COL5A3 cDNA ORF clone, Homo sapiens(human)

The following COL5A3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL5A3 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
OHu07129 NM_015719.4
Latest version!
Homo sapiens collagen type V alpha 3 chain (COL5A3), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu67507 XM_011528042.2
Latest version!
Homo sapiens collagen type V alpha 3 chain (COL5A3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu88496 XM_017026849.2
Latest version!
Homo sapiens collagen type V alpha 3 chain (COL5A3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $475.30
$679.00
View Old Accession Versions >>
OHu07129 NM_015719.3 Homo sapiens collagen type V alpha 3 chain (COL5A3), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu88496 XM_017026849.1 Homo sapiens collagen type V alpha 3 (COL5A3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $475.30
$679.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHu07129
    Clone ID Related Accession (Same CDS sequence) NM_015719.3 , NM_015719.4
    Accession Version NM_015719.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5238bp)
    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 2017-10-01
    Organism Homo sapiens(human)
    Product collagen alpha-3(V) chain preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF177941.1, AC008742.9 and BQ006883.1. This sequence is a reference standard in the RefSeqGene project. On Jul 26, 2006 this sequence version replaced NM_015719.2. 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 :: AF177941.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGGGGAACC GCCGGGACCT GGGCCAGCCG CGGGCCGGTC TCTGCCTGCT CCTGGCCGCG 
    CTGCAGCTTC TGCCGGGGAC GCAGGCCGAT CCTGTGGATG TCCTGAAGGC CCTGGGTGTG
    CAGGGAGGCC AGGCTGGGGT CCCCGAGGGG CCTGGCTTCT GTCCCCAGAG GACTCCAGAG
    GGTGACCGGG CATTCAGAAT TGGCCAGGCC AGCACGCTCG GCATCCCCAC GTGGGAACTC
    TTTCCAGAAG GCCACTTTCC TGAGAACTTC TCCTTGCTGA TCACCTTGCG GGGACAGCCA
    GCCAATCAGT CTGTCCTGCT GTCCATTTAT GATGAAAGGG GTGCCCGGCA GTTGGGCCTG
    GCACTGGGGC CAGCGCTGGG TCTCCTAGGT GACCCCTTCC GCCCCCTCCC CCAGCAGGTC
    AACCTCACAG ATGGCAGGTG GCACCGTGTG GCCGTCAGCA TAGATGGTGA GATGGTGACC
    CTGGTAGCTG ACTGTGAAGC TCAGCCCCCT GTTTTGGGCC ATGGCCCCCG CTTCATCAGC
    ATAGCTGGAC TCACTGTGCT GGGGACCCAG GACCTTGGGG AAAAGACTTT CGAGGGAGAC
    ATTCAGGAGC TGCTGATAAG CCCAGATCCT CAGGCTGCCT TCCAGGCTTG TGAGCGGTAC
    CTCCCCGACT GTGACAACCT GGCACCGGCA GCCACAGTGG CTCCCCAGGG TGAACCAGAA
    ACCCCTCGTC CTCGGCGGAA GGGGAAGGGA AAAGGGAGGA AGAAAGGGCG AGGTCGCAAG
    GGGAAGGGCA GGAAAAAGAA CAAGGAAATT TGGACCTCAA GTCCACCTCC TGACTCCGCA
    GAGAACCAGA CCTCCACTGA CATCCCCAAG ACAGAGACTC CAGCTCCAAA TCTGCCTCCG
    ACCCCCACGC CTTTGGTCGT CACCTCCACT GTGACTACTG GACTCAATGC CACGATCCTA
    GAGAGGAGCT TGGACCCTGA CAGTGGAACC GAGCTGGGGA CCCTGGAGAC CAAGGCAGCC
    AGGGAGGATG AAGAAGGAGA TGATTCCACC ATGGGCCCTG ACTTCCGGGC AGCAGAATAT
    CCATCTCGGA CTCAGTTCCA GATCTTTCCT GGTGCTGGAG AGAAAGGAGC AAAAGGAGAG
    CCCGCAGTGA TTGAAAAGGG GCAGCAGTTT GAGGGACCTC CAGGAGCCCC AGGACCCCAA
    GGGGTGGTTG GCCCCTCAGG CCCTCCCGGC CCCCCAGGAT TCCCTGGCGA CCCTGGTCCA
    CCGGGCCCTG CTGGCCTCCC AGGAATCCCC GGCATTGATG GGATCCGAGG CCCACCGGGC
    ACTGTGATCA TGATGCCGTT CCAGTTTGCA GGCGGCTCCT TTAAAGGCCC CCCAGTCTCA
    TTCCAGCAGG CCCAGGCTCA GGCAGTTCTG CAGCAGACTC AGCTCTCTAT GAAAGGCCCC
    CCTGGTCCAG TGGGGCTCAC TGGGCGCCCA GGCCCTGTGG GTCTCCCCGG GCATCCAGGT
    CTGAAAGGAG AGGAGGGAGC AGAAGGGCCA CAGGGTCCCC GAGGCCTGCA GGGACCTCAT
    GGACCCCCTG GCCGAGTGGG CAAGATGGGC CGCCCTGGAG CAGATGGAGC TCGGGGCCTC
    CCAGGGGACA CTGGACCTAA GGGTGATCGT GGCTTCGATG GCCTCCCTGG GCTGCCTGGT
    GAGAAGGGCC AAAGGGGTGA CTTTGGCCAT GTGGGGCAAC CCGGTCCCCC AGGAGAGGAT
    GGTGAGAGGG GAGCAGAGGG ACCTCCAGGG CCCACTGGCC AGGCTGGGGA GCCGGGTCCA
    CGAGGACTGC TTGGCCCCAG AGGCTCTCCT GGCCCCACGG GTCGCCCGGG TGTGACTGGA
    ATTGATGGTG CTCCTGGTGC CAAAGGCAAT GTGGGTCCTC CAGGAGAACC AGGCCCTCCG
    GGACAGCAGG GAAACCATGG GTCCCAGGGA CTCCCCGGTC CCCAGGGACT CATTGGCACT
    CCTGGGGAGA AGGGTCCCCC TGGAAACCCA GGAATTCCAG GCCTCCCAGG ATCCGATGGC
    CCTCTGGGTC ACCCAGGACA TGAGGGCCCC ACGGGAGAGA AAGGGGCTCA GGGTCCACCA
    GGGTCGGCAG GCCCTCCGGG CTATCCTGGA CCTCGGGGAG TGAAGGGCAC TTCAGGCAAC
    CGGGGCCTCC AGGGGGAGAA AGGCGAGAAG GGAGAGGACG GCTTCCCAGG CTTCAAGGGC
    GATGTGGGGC TCAAAGGTGA TCAGGGGAAA CCCGGAGCTC CAGGTCCCCG GGGAGAGGAT
    GGTCCTGAGG GGCCGAAGGG GCAGGCGGGG CAGGCTGGCG AGGAGGGGCC CCCAGGCTCA
    GCTGGGGAGA AGGGCAAGCT TGGGGTGCCA GGCCTCCCAG GTTATCCAGG ACGCCCTGGA
    CCTAAGGGAT CTATTGGATT TCCCGGTCCC CTGGGACCCA TAGGAGAGAA AGGGAAGTCG
    GGAAAGACAG GGCAGCCAGG CCTGGAAGGA GAGCGGGGAC CACCAGGTTC CCGTGGAGAG
    AGGGGGCAAC CGGGTGCCAC AGGGCAACCA GGCCCCAAGG GCGATGTGGG CCAGGATGGA
    GCCCCTGGGA TCCCTGGAGA AAAGGGCCTC CCTGGTCTGC AAGGCCCTCC AGGATTCCCT
    GGGCCAAAGG GCCCCCCTGG TCACCAAGGT AAAGATGGGC GACCAGGGCA CCCTGGACAG
    AGAGGAGAAC TGGGCTTCCA AGGTCAGACA GGCCCGCCTG GACCAGCTGG TGTCTTAGGC
    CCTCAGGGAA AGACAGGAGA AGTGGGACCT CTAGGTGAAA GGGGGCCTCC AGGCCCCCCT
    GGACCTCCTG GTGAACAAGG TCTTCCTGGC CTGGAAGGCA GAGAGGGGGC CAAGGGGGAA
    CTGGGACCAC CAGGACCCCT TGGGAAAGAA GGGCCAGCTG GACTCAGGGG CTTTCCCGGC
    CCCAAAGGGG GCCCTGGGGA CCCGGGACCT ACTGGCTTAA AGGGTGATAA GGGCCCCCCA
    GGGCCCGTGG GGGCCAATGG CTCCCCTGGT GAGCGCGGTC CTTTGGGCCC AGCAGGAGGC
    ATTGGACTTC CTGGCCAAAG TGGCAGCGAA GGCCCCGTTG GCCCTGCAGG CAAGAAGGGG
    TCCCGGGGAG AACGTGGCCC CCCTGGCCCC ACTGGCAAAG ATGGGATCCC AGGGCCCCTG
    GGGCCTCTGG GACCCCCTGG AGCTGCTGGG CCTTCTGGCG AGGAAGGGGA CAAGGGGGAT
    GTGGGTGCCC CCGGACACAA GGGGAGTAAA GGCGATAAAG GAGACGCGGG CCCACCTGGA
    CAACCAGGGA TACGGGGTCC TGCAGGACAC CCAGGTCCCC CGGGAGCAGA CGGGGCTCAG
    GGGCGCCGGG GACCCCCAGG CCTCTTTGGG CAGAAAGGAG ATGACGGAGT CAGAGGCTTT
    GTGGGGGTGA TTGGCCCTCC TGGACTGCAG GGGCTGCCAG GCCCTCCGGG AGAGAAAGGG
    GAGGTCGGAG ACGTCGGGTC CATGGGTCCC CATGGAGCTC CAGGTCCTCG GGGTCCCCAA
    GGCCCCACTG GATCAGAGGG CACTCCAGGG CTGCCTGGAG GAGTTGGTCA GCCAGGCGCC
    GTGGGTGAGA AGGGTGAGCG AGGGGACGCT GGAGACCCAG GGCCTCCAGG AGCCCCAGGC
    ATCCCGGGGC CCAAGGGAGA CATTGGTGAA AAGGGGGACT CAGGCCCATC TGGAGCTGCT
    GGACCCCCAG GCAAGAAAGG TCCCCCTGGA GAGGATGGAG CCAAAGGGAG CGTGGGCCCC
    ACGGGGCTGC CCGGAGATCT AGGGCCCCCA GGAGACCCTG GAGTTTCAGG CATAGATGGT
    TCCCCAGGGG AGAAGGGAGA CCCTGGTGAT GTTGGGGGAC CGGGTCCGCC TGGAGCTTCT
    GGGGAGCCCG GCGCCCCCGG GCCCCCCGGC AAGAGGGGTC CTTCAGGCCA CATGGGTCGA
    GAAGGCAGAG AAGGGGAGAA AGGTGCCAAG GGGGAGCCAG GTCCTGATGG GCCCCCAGGG
    AGGACGGGTC CAATGGGGGC TAGAGGGCCC CCTGGACGTG TGGGGCCTGA GGGTCTTCGA
    GGGATCCCTG GCCCTGTGGG TGAACCAGGC CTCCTGGGAG CCCCTGGACA GATGGGCCCT
    CCTGGCCCCC TGGGGCCCTC TGGCCTCCCA GGGCTGAAGG GAGACACTGG CCCCAAGGGG
    GAAAAGGGCC ACATTGGATT GATCGGTCTC ATTGGCCCCC CGGGAGAAGC TGGTGAGAAA
    GGAGATCAGG GGTTGCCAGG CGTGCAGGGA CCCCCTGGTC CCAAGGGAGA CCCTGGTCCC
    CCTGGTCCCA TTGGCTCTCT GGGCCACCCT GGGCCCCCAG GTGTGGCGGG CCCTCTAGGA
    CAGAAAGGCT CAAAAGGGTC TCCGGGGTCC ATGGGCCCCC GTGGAGACAC TGGACCTGCA
    GGCCCACCAG GCCCCCCGGG TGCCCCTGCC GAGCTGCATG GGCTGCGCAG GCGCCGGCGC
    TTCGTCCCAG TCCCGCTTCC AGTCGTGGAG GGCGGCCTGG AGGAGGTGCT GGCCTCGCTC
    ACATCGCTGA GCTTGGAGCT GGAGCAGCTG CGGCGTCCTC CCGGCACTGC GGAGCGCCCG
    GGCCTCGTGT GCCACGAGCT GCACCGCAAC CACCCGCACC TGCCTGATGG GGAATACTGG
    ATTGACCCCA ACCAGGGCTG CGCGCGGGAC TCGTTCAGGG TTTTTTGCAA CTTCACGGCG
    GGAGGAGAGA CCTGCCTCTA TCCCGACAAG AAGTTTGAGA TCGTGAAATT GGCCTCCTGG
    TCCAAGGAAA AGCCTGGAGG CTGGTATAGC ACATTCCGTC GAGGGAAGAA GTTCTCCTAC
    GTGGACGCCG ACGGGTCCCC AGTGAATGTC GTGCAGCTGA ACTTCCTGAA ACTGCTGAGT
    GCCACAGCTC GCCAGAACTT CACCTACTCC TGCCAGAATG CAGCTGCCTG GCTGGACGAA
    GCCACGGGTG ACTACAGCCA CTCCGCCCGC TTCCTTGGCA CCAATGGAGA GGAGCTGTCT
    TTCAACCAGA CGACAGCAGC CACTGTCAGC GTCCCCCAGG ATGGCTGCCG GCTCCGGAAA
    GGACAGACGA AGACCCTTTT CGAATTCAGC TCTTCTCGAG CGGGATTTCT GCCCCTGTGG
    GATGTGGCGG CCACTGACTT TGGCCAGACG AACCAAAAGT TTGGGTTTGA ACTGGGCCCC
    GTCTGCTTCA GCAGCTGA

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

    RefSeq NP_056534.2
    CDS87..5324
    Translation

    Target ORF information:

    RefSeq Version NM_015719.3
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type V alpha 3 chain (COL5A3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015719.3

    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
    ATGGGGAACC GCCGGGACCT GGGCCAGCCG CGGGCCGGTC TCTGCCTGCT CCTGGCCGCG 
    CTGCAGCTTC TGCCGGGGAC GCAGGCCGAT CCTGTGGATG TCCTGAAGGC CCTGGGTGTG
    CAGGGAGGCC AGGCTGGGGT CCCCGAGGGG CCTGGCTTCT GTCCCCAGAG GACTCCAGAG
    GGTGACCGGG CATTCAGAAT TGGCCAGGCC AGCACGCTCG GCATCCCCAC GTGGGAACTC
    TTTCCAGAAG GCCACTTTCC TGAGAACTTC TCCTTGCTGA TCACCTTGCG GGGACAGCCA
    GCCAATCAGT CTGTCCTGCT GTCCATTTAT GATGAAAGGG GTGCCCGGCA GTTGGGCCTG
    GCACTGGGGC CAGCGCTGGG TCTCCTAGGT GACCCCTTCC GCCCCCTCCC CCAGCAGGTC
    AACCTCACAG ATGGCAGGTG GCACCGTGTG GCCGTCAGCA TAGATGGTGA GATGGTGACC
    CTGGTAGCTG ACTGTGAAGC TCAGCCCCCT GTTTTGGGCC ATGGCCCCCG CTTCATCAGC
    ATAGCTGGAC TCACTGTGCT GGGGACCCAG GACCTTGGGG AAAAGACTTT CGAGGGAGAC
    ATTCAGGAGC TGCTGATAAG CCCAGATCCT CAGGCTGCCT TCCAGGCTTG TGAGCGGTAC
    CTCCCCGACT GTGACAACCT GGCACCGGCA GCCACAGTGG CTCCCCAGGG TGAACCAGAA
    ACCCCTCGTC CTCGGCGGAA GGGGAAGGGA AAAGGGAGGA AGAAAGGGCG AGGTCGCAAG
    GGGAAGGGCA GGAAAAAGAA CAAGGAAATT TGGACCTCAA GTCCACCTCC TGACTCCGCA
    GAGAACCAGA CCTCCACTGA CATCCCCAAG ACAGAGACTC CAGCTCCAAA TCTGCCTCCG
    ACCCCCACGC CTTTGGTCGT CACCTCCACT GTGACTACTG GACTCAATGC CACGATCCTA
    GAGAGGAGCT TGGACCCTGA CAGTGGAACC GAGCTGGGGA CCCTGGAGAC CAAGGCAGCC
    AGGGAGGATG AAGAAGGAGA TGATTCCACC ATGGGCCCTG ACTTCCGGGC AGCAGAATAT
    CCATCTCGGA CTCAGTTCCA GATCTTTCCT GGTGCTGGAG AGAAAGGAGC AAAAGGAGAG
    CCCGCAGTGA TTGAAAAGGG GCAGCAGTTT GAGGGACCTC CAGGAGCCCC AGGACCCCAA
    GGGGTGGTTG GCCCCTCAGG CCCTCCCGGC CCCCCAGGAT TCCCTGGCGA CCCTGGTCCA
    CCGGGCCCTG CTGGCCTCCC AGGAATCCCC GGCATTGATG GGATCCGAGG CCCACCGGGC
    ACTGTGATCA TGATGCCGTT CCAGTTTGCA GGCGGCTCCT TTAAAGGCCC CCCAGTCTCA
    TTCCAGCAGG CCCAGGCTCA GGCAGTTCTG CAGCAGACTC AGCTCTCTAT GAAAGGCCCC
    CCTGGTCCAG TGGGGCTCAC TGGGCGCCCA GGCCCTGTGG GTCTCCCCGG GCATCCAGGT
    CTGAAAGGAG AGGAGGGAGC AGAAGGGCCA CAGGGTCCCC GAGGCCTGCA GGGACCTCAT
    GGACCCCCTG GCCGAGTGGG CAAGATGGGC CGCCCTGGAG CAGATGGAGC TCGGGGCCTC
    CCAGGGGACA CTGGACCTAA GGGTGATCGT GGCTTCGATG GCCTCCCTGG GCTGCCTGGT
    GAGAAGGGCC AAAGGGGTGA CTTTGGCCAT GTGGGGCAAC CCGGTCCCCC AGGAGAGGAT
    GGTGAGAGGG GAGCAGAGGG ACCTCCAGGG CCCACTGGCC AGGCTGGGGA GCCGGGTCCA
    CGAGGACTGC TTGGCCCCAG AGGCTCTCCT GGCCCCACGG GTCGCCCGGG TGTGACTGGA
    ATTGATGGTG CTCCTGGTGC CAAAGGCAAT GTGGGTCCTC CAGGAGAACC AGGCCCTCCG
    GGACAGCAGG GAAACCATGG GTCCCAGGGA CTCCCCGGTC CCCAGGGACT CATTGGCACT
    CCTGGGGAGA AGGGTCCCCC TGGAAACCCA GGAATTCCAG GCCTCCCAGG ATCCGATGGC
    CCTCTGGGTC ACCCAGGACA TGAGGGCCCC ACGGGAGAGA AAGGGGCTCA GGGTCCACCA
    GGGTCGGCAG GCCCTCCGGG CTATCCTGGA CCTCGGGGAG TGAAGGGCAC TTCAGGCAAC
    CGGGGCCTCC AGGGGGAGAA AGGCGAGAAG GGAGAGGACG GCTTCCCAGG CTTCAAGGGC
    GATGTGGGGC TCAAAGGTGA TCAGGGGAAA CCCGGAGCTC CAGGTCCCCG GGGAGAGGAT
    GGTCCTGAGG GGCCGAAGGG GCAGGCGGGG CAGGCTGGCG AGGAGGGGCC CCCAGGCTCA
    GCTGGGGAGA AGGGCAAGCT TGGGGTGCCA GGCCTCCCAG GTTATCCAGG ACGCCCTGGA
    CCTAAGGGAT CTATTGGATT TCCCGGTCCC CTGGGACCCA TAGGAGAGAA AGGGAAGTCG
    GGAAAGACAG GGCAGCCAGG CCTGGAAGGA GAGCGGGGAC CACCAGGTTC CCGTGGAGAG
    AGGGGGCAAC CGGGTGCCAC AGGGCAACCA GGCCCCAAGG GCGATGTGGG CCAGGATGGA
    GCCCCTGGGA TCCCTGGAGA AAAGGGCCTC CCTGGTCTGC AAGGCCCTCC AGGATTCCCT
    GGGCCAAAGG GCCCCCCTGG TCACCAAGGT AAAGATGGGC GACCAGGGCA CCCTGGACAG
    AGAGGAGAAC TGGGCTTCCA AGGTCAGACA GGCCCGCCTG GACCAGCTGG TGTCTTAGGC
    CCTCAGGGAA AGACAGGAGA AGTGGGACCT CTAGGTGAAA GGGGGCCTCC AGGCCCCCCT
    GGACCTCCTG GTGAACAAGG TCTTCCTGGC CTGGAAGGCA GAGAGGGGGC CAAGGGGGAA
    CTGGGACCAC CAGGACCCCT TGGGAAAGAA GGGCCAGCTG GACTCAGGGG CTTTCCCGGC
    CCCAAAGGGG GCCCTGGGGA CCCGGGACCT ACTGGCTTAA AGGGTGATAA GGGCCCCCCA
    GGGCCCGTGG GGGCCAATGG CTCCCCTGGT GAGCGCGGTC CTTTGGGCCC AGCAGGAGGC
    ATTGGACTTC CTGGCCAAAG TGGCAGCGAA GGCCCCGTTG GCCCTGCAGG CAAGAAGGGG
    TCCCGGGGAG AACGTGGCCC CCCTGGCCCC ACTGGCAAAG ATGGGATCCC AGGGCCCCTG
    GGGCCTCTGG GACCCCCTGG AGCTGCTGGG CCTTCTGGCG AGGAAGGGGA CAAGGGGGAT
    GTGGGTGCCC CCGGACACAA GGGGAGTAAA GGCGATAAAG GAGACGCGGG CCCACCTGGA
    CAACCAGGGA TACGGGGTCC TGCAGGACAC CCAGGTCCCC CGGGAGCAGA CGGGGCTCAG
    GGGCGCCGGG GACCCCCAGG CCTCTTTGGG CAGAAAGGAG ATGACGGAGT CAGAGGCTTT
    GTGGGGGTGA TTGGCCCTCC TGGACTGCAG GGGCTGCCAG GCCCTCCGGG AGAGAAAGGG
    GAGGTCGGAG ACGTCGGGTC CATGGGTCCC CATGGAGCTC CAGGTCCTCG GGGTCCCCAA
    GGCCCCACTG GATCAGAGGG CACTCCAGGG CTGCCTGGAG GAGTTGGTCA GCCAGGCGCC
    GTGGGTGAGA AGGGTGAGCG AGGGGACGCT GGAGACCCAG GGCCTCCAGG AGCCCCAGGC
    ATCCCGGGGC CCAAGGGAGA CATTGGTGAA AAGGGGGACT CAGGCCCATC TGGAGCTGCT
    GGACCCCCAG GCAAGAAAGG TCCCCCTGGA GAGGATGGAG CCAAAGGGAG CGTGGGCCCC
    ACGGGGCTGC CCGGAGATCT AGGGCCCCCA GGAGACCCTG GAGTTTCAGG CATAGATGGT
    TCCCCAGGGG AGAAGGGAGA CCCTGGTGAT GTTGGGGGAC CGGGTCCGCC TGGAGCTTCT
    GGGGAGCCCG GCGCCCCCGG GCCCCCCGGC AAGAGGGGTC CTTCAGGCCA CATGGGTCGA
    GAAGGCAGAG AAGGGGAGAA AGGTGCCAAG GGGGAGCCAG GTCCTGATGG GCCCCCAGGG
    AGGACGGGTC CAATGGGGGC TAGAGGGCCC CCTGGACGTG TGGGGCCTGA GGGTCTTCGA
    GGGATCCCTG GCCCTGTGGG TGAACCAGGC CTCCTGGGAG CCCCTGGACA GATGGGCCCT
    CCTGGCCCCC TGGGGCCCTC TGGCCTCCCA GGGCTGAAGG GAGACACTGG CCCCAAGGGG
    GAAAAGGGCC ACATTGGATT GATCGGTCTC ATTGGCCCCC CGGGAGAAGC TGGTGAGAAA
    GGAGATCAGG GGTTGCCAGG CGTGCAGGGA CCCCCTGGTC CCAAGGGAGA CCCTGGTCCC
    CCTGGTCCCA TTGGCTCTCT GGGCCACCCT GGGCCCCCAG GTGTGGCGGG CCCTCTAGGA
    CAGAAAGGCT CAAAAGGGTC TCCGGGGTCC ATGGGCCCCC GTGGAGACAC TGGACCTGCA
    GGCCCACCAG GCCCCCCGGG TGCCCCTGCC GAGCTGCATG GGCTGCGCAG GCGCCGGCGC
    TTCGTCCCAG TCCCGCTTCC AGTCGTGGAG GGCGGCCTGG AGGAGGTGCT GGCCTCGCTC
    ACATCGCTGA GCTTGGAGCT GGAGCAGCTG CGGCGTCCTC CCGGCACTGC GGAGCGCCCG
    GGCCTCGTGT GCCACGAGCT GCACCGCAAC CACCCGCACC TGCCTGATGG GGAATACTGG
    ATTGACCCCA ACCAGGGCTG CGCGCGGGAC TCGTTCAGGG TTTTTTGCAA CTTCACGGCG
    GGAGGAGAGA CCTGCCTCTA TCCCGACAAG AAGTTTGAGA TCGTGAAATT GGCCTCCTGG
    TCCAAGGAAA AGCCTGGAGG CTGGTATAGC ACATTCCGTC GAGGGAAGAA GTTCTCCTAC
    GTGGACGCCG ACGGGTCCCC AGTGAATGTC GTGCAGCTGA ACTTCCTGAA ACTGCTGAGT
    GCCACAGCTC GCCAGAACTT CACCTACTCC TGCCAGAATG CAGCTGCCTG GCTGGACGAA
    GCCACGGGTG ACTACAGCCA CTCCGCCCGC TTCCTTGGCA CCAATGGAGA GGAGCTGTCT
    TTCAACCAGA CGACAGCAGC CACTGTCAGC GTCCCCCAGG ATGGCTGCCG GCTCCGGAAA
    GGACAGACGA AGACCCTTTT CGAATTCAGC TCTTCTCGAG CGGGATTTCT GCCCCTGTGG
    GATGTGGCGG CCACTGACTT TGGCCAGACG AACCAAAAGT TTGGGTTTGA ACTGGGCCCC
    GTCTGCTTCA GCAGCTGA

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

    CloneID OHu07129
    Clone ID Related Accession (Same CDS sequence) NM_015719.3 , NM_015719.4
    Accession Version NM_015719.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5238bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-30
    Organism Homo sapiens(human)
    Product collagen alpha-3(V) chain preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC008742.9, AF177941.1 and BQ006883.1. This sequence is a reference standard in the RefSeqGene project. On Nov 22, 2018 this sequence version replaced NM_015719.3. 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 :: AF177941.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000264828.4/ ENSP00000264828.3 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
    ATGGGGAACC GCCGGGACCT GGGCCAGCCG CGGGCCGGTC TCTGCCTGCT CCTGGCCGCG 
    CTGCAGCTTC TGCCGGGGAC GCAGGCCGAT CCTGTGGATG TCCTGAAGGC CCTGGGTGTG
    CAGGGAGGCC AGGCTGGGGT CCCCGAGGGG CCTGGCTTCT GTCCCCAGAG GACTCCAGAG
    GGTGACCGGG CATTCAGAAT TGGCCAGGCC AGCACGCTCG GCATCCCCAC GTGGGAACTC
    TTTCCAGAAG GCCACTTTCC TGAGAACTTC TCCTTGCTGA TCACCTTGCG GGGACAGCCA
    GCCAATCAGT CTGTCCTGCT GTCCATTTAT GATGAAAGGG GTGCCCGGCA GTTGGGCCTG
    GCACTGGGGC CAGCGCTGGG TCTCCTAGGT GACCCCTTCC GCCCCCTCCC CCAGCAGGTC
    AACCTCACAG ATGGCAGGTG GCACCGTGTG GCCGTCAGCA TAGATGGTGA GATGGTGACC
    CTGGTAGCTG ACTGTGAAGC TCAGCCCCCT GTTTTGGGCC ATGGCCCCCG CTTCATCAGC
    ATAGCTGGAC TCACTGTGCT GGGGACCCAG GACCTTGGGG AAAAGACTTT CGAGGGAGAC
    ATTCAGGAGC TGCTGATAAG CCCAGATCCT CAGGCTGCCT TCCAGGCTTG TGAGCGGTAC
    CTCCCCGACT GTGACAACCT GGCACCGGCA GCCACAGTGG CTCCCCAGGG TGAACCAGAA
    ACCCCTCGTC CTCGGCGGAA GGGGAAGGGA AAAGGGAGGA AGAAAGGGCG AGGTCGCAAG
    GGGAAGGGCA GGAAAAAGAA CAAGGAAATT TGGACCTCAA GTCCACCTCC TGACTCCGCA
    GAGAACCAGA CCTCCACTGA CATCCCCAAG ACAGAGACTC CAGCTCCAAA TCTGCCTCCG
    ACCCCCACGC CTTTGGTCGT CACCTCCACT GTGACTACTG GACTCAATGC CACGATCCTA
    GAGAGGAGCT TGGACCCTGA CAGTGGAACC GAGCTGGGGA CCCTGGAGAC CAAGGCAGCC
    AGGGAGGATG AAGAAGGAGA TGATTCCACC ATGGGCCCTG ACTTCCGGGC AGCAGAATAT
    CCATCTCGGA CTCAGTTCCA GATCTTTCCT GGTGCTGGAG AGAAAGGAGC AAAAGGAGAG
    CCCGCAGTGA TTGAAAAGGG GCAGCAGTTT GAGGGACCTC CAGGAGCCCC AGGACCCCAA
    GGGGTGGTTG GCCCCTCAGG CCCTCCCGGC CCCCCAGGAT TCCCTGGCGA CCCTGGTCCA
    CCGGGCCCTG CTGGCCTCCC AGGAATCCCC GGCATTGATG GGATCCGAGG CCCACCGGGC
    ACTGTGATCA TGATGCCGTT CCAGTTTGCA GGCGGCTCCT TTAAAGGCCC CCCAGTCTCA
    TTCCAGCAGG CCCAGGCTCA GGCAGTTCTG CAGCAGACTC AGCTCTCTAT GAAAGGCCCC
    CCTGGTCCAG TGGGGCTCAC TGGGCGCCCA GGCCCTGTGG GTCTCCCCGG GCATCCAGGT
    CTGAAAGGAG AGGAGGGAGC AGAAGGGCCA CAGGGTCCCC GAGGCCTGCA GGGACCTCAT
    GGACCCCCTG GCCGAGTGGG CAAGATGGGC CGCCCTGGAG CAGATGGAGC TCGGGGCCTC
    CCAGGGGACA CTGGACCTAA GGGTGATCGT GGCTTCGATG GCCTCCCTGG GCTGCCTGGT
    GAGAAGGGCC AAAGGGGTGA CTTTGGCCAT GTGGGGCAAC CCGGTCCCCC AGGAGAGGAT
    GGTGAGAGGG GAGCAGAGGG ACCTCCAGGG CCCACTGGCC AGGCTGGGGA GCCGGGTCCA
    CGAGGACTGC TTGGCCCCAG AGGCTCTCCT GGCCCCACGG GTCGCCCGGG TGTGACTGGA
    ATTGATGGTG CTCCTGGTGC CAAAGGCAAT GTGGGTCCTC CAGGAGAACC AGGCCCTCCG
    GGACAGCAGG GAAACCATGG GTCCCAGGGA CTCCCCGGTC CCCAGGGACT CATTGGCACT
    CCTGGGGAGA AGGGTCCCCC TGGAAACCCA GGAATTCCAG GCCTCCCAGG ATCCGATGGC
    CCTCTGGGTC ACCCAGGACA TGAGGGCCCC ACGGGAGAGA AAGGGGCTCA GGGTCCACCA
    GGGTCGGCAG GCCCTCCGGG CTATCCTGGA CCTCGGGGAG TGAAGGGCAC TTCAGGCAAC
    CGGGGCCTCC AGGGGGAGAA AGGCGAGAAG GGAGAGGACG GCTTCCCAGG CTTCAAGGGC
    GATGTGGGGC TCAAAGGTGA TCAGGGGAAA CCCGGAGCTC CAGGTCCCCG GGGAGAGGAT
    GGTCCTGAGG GGCCGAAGGG GCAGGCGGGG CAGGCTGGCG AGGAGGGGCC CCCAGGCTCA
    GCTGGGGAGA AGGGCAAGCT TGGGGTGCCA GGCCTCCCAG GTTATCCAGG ACGCCCTGGA
    CCTAAGGGAT CTATTGGATT TCCCGGTCCC CTGGGACCCA TAGGAGAGAA AGGGAAGTCG
    GGAAAGACAG GGCAGCCAGG CCTGGAAGGA GAGCGGGGAC CACCAGGTTC CCGTGGAGAG
    AGGGGGCAAC CGGGTGCCAC AGGGCAACCA GGCCCCAAGG GCGATGTGGG CCAGGATGGA
    GCCCCTGGGA TCCCTGGAGA AAAGGGCCTC CCTGGTCTGC AAGGCCCTCC AGGATTCCCT
    GGGCCAAAGG GCCCCCCTGG TCACCAAGGT AAAGATGGGC GACCAGGGCA CCCTGGACAG
    AGAGGAGAAC TGGGCTTCCA AGGTCAGACA GGCCCGCCTG GACCAGCTGG TGTCTTAGGC
    CCTCAGGGAA AGACAGGAGA AGTGGGACCT CTAGGTGAAA GGGGGCCTCC AGGCCCCCCT
    GGACCTCCTG GTGAACAAGG TCTTCCTGGC CTGGAAGGCA GAGAGGGGGC CAAGGGGGAA
    CTGGGACCAC CAGGACCCCT TGGGAAAGAA GGGCCAGCTG GACTCAGGGG CTTTCCCGGC
    CCCAAAGGGG GCCCTGGGGA CCCGGGACCT ACTGGCTTAA AGGGTGATAA GGGCCCCCCA
    GGGCCCGTGG GGGCCAATGG CTCCCCTGGT GAGCGCGGTC CTTTGGGCCC AGCAGGAGGC
    ATTGGACTTC CTGGCCAAAG TGGCAGCGAA GGCCCCGTTG GCCCTGCAGG CAAGAAGGGG
    TCCCGGGGAG AACGTGGCCC CCCTGGCCCC ACTGGCAAAG ATGGGATCCC AGGGCCCCTG
    GGGCCTCTGG GACCCCCTGG AGCTGCTGGG CCTTCTGGCG AGGAAGGGGA CAAGGGGGAT
    GTGGGTGCCC CCGGACACAA GGGGAGTAAA GGCGATAAAG GAGACGCGGG CCCACCTGGA
    CAACCAGGGA TACGGGGTCC TGCAGGACAC CCAGGTCCCC CGGGAGCAGA CGGGGCTCAG
    GGGCGCCGGG GACCCCCAGG CCTCTTTGGG CAGAAAGGAG ATGACGGAGT CAGAGGCTTT
    GTGGGGGTGA TTGGCCCTCC TGGACTGCAG GGGCTGCCAG GCCCTCCGGG AGAGAAAGGG
    GAGGTCGGAG ACGTCGGGTC CATGGGTCCC CATGGAGCTC CAGGTCCTCG GGGTCCCCAA
    GGCCCCACTG GATCAGAGGG CACTCCAGGG CTGCCTGGAG GAGTTGGTCA GCCAGGCGCC
    GTGGGTGAGA AGGGTGAGCG AGGGGACGCT GGAGACCCAG GGCCTCCAGG AGCCCCAGGC
    ATCCCGGGGC CCAAGGGAGA CATTGGTGAA AAGGGGGACT CAGGCCCATC TGGAGCTGCT
    GGACCCCCAG GCAAGAAAGG TCCCCCTGGA GAGGATGGAG CCAAAGGGAG CGTGGGCCCC
    ACGGGGCTGC CCGGAGATCT AGGGCCCCCA GGAGACCCTG GAGTTTCAGG CATAGATGGT
    TCCCCAGGGG AGAAGGGAGA CCCTGGTGAT GTTGGGGGAC CGGGTCCGCC TGGAGCTTCT
    GGGGAGCCCG GCGCCCCCGG GCCCCCCGGC AAGAGGGGTC CTTCAGGCCA CATGGGTCGA
    GAAGGCAGAG AAGGGGAGAA AGGTGCCAAG GGGGAGCCAG GTCCTGATGG GCCCCCAGGG
    AGGACGGGTC CAATGGGGGC TAGAGGGCCC CCTGGACGTG TGGGGCCTGA GGGTCTTCGA
    GGGATCCCTG GCCCTGTGGG TGAACCAGGC CTCCTGGGAG CCCCTGGACA GATGGGCCCT
    CCTGGCCCCC TGGGGCCCTC TGGCCTCCCA GGGCTGAAGG GAGACACTGG CCCCAAGGGG
    GAAAAGGGCC ACATTGGATT GATCGGTCTC ATTGGCCCCC CGGGAGAAGC TGGTGAGAAA
    GGAGATCAGG GGTTGCCAGG CGTGCAGGGA CCCCCTGGTC CCAAGGGAGA CCCTGGTCCC
    CCTGGTCCCA TTGGCTCTCT GGGCCACCCT GGGCCCCCAG GTGTGGCGGG CCCTCTAGGA
    CAGAAAGGCT CAAAAGGGTC TCCGGGGTCC ATGGGCCCCC GTGGAGACAC TGGACCTGCA
    GGCCCACCAG GCCCCCCGGG TGCCCCTGCC GAGCTGCATG GGCTGCGCAG GCGCCGGCGC
    TTCGTCCCAG TCCCGCTTCC AGTCGTGGAG GGCGGCCTGG AGGAGGTGCT GGCCTCGCTC
    ACATCGCTGA GCTTGGAGCT GGAGCAGCTG CGGCGTCCTC CCGGCACTGC GGAGCGCCCG
    GGCCTCGTGT GCCACGAGCT GCACCGCAAC CACCCGCACC TGCCTGATGG GGAATACTGG
    ATTGACCCCA ACCAGGGCTG CGCGCGGGAC TCGTTCAGGG TTTTTTGCAA CTTCACGGCG
    GGAGGAGAGA CCTGCCTCTA TCCCGACAAG AAGTTTGAGA TCGTGAAATT GGCCTCCTGG
    TCCAAGGAAA AGCCTGGAGG CTGGTATAGC ACATTCCGTC GAGGGAAGAA GTTCTCCTAC
    GTGGACGCCG ACGGGTCCCC AGTGAATGTC GTGCAGCTGA ACTTCCTGAA ACTGCTGAGT
    GCCACAGCTC GCCAGAACTT CACCTACTCC TGCCAGAATG CAGCTGCCTG GCTGGACGAA
    GCCACGGGTG ACTACAGCCA CTCCGCCCGC TTCCTTGGCA CCAATGGAGA GGAGCTGTCT
    TTCAACCAGA CGACAGCAGC CACTGTCAGC GTCCCCCAGG ATGGCTGCCG GCTCCGGAAA
    GGACAGACGA AGACCCTTTT CGAATTCAGC TCTTCTCGAG CGGGATTTCT GCCCCTGTGG
    GATGTGGCGG CCACTGACTT TGGCCAGACG AACCAAAAGT TTGGGTTTGA ACTGGGCCCC
    GTCTGCTTCA GCAGCTGA

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

    RefSeq NP_056534.2
    CDS120..5357
    Translation

    Target ORF information:

    RefSeq Version NM_015719.4
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type V alpha 3 chain (COL5A3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015719.4

    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
    ATGGGGAACC GCCGGGACCT GGGCCAGCCG CGGGCCGGTC TCTGCCTGCT CCTGGCCGCG 
    CTGCAGCTTC TGCCGGGGAC GCAGGCCGAT CCTGTGGATG TCCTGAAGGC CCTGGGTGTG
    CAGGGAGGCC AGGCTGGGGT CCCCGAGGGG CCTGGCTTCT GTCCCCAGAG GACTCCAGAG
    GGTGACCGGG CATTCAGAAT TGGCCAGGCC AGCACGCTCG GCATCCCCAC GTGGGAACTC
    TTTCCAGAAG GCCACTTTCC TGAGAACTTC TCCTTGCTGA TCACCTTGCG GGGACAGCCA
    GCCAATCAGT CTGTCCTGCT GTCCATTTAT GATGAAAGGG GTGCCCGGCA GTTGGGCCTG
    GCACTGGGGC CAGCGCTGGG TCTCCTAGGT GACCCCTTCC GCCCCCTCCC CCAGCAGGTC
    AACCTCACAG ATGGCAGGTG GCACCGTGTG GCCGTCAGCA TAGATGGTGA GATGGTGACC
    CTGGTAGCTG ACTGTGAAGC TCAGCCCCCT GTTTTGGGCC ATGGCCCCCG CTTCATCAGC
    ATAGCTGGAC TCACTGTGCT GGGGACCCAG GACCTTGGGG AAAAGACTTT CGAGGGAGAC
    ATTCAGGAGC TGCTGATAAG CCCAGATCCT CAGGCTGCCT TCCAGGCTTG TGAGCGGTAC
    CTCCCCGACT GTGACAACCT GGCACCGGCA GCCACAGTGG CTCCCCAGGG TGAACCAGAA
    ACCCCTCGTC CTCGGCGGAA GGGGAAGGGA AAAGGGAGGA AGAAAGGGCG AGGTCGCAAG
    GGGAAGGGCA GGAAAAAGAA CAAGGAAATT TGGACCTCAA GTCCACCTCC TGACTCCGCA
    GAGAACCAGA CCTCCACTGA CATCCCCAAG ACAGAGACTC CAGCTCCAAA TCTGCCTCCG
    ACCCCCACGC CTTTGGTCGT CACCTCCACT GTGACTACTG GACTCAATGC CACGATCCTA
    GAGAGGAGCT TGGACCCTGA CAGTGGAACC GAGCTGGGGA CCCTGGAGAC CAAGGCAGCC
    AGGGAGGATG AAGAAGGAGA TGATTCCACC ATGGGCCCTG ACTTCCGGGC AGCAGAATAT
    CCATCTCGGA CTCAGTTCCA GATCTTTCCT GGTGCTGGAG AGAAAGGAGC AAAAGGAGAG
    CCCGCAGTGA TTGAAAAGGG GCAGCAGTTT GAGGGACCTC CAGGAGCCCC AGGACCCCAA
    GGGGTGGTTG GCCCCTCAGG CCCTCCCGGC CCCCCAGGAT TCCCTGGCGA CCCTGGTCCA
    CCGGGCCCTG CTGGCCTCCC AGGAATCCCC GGCATTGATG GGATCCGAGG CCCACCGGGC
    ACTGTGATCA TGATGCCGTT CCAGTTTGCA GGCGGCTCCT TTAAAGGCCC CCCAGTCTCA
    TTCCAGCAGG CCCAGGCTCA GGCAGTTCTG CAGCAGACTC AGCTCTCTAT GAAAGGCCCC
    CCTGGTCCAG TGGGGCTCAC TGGGCGCCCA GGCCCTGTGG GTCTCCCCGG GCATCCAGGT
    CTGAAAGGAG AGGAGGGAGC AGAAGGGCCA CAGGGTCCCC GAGGCCTGCA GGGACCTCAT
    GGACCCCCTG GCCGAGTGGG CAAGATGGGC CGCCCTGGAG CAGATGGAGC TCGGGGCCTC
    CCAGGGGACA CTGGACCTAA GGGTGATCGT GGCTTCGATG GCCTCCCTGG GCTGCCTGGT
    GAGAAGGGCC AAAGGGGTGA CTTTGGCCAT GTGGGGCAAC CCGGTCCCCC AGGAGAGGAT
    GGTGAGAGGG GAGCAGAGGG ACCTCCAGGG CCCACTGGCC AGGCTGGGGA GCCGGGTCCA
    CGAGGACTGC TTGGCCCCAG AGGCTCTCCT GGCCCCACGG GTCGCCCGGG TGTGACTGGA
    ATTGATGGTG CTCCTGGTGC CAAAGGCAAT GTGGGTCCTC CAGGAGAACC AGGCCCTCCG
    GGACAGCAGG GAAACCATGG GTCCCAGGGA CTCCCCGGTC CCCAGGGACT CATTGGCACT
    CCTGGGGAGA AGGGTCCCCC TGGAAACCCA GGAATTCCAG GCCTCCCAGG ATCCGATGGC
    CCTCTGGGTC ACCCAGGACA TGAGGGCCCC ACGGGAGAGA AAGGGGCTCA GGGTCCACCA
    GGGTCGGCAG GCCCTCCGGG CTATCCTGGA CCTCGGGGAG TGAAGGGCAC TTCAGGCAAC
    CGGGGCCTCC AGGGGGAGAA AGGCGAGAAG GGAGAGGACG GCTTCCCAGG CTTCAAGGGC
    GATGTGGGGC TCAAAGGTGA TCAGGGGAAA CCCGGAGCTC CAGGTCCCCG GGGAGAGGAT
    GGTCCTGAGG GGCCGAAGGG GCAGGCGGGG CAGGCTGGCG AGGAGGGGCC CCCAGGCTCA
    GCTGGGGAGA AGGGCAAGCT TGGGGTGCCA GGCCTCCCAG GTTATCCAGG ACGCCCTGGA
    CCTAAGGGAT CTATTGGATT TCCCGGTCCC CTGGGACCCA TAGGAGAGAA AGGGAAGTCG
    GGAAAGACAG GGCAGCCAGG CCTGGAAGGA GAGCGGGGAC CACCAGGTTC CCGTGGAGAG
    AGGGGGCAAC CGGGTGCCAC AGGGCAACCA GGCCCCAAGG GCGATGTGGG CCAGGATGGA
    GCCCCTGGGA TCCCTGGAGA AAAGGGCCTC CCTGGTCTGC AAGGCCCTCC AGGATTCCCT
    GGGCCAAAGG GCCCCCCTGG TCACCAAGGT AAAGATGGGC GACCAGGGCA CCCTGGACAG
    AGAGGAGAAC TGGGCTTCCA AGGTCAGACA GGCCCGCCTG GACCAGCTGG TGTCTTAGGC
    CCTCAGGGAA AGACAGGAGA AGTGGGACCT CTAGGTGAAA GGGGGCCTCC AGGCCCCCCT
    GGACCTCCTG GTGAACAAGG TCTTCCTGGC CTGGAAGGCA GAGAGGGGGC CAAGGGGGAA
    CTGGGACCAC CAGGACCCCT TGGGAAAGAA GGGCCAGCTG GACTCAGGGG CTTTCCCGGC
    CCCAAAGGGG GCCCTGGGGA CCCGGGACCT ACTGGCTTAA AGGGTGATAA GGGCCCCCCA
    GGGCCCGTGG GGGCCAATGG CTCCCCTGGT GAGCGCGGTC CTTTGGGCCC AGCAGGAGGC
    ATTGGACTTC CTGGCCAAAG TGGCAGCGAA GGCCCCGTTG GCCCTGCAGG CAAGAAGGGG
    TCCCGGGGAG AACGTGGCCC CCCTGGCCCC ACTGGCAAAG ATGGGATCCC AGGGCCCCTG
    GGGCCTCTGG GACCCCCTGG AGCTGCTGGG CCTTCTGGCG AGGAAGGGGA CAAGGGGGAT
    GTGGGTGCCC CCGGACACAA GGGGAGTAAA GGCGATAAAG GAGACGCGGG CCCACCTGGA
    CAACCAGGGA TACGGGGTCC TGCAGGACAC CCAGGTCCCC CGGGAGCAGA CGGGGCTCAG
    GGGCGCCGGG GACCCCCAGG CCTCTTTGGG CAGAAAGGAG ATGACGGAGT CAGAGGCTTT
    GTGGGGGTGA TTGGCCCTCC TGGACTGCAG GGGCTGCCAG GCCCTCCGGG AGAGAAAGGG
    GAGGTCGGAG ACGTCGGGTC CATGGGTCCC CATGGAGCTC CAGGTCCTCG GGGTCCCCAA
    GGCCCCACTG GATCAGAGGG CACTCCAGGG CTGCCTGGAG GAGTTGGTCA GCCAGGCGCC
    GTGGGTGAGA AGGGTGAGCG AGGGGACGCT GGAGACCCAG GGCCTCCAGG AGCCCCAGGC
    ATCCCGGGGC CCAAGGGAGA CATTGGTGAA AAGGGGGACT CAGGCCCATC TGGAGCTGCT
    GGACCCCCAG GCAAGAAAGG TCCCCCTGGA GAGGATGGAG CCAAAGGGAG CGTGGGCCCC
    ACGGGGCTGC CCGGAGATCT AGGGCCCCCA GGAGACCCTG GAGTTTCAGG CATAGATGGT
    TCCCCAGGGG AGAAGGGAGA CCCTGGTGAT GTTGGGGGAC CGGGTCCGCC TGGAGCTTCT
    GGGGAGCCCG GCGCCCCCGG GCCCCCCGGC AAGAGGGGTC CTTCAGGCCA CATGGGTCGA
    GAAGGCAGAG AAGGGGAGAA AGGTGCCAAG GGGGAGCCAG GTCCTGATGG GCCCCCAGGG
    AGGACGGGTC CAATGGGGGC TAGAGGGCCC CCTGGACGTG TGGGGCCTGA GGGTCTTCGA
    GGGATCCCTG GCCCTGTGGG TGAACCAGGC CTCCTGGGAG CCCCTGGACA GATGGGCCCT
    CCTGGCCCCC TGGGGCCCTC TGGCCTCCCA GGGCTGAAGG GAGACACTGG CCCCAAGGGG
    GAAAAGGGCC ACATTGGATT GATCGGTCTC ATTGGCCCCC CGGGAGAAGC TGGTGAGAAA
    GGAGATCAGG GGTTGCCAGG CGTGCAGGGA CCCCCTGGTC CCAAGGGAGA CCCTGGTCCC
    CCTGGTCCCA TTGGCTCTCT GGGCCACCCT GGGCCCCCAG GTGTGGCGGG CCCTCTAGGA
    CAGAAAGGCT CAAAAGGGTC TCCGGGGTCC ATGGGCCCCC GTGGAGACAC TGGACCTGCA
    GGCCCACCAG GCCCCCCGGG TGCCCCTGCC GAGCTGCATG GGCTGCGCAG GCGCCGGCGC
    TTCGTCCCAG TCCCGCTTCC AGTCGTGGAG GGCGGCCTGG AGGAGGTGCT GGCCTCGCTC
    ACATCGCTGA GCTTGGAGCT GGAGCAGCTG CGGCGTCCTC CCGGCACTGC GGAGCGCCCG
    GGCCTCGTGT GCCACGAGCT GCACCGCAAC CACCCGCACC TGCCTGATGG GGAATACTGG
    ATTGACCCCA ACCAGGGCTG CGCGCGGGAC TCGTTCAGGG TTTTTTGCAA CTTCACGGCG
    GGAGGAGAGA CCTGCCTCTA TCCCGACAAG AAGTTTGAGA TCGTGAAATT GGCCTCCTGG
    TCCAAGGAAA AGCCTGGAGG CTGGTATAGC ACATTCCGTC GAGGGAAGAA GTTCTCCTAC
    GTGGACGCCG ACGGGTCCCC AGTGAATGTC GTGCAGCTGA ACTTCCTGAA ACTGCTGAGT
    GCCACAGCTC GCCAGAACTT CACCTACTCC TGCCAGAATG CAGCTGCCTG GCTGGACGAA
    GCCACGGGTG ACTACAGCCA CTCCGCCCGC TTCCTTGGCA CCAATGGAGA GGAGCTGTCT
    TTCAACCAGA CGACAGCAGC CACTGTCAGC GTCCCCCAGG ATGGCTGCCG GCTCCGGAAA
    GGACAGACGA AGACCCTTTT CGAATTCAGC TCTTCTCGAG CGGGATTTCT GCCCCTGTGG
    GATGTGGCGG CCACTGACTT TGGCCAGACG AACCAAAAGT TTGGGTTTGA ACTGGGCCCC
    GTCTGCTTCA GCAGCTGA

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

    CloneID OHu67507
    Clone ID Related Accession (Same CDS sequence) XM_011528042.2
    Accession Version XM_011528042.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5235bp)
    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-3(V) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_011528042.1. ##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
    ATGGGGAACC GCCGGGACCT GGGCCAGCCG CGGGCCGGTC TCTGCCTGCT CCTGGCCGCG 
    CTGCAGCTTC TGCCGGGGAC GCAGGCCGAT CCTGTGGATG TCCTGAAGGC CCTGGGTGTG
    CAGGGAGGCC AGGCTGGGGT CCCCGAGGGG CCTGGCTTCT GTCCCCAGAG GACTCCAGAG
    GGTGACCGGG CATTCAGAAT TGGCCAGGCC AGCACGCTCG GCATCCCCAC GTGGGAACTC
    TTTCCAGGCC ACTTTCCTGA GAACTTCTCC TTGCTGATCA CCTTGCGGGG ACAGCCAGCC
    AATCAGTCTG TCCTGCTGTC CATTTATGAT GAAAGGGGTG CCCGGCAGTT GGGCCTGGCA
    CTGGGGCCAG CGCTGGGTCT CCTAGGTGAC CCCTTCCGCC CCCTCCCCCA GCAGGTCAAC
    CTCACAGATG GCAGGTGGCA CCGTGTGGCC GTCAGCATAG ATGGTGAGAT GGTGACCCTG
    GTAGCTGACT GTGAAGCTCA GCCCCCTGTT TTGGGCCATG GCCCCCGCTT CATCAGCATA
    GCTGGACTCA CTGTGCTGGG GACCCAGGAC CTTGGGGAAA AGACTTTCGA GGGAGACATT
    CAGGAGCTGC TGATAAGCCC AGATCCTCAG GCTGCCTTCC AGGCTTGTGA GCGGTACCTC
    CCCGACTGTG ACAACCTGGC ACCGGCAGCC ACAGTGGCTC CCCAGGGTGA ACCAGAAACC
    CCTCGTCCTC GGCGGAAGGG GAAGGGAAAA GGGAGGAAGA AAGGGCGAGG TCGCAAGGGG
    AAGGGCAGGA AAAAGAACAA GGAAATTTGG ACCTCAAGTC CACCTCCTGA CTCCGCAGAG
    AACCAGACCT CCACTGACAT CCCCAAGACA GAGACTCCAG CTCCAAATCT GCCTCCGACC
    CCCACGCCTT TGGTCGTCAC CTCCACTGTG ACTACTGGAC TCAATGCCAC GATCCTAGAG
    AGGAGCTTGG ACCCTGACAG TGGAACCGAG CTGGGGACCC TGGAGACCAA GGCAGCCAGG
    GAGGATGAAG AAGGAGATGA TTCCACCATG GGCCCTGACT TCCGGGCAGC AGAATATCCA
    TCTCGGACTC AGTTCCAGAT CTTTCCTGGT GCTGGAGAGA AAGGAGCAAA AGGAGAGCCC
    GCAGTGATTG AAAAGGGGCA GCAGTTTGAG GGACCTCCAG GAGCCCCAGG ACCCCAAGGG
    GTGGTTGGCC CCTCAGGCCC TCCCGGCCCC CCAGGATTCC CTGGCGACCC TGGTCCACCG
    GGCCCTGCTG GCCTCCCAGG AATCCCCGGC ATTGATGGGA TCCGAGGCCC ACCGGGCACT
    GTGATCATGA TGCCGTTCCA GTTTGCAGGC GGCTCCTTTA AAGGCCCCCC AGTCTCATTC
    CAGCAGGCCC AGGCTCAGGC AGTTCTGCAG CAGACTCAGC TCTCTATGAA AGGCCCCCCT
    GGTCCAGTGG GGCTCACTGG GCGCCCAGGC CCTGTGGGTC TCCCCGGGCA TCCAGGTCTG
    AAAGGAGAGG AGGGAGCAGA AGGGCCACAG GGTCCCCGAG GCCTGCAGGG ACCTCATGGA
    CCCCCTGGCC GAGTGGGCAA GATGGGCCGC CCTGGAGCAG ATGGAGCTCG GGGCCTCCCA
    GGGGACACTG GACCTAAGGG TGATCGTGGC TTCGATGGCC TCCCTGGGCT GCCTGGTGAG
    AAGGGCCAAA GGGGTGACTT TGGCCATGTG GGGCAACCCG GTCCCCCAGG AGAGGATGGT
    GAGAGGGGAG CAGAGGGACC TCCAGGGCCC ACTGGCCAGG CTGGGGAGCC GGGTCCACGA
    GGACTGCTTG GCCCCAGAGG CTCTCCTGGC CCCACGGGTC GCCCGGGTGT GACTGGAATT
    GATGGTGCTC CTGGTGCCAA AGGCAATGTG GGTCCTCCAG GAGAACCAGG CCCTCCGGGA
    CAGCAGGGAA ACCATGGGTC CCAGGGACTC CCCGGTCCCC AGGGACTCAT TGGCACTCCT
    GGGGAGAAGG GTCCCCCTGG AAACCCAGGA ATTCCAGGCC TCCCAGGATC CGATGGCCCT
    CTGGGTCACC CAGGACATGA GGGCCCCACG GGAGAGAAAG GGGCTCAGGG TCCACCAGGG
    TCGGCAGGCC CTCCGGGCTA TCCTGGACCT CGGGGAGTGA AGGGCACTTC AGGCAACCGG
    GGCCTCCAGG GGGAGAAAGG CGAGAAGGGA GAGGACGGCT TCCCAGGCTT CAAGGGCGAT
    GTGGGGCTCA AAGGTGATCA GGGGAAACCC GGAGCTCCAG GTCCCCGGGG AGAGGATGGT
    CCTGAGGGGC CGAAGGGGCA GGCGGGGCAG GCTGGCGAGG AGGGGCCCCC AGGCTCAGCT
    GGGGAGAAGG GCAAGCTTGG GGTGCCAGGC CTCCCAGGTT ATCCAGGACG CCCTGGACCT
    AAGGGATCTA TTGGATTTCC CGGTCCCCTG GGACCCATAG GAGAGAAAGG GAAGTCGGGA
    AAGACAGGGC AGCCAGGCCT GGAAGGAGAG CGGGGACCAC CAGGTTCCCG TGGAGAGAGG
    GGGCAACCGG GTGCCACAGG GCAACCAGGC CCCAAGGGCG ATGTGGGCCA GGATGGAGCC
    CCTGGGATCC CTGGAGAAAA GGGCCTCCCT GGTCTGCAAG GCCCTCCAGG ATTCCCTGGG
    CCAAAGGGCC CCCCTGGTCA CCAAGGTAAA GATGGGCGAC CAGGGCACCC TGGACAGAGA
    GGAGAACTGG GCTTCCAAGG TCAGACAGGC CCGCCTGGAC CAGCTGGTGT CTTAGGCCCT
    CAGGGAAAGA CAGGAGAAGT GGGACCTCTA GGTGAAAGGG GGCCTCCAGG CCCCCCTGGA
    CCTCCTGGTG AACAAGGTCT TCCTGGCCTG GAAGGCAGAG AGGGGGCCAA GGGGGAACTG
    GGACCACCAG GACCCCTTGG GAAAGAAGGG CCAGCTGGAC TCAGGGGCTT TCCCGGCCCC
    AAAGGGGGCC CTGGGGACCC GGGACCTACT GGCTTAAAGG GTGATAAGGG CCCCCCAGGG
    CCCGTGGGGG CCAATGGCTC CCCTGGTGAG CGCGGTCCTT TGGGCCCAGC AGGAGGCATT
    GGACTTCCTG GCCAAAGTGG CAGCGAAGGC CCCGTTGGCC CTGCAGGCAA GAAGGGGTCC
    CGGGGAGAAC GTGGCCCCCC TGGCCCCACT GGCAAAGATG GGATCCCAGG GCCCCTGGGG
    CCTCTGGGAC CCCCTGGAGC TGCTGGGCCT TCTGGCGAGG AAGGGGACAA GGGGGATGTG
    GGTGCCCCCG GACACAAGGG GAGTAAAGGC GATAAAGGAG ACGCGGGCCC ACCTGGACAA
    CCAGGGATAC GGGGTCCTGC AGGACACCCA GGTCCCCCGG GAGCAGACGG GGCTCAGGGG
    CGCCGGGGAC CCCCAGGCCT CTTTGGGCAG AAAGGAGATG ACGGAGTCAG AGGCTTTGTG
    GGGGTGATTG GCCCTCCTGG ACTGCAGGGG CTGCCAGGCC CTCCGGGAGA GAAAGGGGAG
    GTCGGAGACG TCGGGTCCAT GGGTCCCCAT GGAGCTCCAG GTCCTCGGGG TCCCCAAGGC
    CCCACTGGAT CAGAGGGCAC TCCAGGGCTG CCTGGAGGAG TTGGTCAGCC AGGCGCCGTG
    GGTGAGAAGG GTGAGCGAGG GGACGCTGGA GACCCAGGGC CTCCAGGAGC CCCAGGCATC
    CCGGGGCCCA AGGGAGACAT TGGTGAAAAG GGGGACTCAG GCCCATCTGG AGCTGCTGGA
    CCCCCAGGCA AGAAAGGTCC CCCTGGAGAG GATGGAGCCA AAGGGAGCGT GGGCCCCACG
    GGGCTGCCCG GAGATCTAGG GCCCCCAGGA GACCCTGGAG TTTCAGGCAT AGATGGTTCC
    CCAGGGGAGA AGGGAGACCC TGGTGATGTT GGGGGACCGG GTCCGCCTGG AGCTTCTGGG
    GAGCCCGGCG CCCCCGGGCC CCCCGGCAAG AGGGGTCCTT CAGGCCACAT GGGTCGAGAA
    GGCAGAGAAG GGGAGAAAGG TGCCAAGGGG GAGCCAGGTC CTGATGGGCC CCCAGGGAGG
    ACGGGTCCAA TGGGGGCTAG AGGGCCCCCT GGACGTGTGG GGCCTGAGGG TCTTCGAGGG
    ATCCCTGGCC CTGTGGGTGA ACCAGGCCTC CTGGGAGCCC CTGGACAGAT GGGCCCTCCT
    GGCCCCCTGG GGCCCTCTGG CCTCCCAGGG CTGAAGGGAG ACACTGGCCC CAAGGGGGAA
    AAGGGCCACA TTGGATTGAT CGGTCTCATT GGCCCCCCGG GAGAAGCTGG TGAGAAAGGA
    GATCAGGGGT TGCCAGGCGT GCAGGGACCC CCTGGTCCCA AGGGAGACCC TGGTCCCCCT
    GGTCCCATTG GCTCTCTGGG CCACCCTGGG CCCCCAGGTG TGGCGGGCCC TCTAGGACAG
    AAAGGCTCAA AAGGGTCTCC GGGGTCCATG GGCCCCCGTG GAGACACTGG ACCTGCAGGC
    CCACCAGGCC CCCCGGGTGC CCCTGCCGAG CTGCATGGGC TGCGCAGGCG CCGGCGCTTC
    GTCCCAGTCC CGCTTCCAGT CGTGGAGGGC GGCCTGGAGG AGGTGCTGGC CTCGCTCACA
    TCGCTGAGCT TGGAGCTGGA GCAGCTGCGG CGTCCTCCCG GCACTGCGGA GCGCCCGGGC
    CTCGTGTGCC ACGAGCTGCA CCGCAACCAC CCGCACCTGC CTGATGGGGA ATACTGGATT
    GACCCCAACC AGGGCTGCGC GCGGGACTCG TTCAGGGTTT TTTGCAACTT CACGGCGGGA
    GGAGAGACCT GCCTCTATCC CGACAAGAAG TTTGAGATCG TGAAATTGGC CTCCTGGTCC
    AAGGAAAAGC CTGGAGGCTG GTATAGCACA TTCCGTCGAG GGAAGAAGTT CTCCTACGTG
    GACGCCGACG GGTCCCCAGT GAATGTCGTG CAGCTGAACT TCCTGAAACT GCTGAGTGCC
    ACAGCTCGCC AGAACTTCAC CTACTCCTGC CAGAATGCAG CTGCCTGGCT GGACGAAGCC
    ACGGGTGACT ACAGCCACTC CGCCCGCTTC CTTGGCACCA ATGGAGAGGA GCTGTCTTTC
    AACCAGACGA CAGCAGCCAC TGTCAGCGTC CCCCAGGATG GCTGCCGGCT CCGGAAAGGA
    CAGACGAAGA CCCTTTTCGA ATTCAGCTCT TCTCGAGCGG GATTTCTGCC CCTGTGGGAT
    GTGGCGGCCA CTGACTTTGG CCAGACGAAC CAAAAGTTTG GGTTTGAACT GGGCCCCGTC
    TGCTTCAGCA GCTGA

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

    RefSeq XP_011526344.1
    CDS148..5382
    Translation

    Target ORF information:

    RefSeq Version XM_011528042.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type V alpha 3 chain (COL5A3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011528042.2

    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
    ATGGGGAACC GCCGGGACCT GGGCCAGCCG CGGGCCGGTC TCTGCCTGCT CCTGGCCGCG 
    CTGCAGCTTC TGCCGGGGAC GCAGGCCGAT CCTGTGGATG TCCTGAAGGC CCTGGGTGTG
    CAGGGAGGCC AGGCTGGGGT CCCCGAGGGG CCTGGCTTCT GTCCCCAGAG GACTCCAGAG
    GGTGACCGGG CATTCAGAAT TGGCCAGGCC AGCACGCTCG GCATCCCCAC GTGGGAACTC
    TTTCCAGGCC ACTTTCCTGA GAACTTCTCC TTGCTGATCA CCTTGCGGGG ACAGCCAGCC
    AATCAGTCTG TCCTGCTGTC CATTTATGAT GAAAGGGGTG CCCGGCAGTT GGGCCTGGCA
    CTGGGGCCAG CGCTGGGTCT CCTAGGTGAC CCCTTCCGCC CCCTCCCCCA GCAGGTCAAC
    CTCACAGATG GCAGGTGGCA CCGTGTGGCC GTCAGCATAG ATGGTGAGAT GGTGACCCTG
    GTAGCTGACT GTGAAGCTCA GCCCCCTGTT TTGGGCCATG GCCCCCGCTT CATCAGCATA
    GCTGGACTCA CTGTGCTGGG GACCCAGGAC CTTGGGGAAA AGACTTTCGA GGGAGACATT
    CAGGAGCTGC TGATAAGCCC AGATCCTCAG GCTGCCTTCC AGGCTTGTGA GCGGTACCTC
    CCCGACTGTG ACAACCTGGC ACCGGCAGCC ACAGTGGCTC CCCAGGGTGA ACCAGAAACC
    CCTCGTCCTC GGCGGAAGGG GAAGGGAAAA GGGAGGAAGA AAGGGCGAGG TCGCAAGGGG
    AAGGGCAGGA AAAAGAACAA GGAAATTTGG ACCTCAAGTC CACCTCCTGA CTCCGCAGAG
    AACCAGACCT CCACTGACAT CCCCAAGACA GAGACTCCAG CTCCAAATCT GCCTCCGACC
    CCCACGCCTT TGGTCGTCAC CTCCACTGTG ACTACTGGAC TCAATGCCAC GATCCTAGAG
    AGGAGCTTGG ACCCTGACAG TGGAACCGAG CTGGGGACCC TGGAGACCAA GGCAGCCAGG
    GAGGATGAAG AAGGAGATGA TTCCACCATG GGCCCTGACT TCCGGGCAGC AGAATATCCA
    TCTCGGACTC AGTTCCAGAT CTTTCCTGGT GCTGGAGAGA AAGGAGCAAA AGGAGAGCCC
    GCAGTGATTG AAAAGGGGCA GCAGTTTGAG GGACCTCCAG GAGCCCCAGG ACCCCAAGGG
    GTGGTTGGCC CCTCAGGCCC TCCCGGCCCC CCAGGATTCC CTGGCGACCC TGGTCCACCG
    GGCCCTGCTG GCCTCCCAGG AATCCCCGGC ATTGATGGGA TCCGAGGCCC ACCGGGCACT
    GTGATCATGA TGCCGTTCCA GTTTGCAGGC GGCTCCTTTA AAGGCCCCCC AGTCTCATTC
    CAGCAGGCCC AGGCTCAGGC AGTTCTGCAG CAGACTCAGC TCTCTATGAA AGGCCCCCCT
    GGTCCAGTGG GGCTCACTGG GCGCCCAGGC CCTGTGGGTC TCCCCGGGCA TCCAGGTCTG
    AAAGGAGAGG AGGGAGCAGA AGGGCCACAG GGTCCCCGAG GCCTGCAGGG ACCTCATGGA
    CCCCCTGGCC GAGTGGGCAA GATGGGCCGC CCTGGAGCAG ATGGAGCTCG GGGCCTCCCA
    GGGGACACTG GACCTAAGGG TGATCGTGGC TTCGATGGCC TCCCTGGGCT GCCTGGTGAG
    AAGGGCCAAA GGGGTGACTT TGGCCATGTG GGGCAACCCG GTCCCCCAGG AGAGGATGGT
    GAGAGGGGAG CAGAGGGACC TCCAGGGCCC ACTGGCCAGG CTGGGGAGCC GGGTCCACGA
    GGACTGCTTG GCCCCAGAGG CTCTCCTGGC CCCACGGGTC GCCCGGGTGT GACTGGAATT
    GATGGTGCTC CTGGTGCCAA AGGCAATGTG GGTCCTCCAG GAGAACCAGG CCCTCCGGGA
    CAGCAGGGAA ACCATGGGTC CCAGGGACTC CCCGGTCCCC AGGGACTCAT TGGCACTCCT
    GGGGAGAAGG GTCCCCCTGG AAACCCAGGA ATTCCAGGCC TCCCAGGATC CGATGGCCCT
    CTGGGTCACC CAGGACATGA GGGCCCCACG GGAGAGAAAG GGGCTCAGGG TCCACCAGGG
    TCGGCAGGCC CTCCGGGCTA TCCTGGACCT CGGGGAGTGA AGGGCACTTC AGGCAACCGG
    GGCCTCCAGG GGGAGAAAGG CGAGAAGGGA GAGGACGGCT TCCCAGGCTT CAAGGGCGAT
    GTGGGGCTCA AAGGTGATCA GGGGAAACCC GGAGCTCCAG GTCCCCGGGG AGAGGATGGT
    CCTGAGGGGC CGAAGGGGCA GGCGGGGCAG GCTGGCGAGG AGGGGCCCCC AGGCTCAGCT
    GGGGAGAAGG GCAAGCTTGG GGTGCCAGGC CTCCCAGGTT ATCCAGGACG CCCTGGACCT
    AAGGGATCTA TTGGATTTCC CGGTCCCCTG GGACCCATAG GAGAGAAAGG GAAGTCGGGA
    AAGACAGGGC AGCCAGGCCT GGAAGGAGAG CGGGGACCAC CAGGTTCCCG TGGAGAGAGG
    GGGCAACCGG GTGCCACAGG GCAACCAGGC CCCAAGGGCG ATGTGGGCCA GGATGGAGCC
    CCTGGGATCC CTGGAGAAAA GGGCCTCCCT GGTCTGCAAG GCCCTCCAGG ATTCCCTGGG
    CCAAAGGGCC CCCCTGGTCA CCAAGGTAAA GATGGGCGAC CAGGGCACCC TGGACAGAGA
    GGAGAACTGG GCTTCCAAGG TCAGACAGGC CCGCCTGGAC CAGCTGGTGT CTTAGGCCCT
    CAGGGAAAGA CAGGAGAAGT GGGACCTCTA GGTGAAAGGG GGCCTCCAGG CCCCCCTGGA
    CCTCCTGGTG AACAAGGTCT TCCTGGCCTG GAAGGCAGAG AGGGGGCCAA GGGGGAACTG
    GGACCACCAG GACCCCTTGG GAAAGAAGGG CCAGCTGGAC TCAGGGGCTT TCCCGGCCCC
    AAAGGGGGCC CTGGGGACCC GGGACCTACT GGCTTAAAGG GTGATAAGGG CCCCCCAGGG
    CCCGTGGGGG CCAATGGCTC CCCTGGTGAG CGCGGTCCTT TGGGCCCAGC AGGAGGCATT
    GGACTTCCTG GCCAAAGTGG CAGCGAAGGC CCCGTTGGCC CTGCAGGCAA GAAGGGGTCC
    CGGGGAGAAC GTGGCCCCCC TGGCCCCACT GGCAAAGATG GGATCCCAGG GCCCCTGGGG
    CCTCTGGGAC CCCCTGGAGC TGCTGGGCCT TCTGGCGAGG AAGGGGACAA GGGGGATGTG
    GGTGCCCCCG GACACAAGGG GAGTAAAGGC GATAAAGGAG ACGCGGGCCC ACCTGGACAA
    CCAGGGATAC GGGGTCCTGC AGGACACCCA GGTCCCCCGG GAGCAGACGG GGCTCAGGGG
    CGCCGGGGAC CCCCAGGCCT CTTTGGGCAG AAAGGAGATG ACGGAGTCAG AGGCTTTGTG
    GGGGTGATTG GCCCTCCTGG ACTGCAGGGG CTGCCAGGCC CTCCGGGAGA GAAAGGGGAG
    GTCGGAGACG TCGGGTCCAT GGGTCCCCAT GGAGCTCCAG GTCCTCGGGG TCCCCAAGGC
    CCCACTGGAT CAGAGGGCAC TCCAGGGCTG CCTGGAGGAG TTGGTCAGCC AGGCGCCGTG
    GGTGAGAAGG GTGAGCGAGG GGACGCTGGA GACCCAGGGC CTCCAGGAGC CCCAGGCATC
    CCGGGGCCCA AGGGAGACAT TGGTGAAAAG GGGGACTCAG GCCCATCTGG AGCTGCTGGA
    CCCCCAGGCA AGAAAGGTCC CCCTGGAGAG GATGGAGCCA AAGGGAGCGT GGGCCCCACG
    GGGCTGCCCG GAGATCTAGG GCCCCCAGGA GACCCTGGAG TTTCAGGCAT AGATGGTTCC
    CCAGGGGAGA AGGGAGACCC TGGTGATGTT GGGGGACCGG GTCCGCCTGG AGCTTCTGGG
    GAGCCCGGCG CCCCCGGGCC CCCCGGCAAG AGGGGTCCTT CAGGCCACAT GGGTCGAGAA
    GGCAGAGAAG GGGAGAAAGG TGCCAAGGGG GAGCCAGGTC CTGATGGGCC CCCAGGGAGG
    ACGGGTCCAA TGGGGGCTAG AGGGCCCCCT GGACGTGTGG GGCCTGAGGG TCTTCGAGGG
    ATCCCTGGCC CTGTGGGTGA ACCAGGCCTC CTGGGAGCCC CTGGACAGAT GGGCCCTCCT
    GGCCCCCTGG GGCCCTCTGG CCTCCCAGGG CTGAAGGGAG ACACTGGCCC CAAGGGGGAA
    AAGGGCCACA TTGGATTGAT CGGTCTCATT GGCCCCCCGG GAGAAGCTGG TGAGAAAGGA
    GATCAGGGGT TGCCAGGCGT GCAGGGACCC CCTGGTCCCA AGGGAGACCC TGGTCCCCCT
    GGTCCCATTG GCTCTCTGGG CCACCCTGGG CCCCCAGGTG TGGCGGGCCC TCTAGGACAG
    AAAGGCTCAA AAGGGTCTCC GGGGTCCATG GGCCCCCGTG GAGACACTGG ACCTGCAGGC
    CCACCAGGCC CCCCGGGTGC CCCTGCCGAG CTGCATGGGC TGCGCAGGCG CCGGCGCTTC
    GTCCCAGTCC CGCTTCCAGT CGTGGAGGGC GGCCTGGAGG AGGTGCTGGC CTCGCTCACA
    TCGCTGAGCT TGGAGCTGGA GCAGCTGCGG CGTCCTCCCG GCACTGCGGA GCGCCCGGGC
    CTCGTGTGCC ACGAGCTGCA CCGCAACCAC CCGCACCTGC CTGATGGGGA ATACTGGATT
    GACCCCAACC AGGGCTGCGC GCGGGACTCG TTCAGGGTTT TTTGCAACTT CACGGCGGGA
    GGAGAGACCT GCCTCTATCC CGACAAGAAG TTTGAGATCG TGAAATTGGC CTCCTGGTCC
    AAGGAAAAGC CTGGAGGCTG GTATAGCACA TTCCGTCGAG GGAAGAAGTT CTCCTACGTG
    GACGCCGACG GGTCCCCAGT GAATGTCGTG CAGCTGAACT TCCTGAAACT GCTGAGTGCC
    ACAGCTCGCC AGAACTTCAC CTACTCCTGC CAGAATGCAG CTGCCTGGCT GGACGAAGCC
    ACGGGTGACT ACAGCCACTC CGCCCGCTTC CTTGGCACCA ATGGAGAGGA GCTGTCTTTC
    AACCAGACGA CAGCAGCCAC TGTCAGCGTC CCCCAGGATG GCTGCCGGCT CCGGAAAGGA
    CAGACGAAGA CCCTTTTCGA ATTCAGCTCT TCTCGAGCGG GATTTCTGCC CCTGTGGGAT
    GTGGCGGCCA CTGACTTTGG CCAGACGAAC CAAAAGTTTG GGTTTGAACT GGGCCCCGTC
    TGCTTCAGCA GCTGA

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

    CloneID OHu88496
    Clone ID Related Accession (Same CDS sequence) XM_017026849.2 , XM_017026849.1
    Accession Version XM_017026849.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2901bp)
    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-3(V) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017026849.1. ##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
    ATGTGGGGCT CAAAGGGCAA GCTTGGGGTG CCAGGCCTCC CAGGTTATCC AGGACGCCCT 
    GGACCTAAGG GATCTATTGG ATTTCCCGGT CCCCTGGGAC CCATAGGAGA GAAAGGGAAG
    TCGGGAAAGA CAGGGCAGCC AGGCCTGGAA GGAGAGCGGG GACCACCAGG TTCCCGTGGA
    GAGAGGGGGC AACCGGGTGC CACAGGGCAA CCAGGCCCCA AGGGCGATGT GGGCCAGGAT
    GGAGCCCCTG GGATCCCTGG AGAAAAGGGC CTCCCTGGTC TGCAAGGCCC TCCAGGATTC
    CCTGGGCCAA AGGGCCCCCC TGGTCACCAA GGTAAAGATG GGCGACCAGG GCACCCTGGA
    CAGAGAGGAG AACTGGGCTT CCAAGGTCAG ACAGGCCCGC CTGGACCAGC TGGTGTCTTA
    GGCCCTCAGG GAAAGACAGG AGAAGTGGGA CCTCTAGGTG AAAGGGGGCC TCCAGGCCCC
    CCTGGACCTC CTGGTGAACA AGGTCTTCCT GGCCTGGAAG GCAGAGAGGG GGCCAAGGGG
    GAACTGGGAC CACCAGGACC CCTTGGGAAA GAAGGGCCAG CTGGACTCAG GGGCTTTCCC
    GGCCCCAAAG GGGGCCCTGG GGACCCGGGA CCTACTGGCT TAAAGGGTGA TAAGGGCCCC
    CCAGGGCCCG TGGGGGCCAA TGGCTCCCCT GGTGAGCGCG GTCCTTTGGG CCCAGCAGGA
    GGCATTGGAC TTCCTGGCCA AAGTGGCAGC GAAGGCCCCG TTGGCCCTGC AGGCAAGAAG
    GGGTCCCGGG GAGAACGTGG CCCCCCTGGC CCCACTGGCA AAGATGGGAT CCCAGGGCCC
    CTGGGGCCTC TGGGACCCCC TGGAGCTGCT GGGCCTTCTG GCGAGGAAGG GGACAAGGGG
    GATGTGGGTG CCCCCGGACA CAAGGGGAGT AAAGGCGATA AAGGAGACGC GGGCCCACCT
    GGACAACCAG GGATACGGGG TCCTGCAGGA CACCCAGGTC CCCCGGGAGC AGACGGGGCT
    CAGGGGCGCC GGGGACCCCC AGGCCTCTTT GGGCAGAAAG GAGATGACGG AGTCAGAGGC
    TTTGTGGGGG TGATTGGCCC TCCTGGACTG CAGGGGCTGC CAGGCCCTCC GGGAGAGAAA
    GGGGAGGTCG GAGACGTCGG GTCCATGGGT CCCCATGGAG CTCCAGGTCC TCGGGGTCCC
    CAAGGCCCCA CTGGATCAGA GGGCACTCCA GGGCTGCCTG GAGGAGTTGG TCAGCCAGGC
    GCCGTGGGTG AGAAGGGTGA GCGAGGGGAC GCTGGAGACC CAGGGCCTCC AGGAGCCCCA
    GGCATCCCGG GGCCCAAGGG AGACATTGGT GAAAAGGGGG ACTCAGGCCC ATCTGGAGCT
    GCTGGACCCC CAGGCAAGAA AGGTCCCCCT GGAGAGGATG GAGCCAAAGG GAGCGTGGGC
    CCCACGGGGC TGCCCGGAGA TCTAGGGCCC CCAGGAGACC CTGGAGTTTC AGGCATAGAT
    GGTTCCCCAG GGGAGAAGGG AGACCCTGGT GATGTTGGGG GACCGGGTCC GCCTGGAGCT
    TCTGGGGAGC CCGGCGCCCC CGGGCCCCCC GGCAAGAGGG GTCCTTCAGG CCACATGGGT
    CGAGAAGGCA GAGAAGGGGA GAAAGGTGCC AAGGGGGAGC CAGGTCCTGA TGGGCCCCCA
    GGGAGGACGG GTCCAATGGG GGCTAGAGGG CCCCCTGGAC GTGTGGGGCC TGAGGGTCTT
    CGAGGGATCC CTGGCCCTGT GGGTGAACCA GGCCTCCTGG GAGCCCCTGG ACAGATGGGC
    CCTCCTGGCC CCCTGGGGCC CTCTGGCCTC CCAGGGCTGA AGGGAGACAC TGGCCCCAAG
    GGGGAAAAGG GCCACATTGG ATTGATCGGT CTCATTGGCC CCCCGGGAGA AGCTGGTGAG
    AAAGGAGATC AGGGGTTGCC AGGCGTGCAG GGACCCCCTG GTCCCAAGGG AGACCCTGGT
    CCCCCTGGTC CCATTGGCTC TCTGGGCCAC CCTGGGCCCC CAGGTGTGGC GGGCCCTCTA
    GGACAGAAAG GCTCAAAAGG GTCTCCGGGG TCCATGGGCC CCCGTGGAGA CACTGGACCT
    GCAGGCCCAC CAGGCCCCCC GGGTGCCCCT GCCGAGCTGC ATGGGCTGCG CAGGCGCCGG
    CGCTTCGTCC CAGTCCCGCT TCCAGTCGTG GAGGGCGGCC TGGAGGAGGT GCTGGCCTCG
    CTCACATCGC TGAGCTTGGA GCTGGAGCAG CTGCGGCGTC CTCCCGGCAC TGCGGAGCGC
    CCGGGCCTCG TGTGCCACGA GCTGCACCGC AACCACCCGC ACCTGCCTGA TGGGGAATAC
    TGGATTGACC CCAACCAGGG CTGCGCGCGG GACTCGTTCA GGGTTTTTTG CAACTTCACG
    GCGGGAGGAG AGACCTGCCT CTATCCCGAC AAGAAGTTTG AGATCGTGAA ATTGGCCTCC
    TGGTCCAAGG AAAAGCCTGG AGGCTGGTAT AGCACATTCC GTCGAGGGAA GAAGTTCTCC
    TACGTGGACG CCGACGGGTC CCCAGTGAAT GTCGTGCAGC TGAACTTCCT GAAACTGCTG
    AGTGCCACAG CTCGCCAGAA CTTCACCTAC TCCTGCCAGA ATGCAGCTGC CTGGCTGGAC
    GAAGCCACGG GTGACTACAG CCACTCCGCC CGCTTCCTTG GCACCAATGG AGAGGAGCTG
    TCTTTCAACC AGACGACAGC AGCCACTGTC AGCGTCCCCC AGGATGGCTG CCGGCTCCGG
    AAAGGACAGA CGAAGACCCT TTTCGAATTC AGCTCTTCTC GAGCGGGATT TCTGCCCCTG
    TGGGATGTGG CGGCCACTGA CTTTGGCCAG ACGAACCAAA AGTTTGGGTT TGAACTGGGC
    CCCGTCTGCT TCAGCAGCTG A

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

    RefSeq XP_016882338.1
    CDS124..3024
    Translation

    Target ORF information:

    RefSeq Version XM_017026849.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type V alpha 3 chain (COL5A3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017026849.2

    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
    ATGTGGGGCT CAAAGGGCAA GCTTGGGGTG CCAGGCCTCC CAGGTTATCC AGGACGCCCT 
    GGACCTAAGG GATCTATTGG ATTTCCCGGT CCCCTGGGAC CCATAGGAGA GAAAGGGAAG
    TCGGGAAAGA CAGGGCAGCC AGGCCTGGAA GGAGAGCGGG GACCACCAGG TTCCCGTGGA
    GAGAGGGGGC AACCGGGTGC CACAGGGCAA CCAGGCCCCA AGGGCGATGT GGGCCAGGAT
    GGAGCCCCTG GGATCCCTGG AGAAAAGGGC CTCCCTGGTC TGCAAGGCCC TCCAGGATTC
    CCTGGGCCAA AGGGCCCCCC TGGTCACCAA GGTAAAGATG GGCGACCAGG GCACCCTGGA
    CAGAGAGGAG AACTGGGCTT CCAAGGTCAG ACAGGCCCGC CTGGACCAGC TGGTGTCTTA
    GGCCCTCAGG GAAAGACAGG AGAAGTGGGA CCTCTAGGTG AAAGGGGGCC TCCAGGCCCC
    CCTGGACCTC CTGGTGAACA AGGTCTTCCT GGCCTGGAAG GCAGAGAGGG GGCCAAGGGG
    GAACTGGGAC CACCAGGACC CCTTGGGAAA GAAGGGCCAG CTGGACTCAG GGGCTTTCCC
    GGCCCCAAAG GGGGCCCTGG GGACCCGGGA CCTACTGGCT TAAAGGGTGA TAAGGGCCCC
    CCAGGGCCCG TGGGGGCCAA TGGCTCCCCT GGTGAGCGCG GTCCTTTGGG CCCAGCAGGA
    GGCATTGGAC TTCCTGGCCA AAGTGGCAGC GAAGGCCCCG TTGGCCCTGC AGGCAAGAAG
    GGGTCCCGGG GAGAACGTGG CCCCCCTGGC CCCACTGGCA AAGATGGGAT CCCAGGGCCC
    CTGGGGCCTC TGGGACCCCC TGGAGCTGCT GGGCCTTCTG GCGAGGAAGG GGACAAGGGG
    GATGTGGGTG CCCCCGGACA CAAGGGGAGT AAAGGCGATA AAGGAGACGC GGGCCCACCT
    GGACAACCAG GGATACGGGG TCCTGCAGGA CACCCAGGTC CCCCGGGAGC AGACGGGGCT
    CAGGGGCGCC GGGGACCCCC AGGCCTCTTT GGGCAGAAAG GAGATGACGG AGTCAGAGGC
    TTTGTGGGGG TGATTGGCCC TCCTGGACTG CAGGGGCTGC CAGGCCCTCC GGGAGAGAAA
    GGGGAGGTCG GAGACGTCGG GTCCATGGGT CCCCATGGAG CTCCAGGTCC TCGGGGTCCC
    CAAGGCCCCA CTGGATCAGA GGGCACTCCA GGGCTGCCTG GAGGAGTTGG TCAGCCAGGC
    GCCGTGGGTG AGAAGGGTGA GCGAGGGGAC GCTGGAGACC CAGGGCCTCC AGGAGCCCCA
    GGCATCCCGG GGCCCAAGGG AGACATTGGT GAAAAGGGGG ACTCAGGCCC ATCTGGAGCT
    GCTGGACCCC CAGGCAAGAA AGGTCCCCCT GGAGAGGATG GAGCCAAAGG GAGCGTGGGC
    CCCACGGGGC TGCCCGGAGA TCTAGGGCCC CCAGGAGACC CTGGAGTTTC AGGCATAGAT
    GGTTCCCCAG GGGAGAAGGG AGACCCTGGT GATGTTGGGG GACCGGGTCC GCCTGGAGCT
    TCTGGGGAGC CCGGCGCCCC CGGGCCCCCC GGCAAGAGGG GTCCTTCAGG CCACATGGGT
    CGAGAAGGCA GAGAAGGGGA GAAAGGTGCC AAGGGGGAGC CAGGTCCTGA TGGGCCCCCA
    GGGAGGACGG GTCCAATGGG GGCTAGAGGG CCCCCTGGAC GTGTGGGGCC TGAGGGTCTT
    CGAGGGATCC CTGGCCCTGT GGGTGAACCA GGCCTCCTGG GAGCCCCTGG ACAGATGGGC
    CCTCCTGGCC CCCTGGGGCC CTCTGGCCTC CCAGGGCTGA AGGGAGACAC TGGCCCCAAG
    GGGGAAAAGG GCCACATTGG ATTGATCGGT CTCATTGGCC CCCCGGGAGA AGCTGGTGAG
    AAAGGAGATC AGGGGTTGCC AGGCGTGCAG GGACCCCCTG GTCCCAAGGG AGACCCTGGT
    CCCCCTGGTC CCATTGGCTC TCTGGGCCAC CCTGGGCCCC CAGGTGTGGC GGGCCCTCTA
    GGACAGAAAG GCTCAAAAGG GTCTCCGGGG TCCATGGGCC CCCGTGGAGA CACTGGACCT
    GCAGGCCCAC CAGGCCCCCC GGGTGCCCCT GCCGAGCTGC ATGGGCTGCG CAGGCGCCGG
    CGCTTCGTCC CAGTCCCGCT TCCAGTCGTG GAGGGCGGCC TGGAGGAGGT GCTGGCCTCG
    CTCACATCGC TGAGCTTGGA GCTGGAGCAG CTGCGGCGTC CTCCCGGCAC TGCGGAGCGC
    CCGGGCCTCG TGTGCCACGA GCTGCACCGC AACCACCCGC ACCTGCCTGA TGGGGAATAC
    TGGATTGACC CCAACCAGGG CTGCGCGCGG GACTCGTTCA GGGTTTTTTG CAACTTCACG
    GCGGGAGGAG AGACCTGCCT CTATCCCGAC AAGAAGTTTG AGATCGTGAA ATTGGCCTCC
    TGGTCCAAGG AAAAGCCTGG AGGCTGGTAT AGCACATTCC GTCGAGGGAA GAAGTTCTCC
    TACGTGGACG CCGACGGGTC CCCAGTGAAT GTCGTGCAGC TGAACTTCCT GAAACTGCTG
    AGTGCCACAG CTCGCCAGAA CTTCACCTAC TCCTGCCAGA ATGCAGCTGC CTGGCTGGAC
    GAAGCCACGG GTGACTACAG CCACTCCGCC CGCTTCCTTG GCACCAATGG AGAGGAGCTG
    TCTTTCAACC AGACGACAGC AGCCACTGTC AGCGTCCCCC AGGATGGCTG CCGGCTCCGG
    AAAGGACAGA CGAAGACCCT TTTCGAATTC AGCTCTTCTC GAGCGGGATT TCTGCCCCTG
    TGGGATGTGG CGGCCACTGA CTTTGGCCAG ACGAACCAAA AGTTTGGGTT TGAACTGGGC
    CCCGTCTGCT TCAGCAGCTG A

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

    CloneID OHu88496
    Clone ID Related Accession (Same CDS sequence) XM_017026849.2 , XM_017026849.1
    Accession Version XM_017026849.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2901bp)
    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-3(V) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    ATGTGGGGCT CAAAGGGCAA GCTTGGGGTG CCAGGCCTCC CAGGTTATCC AGGACGCCCT 
    GGACCTAAGG GATCTATTGG ATTTCCCGGT CCCCTGGGAC CCATAGGAGA GAAAGGGAAG
    TCGGGAAAGA CAGGGCAGCC AGGCCTGGAA GGAGAGCGGG GACCACCAGG TTCCCGTGGA
    GAGAGGGGGC AACCGGGTGC CACAGGGCAA CCAGGCCCCA AGGGCGATGT GGGCCAGGAT
    GGAGCCCCTG GGATCCCTGG AGAAAAGGGC CTCCCTGGTC TGCAAGGCCC TCCAGGATTC
    CCTGGGCCAA AGGGCCCCCC TGGTCACCAA GGTAAAGATG GGCGACCAGG GCACCCTGGA
    CAGAGAGGAG AACTGGGCTT CCAAGGTCAG ACAGGCCCGC CTGGACCAGC TGGTGTCTTA
    GGCCCTCAGG GAAAGACAGG AGAAGTGGGA CCTCTAGGTG AAAGGGGGCC TCCAGGCCCC
    CCTGGACCTC CTGGTGAACA AGGTCTTCCT GGCCTGGAAG GCAGAGAGGG GGCCAAGGGG
    GAACTGGGAC CACCAGGACC CCTTGGGAAA GAAGGGCCAG CTGGACTCAG GGGCTTTCCC
    GGCCCCAAAG GGGGCCCTGG GGACCCGGGA CCTACTGGCT TAAAGGGTGA TAAGGGCCCC
    CCAGGGCCCG TGGGGGCCAA TGGCTCCCCT GGTGAGCGCG GTCCTTTGGG CCCAGCAGGA
    GGCATTGGAC TTCCTGGCCA AAGTGGCAGC GAAGGCCCCG TTGGCCCTGC AGGCAAGAAG
    GGGTCCCGGG GAGAACGTGG CCCCCCTGGC CCCACTGGCA AAGATGGGAT CCCAGGGCCC
    CTGGGGCCTC TGGGACCCCC TGGAGCTGCT GGGCCTTCTG GCGAGGAAGG GGACAAGGGG
    GATGTGGGTG CCCCCGGACA CAAGGGGAGT AAAGGCGATA AAGGAGACGC GGGCCCACCT
    GGACAACCAG GGATACGGGG TCCTGCAGGA CACCCAGGTC CCCCGGGAGC AGACGGGGCT
    CAGGGGCGCC GGGGACCCCC AGGCCTCTTT GGGCAGAAAG GAGATGACGG AGTCAGAGGC
    TTTGTGGGGG TGATTGGCCC TCCTGGACTG CAGGGGCTGC CAGGCCCTCC GGGAGAGAAA
    GGGGAGGTCG GAGACGTCGG GTCCATGGGT CCCCATGGAG CTCCAGGTCC TCGGGGTCCC
    CAAGGCCCCA CTGGATCAGA GGGCACTCCA GGGCTGCCTG GAGGAGTTGG TCAGCCAGGC
    GCCGTGGGTG AGAAGGGTGA GCGAGGGGAC GCTGGAGACC CAGGGCCTCC AGGAGCCCCA
    GGCATCCCGG GGCCCAAGGG AGACATTGGT GAAAAGGGGG ACTCAGGCCC ATCTGGAGCT
    GCTGGACCCC CAGGCAAGAA AGGTCCCCCT GGAGAGGATG GAGCCAAAGG GAGCGTGGGC
    CCCACGGGGC TGCCCGGAGA TCTAGGGCCC CCAGGAGACC CTGGAGTTTC AGGCATAGAT
    GGTTCCCCAG GGGAGAAGGG AGACCCTGGT GATGTTGGGG GACCGGGTCC GCCTGGAGCT
    TCTGGGGAGC CCGGCGCCCC CGGGCCCCCC GGCAAGAGGG GTCCTTCAGG CCACATGGGT
    CGAGAAGGCA GAGAAGGGGA GAAAGGTGCC AAGGGGGAGC CAGGTCCTGA TGGGCCCCCA
    GGGAGGACGG GTCCAATGGG GGCTAGAGGG CCCCCTGGAC GTGTGGGGCC TGAGGGTCTT
    CGAGGGATCC CTGGCCCTGT GGGTGAACCA GGCCTCCTGG GAGCCCCTGG ACAGATGGGC
    CCTCCTGGCC CCCTGGGGCC CTCTGGCCTC CCAGGGCTGA AGGGAGACAC TGGCCCCAAG
    GGGGAAAAGG GCCACATTGG ATTGATCGGT CTCATTGGCC CCCCGGGAGA AGCTGGTGAG
    AAAGGAGATC AGGGGTTGCC AGGCGTGCAG GGACCCCCTG GTCCCAAGGG AGACCCTGGT
    CCCCCTGGTC CCATTGGCTC TCTGGGCCAC CCTGGGCCCC CAGGTGTGGC GGGCCCTCTA
    GGACAGAAAG GCTCAAAAGG GTCTCCGGGG TCCATGGGCC CCCGTGGAGA CACTGGACCT
    GCAGGCCCAC CAGGCCCCCC GGGTGCCCCT GCCGAGCTGC ATGGGCTGCG CAGGCGCCGG
    CGCTTCGTCC CAGTCCCGCT TCCAGTCGTG GAGGGCGGCC TGGAGGAGGT GCTGGCCTCG
    CTCACATCGC TGAGCTTGGA GCTGGAGCAG CTGCGGCGTC CTCCCGGCAC TGCGGAGCGC
    CCGGGCCTCG TGTGCCACGA GCTGCACCGC AACCACCCGC ACCTGCCTGA TGGGGAATAC
    TGGATTGACC CCAACCAGGG CTGCGCGCGG GACTCGTTCA GGGTTTTTTG CAACTTCACG
    GCGGGAGGAG AGACCTGCCT CTATCCCGAC AAGAAGTTTG AGATCGTGAA ATTGGCCTCC
    TGGTCCAAGG AAAAGCCTGG AGGCTGGTAT AGCACATTCC GTCGAGGGAA GAAGTTCTCC
    TACGTGGACG CCGACGGGTC CCCAGTGAAT GTCGTGCAGC TGAACTTCCT GAAACTGCTG
    AGTGCCACAG CTCGCCAGAA CTTCACCTAC TCCTGCCAGA ATGCAGCTGC CTGGCTGGAC
    GAAGCCACGG GTGACTACAG CCACTCCGCC CGCTTCCTTG GCACCAATGG AGAGGAGCTG
    TCTTTCAACC AGACGACAGC AGCCACTGTC AGCGTCCCCC AGGATGGCTG CCGGCTCCGG
    AAAGGACAGA CGAAGACCCT TTTCGAATTC AGCTCTTCTC GAGCGGGATT TCTGCCCCTG
    TGGGATGTGG CGGCCACTGA CTTTGGCCAG ACGAACCAAA AGTTTGGGTT TGAACTGGGC
    CCCGTCTGCT TCAGCAGCTG A

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

    RefSeq XP_016882338.1
    CDS125..3025
    Translation

    Target ORF information:

    RefSeq Version XM_017026849.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type V alpha 3 (COL5A3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017026849.1

    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
    ATGTGGGGCT CAAAGGGCAA GCTTGGGGTG CCAGGCCTCC CAGGTTATCC AGGACGCCCT 
    GGACCTAAGG GATCTATTGG ATTTCCCGGT CCCCTGGGAC CCATAGGAGA GAAAGGGAAG
    TCGGGAAAGA CAGGGCAGCC AGGCCTGGAA GGAGAGCGGG GACCACCAGG TTCCCGTGGA
    GAGAGGGGGC AACCGGGTGC CACAGGGCAA CCAGGCCCCA AGGGCGATGT GGGCCAGGAT
    GGAGCCCCTG GGATCCCTGG AGAAAAGGGC CTCCCTGGTC TGCAAGGCCC TCCAGGATTC
    CCTGGGCCAA AGGGCCCCCC TGGTCACCAA GGTAAAGATG GGCGACCAGG GCACCCTGGA
    CAGAGAGGAG AACTGGGCTT CCAAGGTCAG ACAGGCCCGC CTGGACCAGC TGGTGTCTTA
    GGCCCTCAGG GAAAGACAGG AGAAGTGGGA CCTCTAGGTG AAAGGGGGCC TCCAGGCCCC
    CCTGGACCTC CTGGTGAACA AGGTCTTCCT GGCCTGGAAG GCAGAGAGGG GGCCAAGGGG
    GAACTGGGAC CACCAGGACC CCTTGGGAAA GAAGGGCCAG CTGGACTCAG GGGCTTTCCC
    GGCCCCAAAG GGGGCCCTGG GGACCCGGGA CCTACTGGCT TAAAGGGTGA TAAGGGCCCC
    CCAGGGCCCG TGGGGGCCAA TGGCTCCCCT GGTGAGCGCG GTCCTTTGGG CCCAGCAGGA
    GGCATTGGAC TTCCTGGCCA AAGTGGCAGC GAAGGCCCCG TTGGCCCTGC AGGCAAGAAG
    GGGTCCCGGG GAGAACGTGG CCCCCCTGGC CCCACTGGCA AAGATGGGAT CCCAGGGCCC
    CTGGGGCCTC TGGGACCCCC TGGAGCTGCT GGGCCTTCTG GCGAGGAAGG GGACAAGGGG
    GATGTGGGTG CCCCCGGACA CAAGGGGAGT AAAGGCGATA AAGGAGACGC GGGCCCACCT
    GGACAACCAG GGATACGGGG TCCTGCAGGA CACCCAGGTC CCCCGGGAGC AGACGGGGCT
    CAGGGGCGCC GGGGACCCCC AGGCCTCTTT GGGCAGAAAG GAGATGACGG AGTCAGAGGC
    TTTGTGGGGG TGATTGGCCC TCCTGGACTG CAGGGGCTGC CAGGCCCTCC GGGAGAGAAA
    GGGGAGGTCG GAGACGTCGG GTCCATGGGT CCCCATGGAG CTCCAGGTCC TCGGGGTCCC
    CAAGGCCCCA CTGGATCAGA GGGCACTCCA GGGCTGCCTG GAGGAGTTGG TCAGCCAGGC
    GCCGTGGGTG AGAAGGGTGA GCGAGGGGAC GCTGGAGACC CAGGGCCTCC AGGAGCCCCA
    GGCATCCCGG GGCCCAAGGG AGACATTGGT GAAAAGGGGG ACTCAGGCCC ATCTGGAGCT
    GCTGGACCCC CAGGCAAGAA AGGTCCCCCT GGAGAGGATG GAGCCAAAGG GAGCGTGGGC
    CCCACGGGGC TGCCCGGAGA TCTAGGGCCC CCAGGAGACC CTGGAGTTTC AGGCATAGAT
    GGTTCCCCAG GGGAGAAGGG AGACCCTGGT GATGTTGGGG GACCGGGTCC GCCTGGAGCT
    TCTGGGGAGC CCGGCGCCCC CGGGCCCCCC GGCAAGAGGG GTCCTTCAGG CCACATGGGT
    CGAGAAGGCA GAGAAGGGGA GAAAGGTGCC AAGGGGGAGC CAGGTCCTGA TGGGCCCCCA
    GGGAGGACGG GTCCAATGGG GGCTAGAGGG CCCCCTGGAC GTGTGGGGCC TGAGGGTCTT
    CGAGGGATCC CTGGCCCTGT GGGTGAACCA GGCCTCCTGG GAGCCCCTGG ACAGATGGGC
    CCTCCTGGCC CCCTGGGGCC CTCTGGCCTC CCAGGGCTGA AGGGAGACAC TGGCCCCAAG
    GGGGAAAAGG GCCACATTGG ATTGATCGGT CTCATTGGCC CCCCGGGAGA AGCTGGTGAG
    AAAGGAGATC AGGGGTTGCC AGGCGTGCAG GGACCCCCTG GTCCCAAGGG AGACCCTGGT
    CCCCCTGGTC CCATTGGCTC TCTGGGCCAC CCTGGGCCCC CAGGTGTGGC GGGCCCTCTA
    GGACAGAAAG GCTCAAAAGG GTCTCCGGGG TCCATGGGCC CCCGTGGAGA CACTGGACCT
    GCAGGCCCAC CAGGCCCCCC GGGTGCCCCT GCCGAGCTGC ATGGGCTGCG CAGGCGCCGG
    CGCTTCGTCC CAGTCCCGCT TCCAGTCGTG GAGGGCGGCC TGGAGGAGGT GCTGGCCTCG
    CTCACATCGC TGAGCTTGGA GCTGGAGCAG CTGCGGCGTC CTCCCGGCAC TGCGGAGCGC
    CCGGGCCTCG TGTGCCACGA GCTGCACCGC AACCACCCGC ACCTGCCTGA TGGGGAATAC
    TGGATTGACC CCAACCAGGG CTGCGCGCGG GACTCGTTCA GGGTTTTTTG CAACTTCACG
    GCGGGAGGAG AGACCTGCCT CTATCCCGAC AAGAAGTTTG AGATCGTGAA ATTGGCCTCC
    TGGTCCAAGG AAAAGCCTGG AGGCTGGTAT AGCACATTCC GTCGAGGGAA GAAGTTCTCC
    TACGTGGACG CCGACGGGTC CCCAGTGAAT GTCGTGCAGC TGAACTTCCT GAAACTGCTG
    AGTGCCACAG CTCGCCAGAA CTTCACCTAC TCCTGCCAGA ATGCAGCTGC CTGGCTGGAC
    GAAGCCACGG GTGACTACAG CCACTCCGCC CGCTTCCTTG GCACCAATGG AGAGGAGCTG
    TCTTTCAACC AGACGACAGC AGCCACTGTC AGCGTCCCCC AGGATGGCTG CCGGCTCCGG
    AAAGGACAGA CGAAGACCCT TTTCGAATTC AGCTCTTCTC GAGCGGGATT TCTGCCCCTG
    TGGGATGTGG CGGCCACTGA CTTTGGCCAG ACGAACCAAA AGTTTGGGTT TGAACTGGGC
    CCCGTCTGCT TCAGCAGCTG A

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