAACCGG GCCCTCAGGG ACCCCAGGGG 
    CCAATTGGGC CTCCAGGAGA GATGGGACCC AAGGGGCCGC CTGGTGCAGT GGGAGAACCG 
    GGCCTTCCTG GGGAAGCCGG GATGAAGGGT GACCTTGGAC CCCTGGGCAC TCCTGGGGAG 
    CAGGGCCTCA TTGGGCAACG GGGAGAGCCA GGCCTTGAGG GTGACAGTGG CCCCATGGGA 
    CCTGATGGGC TGAAGGGGGA CAGGGGAGAC CCAGGGCCTG ATGGAGAACA TGGCGAGAAA 
    GGCCAGGAAG GGCTGATGGG TGAGGACGGG CCCCCCGGCC CCCCTGGCGT CACTGGTGTC 
    CGGGGTCCTG AAGGAAAATC AGGGAAGCAA GGCGAGAAGG GCCGCACTGG AGCCAAGGGT 
    GCCAAGGGCT ATCAAGGACA GCTGGGTGAG ATGGGCGTCC CTGGAGACCC TGGACCCCCT 
    GGCACTCCAG GCCCTAAAGG GTCCCGGGGC AGCCTGGGAC CAACGGGTGC TCCGGGACGC 
    ATGGGGGCCC AAGGAGAACC GGGACTGGCT GGTTATGATG GACACAAAGG CATTGTGGGA 
    CCCCTTGGAC CTCCTGGACC AAAAGGCGAA AAGGGGGAGC AGGGCGAGGA CGGCAAGGCT 
    GAGGGGCCCC CTGGGCCACC TGGAGATCGG GGCCCTGTGG GTGATCGAGG AGACCGCGGG 
    GAACCGGGAG ACCCTGGGTA CCCTGGACAG GAGGGTGTGC AAGGCCTCCG TGGAAAGCCA 
    GGCCAGCAGG GCCAACCCGG GCATCCGGGA CCCCGGGGGT GGCCGGGACC CAAAGGATCG 
    AAAGGCGCAG AGGGACCAAA GGGAAAGCAA GGCAAGGCAG GGGCCCCAGG CCGGAGGGGG 
    GTCCAGGGCC TGCAGGGGCT GCCAGGGCCC CGGGGCGTGG TGGGGAGACA GGGCCTCGAG 
    GGCATCGCTG GACCAGATGG GCTTCCTGGC AGGGACGGGC AAGCAGGACA GCAGGGGGAG 
    CAGGGAGACG ATGGGGACCC TGGCCCCATG GGCCCTGCTG GGAAGAGAGG AAATCCAGGT 
    GTGGCCGGCT TACCTGGAGC ACAGGGACCC CCAGGATTCA AGGGTGAGAG TGGGTTACCC 
    GGACAGCTGG GTCCCCCTGG CAAGCGAGGA ACAGAGGGCA GAACGGGGCT CCCTGGAAAC 
    CAGGGGGAGC CTGGGTCCAA AGGCCAGCCG GGCGACTCTG GCGAGATGGG CTTCCCAGGA 
    ATGGCAGGTC TCTTCGGACC CAAGGGCCCG CCTGGAGACA TTGGCTTCAA AGGCATCCAG 
    GGCCCTCGGG GGCCACCTGG CTTGATGGGA AAGGAAGGCA TCGTCGGGCC CCTCGGAATC 
    CTGGGACCTT CGGGACTCCC GGGTCCGAAG GGTGACAAAG GCAGCCGTGG GGACTGGGGA 
    TTGCAAGGTC CGAGGGGTCC TCCCGGCCCC AGAGGGCGGC CCGGCCCCCC GGGTCCTCCA 
    GGGGGTCCTA TCCAATTGCA ACAAGATGAT CTTGGGGCAG CTTTCCAGAC GTGGATGGAC 
    ACCAGTGGAG CACTCAGGCC AGAGAGTTAC AGCTATCCAG ACCGGCTGGT GCTGGACCAG 
    GGAGGAGAGA TCTTTAAAAC CTTACACTAC CTCAGCAACC TCATCCAGAG CATTAAGACG 
    CCCCTGGGCA CCAAAGAGAA CCCCGCCCGG GTCTGCAGGG ACCTCATGGA CTGTGAGCAG 
    AAGATGGTGG ATGGTACCTA CTGGGTGGAT CCAAACCTTG GCTGCTCCTC TGACACCATC 
    GAGGTCTCCT GCAACTTCAC TCATGGTGGA CAGACGTGTC TCAAGCCCAT CACGGCCTCC 
    AAGGTCGAGT TTGCCATCAG CCGGGTCCAG ATGAATTTCC TGCACCTGCT AAGCTCCGAG 
    GTGACCCAGC ACATCACCAT CCACTGCCTT AACATGACCG TGTGGCAGGA GGGCACTGGG 
    CAGACCCCAG CCAAGCAGGC CGTACGCTTC CGGGCCTGGA ATGGACAGAT TTTTGAAGCT 
    GGGGGTCAGT TCCGGCCCGA GGTGTCCATG GATGGCTGCA AGGTCCAAGA TGGCCGCTGG 
    CATCAGACAC TCTTCACCTT CCGGACCCAA GACCCCCAAC AGCTGCCCAT CATCAGTGTG 
    GACAACCTCC CTCCTGCCTC ATCAGGGAAG CAGTACCGCC TGGAAGTTGG ACCTGCGTGC 
    TTCCTCTGA

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

    COL27A1 ( XM_011519142.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517444.1 Homo sapiens collagen type XXVII alpha 1 (COL27A1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu73936
    Clone ID Related Accession (Same CDS sequence) XM_011519142.2 , XM_011519142.3
    Accession Version XM_011519142.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4206bp)
    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 collagen alpha-1(XXVII) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011519142.1. ##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
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG CCTGGAAACA CAGGCCCATG CCAGCCTCTG CCCCACCACC 
    TCCCAGCTGA AGGCTGACCC CTGGAATACT GAAGATGTGG GGTCTCACCT GCCCCAGGGA 
    GCGCTGGGCC CAGAGCCGTG GTTGGGGTGG AGGATCATGG ATGGGACAGG TGTGGTTGGG 
    GCTGCCAGAG CGAAATGTGC CACCCCAAGC CTTCTTGGGT ATTTCCTGCC CAGGGTGGGC 
    GCTCTGCATG CCTTGTCTGC TGTCTGGGGA AGGGACCATT TCTGCATCCA GGTTGGCACC 
    TTCTTAGACA TGGCTGAGCC AAACCCATGT TACACATCTG GAGAAACCAG GGCTCAGAGA 
    GATATGGTGC CTACTCAGAA GGGGAAACCA GGGCTCAGGA GGATAAAGAG CATGCACGAG 
    GCCTGA

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

    RefSeq XP_011517444.1
    CDS481..4686
    Translation

    Target ORF information:

    RefSeq Version XM_011519142.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 (COL27A1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519142.2

    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
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG CCTGGAAACA CAGGCCCATG CCAGCCTCTG CCCCACCACC 
    TCCCAGCTGA AGGCTGACCC CTGGAATACT GAAGATGTGG GGTCTCACCT GCCCCAGGGA 
    GCGCTGGGCC CAGAGCCGTG GTTGGGGTGG AGGATCATGG ATGGGACAGG TGTGGTTGGG 
    GCTGCCAGAG CGAAATGTGC CACCCCAAGC CTTCTTGGGT ATTTCCTGCC CAGGGTGGGC 
    GCTCTGCATG CCTTGTCTGC TGTCTGGGGA AGGGACCATT TCTGCATCCA GGTTGGCACC 
    TTCTTAGACA TGGCTGAGCC AAACCCATGT TACACATCTG GAGAAACCAG GGCTCAGAGA 
    GATATGGTGC CTACTCAGAA GGGGAAACCA GGGCTCAGGA GGATAAAGAG CATGCACGAG 
    GCCTGA

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

    COL27A1 ( XM_011519142.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517444.1 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu73936
    Clone ID Related Accession (Same CDS sequence) XM_011519142.2 , XM_011519142.3
    Accession Version XM_011519142.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4206bp)
    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 collagen alpha-1(XXVII) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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_011519142.2. ##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
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG CCTGGAAACA CAGGCCCATG CCAGCCTCTG CCCCACCACC 
    TCCCAGCTGA AGGCTGACCC CTGGAATACT GAAGATGTGG GGTCTCACCT GCCCCAGGGA 
    GCGCTGGGCC CAGAGCCGTG GTTGGGGTGG AGGATCATGG ATGGGACAGG TGTGGTTGGG 
    GCTGCCAGAG CGAAATGTGC CACCCCAAGC CTTCTTGGGT ATTTCCTGCC CAGGGTGGGC 
    GCTCTGCATG CCTTGTCTGC TGTCTGGGGA AGGGACCATT TCTGCATCCA GGTTGGCACC 
    TTCTTAGACA TGGCTGAGCC AAACCCATGT TACACATCTG GAGAAACCAG GGCTCAGAGA 
    GATATGGTGC CTACTCAGAA GGGGAAACCA GGGCTCAGGA GGATAAAGAG CATGCACGAG 
    GCCTGA

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

    RefSeq XP_011517444.1
    CDS482..4687
    Translation

    Target ORF information:

    RefSeq Version XM_011519142.3
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519142.3

    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
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG CCTGGAAACA CAGGCCCATG CCAGCCTCTG CCCCACCACC 
    TCCCAGCTGA AGGCTGACCC CTGGAATACT GAAGATGTGG GGTCTCACCT GCCCCAGGGA 
    GCGCTGGGCC CAGAGCCGTG GTTGGGGTGG AGGATCATGG ATGGGACAGG TGTGGTTGGG 
    GCTGCCAGAG CGAAATGTGC CACCCCAAGC CTTCTTGGGT ATTTCCTGCC CAGGGTGGGC 
    GCTCTGCATG CCTTGTCTGC TGTCTGGGGA AGGGACCATT TCTGCATCCA GGTTGGCACC 
    TTCTTAGACA TGGCTGAGCC AAACCCATGT TACACATCTG GAGAAACCAG GGCTCAGAGA 
    GATATGGTGC CTACTCAGAA GGGGAAACCA GGGCTCAGGA GGATAAAGAG CATGCACGAG 
    GCCTGA

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

    COL27A1 ( XM_011519143.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517445.1 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu73937
    Clone ID Related Accession (Same CDS sequence) XM_011519143.2
    Accession Version XM_011519143.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4062bp)
    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 collagen alpha-1(XXVII) chain isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011519143.1. ##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
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG TGAGATGGGC GTCCCTGGAG ACCCTGGACC CCCTGGCACT 
    CCAGGCCCTA AAGGGTCCCG GGGCAGCCTG GGACCAACGG GTGCTCCGGG ACGCATGGGG 
    GCCCAAGGAG AACCGGGACT GGCTGGTTAT GATGGACACA AAGGCATTGT GGGACCCCTT 
    GGACCTCCTG GACCAAAAGG CGAAAAGCAG AGGAGAGAGC TCCGAGACAG GAAGGGAAGT 
    GTTGCAGGCC ACACGGCTGG TCCTTTGCAA GCCGGGATGT GA

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

    RefSeq XP_011517445.1
    CDS479..4540
    Translation

    Target ORF information:

    RefSeq Version XM_011519143.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519143.2

    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
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG TGAGATGGGC GTCCCTGGAG ACCCTGGACC CCCTGGCACT 
    CCAGGCCCTA AAGGGTCCCG GGGCAGCCTG GGACCAACGG GTGCTCCGGG ACGCATGGGG 
    GCCCAAGGAG AACCGGGACT GGCTGGTTAT GATGGACACA AAGGCATTGT GGGACCCCTT 
    GGACCTCCTG GACCAAAAGG CGAAAAGCAG AGGAGAGAGC TCCGAGACAG GAAGGGAAGT 
    GTTGCAGGCC ACACGGCTGG TCCTTTGCAA GCCGGGATGT GA

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

    COL27A1 ( XM_011519144.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517446.1 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu73938
    Clone ID Related Accession (Same CDS sequence) XM_011519144.2
    Accession Version XM_011519144.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4059bp)
    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 collagen alpha-1(XXVII) chain isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011519144.1. ##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
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG TGAGATGGGC GTCCCTGGAG ACCCTGGACC CCCTGGCACT 
    CCAGGCCCTA AAGGGTCCCG GGGCAGCCTG GGACCAACGG GTGCTCCGGG ACGCATGGGG 
    GCCCAAGGAG AACCGGGACT GGCTGGTTAT GATGGACACA AAGGCATTGT GGGACCCCTT 
    GGACCTCCTG GACCAAAAGG CGAAAAGAGG AGAGAGCTCC GAGACAGGAA GGGAAGTGTT 
    GCAGGCCACA CGGCTGGTCC TTTGCAAGCC GGGATGTGA

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

    RefSeq XP_011517446.1
    CDS479..4537
    Translation

    Target ORF information:

    RefSeq Version XM_011519144.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519144.2

    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
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GGGTGACCTT GGACCCCTGG GCACTCCTGG GGAGCAGGGC 
    CTCATTGGGC AACGGGGAGA GCCAGGCCTT GAGGGTGACA GTGGCCCCAT GGGACCTGAT 
    GGGCTGAAGG GGGACAGGGG AGACCCAGGG CCTGATGGAG AACATGGCGA GAAAGGCCAG 
    GAAGGGCTGA TGGGTGAGGA CGGGCCCCCC GGCCCCCCTG GCGTCACTGG TGTCCGGGGT 
    CCTGAAGGAA AATCAGGGAA GCAAGGCGAG AAGGGCCGCA CTGGAGCCAA GGGTGCCAAG 
    GGCTATCAAG GACAGCTGGG TGAGATGGGC GTCCCTGGAG ACCCTGGACC CCCTGGCACT 
    CCAGGCCCTA AAGGGTCCCG GGGCAGCCTG GGACCAACGG GTGCTCCGGG ACGCATGGGG 
    GCCCAAGGAG AACCGGGACT GGCTGGTTAT GATGGACACA AAGGCATTGT GGGACCCCTT 
    GGACCTCCTG GACCAAAAGG CGAAAAGAGG AGAGAGCTCC GAGACAGGAA GGGAAGTGTT 
    GCAGGCCACA CGGCTGGTCC TTTGCAAGCC GGGATGTGA

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

    COL27A1 ( XM_011519145.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517447.1 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu73939
    Clone ID Related Accession (Same CDS sequence) XM_011519145.3 , XM_011519145.2
    Accession Version XM_011519145.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3150bp)
    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 collagen alpha-1(XXVII) chain isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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_011519145.2. ##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
    ATGTGTAGTC CTTGGCACAG GATCTGGCAC CCAGGTGACT TAGGAGTGTT GGGTCCGATT 
    GGCTACCCGG GACCCAAGGG CATGAAGGGA CTGATGGGCA GCGTGGGGGA GCCCGGACTG 
    AAAGGTGATA AGGGTGAACA AGGGGTTCCA GGTGTGTCAG GAGATCCCGG ATTCCAAGGA 
    GACAAGGGGA GCCAGGGGTT GCCAGGGTTC CCCGGTGCAC GGGGGAAGCC AGGGCCTCTG 
    GGCAAAGTCG GAGACAAAGG ATCCATTGGG TTTCCCGGGC CCCCTGGACC CGAGGGATTC 
    CCAGGAGACA TCGGCCCCCC TGGCGACAAT GGCCCAGAAG GCATGAAGGG TAAGCCTGGA 
    GCCCGAGGCC TGCCGGGACC CCGTGGGCAG CTGGGGCCCG AGGGAGATGA GGGACCCATG 
    GGGCCGCCAG GGGCCCCTGG CTTGGAGGGT CAGCCTGGCA GGAAGGGGTT TCCTGGGAGG 
    CCCGGCCTGG ATGGCGTGAA GGGGGAACCA GGGGATCCTG GTCGGCCGGG GCCTGTGGGA 
    GAGCAGGGAT TTATGGGATT CATTGGTCTG GTCGGGGAGC CAGGAATCGT GGGAGAAAAG 
    GGTGATCGTG GCATGATGGG ACCCCCAGGC GTGCCTGGAC CCAAGGGGTC GATGGGTCAT 
    CCTGGAATGC CAGGTGGTAT GGGGACCCCT GGAGAGCCTG GACCCCAGGG TCCTCCAGGA 
    TCTCGAGGCC CACCAGGCAT GAGGGGAGCA AAGGGACGTC GGGGCCCCCG AGGACCGGAC 
    GGACCAGCTG GGGAGCAAGG GTCCAGGGGC CTGAAGGGCC CTCCAGGACC CCAGGGCAGA 
    CCGGGCCGGC CTGGACAGCA GGGTGTGGCT GGTGAGCGAG GCCACTTGGG CTCGAGAGGC 
    TTTCCTGGCA TCCCGGGTCC CTCAGGCCCC CCAGGCACCA AGGGCCTCCC AGGAGAACCG 
    GGCCCTCAGG GACCCCAGGG GCCAATTGGG CCTCCAGGAG AGATGGGACC CAAGGGGCCG 
    CCTGGTGCAG TGGGAGAACC GGGCCTTCCT GGGGAAGCCG GGATGAAGGG TGACCTTGGA 
    CCCCTGGGCA CTCCTGGGGA GCAGGGCCTC ATTGGGCAAC GGGGAGAGCC AGGCCTTGAG 
    GGTGACAGTG GCCCCATGGG ACCTGATGGG CTGAAGGGGG ACAGGGGAGA CCCAGGGCCT 
    GATGGAGAAC ATGGCGAGAA AGGCCAGGAA GGGCTGATGG GTGAGGACGG GCCCCCCGGC 
    CCCCCTGGCG TCACTGGTGT CCGGGGTCCT GAAGGAAAAT CAGGGAAGCA AGGCGAGAAG 
    GGCCGCACTG GAGCCAAGGG TGCCAAGGGC TATCAAGGAC AGCTGGGTGA GATGGGCGTC 
    CCTGGAGACC CTGGACCCCC TGGCACTCCA GGCCCTAAAG GGTCCCGGGG CAGCCTGGGA 
    CCAACGGGTG CTCCGGGACG CATGGGGGCC CAAGGAGAAC CGGGACTGGC TGGTTATGAT 
    GGACACAAAG GCATTGTGGG ACCCCTTGGA CCTCCTGGAC CAAAAGGCGA AAAGGGGGAG 
    CAGGGCGAGG ACGGCAAGGC TGAGGGGCCC CCTGGGCCAC CTGGAGATCG GGGCCCTGTG 
    GGTGATCGAG GAGACCGCGG GGAACCGGGA GACCCTGGGT ACCCTGGACA GGAGGGTGTG 
    CAAGGCCTCC GTGGAAAGCC AGGCCAGCAG GGCCAACCCG GGCATCCGGG ACCCCGGGGG 
    TGGCCGGGAC CCAAAGGATC GAAAGGCGCA GAGGGACCAA AGGGAAAGCA AGGCAAGGCA 
    GGGGCCCCAG GCCGGAGGGG GGTCCAGGGC CTGCAGGGGC TGCCAGGGCC CCGGGGCGTG 
    GTGGGGAGAC AGGGCCTCGA GGGCATCGCT GGACCAGATG GGCTTCCTGG CAGGGACGGG 
    CAAGCAGGAC AGCAGGGGGA GCAGGGAGAC GATGGGGACC CTGGCCCCAT GGGCCCTGCT 
    GGGAAGAGAG GAAATCCAGG TGTGGCCGGC TTACCTGGAG CACAGGGACC CCCAGGATTC 
    AAGGGTGAGA GTGGGTTACC CGGACAGCTG GGTCCCCCTG GCAAGCGAGG AACAGAGGGC 
    AGAACGGGGC TCCCTGGAAA CCAGGGGGAG CCTGGGTCCA AAGGCCAGCC GGGCGACTCT 
    GGCGAGATGG GCTTCCCAGG AATGGCAGGT CTCTTCGGAC CCAAGGGCCC GCCTGGAGAC 
    ATTGGCTTCA AAGGCATCCA GGGCCCTCGG GGGCCACCTG GCTTGATGGG AAAGGAAGGC 
    ATCGTCGGGC CCCTCGGAAT CCTGGGACCT TCGGGACTCC CGGGTCCGAA GGGTGACAAA 
    GGCAGCCGTG GGGACTGGGG ATTGCAAGGT CCGAGGGGTC CTCCCGGCCC CAGAGGGCGG 
    CCCGGCCCCC CGGGTCCTCC AGGGGGTCCT ATCCAATTGC AACAAGATGA TCTTGGGGCA 
    GCTTTCCAGA CGTGGATGGA CACCAGTGGA GCACTCAGGC CAGAGAGTTA CAGCTATCCA 
    GACCGGCTGG TGCTGGACCA GGGAGGAGAG ATCTTTAAAA CCTTACACTA CCTCAGCAAC 
    CTCATCCAGA GCATTAAGAC GCCCCTGGGC ACCAAAGAGA ACCCCGCCCG GGTCTGCAGG 
    GACCTCATGG ACTGTGAGCA GAAGATGGTG GATGGTACCT ACTGGGTGGA TCCAAACCTT 
    GGCTGCTCCT CTGACACCAT CGAGGTCTCC TGCAACTTCA CTCATGGTGG ACAGACGTGT 
    CTCAAGCCCA TCACGGCCTC CAAGGTCGAG TTTGCCATCA GCCGGGTCCA GATGAATTTC 
    CTGCACCTGC TAAGCTCCGA GGTGACCCAG CACATCACCA TCCACTGCCT TAACATGACC 
    GTGTGGCAGG AGGGCACTGG GCAGACCCCA GCCAAGCAGG CCGTACGCTT CCGGGCCTGG 
    AATGGACAGA TTTTTGAAGC TGGGGGTCAG TTCCGGCCCG AGGTGTCCAT GGATGGCTGC 
    AAGGTCCAAG ATGGCCGCTG GCATCAGACA CTCTTCACCT TCCGGACCCA AGACCCCCAA 
    CAGCTGCCCA TCATCAGTGT GGACAACCTC CCTCCTGCCT CATCAGGGAA GCAGTACCGC 
    CTGGAAGTTG GACCTGCGTG CTTCCTCTGA

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

    RefSeq XP_011517447.1
    CDS83..3232
    Translation

    Target ORF information:

    RefSeq Version XM_011519145.3
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519145.3

    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
    ATGTGTAGTC CTTGGCACAG GATCTGGCAC CCAGGTGACT TAGGAGTGTT GGGTCCGATT 
    GGCTACCCGG GACCCAAGGG CATGAAGGGA CTGATGGGCA GCGTGGGGGA GCCCGGACTG 
    AAAGGTGATA AGGGTGAACA AGGGGTTCCA GGTGTGTCAG GAGATCCCGG ATTCCAAGGA 
    GACAAGGGGA GCCAGGGGTT GCCAGGGTTC CCCGGTGCAC GGGGGAAGCC AGGGCCTCTG 
    GGCAAAGTCG GAGACAAAGG ATCCATTGGG TTTCCCGGGC CCCCTGGACC CGAGGGATTC 
    CCAGGAGACA TCGGCCCCCC TGGCGACAAT GGCCCAGAAG GCATGAAGGG TAAGCCTGGA 
    GCCCGAGGCC TGCCGGGACC CCGTGGGCAG CTGGGGCCCG AGGGAGATGA GGGACCCATG 
    GGGCCGCCAG GGGCCCCTGG CTTGGAGGGT CAGCCTGGCA GGAAGGGGTT TCCTGGGAGG 
    CCCGGCCTGG ATGGCGTGAA GGGGGAACCA GGGGATCCTG GTCGGCCGGG GCCTGTGGGA 
    GAGCAGGGAT TTATGGGATT CATTGGTCTG GTCGGGGAGC CAGGAATCGT GGGAGAAAAG 
    GGTGATCGTG GCATGATGGG ACCCCCAGGC GTGCCTGGAC CCAAGGGGTC GATGGGTCAT 
    CCTGGAATGC CAGGTGGTAT GGGGACCCCT GGAGAGCCTG GACCCCAGGG TCCTCCAGGA 
    TCTCGAGGCC CACCAGGCAT GAGGGGAGCA AAGGGACGTC GGGGCCCCCG AGGACCGGAC 
    GGACCAGCTG GGGAGCAAGG GTCCAGGGGC CTGAAGGGCC CTCCAGGACC CCAGGGCAGA 
    CCGGGCCGGC CTGGACAGCA GGGTGTGGCT GGTGAGCGAG GCCACTTGGG CTCGAGAGGC 
    TTTCCTGGCA TCCCGGGTCC CTCAGGCCCC CCAGGCACCA AGGGCCTCCC AGGAGAACCG 
    GGCCCTCAGG GACCCCAGGG GCCAATTGGG CCTCCAGGAG AGATGGGACC CAAGGGGCCG 
    CCTGGTGCAG TGGGAGAACC GGGCCTTCCT GGGGAAGCCG GGATGAAGGG TGACCTTGGA 
    CCCCTGGGCA CTCCTGGGGA GCAGGGCCTC ATTGGGCAAC GGGGAGAGCC AGGCCTTGAG 
    GGTGACAGTG GCCCCATGGG ACCTGATGGG CTGAAGGGGG ACAGGGGAGA CCCAGGGCCT 
    GATGGAGAAC ATGGCGAGAA AGGCCAGGAA GGGCTGATGG GTGAGGACGG GCCCCCCGGC 
    CCCCCTGGCG TCACTGGTGT CCGGGGTCCT GAAGGAAAAT CAGGGAAGCA AGGCGAGAAG 
    GGCCGCACTG GAGCCAAGGG TGCCAAGGGC TATCAAGGAC AGCTGGGTGA GATGGGCGTC 
    CCTGGAGACC CTGGACCCCC TGGCACTCCA GGCCCTAAAG GGTCCCGGGG CAGCCTGGGA 
    CCAACGGGTG CTCCGGGACG CATGGGGGCC CAAGGAGAAC CGGGACTGGC TGGTTATGAT 
    GGACACAAAG GCATTGTGGG ACCCCTTGGA CCTCCTGGAC CAAAAGGCGA AAAGGGGGAG 
    CAGGGCGAGG ACGGCAAGGC TGAGGGGCCC CCTGGGCCAC CTGGAGATCG GGGCCCTGTG 
    GGTGATCGAG GAGACCGCGG GGAACCGGGA GACCCTGGGT ACCCTGGACA GGAGGGTGTG 
    CAAGGCCTCC GTGGAAAGCC AGGCCAGCAG GGCCAACCCG GGCATCCGGG ACCCCGGGGG 
    TGGCCGGGAC CCAAAGGATC GAAAGGCGCA GAGGGACCAA AGGGAAAGCA AGGCAAGGCA 
    GGGGCCCCAG GCCGGAGGGG GGTCCAGGGC CTGCAGGGGC TGCCAGGGCC CCGGGGCGTG 
    GTGGGGAGAC AGGGCCTCGA GGGCATCGCT GGACCAGATG GGCTTCCTGG CAGGGACGGG 
    CAAGCAGGAC AGCAGGGGGA GCAGGGAGAC GATGGGGACC CTGGCCCCAT GGGCCCTGCT 
    GGGAAGAGAG GAAATCCAGG TGTGGCCGGC TTACCTGGAG CACAGGGACC CCCAGGATTC 
    AAGGGTGAGA GTGGGTTACC CGGACAGCTG GGTCCCCCTG GCAAGCGAGG AACAGAGGGC 
    AGAACGGGGC TCCCTGGAAA CCAGGGGGAG CCTGGGTCCA AAGGCCAGCC GGGCGACTCT 
    GGCGAGATGG GCTTCCCAGG AATGGCAGGT CTCTTCGGAC CCAAGGGCCC GCCTGGAGAC 
    ATTGGCTTCA AAGGCATCCA GGGCCCTCGG GGGCCACCTG GCTTGATGGG AAAGGAAGGC 
    ATCGTCGGGC CCCTCGGAAT CCTGGGACCT TCGGGACTCC CGGGTCCGAA GGGTGACAAA 
    GGCAGCCGTG GGGACTGGGG ATTGCAAGGT CCGAGGGGTC CTCCCGGCCC CAGAGGGCGG 
    CCCGGCCCCC CGGGTCCTCC AGGGGGTCCT ATCCAATTGC AACAAGATGA TCTTGGGGCA 
    GCTTTCCAGA CGTGGATGGA CACCAGTGGA GCACTCAGGC CAGAGAGTTA CAGCTATCCA 
    GACCGGCTGG TGCTGGACCA GGGAGGAGAG ATCTTTAAAA CCTTACACTA CCTCAGCAAC 
    CTCATCCAGA GCATTAAGAC GCCCCTGGGC ACCAAAGAGA ACCCCGCCCG GGTCTGCAGG 
    GACCTCATGG ACTGTGAGCA GAAGATGGTG GATGGTACCT ACTGGGTGGA TCCAAACCTT 
    GGCTGCTCCT CTGACACCAT CGAGGTCTCC TGCAACTTCA CTCATGGTGG ACAGACGTGT 
    CTCAAGCCCA TCACGGCCTC CAAGGTCGAG TTTGCCATCA GCCGGGTCCA GATGAATTTC 
    CTGCACCTGC TAAGCTCCGA GGTGACCCAG CACATCACCA TCCACTGCCT TAACATGACC 
    GTGTGGCAGG AGGGCACTGG GCAGACCCCA GCCAAGCAGG CCGTACGCTT CCGGGCCTGG 
    AATGGACAGA TTTTTGAAGC TGGGGGTCAG TTCCGGCCCG AGGTGTCCAT GGATGGCTGC 
    AAGGTCCAAG ATGGCCGCTG GCATCAGACA CTCTTCACCT TCCGGACCCA AGACCCCCAA 
    CAGCTGCCCA TCATCAGTGT GGACAACCTC CCTCCTGCCT CATCAGGGAA GCAGTACCGC 
    CTGGAAGTTG GACCTGCGTG CTTCCTCTGA

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

    COL27A1 ( XM_011519145.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517447.1 Homo sapiens collagen type XXVII alpha 1 (COL27A1), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu73939
    Clone ID Related Accession (Same CDS sequence) XM_011519145.3 , XM_011519145.2
    Accession Version XM_011519145.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3150bp)
    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 collagen alpha-1(XXVII) chain isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011519145.1. ##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
    ATGTGTAGTC CTTGGCACAG GATCTGGCAC CCAGGTGACT TAGGAGTGTT GGGTCCGATT 
    GGCTACCCGG GACCCAAGGG CATGAAGGGA CTGATGGGCA GCGTGGGGGA GCCCGGACTG 
    AAAGGTGATA AGGGTGAACA AGGGGTTCCA GGTGTGTCAG GAGATCCCGG ATTCCAAGGA 
    GACAAGGGGA GCCAGGGGTT GCCAGGGTTC CCCGGTGCAC GGGGGAAGCC AGGGCCTCTG 
    GGCAAAGTCG GAGACAAAGG ATCCATTGGG TTTCCCGGGC CCCCTGGACC CGAGGGATTC 
    CCAGGAGACA TCGGCCCCCC TGGCGACAAT GGCCCAGAAG GCATGAAGGG TAAGCCTGGA 
    GCCCGAGGCC TGCCGGGACC CCGTGGGCAG CTGGGGCCCG AGGGAGATGA GGGACCCATG 
    GGGCCGCCAG GGGCCCCTGG CTTGGAGGGT CAGCCTGGCA GGAAGGGGTT TCCTGGGAGG 
    CCCGGCCTGG ATGGCGTGAA GGGGGAACCA GGGGATCCTG GTCGGCCGGG GCCTGTGGGA 
    GAGCAGGGAT TTATGGGATT CATTGGTCTG GTCGGGGAGC CAGGAATCGT GGGAGAAAAG 
    GGTGATCGTG GCATGATGGG ACCCCCAGGC GTGCCTGGAC CCAAGGGGTC GATGGGTCAT 
    CCTGGAATGC CAGGTGGTAT GGGGACCCCT GGAGAGCCTG GACCCCAGGG TCCTCCAGGA 
    TCTCGAGGCC CACCAGGCAT GAGGGGAGCA AAGGGACGTC GGGGCCCCCG AGGACCGGAC 
    GGACCAGCTG GGGAGCAAGG GTCCAGGGGC CTGAAGGGCC CTCCAGGACC CCAGGGCAGA 
    CCGGGCCGGC CTGGACAGCA GGGTGTGGCT GGTGAGCGAG GCCACTTGGG CTCGAGAGGC 
    TTTCCTGGCA TCCCGGGTCC CTCAGGCCCC CCAGGCACCA AGGGCCTCCC AGGAGAACCG 
    GGCCCTCAGG GACCCCAGGG GCCAATTGGG CCTCCAGGAG AGATGGGACC CAAGGGGCCG 
    CCTGGTGCAG TGGGAGAACC GGGCCTTCCT GGGGAAGCCG GGATGAAGGG TGACCTTGGA 
    CCCCTGGGCA CTCCTGGGGA GCAGGGCCTC ATTGGGCAAC GGGGAGAGCC AGGCCTTGAG 
    GGTGACAGTG GCCCCATGGG ACCTGATGGG CTGAAGGGGG ACAGGGGAGA CCCAGGGCCT 
    GATGGAGAAC ATGGCGAGAA AGGCCAGGAA GGGCTGATGG GTGAGGACGG GCCCCCCGGC 
    CCCCCTGGCG TCACTGGTGT CCGGGGTCCT GAAGGAAAAT CAGGGAAGCA AGGCGAGAAG 
    GGCCGCACTG GAGCCAAGGG TGCCAAGGGC TATCAAGGAC AGCTGGGTGA GATGGGCGTC 
    CCTGGAGACC CTGGACCCCC TGGCACTCCA GGCCCTAAAG GGTCCCGGGG CAGCCTGGGA 
    CCAACGGGTG CTCCGGGACG CATGGGGGCC CAAGGAGAAC CGGGACTGGC TGGTTATGAT 
    GGACACAAAG GCATTGTGGG ACCCCTTGGA CCTCCTGGAC CAAAAGGCGA AAAGGGGGAG 
    CAGGGCGAGG ACGGCAAGGC TGAGGGGCCC CCTGGGCCAC CTGGAGATCG GGGCCCTGTG 
    GGTGATCGAG GAGACCGCGG GGAACCGGGA GACCCTGGGT ACCCTGGACA GGAGGGTGTG 
    CAAGGCCTCC GTGGAAAGCC AGGCCAGCAG GGCCAACCCG GGCATCCGGG ACCCCGGGGG 
    TGGCCGGGAC CCAAAGGATC GAAAGGCGCA GAGGGACCAA AGGGAAAGCA AGGCAAGGCA 
    GGGGCCCCAG GCCGGAGGGG GGTCCAGGGC CTGCAGGGGC TGCCAGGGCC CCGGGGCGTG 
    GTGGGGAGAC AGGGCCTCGA GGGCATCGCT GGACCAGATG GGCTTCCTGG CAGGGACGGG 
    CAAGCAGGAC AGCAGGGGGA GCAGGGAGAC GATGGGGACC CTGGCCCCAT GGGCCCTGCT 
    GGGAAGAGAG GAAATCCAGG TGTGGCCGGC TTACCTGGAG CACAGGGACC CCCAGGATTC 
    AAGGGTGAGA GTGGGTTACC CGGACAGCTG GGTCCCCCTG GCAAGCGAGG AACAGAGGGC 
    AGAACGGGGC TCCCTGGAAA CCAGGGGGAG CCTGGGTCCA AAGGCCAGCC GGGCGACTCT 
    GGCGAGATGG GCTTCCCAGG AATGGCAGGT CTCTTCGGAC CCAAGGGCCC GCCTGGAGAC 
    ATTGGCTTCA AAGGCATCCA GGGCCCTCGG GGGCCACCTG GCTTGATGGG AAAGGAAGGC 
    ATCGTCGGGC CCCTCGGAAT CCTGGGACCT TCGGGACTCC CGGGTCCGAA GGGTGACAAA 
    GGCAGCCGTG GGGACTGGGG ATTGCAAGGT CCGAGGGGTC CTCCCGGCCC CAGAGGGCGG 
    CCCGGCCCCC CGGGTCCTCC AGGGGGTCCT ATCCAATTGC AACAAGATGA TCTTGGGGCA 
    GCTTTCCAGA CGTGGATGGA CACCAGTGGA GCACTCAGGC CAGAGAGTTA CAGCTATCCA 
    GACCGGCTGG TGCTGGACCA GGGAGGAGAG ATCTTTAAAA CCTTACACTA CCTCAGCAAC 
    CTCATCCAGA GCATTAAGAC GCCCCTGGGC ACCAAAGAGA ACCCCGCCCG GGTCTGCAGG 
    GACCTCATGG ACTGTGAGCA GAAGATGGTG GATGGTACCT ACTGGGTGGA TCCAAACCTT 
    GGCTGCTCCT CTGACACCAT CGAGGTCTCC TGCAACTTCA CTCATGGTGG ACAGACGTGT 
    CTCAAGCCCA TCACGGCCTC CAAGGTCGAG TTTGCCATCA GCCGGGTCCA GATGAATTTC 
    CTGCACCTGC TAAGCTCCGA GGTGACCCAG CACATCACCA TCCACTGCCT TAACATGACC 
    GTGTGGCAGG AGGGCACTGG GCAGACCCCA GCCAAGCAGG CCGTACGCTT CCGGGCCTGG 
    AATGGACAGA TTTTTGAAGC TGGGGGTCAG TTCCGGCCCG AGGTGTCCAT GGATGGCTGC 
    AAGGTCCAAG ATGGCCGCTG GCATCAGACA CTCTTCACCT TCCGGACCCA AGACCCCCAA 
    CAGCTGCCCA TCATCAGTGT GGACAACCTC CCTCCTGCCT CATCAGGGAA GCAGTACCGC 
    CTGGAAGTTG GACCTGCGTG CTTCCTCTGA

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

    RefSeq XP_011517447.1
    CDS82..3231
    Translation

    Target ORF information:

    RefSeq Version XM_011519145.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 (COL27A1), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519145.2

    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
    ATGTGTAGTC CTTGGCACAG GATCTGGCAC CCAGGTGACT TAGGAGTGTT GGGTCCGATT 
    GGCTACCCGG GACCCAAGGG CATGAAGGGA CTGATGGGCA GCGTGGGGGA GCCCGGACTG 
    AAAGGTGATA AGGGTGAACA AGGGGTTCCA GGTGTGTCAG GAGATCCCGG ATTCCAAGGA 
    GACAAGGGGA GCCAGGGGTT GCCAGGGTTC CCCGGTGCAC GGGGGAAGCC AGGGCCTCTG 
    GGCAAAGTCG GAGACAAAGG ATCCATTGGG TTTCCCGGGC CCCCTGGACC CGAGGGATTC 
    CCAGGAGACA TCGGCCCCCC TGGCGACAAT GGCCCAGAAG GCATGAAGGG TAAGCCTGGA 
    GCCCGAGGCC TGCCGGGACC CCGTGGGCAG CTGGGGCCCG AGGGAGATGA GGGACCCATG 
    GGGCCGCCAG GGGCCCCTGG CTTGGAGGGT CAGCCTGGCA GGAAGGGGTT TCCTGGGAGG 
    CCCGGCCTGG ATGGCGTGAA GGGGGAACCA GGGGATCCTG GTCGGCCGGG GCCTGTGGGA 
    GAGCAGGGAT TTATGGGATT CATTGGTCTG GTCGGGGAGC CAGGAATCGT GGGAGAAAAG 
    GGTGATCGTG GCATGATGGG ACCCCCAGGC GTGCCTGGAC CCAAGGGGTC GATGGGTCAT 
    CCTGGAATGC CAGGTGGTAT GGGGACCCCT GGAGAGCCTG GACCCCAGGG TCCTCCAGGA 
    TCTCGAGGCC CACCAGGCAT GAGGGGAGCA AAGGGACGTC GGGGCCCCCG AGGACCGGAC 
    GGACCAGCTG GGGAGCAAGG GTCCAGGGGC CTGAAGGGCC CTCCAGGACC CCAGGGCAGA 
    CCGGGCCGGC CTGGACAGCA GGGTGTGGCT GGTGAGCGAG GCCACTTGGG CTCGAGAGGC 
    TTTCCTGGCA TCCCGGGTCC CTCAGGCCCC CCAGGCACCA AGGGCCTCCC AGGAGAACCG 
    GGCCCTCAGG GACCCCAGGG GCCAATTGGG CCTCCAGGAG AGATGGGACC CAAGGGGCCG 
    CCTGGTGCAG TGGGAGAACC GGGCCTTCCT GGGGAAGCCG GGATGAAGGG TGACCTTGGA 
    CCCCTGGGCA CTCCTGGGGA GCAGGGCCTC ATTGGGCAAC GGGGAGAGCC AGGCCTTGAG 
    GGTGACAGTG GCCCCATGGG ACCTGATGGG CTGAAGGGGG ACAGGGGAGA CCCAGGGCCT 
    GATGGAGAAC ATGGCGAGAA AGGCCAGGAA GGGCTGATGG GTGAGGACGG GCCCCCCGGC 
    CCCCCTGGCG TCACTGGTGT CCGGGGTCCT GAAGGAAAAT CAGGGAAGCA AGGCGAGAAG 
    GGCCGCACTG GAGCCAAGGG TGCCAAGGGC TATCAAGGAC AGCTGGGTGA GATGGGCGTC 
    CCTGGAGACC CTGGACCCCC TGGCACTCCA GGCCCTAAAG GGTCCCGGGG CAGCCTGGGA 
    CCAACGGGTG CTCCGGGACG CATGGGGGCC CAAGGAGAAC CGGGACTGGC TGGTTATGAT 
    GGACACAAAG GCATTGTGGG ACCCCTTGGA CCTCCTGGAC CAAAAGGCGA AAAGGGGGAG 
    CAGGGCGAGG ACGGCAAGGC TGAGGGGCCC CCTGGGCCAC CTGGAGATCG GGGCCCTGTG 
    GGTGATCGAG GAGACCGCGG GGAACCGGGA GACCCTGGGT ACCCTGGACA GGAGGGTGTG 
    CAAGGCCTCC GTGGAAAGCC AGGCCAGCAG GGCCAACCCG GGCATCCGGG ACCCCGGGGG 
    TGGCCGGGAC CCAAAGGATC GAAAGGCGCA GAGGGACCAA AGGGAAAGCA AGGCAAGGCA 
    GGGGCCCCAG GCCGGAGGGG GGTCCAGGGC CTGCAGGGGC TGCCAGGGCC CCGGGGCGTG 
    GTGGGGAGAC AGGGCCTCGA GGGCATCGCT GGACCAGATG GGCTTCCTGG CAGGGACGGG 
    CAAGCAGGAC AGCAGGGGGA GCAGGGAGAC GATGGGGACC CTGGCCCCAT GGGCCCTGCT 
    GGGAAGAGAG GAAATCCAGG TGTGGCCGGC TTACCTGGAG CACAGGGACC CCCAGGATTC 
    AAGGGTGAGA GTGGGTTACC CGGACAGCTG GGTCCCCCTG GCAAGCGAGG AACAGAGGGC 
    AGAACGGGGC TCCCTGGAAA CCAGGGGGAG CCTGGGTCCA AAGGCCAGCC GGGCGACTCT 
    GGCGAGATGG GCTTCCCAGG AATGGCAGGT CTCTTCGGAC CCAAGGGCCC GCCTGGAGAC 
    ATTGGCTTCA AAGGCATCCA GGGCCCTCGG GGGCCACCTG GCTTGATGGG AAAGGAAGGC 
    ATCGTCGGGC CCCTCGGAAT CCTGGGACCT TCGGGACTCC CGGGTCCGAA GGGTGACAAA 
    GGCAGCCGTG GGGACTGGGG ATTGCAAGGT CCGAGGGGTC CTCCCGGCCC CAGAGGGCGG 
    CCCGGCCCCC CGGGTCCTCC AGGGGGTCCT ATCCAATTGC AACAAGATGA TCTTGGGGCA 
    GCTTTCCAGA CGTGGATGGA CACCAGTGGA GCACTCAGGC CAGAGAGTTA CAGCTATCCA 
    GACCGGCTGG TGCTGGACCA GGGAGGAGAG ATCTTTAAAA CCTTACACTA CCTCAGCAAC 
    CTCATCCAGA GCATTAAGAC GCCCCTGGGC ACCAAAGAGA ACCCCGCCCG GGTCTGCAGG 
    GACCTCATGG ACTGTGAGCA GAAGATGGTG GATGGTACCT ACTGGGTGGA TCCAAACCTT 
    GGCTGCTCCT CTGACACCAT CGAGGTCTCC TGCAACTTCA CTCATGGTGG ACAGACGTGT 
    CTCAAGCCCA TCACGGCCTC CAAGGTCGAG TTTGCCATCA GCCGGGTCCA GATGAATTTC 
    CTGCACCTGC TAAGCTCCGA GGTGACCCAG CACATCACCA TCCACTGCCT TAACATGACC 
    GTGTGGCAGG AGGGCACTGG GCAGACCCCA GCCAAGCAGG CCGTACGCTT CCGGGCCTGG 
    AATGGACAGA TTTTTGAAGC TGGGGGTCAG TTCCGGCCCG AGGTGTCCAT GGATGGCTGC 
    AAGGTCCAAG ATGGCCGCTG GCATCAGACA CTCTTCACCT TCCGGACCCA AGACCCCCAA 
    CAGCTGCCCA TCATCAGTGT GGACAACCTC CCTCCTGCCT CATCAGGGAA GCAGTACCGC 
    CTGGAAGTTG GACCTGCGTG CTTCCTCTGA

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

    COL27A1 ( XM_017015239.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870728.1 Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu98967
    Clone ID Related Accession (Same CDS sequence) XM_017015239.1
    Accession Version XM_017015239.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3645bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product collagen alpha-1(XXVII) chain isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GAAGTCCGTG GACAAGGCTT ACTTGGAACA GGAGCTCTGG 
    GTGACCTTGG ACCCCTGGGC ACTCCTGGGG AGCAGGGCCT CATTGGGCAA CGGGGAGAGC 
    CAGGCCTTGA GGGTGACAGT GGCCCCATGG GACCTGATGG GCTGA

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

    RefSeq XP_016870728.1
    CDS480..4124
    Translation

    Target ORF information:

    RefSeq Version XM_017015239.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XXVII alpha 1 chain (COL27A1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017015239.1

    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
    ATGGGAGCGG GATCGGCGCG GGGGGCCCGA GGCACAGCGG CGGCGGCGGC GGCGCGCGGG 
    GGGGGGTTTC TCTTCTCCTG GATCTTAGTC TCGTTTGCCT GTCACCTGGC CTCCACCCAA 
    GGAGCTCCTG AAGATGTGGA CATCCTCCAG CGGCTGGGCC TCAGCTGGAC GAAGGCCGGG 
    AGCCCTGCAC CCCCGGGAGT CATTCCTTTC CAGTCGGGCT TCATCTTTAC GCAGCGGGCC 
    CGGCTCCAGG CTCCCACGGG CACCGTCATT CCTGCCGCCT TGGGCACAGA GCTGGCACTG 
    GTGCTGAGCC TCTGCTCCCA CCGGGTGAAC CATGCCTTCC TCTTCGCTGT CCGCAGCCAG 
    AAACGCAAGC TGCAGCTGGG CCTGCAGTTC CTCCCCGGCA AGACGGTCGT CCACCTCGGG 
    TCCCGGCGCT CAGTGGCCTT CGACCTCGAC ATGCACGACG GGCGCTGGCA CCACCTGGCC 
    CTCGAGCTCC GAGGCCGCAC AGTCACTCTG GTGACTGCCT GCGGGCAGCG CCGGGTGCCT 
    GTCCTGCTGC CTTTCCACAG GGACCCTGCA CTCGACCCTG GGGGCTCCTT CCTCTTTGGG 
    AAGATGAACC CGCATGCAGT CCAGTTTGAA GGTGCTCTCT GCCAGTTCAG TATCTACCCT 
    GTGACGCAGG TCGCTCACAA TTACTGTACC CACCTGAGGA AGCAGTGTGG ACAGGCTGAC 
    ACGTACCAGT CCCCACTGGG ACCTCTCTTC TCCCAAGACT CTGGCAGACC TTTTACCTTC 
    CAGTCCGACC TCGCCCTGCT AGGCCTGGAG AACTTGACCA CTGCCACACC AGCCCTGGGG 
    TCACTGCCAG CAGGCAGGGG ACCCAGGGGG ACTGTGGCAC CCGCCACGCC CACCAAGCCC 
    CAAAGGACTA GCCCCACAAA CCCTCACCAG CATATGGCGG TGGGAGGCCC AGCCCAAACC 
    CCGCTGCTAC CTGCCAAGCT GTCAGCCAGT AACGCACTTG ATCCCATGCT CCCAGCCTCT 
    GTTGGCGGCT CTACCAGAAC GCCTCGCCCT GCGGCCGCTC AACCATCACA GAAGATCACA 
    GCCACCAAAA TCCCCAAAAG CCTCCCTACC AAGCCTTCGG CCCCTTCTAC TTCAATTGTG 
    CCCATCAAAA GCCCCCATCC TACCCAGAAA ACAGCTCCAT CTTCATTTAC AAAGTCAGCC 
    CTACCCACTC AGAAGCAAGT GCCACCTACT TCCCGTCCAG TTCCTGCCAG AGTCTCCCGT 
    CCCGCAGAGA AGCCCATCCA GAGGAACCCG GGAATGCCCA GGCCCCCACC GCCCAGCACC 
    CGGCCCCTAC CTCCTACCAC CAGCTCCTCT AAAAAACCCA TTCCCACACT AGCTCGGACT 
    GAGGCCAAGA TAACCAGCCA TGCCAGTAAG CCGGCCTCTG CCCGCACCAG CACCCACAAA 
    CCTCCCCCAT TTACTGCTTT ATCCTCATCT CCTGCCCCTA CTCCTGGTTC TACCAGGAGT 
    ACTCGGCCAC CAGCCACGAT GGTACCTCCA ACTTCGGGCA CCAGCACTCC CAGAACAGCA 
    CCTGCCGTCC CCACTCCTGG CTCAGCTCCC ACTGGAAGCA AGAAGCCCAT TGGATCGGAA 
    GCCTCAAAGA AAGCCGGACC CAAGAGCAGC CCCCGGAAGC CTGTCCCCCT CAGACCTGGG 
    AAGGCAGCCA GGGATGTCCC CTTGAGCGAT CTGACAACCA GGCCTAGCCC CAGACAGCCC 
    CAGCCCAGTC AGCAGACCAC CCCGGCCCTG GTATTGGCCC CGGCGCAATT CCTGTCCTCC 
    AGCCCCCGGC CCACGAGCAG TGGCTATTCG ATCTTCCACC TGGCAGGATC TACGCCTTTC 
    CCTCTGCTGA TGGGGCCTCC GGGACCCAAG GGAGACTGTG GCTTGCCGGG TCCCCCTGGG 
    CTACCTGGGC TACCTGGAAT CCCTGGTGCA CGTGGGCCTC GGGGTCCTCC TGGGCCTTAT 
    GGAAATCCAG GTCTCCCCGG CCCTCCTGGA GCCAAAGGAC AGAAAGGGGA CCCAGGGCTC 
    TCACCAGGAA AGGCCCACGA TGGGGCAAAG GGTGACATGG GCTTGCCTGG GCTCTCCGGG 
    AATCCAGGAC CTCCGGGACG AAAGGGACAC AAGGGCTATC CTGGACCGGC AGGGCACCCC 
    GGAGAACAGG GGCAGCCAGG ACCTGAGGGC AGCCCAGGGG CCAAAGGTTA CCCTGGCAGG 
    CAGGGGTTAC CTGGACCGGT AGGAGATCCC GGCCCCAAAG GCAGCAGGGG CTACATTGGG 
    CTCCCAGGGC TCTTCGGCCT GCCAGGGTCT GATGGAGAAC GAGGCCTGCC TGGCGTTCCT 
    GGCAAGAGGG GCAAGATGGG TATGCCGGGG TTTCCTGGAG TCTTTGGGGA AAGAGGCCCT 
    CCTGGACTGG ATGGAAATCC TGGAGAACTG GGCCTGCCAG GCCCCCCTGG AGTCCCCGGC 
    CTCATTGGTG ACTTAGGAGT GTTGGGTCCG ATTGGCTACC CGGGACCCAA GGGCATGAAG 
    GGACTGATGG GCAGCGTGGG GGAGCCCGGA CTGAAAGGTG ATAAGGGTGA ACAAGGGGTT 
    CCAGGTGTGT CAGGAGATCC CGGATTCCAA GGAGACAAGG GGAGCCAGGG GTTGCCAGGG 
    TTCCCCGGTG CACGGGGGAA GCCAGGGCCT CTGGGCAAAG TCGGAGACAA AGGATCCATT 
    GGGTTTCCCG GGCCCCCTGG ACCCGAGGGA TTCCCAGGAG ACATCGGCCC CCCTGGCGAC 
    AATGGCCCAG AAGGCATGAA GGGTAAGCCT GGAGCCCGAG GCCTGCCGGG ACCCCGTGGG 
    CAGCTGGGGC CCGAGGGAGA TGAGGGACCC ATGGGGCCGC CAGGGGCCCC TGGCTTGGAG 
    GGTCAGCCTG GCAGGAAGGG GTTTCCTGGG AGGCCCGGCC TGGATGGCGT GAAGGGGGAA 
    CCAGGGGATC CTGGTCGGCC GGGGCCTGTG GGAGAGCAGG GATTTATGGG ATTCATTGGT 
    CTGGTCGGGG AGCCAGGAAT CGTGGGAGAA AAGGGTGATC GTGGCATGAT GGGACCCCCA 
    GGCGTGCCTG GACCCAAGGG GTCGATGGGT CATCCTGGAA TGCCAGGTGG TATGGGGACC 
    CCTGGAGAGC CTGGACCCCA GGGTCCTCCA GGATCTCGAG GCCCACCAGG CATGAGGGGA 
    GCAAAGGGAC GTCGGGGCCC CCGAGGACCG GACGGACCAG CTGGGGAGCA AGGGTCCAGG 
    GGCCTGAAGG GCCCTCCAGG ACCCCAGGGC AGACCGGGCC GGCCTGGACA GCAGGGTGTG 
    GCTGGTGAGC GAGGCCACTT GGGCTCGAGA GGCTTTCCTG GCATCCCGGG TCCCTCAGGC 
    CCCCCAGGCA CCAAGGGCCT CCCAGGAGAA CCGGGCCCTC AGGGACCCCA GGGGCCAATT 
    GGGCCTCCAG GAGAGATGGG ACCCAAGGGG CCGCCTGGTG CAGTGGGAGA ACCGGGCCTT 
    CCTGGGGAAG CCGGGATGAA GAAGTCCGTG GACAAGGCTT ACTTGGAACA GGAGCTCTGG 
    GTGACCTTGG ACCCCTGGGC ACTCCTGGGG AGCAGGGCCT CATTGGGCAA CGGGGAGAGC 
    CAGGCCTTGA GGGTGACAGT GGCCCCATGG GACCTGATGG GCTGA

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

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