ORF » Species Summary » Homo sapiens » COL16A1 cDNA ORF clone

COL16A1 cDNA ORF clone, Homo sapiens(human)

The following COL16A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL16A1 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
OHu03718 NM_001856.4
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$579.50-$811.30
$1159.00
OHu33028 XM_005270481.1
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu57030 XM_011540722.1
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu57031 XM_011540723.1
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu57032 XM_011540724.1
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu57034 XM_011540726.3
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu57035 XM_011540727.2
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu57036 XM_011540728.2
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu57037 XM_011540729.1
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu57038 XM_011540730.1
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu83151 XM_017000338.1
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu83152 XM_017000339.1
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu83153 XM_017000340.2
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu83154 XM_017000341.1
Latest version!		 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
View Old Accession Versions >>
OHu57034 XM_011540726.2 Homo sapiens collagen type XVI alpha 1 (COL16A1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu83153 XM_017000340.1 Homo sapiens collagen type XVI alpha 1 (COL16A1), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu03718 NM_001856.3 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$579.50-$811.30
$1159.00
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)
    COL16A1 ( NM_001856.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_001847.3 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), mRNA.
    Price & Availability↑
    CloneID OHu03718
    Clone ID Related Accession (Same CDS sequence) NM_001856.4 , NM_001856.3
    Accession Version NM_001856.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4815bp)
    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 2019-08-07
    Organism Homo sapiens(human)
    Product collagen alpha-1(XVI) chain precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC064839.1, AC114488.3, M92642.1 and S57132.1. On Nov 23, 2018 this sequence version replaced NM_001856.3. 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## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000373672.8/ ENSP00000362776.3 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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTGCTCCGG GACTTTGGAT GGGCAGCTCC 
    TGGCAGCCGG GCCCGCAGGG TCCACCAGGT ATTCCCGGAC CACCAGGCCC CCCTGGAGTA 
    CCTGGGCTGC AGGGAGTGCC TGGAAACAAC GGTTTGCCAG GACAGCCTGG GCTCACTGCA 
    GAACTGGGAT CCTTACCAAT TGAACAGCAC CTCCTTAAGA GTATCTGCGG GGACTGTGTC 
    CAGGGGCAGA GGGCCCACCC AGGGTACCTC GTGGAGAAGG GAGAGAAGGG AGACCAGGGC 
    ATCCCTGGTG TGCCAGGCCT CGACAACTGC GCCCAGTGCT TTTTGTCACT GGAGCGCCCA 
    AGAGCCGAGG AGGCCCGGGG TGACAACAGT GAGGGAGATC CTGGCTGTGT TGGGAGCCCA 
    GGCCTACCTG GTCCTCCGGG ATTGCCAGGC CAGAGAGGAG AAGAGGGTCC GCCTGGCATG 
    AGGGGCTCCC CGGGTCCTCC AGGCCCTATC GGCCCCCCAG GTTTTCCTGG TGCTGTTGGC 
    TCCCCCGGAT TGCCTGGCCT TCAAGGAGAG CGAGGTCTCA CGGGCCTGAC TGGAGACAAG 
    GGGGAGCCGG GTCCTCCAGG GCAACCAGGT TACCCAGGTG CCACGGGCCC CCCAGGACTG 
    CCTGGCATCA AGGGGGAGCG TGGCTACACC GGGTCAGCGG GAGAGAAAGG AGAGCCGGGC 
    CCCCCAGGAT CTGAAGGCCT CCCAGGCCCC CCAGGCCCAG CGGGTCCCAG AGGAGAGCGA 
    GGACCCCAAG GTAACTCCGG TGAGAAGGGC GACCAGGGAT TTCAAGGCCA GCCAGGCTTT 
    CCGGGCCCAC CGGGTCCCCC TGGATTCCCA GGCAAAGTTG GATCACCTGG CCCACCTGGC 
    CCTCAAGCAG AGAAGGGCAG CGAAGGGATT CGAGGCCCAT CAGGCCTGCC TGGCTCCCCT 
    GGGCCACCGG GACCTCCTGG GATTCAGGGC CCCGCCGGTC TGGATGGTTT GGATGGGAAG 
    GACGGCAAGC CTGGCTTGAG GGGGGACCCT GGTCCTGCTG GCCCCCCTGG ACTCATGGGA 
    CCACCGGGCT TTAAGGGGAA AACAGGACAT CCTGGCCTCC CAGGACCTAA GGGTGACTGT 
    GGCAAACCAG GTCCCCCTGG CAGCACTGGC CGGCCTGGCG CAGAGGGTGA ACCTGGTGCC 
    ATGGGACCCC AGGGAAGACC CGGTCCCCCG GGACACGTTG GGCCACCAGG GCCTCCAGGC 
    CAGCCAGGAC CAGCTGGGAT CTCTGCAGTG GGTCTGAAAG GAGACCGAGG AGCCACCGGA 
    GAAAGGGGCC TTGCAGGCCT CCCAGGCCAG CCCGGCCCCC CTGGACACCC TGGCCCCCCA 
    GGCGAACCTG GTACGGATGG TGCAGCTGGC AAAGAGGGAC CCCCTGGAAA GCAGGGATTC 
    TATGGACCTC CTGGTCCCAA GGGTGATCCA GGAGCTGCAG GACAGAAGGG CCAGGCAGGA 
    GAGAAGGGGA GAGCCGGCAT GCCTGGTGGA CCTGGCAAGA GTGGTTCCAT GGGGCCTGTT 
    GGGCCACCGG GCCCTGCAGG AGAGAGAGGC CACCCTGGAG CTCCGGGGCC TTCGGGGAGC 
    CCTGGCTTGC CTGGTGTGCC TGGCTCCATG GGAGACATGG TGAATTATGA TGAAATCAAG 
    AGGTTCATCA GACAAGAGAT CATTAAAATG TTTGATGAGA GAATGGCTTA CTACACCTCC 
    AGGATGCAGT TCCCCATGGA GATGGCGGCA GCTCCGGGAC GACCAGGGCC TCCAGGGAAG 
    GATGGTGCTC CGGGCAGGCC AGGTGCTCCA GGGTCACCTG GGCTCCCTGG TCAGATTGGC 
    AGAGAAGGAC GGCAGGGCTT GCCAGGAGTA AGAGGATTGC CTGGTACCAA AGGTGAAAAA 
    GGGGACATTG GTATTGGCAT TGCAGGAGAA AATGGTCTTC CCGGCCCCCC AGGTCCTCAA 
    GGTCCTCCAG GCTATGGCAA GATGGGTGCA ACAGGACCAA TGGGCCAGCA AGGCATCCCT 
    GGCATCCCTG GGCCCCCGGG TCCCATGGGC CAGCCAGGCA AGGCTGGCCA CTGTAATCCC 
    TCTGACTGCT TTGGGGCCAT GCCGATGGAG CAGCAGTACC CACCCATGAA AACCATGAAG 
    GGGCCTTTTG GCTGA

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

    RefSeq NP_001847.3
    CDS216..5030
    Translation

    Target ORF information:

    RefSeq Version NM_001856.4
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001856.4

    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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTGCTCCGG GACTTTGGAT GGGCAGCTCC 
    TGGCAGCCGG GCCCGCAGGG TCCACCAGGT ATTCCCGGAC CACCAGGCCC CCCTGGAGTA 
    CCTGGGCTGC AGGGAGTGCC TGGAAACAAC GGTTTGCCAG GACAGCCTGG GCTCACTGCA 
    GAACTGGGAT CCTTACCAAT TGAACAGCAC CTCCTTAAGA GTATCTGCGG GGACTGTGTC 
    CAGGGGCAGA GGGCCCACCC AGGGTACCTC GTGGAGAAGG GAGAGAAGGG AGACCAGGGC 
    ATCCCTGGTG TGCCAGGCCT CGACAACTGC GCCCAGTGCT TTTTGTCACT GGAGCGCCCA 
    AGAGCCGAGG AGGCCCGGGG TGACAACAGT GAGGGAGATC CTGGCTGTGT TGGGAGCCCA 
    GGCCTACCTG GTCCTCCGGG ATTGCCAGGC CAGAGAGGAG AAGAGGGTCC GCCTGGCATG 
    AGGGGCTCCC CGGGTCCTCC AGGCCCTATC GGCCCCCCAG GTTTTCCTGG TGCTGTTGGC 
    TCCCCCGGAT TGCCTGGCCT TCAAGGAGAG CGAGGTCTCA CGGGCCTGAC TGGAGACAAG 
    GGGGAGCCGG GTCCTCCAGG GCAACCAGGT TACCCAGGTG CCACGGGCCC CCCAGGACTG 
    CCTGGCATCA AGGGGGAGCG TGGCTACACC GGGTCAGCGG GAGAGAAAGG AGAGCCGGGC 
    CCCCCAGGAT CTGAAGGCCT CCCAGGCCCC CCAGGCCCAG CGGGTCCCAG AGGAGAGCGA 
    GGACCCCAAG GTAACTCCGG TGAGAAGGGC GACCAGGGAT TTCAAGGCCA GCCAGGCTTT 
    CCGGGCCCAC CGGGTCCCCC TGGATTCCCA GGCAAAGTTG GATCACCTGG CCCACCTGGC 
    CCTCAAGCAG AGAAGGGCAG CGAAGGGATT CGAGGCCCAT CAGGCCTGCC TGGCTCCCCT 
    GGGCCACCGG GACCTCCTGG GATTCAGGGC CCCGCCGGTC TGGATGGTTT GGATGGGAAG 
    GACGGCAAGC CTGGCTTGAG GGGGGACCCT GGTCCTGCTG GCCCCCCTGG ACTCATGGGA 
    CCACCGGGCT TTAAGGGGAA AACAGGACAT CCTGGCCTCC CAGGACCTAA GGGTGACTGT 
    GGCAAACCAG GTCCCCCTGG CAGCACTGGC CGGCCTGGCG CAGAGGGTGA ACCTGGTGCC 
    ATGGGACCCC AGGGAAGACC CGGTCCCCCG GGACACGTTG GGCCACCAGG GCCTCCAGGC 
    CAGCCAGGAC CAGCTGGGAT CTCTGCAGTG GGTCTGAAAG GAGACCGAGG AGCCACCGGA 
    GAAAGGGGCC TTGCAGGCCT CCCAGGCCAG CCCGGCCCCC CTGGACACCC TGGCCCCCCA 
    GGCGAACCTG GTACGGATGG TGCAGCTGGC AAAGAGGGAC CCCCTGGAAA GCAGGGATTC 
    TATGGACCTC CTGGTCCCAA GGGTGATCCA GGAGCTGCAG GACAGAAGGG CCAGGCAGGA 
    GAGAAGGGGA GAGCCGGCAT GCCTGGTGGA CCTGGCAAGA GTGGTTCCAT GGGGCCTGTT 
    GGGCCACCGG GCCCTGCAGG AGAGAGAGGC CACCCTGGAG CTCCGGGGCC TTCGGGGAGC 
    CCTGGCTTGC CTGGTGTGCC TGGCTCCATG GGAGACATGG TGAATTATGA TGAAATCAAG 
    AGGTTCATCA GACAAGAGAT CATTAAAATG TTTGATGAGA GAATGGCTTA CTACACCTCC 
    AGGATGCAGT TCCCCATGGA GATGGCGGCA GCTCCGGGAC GACCAGGGCC TCCAGGGAAG 
    GATGGTGCTC CGGGCAGGCC AGGTGCTCCA GGGTCACCTG GGCTCCCTGG TCAGATTGGC 
    AGAGAAGGAC GGCAGGGCTT GCCAGGAGTA AGAGGATTGC CTGGTACCAA AGGTGAAAAA 
    GGGGACATTG GTATTGGCAT TGCAGGAGAA AATGGTCTTC CCGGCCCCCC AGGTCCTCAA 
    GGTCCTCCAG GCTATGGCAA GATGGGTGCA ACAGGACCAA TGGGCCAGCA AGGCATCCCT 
    GGCATCCCTG GGCCCCCGGG TCCCATGGGC CAGCCAGGCA AGGCTGGCCA CTGTAATCCC 
    TCTGACTGCT TTGGGGCCAT GCCGATGGAG CAGCAGTACC CACCCATGAA AACCATGAAG 
    GGGCCTTTTG GCTGA

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

    COL16A1 ( NM_001856.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001847.3 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), mRNA.
    Price & Availability↑
    CloneID OHu03718
    Clone ID Related Accession (Same CDS sequence) NM_001856.4 , NM_001856.3
    Accession Version NM_001856.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4815bp)
    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-1(XVI) chain precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC064839.1, AC114488.3, M92642.1 and S57132.1. On May 25, 2006 this sequence version replaced NM_001856.2. 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## 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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTGCTCCGG GACTTTGGAT GGGCAGCTCC 
    TGGCAGCCGG GCCCGCAGGG TCCACCAGGT ATTCCCGGAC CACCAGGCCC CCCTGGAGTA 
    CCTGGGCTGC AGGGAGTGCC TGGAAACAAC GGTTTGCCAG GACAGCCTGG GCTCACTGCA 
    GAACTGGGAT CCTTACCAAT TGAACAGCAC CTCCTTAAGA GTATCTGCGG GGACTGTGTC 
    CAGGGGCAGA GGGCCCACCC AGGGTACCTC GTGGAGAAGG GAGAGAAGGG AGACCAGGGC 
    ATCCCTGGTG TGCCAGGCCT CGACAACTGC GCCCAGTGCT TTTTGTCACT GGAGCGCCCA 
    AGAGCCGAGG AGGCCCGGGG TGACAACAGT GAGGGAGATC CTGGCTGTGT TGGGAGCCCA 
    GGCCTACCTG GTCCTCCGGG ATTGCCAGGC CAGAGAGGAG AAGAGGGTCC GCCTGGCATG 
    AGGGGCTCCC CGGGTCCTCC AGGCCCTATC GGCCCCCCAG GTTTTCCTGG TGCTGTTGGC 
    TCCCCCGGAT TGCCTGGCCT TCAAGGAGAG CGAGGTCTCA CGGGCCTGAC TGGAGACAAG 
    GGGGAGCCGG GTCCTCCAGG GCAACCAGGT TACCCAGGTG CCACGGGCCC CCCAGGACTG 
    CCTGGCATCA AGGGGGAGCG TGGCTACACC GGGTCAGCGG GAGAGAAAGG AGAGCCGGGC 
    CCCCCAGGAT CTGAAGGCCT CCCAGGCCCC CCAGGCCCAG CGGGTCCCAG AGGAGAGCGA 
    GGACCCCAAG GTAACTCCGG TGAGAAGGGC GACCAGGGAT TTCAAGGCCA GCCAGGCTTT 
    CCGGGCCCAC CGGGTCCCCC TGGATTCCCA GGCAAAGTTG GATCACCTGG CCCACCTGGC 
    CCTCAAGCAG AGAAGGGCAG CGAAGGGATT CGAGGCCCAT CAGGCCTGCC TGGCTCCCCT 
    GGGCCACCGG GACCTCCTGG GATTCAGGGC CCCGCCGGTC TGGATGGTTT GGATGGGAAG 
    GACGGCAAGC CTGGCTTGAG GGGGGACCCT GGTCCTGCTG GCCCCCCTGG ACTCATGGGA 
    CCACCGGGCT TTAAGGGGAA AACAGGACAT CCTGGCCTCC CAGGACCTAA GGGTGACTGT 
    GGCAAACCAG GTCCCCCTGG CAGCACTGGC CGGCCTGGCG CAGAGGGTGA ACCTGGTGCC 
    ATGGGACCCC AGGGAAGACC CGGTCCCCCG GGACACGTTG GGCCACCAGG GCCTCCAGGC 
    CAGCCAGGAC CAGCTGGGAT CTCTGCAGTG GGTCTGAAAG GAGACCGAGG AGCCACCGGA 
    GAAAGGGGCC TTGCAGGCCT CCCAGGCCAG CCCGGCCCCC CTGGACACCC TGGCCCCCCA 
    GGCGAACCTG GTACGGATGG TGCAGCTGGC AAAGAGGGAC CCCCTGGAAA GCAGGGATTC 
    TATGGACCTC CTGGTCCCAA GGGTGATCCA GGAGCTGCAG GACAGAAGGG CCAGGCAGGA 
    GAGAAGGGGA GAGCCGGCAT GCCTGGTGGA CCTGGCAAGA GTGGTTCCAT GGGGCCTGTT 
    GGGCCACCGG GCCCTGCAGG AGAGAGAGGC CACCCTGGAG CTCCGGGGCC TTCGGGGAGC 
    CCTGGCTTGC CTGGTGTGCC TGGCTCCATG GGAGACATGG TGAATTATGA TGAAATCAAG 
    AGGTTCATCA GACAAGAGAT CATTAAAATG TTTGATGAGA GAATGGCTTA CTACACCTCC 
    AGGATGCAGT TCCCCATGGA GATGGCGGCA GCTCCGGGAC GACCAGGGCC TCCAGGGAAG 
    GATGGTGCTC CGGGCAGGCC AGGTGCTCCA GGGTCACCTG GGCTCCCTGG TCAGATTGGC 
    AGAGAAGGAC GGCAGGGCTT GCCAGGAGTA AGAGGATTGC CTGGTACCAA AGGTGAAAAA 
    GGGGACATTG GTATTGGCAT TGCAGGAGAA AATGGTCTTC CCGGCCCCCC AGGTCCTCAA 
    GGTCCTCCAG GCTATGGCAA GATGGGTGCA ACAGGACCAA TGGGCCAGCA AGGCATCCCT 
    GGCATCCCTG GGCCCCCGGG TCCCATGGGC CAGCCAGGCA AGGCTGGCCA CTGTAATCCC 
    TCTGACTGCT TTGGGGCCAT GCCGATGGAG CAGCAGTACC CACCCATGAA AACCATGAAG 
    GGGCCTTTTG GCTGA

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

    RefSeq NP_001847.3
    CDS366..5180
    Translation

    Target ORF information:

    RefSeq Version NM_001856.3
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001856.3

    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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTGCTCCGG GACTTTGGAT GGGCAGCTCC 
    TGGCAGCCGG GCCCGCAGGG TCCACCAGGT ATTCCCGGAC CACCAGGCCC CCCTGGAGTA 
    CCTGGGCTGC AGGGAGTGCC TGGAAACAAC GGTTTGCCAG GACAGCCTGG GCTCACTGCA 
    GAACTGGGAT CCTTACCAAT TGAACAGCAC CTCCTTAAGA GTATCTGCGG GGACTGTGTC 
    CAGGGGCAGA GGGCCCACCC AGGGTACCTC GTGGAGAAGG GAGAGAAGGG AGACCAGGGC 
    ATCCCTGGTG TGCCAGGCCT CGACAACTGC GCCCAGTGCT TTTTGTCACT GGAGCGCCCA 
    AGAGCCGAGG AGGCCCGGGG TGACAACAGT GAGGGAGATC CTGGCTGTGT TGGGAGCCCA 
    GGCCTACCTG GTCCTCCGGG ATTGCCAGGC CAGAGAGGAG AAGAGGGTCC GCCTGGCATG 
    AGGGGCTCCC CGGGTCCTCC AGGCCCTATC GGCCCCCCAG GTTTTCCTGG TGCTGTTGGC 
    TCCCCCGGAT TGCCTGGCCT TCAAGGAGAG CGAGGTCTCA CGGGCCTGAC TGGAGACAAG 
    GGGGAGCCGG GTCCTCCAGG GCAACCAGGT TACCCAGGTG CCACGGGCCC CCCAGGACTG 
    CCTGGCATCA AGGGGGAGCG TGGCTACACC GGGTCAGCGG GAGAGAAAGG AGAGCCGGGC 
    CCCCCAGGAT CTGAAGGCCT CCCAGGCCCC CCAGGCCCAG CGGGTCCCAG AGGAGAGCGA 
    GGACCCCAAG GTAACTCCGG TGAGAAGGGC GACCAGGGAT TTCAAGGCCA GCCAGGCTTT 
    CCGGGCCCAC CGGGTCCCCC TGGATTCCCA GGCAAAGTTG GATCACCTGG CCCACCTGGC 
    CCTCAAGCAG AGAAGGGCAG CGAAGGGATT CGAGGCCCAT CAGGCCTGCC TGGCTCCCCT 
    GGGCCACCGG GACCTCCTGG GATTCAGGGC CCCGCCGGTC TGGATGGTTT GGATGGGAAG 
    GACGGCAAGC CTGGCTTGAG GGGGGACCCT GGTCCTGCTG GCCCCCCTGG ACTCATGGGA 
    CCACCGGGCT TTAAGGGGAA AACAGGACAT CCTGGCCTCC CAGGACCTAA GGGTGACTGT 
    GGCAAACCAG GTCCCCCTGG CAGCACTGGC CGGCCTGGCG CAGAGGGTGA ACCTGGTGCC 
    ATGGGACCCC AGGGAAGACC CGGTCCCCCG GGACACGTTG GGCCACCAGG GCCTCCAGGC 
    CAGCCAGGAC CAGCTGGGAT CTCTGCAGTG GGTCTGAAAG GAGACCGAGG AGCCACCGGA 
    GAAAGGGGCC TTGCAGGCCT CCCAGGCCAG CCCGGCCCCC CTGGACACCC TGGCCCCCCA 
    GGCGAACCTG GTACGGATGG TGCAGCTGGC AAAGAGGGAC CCCCTGGAAA GCAGGGATTC 
    TATGGACCTC CTGGTCCCAA GGGTGATCCA GGAGCTGCAG GACAGAAGGG CCAGGCAGGA 
    GAGAAGGGGA GAGCCGGCAT GCCTGGTGGA CCTGGCAAGA GTGGTTCCAT GGGGCCTGTT 
    GGGCCACCGG GCCCTGCAGG AGAGAGAGGC CACCCTGGAG CTCCGGGGCC TTCGGGGAGC 
    CCTGGCTTGC CTGGTGTGCC TGGCTCCATG GGAGACATGG TGAATTATGA TGAAATCAAG 
    AGGTTCATCA GACAAGAGAT CATTAAAATG TTTGATGAGA GAATGGCTTA CTACACCTCC 
    AGGATGCAGT TCCCCATGGA GATGGCGGCA GCTCCGGGAC GACCAGGGCC TCCAGGGAAG 
    GATGGTGCTC CGGGCAGGCC AGGTGCTCCA GGGTCACCTG GGCTCCCTGG TCAGATTGGC 
    AGAGAAGGAC GGCAGGGCTT GCCAGGAGTA AGAGGATTGC CTGGTACCAA AGGTGAAAAA 
    GGGGACATTG GTATTGGCAT TGCAGGAGAA AATGGTCTTC CCGGCCCCCC AGGTCCTCAA 
    GGTCCTCCAG GCTATGGCAA GATGGGTGCA ACAGGACCAA TGGGCCAGCA AGGCATCCCT 
    GGCATCCCTG GGCCCCCGGG TCCCATGGGC CAGCCAGGCA AGGCTGGCCA CTGTAATCCC 
    TCTGACTGCT TTGGGGCCAT GCCGATGGAG CAGCAGTACC CACCCATGAA AACCATGAAG 
    GGGCCTTTTG GCTGA

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

    COL16A1 ( XM_005270481.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_005270538.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu33028
    Clone ID Related Accession (Same CDS sequence) XM_005270481.1
    Accession Version XM_005270481.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4767bp)
    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(XVI) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by 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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTCCACCAG GTATTCCCGG ACCACCAGGC 
    CCCCCTGGAG TACCTGGGCT GCAGGGAGTG CCTGGAAACA ACGGTTTGCC AGGACAGCCT 
    GGGCTCACTG CAGAACTGGG ATCCTTACCA ATTGAACAGC ACCTCCTTAA GAGTATCTGC 
    GGGGACTGTG TCCAGGGGCA GAGGGCCCAC CCAGGGTACC TCGTGGAGAA GGGAGAGAAG 
    GGAGACCAGG GCATCCCTGG TGTGCCAGGC CTCGACAACT GCGCCCAGTG CTTTTTGTCA 
    CTGGAGCGCC CAAGAGCCGA GGAGGCCCGG GGTGACAACA GTGAGGGAGA TCCTGGCTGT 
    GTTGGGAGCC CAGGCCTACC TGGTCCTCCG GGATTGCCAG GCCAGAGAGG AGAAGAGGGT 
    CCGCCTGGCA TGAGGGGCTC CCCGGGTCCT CCAGGCCCTA TCGGCCCCCC AGGTTTTCCT 
    GGTGCTGTTG GCTCCCCCGG ATTGCCTGGC CTTCAAGGAG AGCGAGGTCT CACGGGCCTG 
    ACTGGAGACA AGGGGGAGCC GGGTCCTCCA GGGCAACCAG GTTACCCAGG TGCCACGGGC 
    CCCCCAGGAC TGCCTGGCAT CAAGGGGGAG CGTGGCTACA CCGGGTCAGC GGGAGAGAAA 
    GGAGAGCCGG GCCCCCCAGG ATCTGAAGGC CTCCCAGGCC CCCCAGGCCC AGCGGGTCCC 
    AGAGGAGAGC GAGGACCCCA AGGTAACTCC GGTGAGAAGG GCGACCAGGG ATTTCAAGGC 
    CAGCCAGGCT TTCCGGGCCC ACCGGGTCCC CCTGGATTCC CAGGCAAAGT TGGATCACCT 
    GGCCCACCTG GCCCTCAAGC AGAGAAGGGC AGCGAAGGGA TTCGAGGCCC ATCAGGCCTG 
    CCTGGCTCCC CTGGGCCACC GGGACCTCCT GGGATTCAGG GCCCCGCCGG TCTGGATGGT 
    TTGGATGGGA AGGACGGCAA GCCTGGCTTG AGGGGGGACC CTGGTCCTGC TGGCCCCCCT 
    GGACTCATGG GACCACCGGG CTTTAAGGGG AAAACAGGAC ATCCTGGCCT CCCAGGACCT 
    AAGGGTGACT GTGGCAAACC AGGTCCCCCT GGCAGCACTG GCCGGCCTGG CGCAGAGGGT 
    GAACCTGGTG CCATGGGACC CCAGGGAAGA CCCGGTCCCC CGGGACACGT TGGGCCACCA 
    GGGCCTCCAG GCCAGCCAGG ACCAGCTGGG ATCTCTGCAG TGGGTCTGAA AGGAGACCGA 
    GGAGCCACCG GAGAAAGGGG CCTTGCAGGC CTCCCAGGCC AGCCCGGCCC CCCTGGACAC 
    CCTGGCCCCC CAGGCGAACC TGGTACGGAT GGTGCAGCTG GCAAAGAGGG ACCCCCTGGA 
    AAGCAGGGAT TCTATGGACC TCCTGGTCCC AAGGGTGATC CAGGAGCTGC AGGACAGAAG 
    GGCCAGGCAG GAGAGAAGGG GAGAGCCGGC ATGCCTGGTG GACCTGGCAA GAGTGGTTCC 
    ATGGGGCCTG TTGGGCCACC GGGCCCTGCA GGAGAGAGAG GCCACCCTGG AGCTCCGGGG 
    CCTTCGGGGA GCCCTGGCTT GCCTGGTGTG CCTGGCTCCA TGGGAGACAT GGTGAATTAT 
    GATGAAATCA AGAGGTTCAT CAGACAAGAG ATCATTAAAA TGTTTGATGA GAGAATGGCT 
    TACTACACCT CCAGGATGCA GTTCCCCATG GAGATGGCGG CAGCTCCGGG ACGACCAGGG 
    CCTCCAGGGA AGGATGGTGC TCCGGGCAGG CCAGGTGCTC CAGGGTCACC TGGGCTCCCT 
    GGTCAGATTG GCAGAGAAGG ACGGCAGGGC TTGCCAGGAG TAAGAGGATT GCCTGGTACC 
    AAAGGTGAAA AAGGGGACAT TGGTATTGGC ATTGCAGGAG AAAATGGTCT TCCCGGCCCC 
    CCAGGTCCTC AAGGTCCTCC AGGCTATGGC AAGATGGGTG CAACAGGACC AATGGGCCAG 
    CAAGGCATCC CTGGCATCCC TGGGCCCCCG GGTCCCATGG GCCAGCCAGG CAAGGCTGGC 
    CACTGTAATC CCTCTGACTG CTTTGGGGCC ATGCCGATGG AGCAGCAGTA CCCACCCATG 
    AAAACCATGA AGGGGCCTTT TGGCTGA

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

    RefSeq XP_005270538.1
    CDS361..5127
    Translation

    Target ORF information:

    RefSeq Version XM_005270481.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005270481.1

    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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTCCACCAG GTATTCCCGG ACCACCAGGC 
    CCCCCTGGAG TACCTGGGCT GCAGGGAGTG CCTGGAAACA ACGGTTTGCC AGGACAGCCT 
    GGGCTCACTG CAGAACTGGG ATCCTTACCA ATTGAACAGC ACCTCCTTAA GAGTATCTGC 
    GGGGACTGTG TCCAGGGGCA GAGGGCCCAC CCAGGGTACC TCGTGGAGAA GGGAGAGAAG 
    GGAGACCAGG GCATCCCTGG TGTGCCAGGC CTCGACAACT GCGCCCAGTG CTTTTTGTCA 
    CTGGAGCGCC CAAGAGCCGA GGAGGCCCGG GGTGACAACA GTGAGGGAGA TCCTGGCTGT 
    GTTGGGAGCC CAGGCCTACC TGGTCCTCCG GGATTGCCAG GCCAGAGAGG AGAAGAGGGT 
    CCGCCTGGCA TGAGGGGCTC CCCGGGTCCT CCAGGCCCTA TCGGCCCCCC AGGTTTTCCT 
    GGTGCTGTTG GCTCCCCCGG ATTGCCTGGC CTTCAAGGAG AGCGAGGTCT CACGGGCCTG 
    ACTGGAGACA AGGGGGAGCC GGGTCCTCCA GGGCAACCAG GTTACCCAGG TGCCACGGGC 
    CCCCCAGGAC TGCCTGGCAT CAAGGGGGAG CGTGGCTACA CCGGGTCAGC GGGAGAGAAA 
    GGAGAGCCGG GCCCCCCAGG ATCTGAAGGC CTCCCAGGCC CCCCAGGCCC AGCGGGTCCC 
    AGAGGAGAGC GAGGACCCCA AGGTAACTCC GGTGAGAAGG GCGACCAGGG ATTTCAAGGC 
    CAGCCAGGCT TTCCGGGCCC ACCGGGTCCC CCTGGATTCC CAGGCAAAGT TGGATCACCT 
    GGCCCACCTG GCCCTCAAGC AGAGAAGGGC AGCGAAGGGA TTCGAGGCCC ATCAGGCCTG 
    CCTGGCTCCC CTGGGCCACC GGGACCTCCT GGGATTCAGG GCCCCGCCGG TCTGGATGGT 
    TTGGATGGGA AGGACGGCAA GCCTGGCTTG AGGGGGGACC CTGGTCCTGC TGGCCCCCCT 
    GGACTCATGG GACCACCGGG CTTTAAGGGG AAAACAGGAC ATCCTGGCCT CCCAGGACCT 
    AAGGGTGACT GTGGCAAACC AGGTCCCCCT GGCAGCACTG GCCGGCCTGG CGCAGAGGGT 
    GAACCTGGTG CCATGGGACC CCAGGGAAGA CCCGGTCCCC CGGGACACGT TGGGCCACCA 
    GGGCCTCCAG GCCAGCCAGG ACCAGCTGGG ATCTCTGCAG TGGGTCTGAA AGGAGACCGA 
    GGAGCCACCG GAGAAAGGGG CCTTGCAGGC CTCCCAGGCC AGCCCGGCCC CCCTGGACAC 
    CCTGGCCCCC CAGGCGAACC TGGTACGGAT GGTGCAGCTG GCAAAGAGGG ACCCCCTGGA 
    AAGCAGGGAT TCTATGGACC TCCTGGTCCC AAGGGTGATC CAGGAGCTGC AGGACAGAAG 
    GGCCAGGCAG GAGAGAAGGG GAGAGCCGGC ATGCCTGGTG GACCTGGCAA GAGTGGTTCC 
    ATGGGGCCTG TTGGGCCACC GGGCCCTGCA GGAGAGAGAG GCCACCCTGG AGCTCCGGGG 
    CCTTCGGGGA GCCCTGGCTT GCCTGGTGTG CCTGGCTCCA TGGGAGACAT GGTGAATTAT 
    GATGAAATCA AGAGGTTCAT CAGACAAGAG ATCATTAAAA TGTTTGATGA GAGAATGGCT 
    TACTACACCT CCAGGATGCA GTTCCCCATG GAGATGGCGG CAGCTCCGGG ACGACCAGGG 
    CCTCCAGGGA AGGATGGTGC TCCGGGCAGG CCAGGTGCTC CAGGGTCACC TGGGCTCCCT 
    GGTCAGATTG GCAGAGAAGG ACGGCAGGGC TTGCCAGGAG TAAGAGGATT GCCTGGTACC 
    AAAGGTGAAA AAGGGGACAT TGGTATTGGC ATTGCAGGAG AAAATGGTCT TCCCGGCCCC 
    CCAGGTCCTC AAGGTCCTCC AGGCTATGGC AAGATGGGTG CAACAGGACC AATGGGCCAG 
    CAAGGCATCC CTGGCATCCC TGGGCCCCCG GGTCCCATGG GCCAGCCAGG CAAGGCTGGC 
    CACTGTAATC CCTCTGACTG CTTTGGGGCC ATGCCGATGG AGCAGCAGTA CCCACCCATG 
    AAAACCATGA AGGGGCCTTT TGGCTGA

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

    COL16A1 ( XM_011540722.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539024.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu57030
    Clone ID Related Accession (Same CDS sequence) XM_011540722.1
    Accession Version XM_011540722.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4770bp)
    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(XVI) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by 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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTGCTCCGG GACTTTGGAT GGGCAGCTCC 
    TGGCAGCCGG GCCCGCAGGG TCCACCAGGT ATTCCCGGAC CACCAGGCCC CCCTGGAGTA 
    CCTGGGCTGC AGGGAGTGCC TGGAAACAAC GGTTTGCCAG GACAGCCTGG GCTCACTGCA 
    GAACTGGGAT CCTTACCAAT TGAACAGCAC CTCCTTAAGA GTATCTGCGG GGACTGTGTC 
    CAGGGGCAGA GGGCCCACCC AGGGTACCTC GTGGAGAAGG GAGAGAAGGG AGACCAGGGC 
    ATCCCTGGTG TGCCAGGCCT CGACAACTGC GCCCAGTGCT TTTTGTCACT GGAGCGCCCA 
    AGAGCCGAGG AGGCCCGGGG TGACAACAGT GAGGGAGATC CTGGCTGTGT TGGGAGCCCA 
    GGCCTACCTG GTCCTCCGGG ATTGCCAGGC CAGAGAGGAG AAGAGGGTCC GCCTGGCATG 
    AGGGGCTCCC CGGGTCCTCC AGGCCCTATC GGCCTTCAAG GAGAGCGAGG TCTCACGGGC 
    CTGACTGGAG ACAAGGGGGA GCCGGGTCCT CCAGGGCAAC CAGGTTACCC AGGTGCCACG 
    GGCCCCCCAG GACTGCCTGG CATCAAGGGG GAGCGTGGCT ACACCGGGTC AGCGGGAGAG 
    AAAGGAGAGC CGGGCCCCCC AGGATCTGAA GGCCTCCCAG GCCCCCCAGG CCCAGCGGGT 
    CCCAGAGGAG AGCGAGGACC CCAAGGTAAC TCCGGTGAGA AGGGCGACCA GGGATTTCAA 
    GGCCAGCCAG GCTTTCCGGG CCCACCGGGT CCCCCTGGAT TCCCAGGCAA AGTTGGATCA 
    CCTGGCCCAC CTGGCCCTCA AGCAGAGAAG GGCAGCGAAG GGATTCGAGG CCCATCAGGC 
    CTGCCTGGCT CCCCTGGGCC ACCGGGACCT CCTGGGATTC AGGGCCCCGC CGGTCTGGAT 
    GGTTTGGATG GGAAGGACGG CAAGCCTGGC TTGAGGGGGG ACCCTGGTCC TGCTGGCCCC 
    CCTGGACTCA TGGGACCACC GGGCTTTAAG GGGAAAACAG GACATCCTGG CCTCCCAGGA 
    CCTAAGGGTG ACTGTGGCAA ACCAGGTCCC CCTGGCAGCA CTGGCCGGCC TGGCGCAGAG 
    GGTGAACCTG GTGCCATGGG ACCCCAGGGA AGACCCGGTC CCCCGGGACA CGTTGGGCCA 
    CCAGGGCCTC CAGGCCAGCC AGGACCAGCT GGGATCTCTG CAGTGGGTCT GAAAGGAGAC 
    CGAGGAGCCA CCGGAGAAAG GGGCCTTGCA GGCCTCCCAG GCCAGCCCGG CCCCCCTGGA 
    CACCCTGGCC CCCCAGGCGA ACCTGGTACG GATGGTGCAG CTGGCAAAGA GGGACCCCCT 
    GGAAAGCAGG GATTCTATGG ACCTCCTGGT CCCAAGGGTG ATCCAGGAGC TGCAGGACAG 
    AAGGGCCAGG CAGGAGAGAA GGGGAGAGCC GGCATGCCTG GTGGACCTGG CAAGAGTGGT 
    TCCATGGGGC CTGTTGGGCC ACCGGGCCCT GCAGGAGAGA GAGGCCACCC TGGAGCTCCG 
    GGGCCTTCGG GGAGCCCTGG CTTGCCTGGT GTGCCTGGCT CCATGGGAGA CATGGTGAAT 
    TATGATGAAA TCAAGAGGTT CATCAGACAA GAGATCATTA AAATGTTTGA TGAGAGAATG 
    GCTTACTACA CCTCCAGGAT GCAGTTCCCC ATGGAGATGG CGGCAGCTCC GGGACGACCA 
    GGGCCTCCAG GGAAGGATGG TGCTCCGGGC AGGCCAGGTG CTCCAGGGTC ACCTGGGCTC 
    CCTGGTCAGA TTGGCAGAGA AGGACGGCAG GGCTTGCCAG GAGTAAGAGG ATTGCCTGGT 
    ACCAAAGGTG AAAAAGGGGA CATTGGTATT GGCATTGCAG GAGAAAATGG TCTTCCCGGC 
    CCCCCAGGTC CTCAAGGTCC TCCAGGCTAT GGCAAGATGG GTGCAACAGG ACCAATGGGC 
    CAGCAAGGCA TCCCTGGCAT CCCTGGGCCC CCGGGTCCCA TGGGCCAGCC AGGCAAGGCT 
    GGCCACTGTA ATCCCTCTGA CTGCTTTGGG GCCATGCCGA TGGAGCAGCA GTACCCACCC 
    ATGAAAACCA TGAAGGGGCC TTTTGGCTGA

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

    RefSeq XP_011539024.1
    CDS361..5130
    Translation

    Target ORF information:

    RefSeq Version XM_011540722.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540722.1

    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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTGCTCCGG GACTTTGGAT GGGCAGCTCC 
    TGGCAGCCGG GCCCGCAGGG TCCACCAGGT ATTCCCGGAC CACCAGGCCC CCCTGGAGTA 
    CCTGGGCTGC AGGGAGTGCC TGGAAACAAC GGTTTGCCAG GACAGCCTGG GCTCACTGCA 
    GAACTGGGAT CCTTACCAAT TGAACAGCAC CTCCTTAAGA GTATCTGCGG GGACTGTGTC 
    CAGGGGCAGA GGGCCCACCC AGGGTACCTC GTGGAGAAGG GAGAGAAGGG AGACCAGGGC 
    ATCCCTGGTG TGCCAGGCCT CGACAACTGC GCCCAGTGCT TTTTGTCACT GGAGCGCCCA 
    AGAGCCGAGG AGGCCCGGGG TGACAACAGT GAGGGAGATC CTGGCTGTGT TGGGAGCCCA 
    GGCCTACCTG GTCCTCCGGG ATTGCCAGGC CAGAGAGGAG AAGAGGGTCC GCCTGGCATG 
    AGGGGCTCCC CGGGTCCTCC AGGCCCTATC GGCCTTCAAG GAGAGCGAGG TCTCACGGGC 
    CTGACTGGAG ACAAGGGGGA GCCGGGTCCT CCAGGGCAAC CAGGTTACCC AGGTGCCACG 
    GGCCCCCCAG GACTGCCTGG CATCAAGGGG GAGCGTGGCT ACACCGGGTC AGCGGGAGAG 
    AAAGGAGAGC CGGGCCCCCC AGGATCTGAA GGCCTCCCAG GCCCCCCAGG CCCAGCGGGT 
    CCCAGAGGAG AGCGAGGACC CCAAGGTAAC TCCGGTGAGA AGGGCGACCA GGGATTTCAA 
    GGCCAGCCAG GCTTTCCGGG CCCACCGGGT CCCCCTGGAT TCCCAGGCAA AGTTGGATCA 
    CCTGGCCCAC CTGGCCCTCA AGCAGAGAAG GGCAGCGAAG GGATTCGAGG CCCATCAGGC 
    CTGCCTGGCT CCCCTGGGCC ACCGGGACCT CCTGGGATTC AGGGCCCCGC CGGTCTGGAT 
    GGTTTGGATG GGAAGGACGG CAAGCCTGGC TTGAGGGGGG ACCCTGGTCC TGCTGGCCCC 
    CCTGGACTCA TGGGACCACC GGGCTTTAAG GGGAAAACAG GACATCCTGG CCTCCCAGGA 
    CCTAAGGGTG ACTGTGGCAA ACCAGGTCCC CCTGGCAGCA CTGGCCGGCC TGGCGCAGAG 
    GGTGAACCTG GTGCCATGGG ACCCCAGGGA AGACCCGGTC CCCCGGGACA CGTTGGGCCA 
    CCAGGGCCTC CAGGCCAGCC AGGACCAGCT GGGATCTCTG CAGTGGGTCT GAAAGGAGAC 
    CGAGGAGCCA CCGGAGAAAG GGGCCTTGCA GGCCTCCCAG GCCAGCCCGG CCCCCCTGGA 
    CACCCTGGCC CCCCAGGCGA ACCTGGTACG GATGGTGCAG CTGGCAAAGA GGGACCCCCT 
    GGAAAGCAGG GATTCTATGG ACCTCCTGGT CCCAAGGGTG ATCCAGGAGC TGCAGGACAG 
    AAGGGCCAGG CAGGAGAGAA GGGGAGAGCC GGCATGCCTG GTGGACCTGG CAAGAGTGGT 
    TCCATGGGGC CTGTTGGGCC ACCGGGCCCT GCAGGAGAGA GAGGCCACCC TGGAGCTCCG 
    GGGCCTTCGG GGAGCCCTGG CTTGCCTGGT GTGCCTGGCT CCATGGGAGA CATGGTGAAT 
    TATGATGAAA TCAAGAGGTT CATCAGACAA GAGATCATTA AAATGTTTGA TGAGAGAATG 
    GCTTACTACA CCTCCAGGAT GCAGTTCCCC ATGGAGATGG CGGCAGCTCC GGGACGACCA 
    GGGCCTCCAG GGAAGGATGG TGCTCCGGGC AGGCCAGGTG CTCCAGGGTC ACCTGGGCTC 
    CCTGGTCAGA TTGGCAGAGA AGGACGGCAG GGCTTGCCAG GAGTAAGAGG ATTGCCTGGT 
    ACCAAAGGTG AAAAAGGGGA CATTGGTATT GGCATTGCAG GAGAAAATGG TCTTCCCGGC 
    CCCCCAGGTC CTCAAGGTCC TCCAGGCTAT GGCAAGATGG GTGCAACAGG ACCAATGGGC 
    CAGCAAGGCA TCCCTGGCAT CCCTGGGCCC CCGGGTCCCA TGGGCCAGCC AGGCAAGGCT 
    GGCCACTGTA ATCCCTCTGA CTGCTTTGGG GCCATGCCGA TGGAGCAGCA GTACCCACCC 
    ATGAAAACCA TGAAGGGGCC TTTTGGCTGA

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

    COL16A1 ( XM_011540723.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539025.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu57031
    Clone ID Related Accession (Same CDS sequence) XM_011540723.1
    Accession Version XM_011540723.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product collagen alpha-1(XVI) chain isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by 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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTCCACCAG GTATTCCCGG ACCACCAGGC 
    CCCCCTGGAG TACCTGGGCT GCAGGGAGTG CCTGGAAACA ACGGTTTGCC AGGACAGCCT 
    GGGCTCACTG CAGAACTGGG ATCCTTACCA ATTGAACAGC ACCTCCTTAA GAGTATCTGC 
    GGGGACTGTG TCCAGGGGCA GAGGGCCCAC CCAGGGTACC TCGTGGAGAA GGGAGAGAAG 
    GGAGACCAGG GCATCCCTGG TGTGCCAGGC CTCGACAACT GCGCCCAGTG CTTTTTGTCA 
    CTGGAGCGCC CAAGAGCCGA GGAGGCCCGG GGTGACAACA GTGAGGGAGA TCCTGGCTGT 
    GTTGGGAGCC CAGGCCTACC TGGTCCTCCG GGATTGCCAG GCCAGAGAGG AGAAGAGGGT 
    CCGCCTGGCA TGAGGGGCTC CCCGGGTCCT CCAGGCCCTA TCGGCCTTCA AGGAGAGCGA 
    GGTCTCACGG GCCTGACTGG AGACAAGGGG GAGCCGGGTC CTCCAGGGCA ACCAGGTTAC 
    CCAGGTGCCA CGGGCCCCCC AGGACTGCCT GGCATCAAGG GGGAGCGTGG CTACACCGGG 
    TCAGCGGGAG AGAAAGGAGA GCCGGGCCCC CCAGGATCTG AAGGCCTCCC AGGCCCCCCA 
    GGCCCAGCGG GTCCCAGAGG AGAGCGAGGA CCCCAAGGTA ACTCCGGTGA GAAGGGCGAC 
    CAGGGATTTC AAGGCCAGCC AGGCTTTCCG GGCCCACCGG GTCCCCCTGG ATTCCCAGGC 
    AAAGTTGGAT CACCTGGCCC ACCTGGCCCT CAAGCAGAGA AGGGCAGCGA AGGGATTCGA 
    GGCCCATCAG GCCTGCCTGG CTCCCCTGGG CCACCGGGAC CTCCTGGGAT TCAGGGCCCC 
    GCCGGTCTGG ATGGTTTGGA TGGGAAGGAC GGCAAGCCTG GCTTGAGGGG GGACCCTGGT 
    CCTGCTGGCC CCCCTGGACT CATGGGACCA CCGGGCTTTA AGGGGAAAAC AGGACATCCT 
    GGCCTCCCAG GACCTAAGGG TGACTGTGGC AAACCAGGTC CCCCTGGCAG CACTGGCCGG 
    CCTGGCGCAG AGGGTGAACC TGGTGCCATG GGACCCCAGG GAAGACCCGG TCCCCCGGGA 
    CACGTTGGGC CACCAGGGCC TCCAGGCCAG CCAGGACCAG CTGGGATCTC TGCAGTGGGT 
    CTGAAAGGAG ACCGAGGAGC CACCGGAGAA AGGGGCCTTG CAGGCCTCCC AGGCCAGCCC 
    GGCCCCCCTG GACACCCTGG CCCCCCAGGC GAACCTGGTA CGGATGGTGC AGCTGGCAAA 
    GAGGGACCCC CTGGAAAGCA GGGATTCTAT GGACCTCCTG GTCCCAAGGG TGATCCAGGA 
    GCTGCAGGAC AGAAGGGCCA GGCAGGAGAG AAGGGGAGAG CCGGCATGCC TGGTGGACCT 
    GGCAAGAGTG GTTCCATGGG GCCTGTTGGG CCACCGGGCC CTGCAGGAGA GAGAGGCCAC 
    CCTGGAGCTC CGGGGCCTTC GGGGAGCCCT GGCTTGCCTG GTGTGCCTGG CTCCATGGGA 
    GACATGGTGA ATTATGATGA AATCAAGAGG TTCATCAGAC AAGAGATCAT TAAAATGTTT 
    GATGAGAGAA TGGCTTACTA CACCTCCAGG ATGCAGTTCC CCATGGAGAT GGCGGCAGCT 
    CCGGGACGAC CAGGGCCTCC AGGGAAGGAT GGTGCTCCGG GCAGGCCAGG TGCTCCAGGG 
    TCACCTGGGC TCCCTGGTCA GATTGGCAGA GAAGGACGGC AGGGCTTGCC AGGAGTAAGA 
    GGATTGCCTG GTACCAAAGG TGAAAAAGGG GACATTGGTA TTGGCATTGC AGGAGAAAAT 
    GGTCTTCCCG GCCCCCCAGG TCCTCAAGGT CCTCCAGGCT ATGGCAAGAT GGGTGCAACA 
    GGACCAATGG GCCAGCAAGG CATCCCTGGC ATCCCTGGGC CCCCGGGTCC CATGGGCCAG 
    CCAGGCAAGG CTGGCCACTG TAATCCCTCT GACTGCTTTG GGGCCATGCC GATGGAGCAG 
    CAGTACCCAC CCATGAAAAC CATGAAGGGG CCTTTTGGCT GA

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

    RefSeq XP_011539025.1
    CDS361..5082
    Translation

    Target ORF information:

    RefSeq Version XM_011540723.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540723.1

    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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTCCACCAG GTATTCCCGG ACCACCAGGC 
    CCCCCTGGAG TACCTGGGCT GCAGGGAGTG CCTGGAAACA ACGGTTTGCC AGGACAGCCT 
    GGGCTCACTG CAGAACTGGG ATCCTTACCA ATTGAACAGC ACCTCCTTAA GAGTATCTGC 
    GGGGACTGTG TCCAGGGGCA GAGGGCCCAC CCAGGGTACC TCGTGGAGAA GGGAGAGAAG 
    GGAGACCAGG GCATCCCTGG TGTGCCAGGC CTCGACAACT GCGCCCAGTG CTTTTTGTCA 
    CTGGAGCGCC CAAGAGCCGA GGAGGCCCGG GGTGACAACA GTGAGGGAGA TCCTGGCTGT 
    GTTGGGAGCC CAGGCCTACC TGGTCCTCCG GGATTGCCAG GCCAGAGAGG AGAAGAGGGT 
    CCGCCTGGCA TGAGGGGCTC CCCGGGTCCT CCAGGCCCTA TCGGCCTTCA AGGAGAGCGA 
    GGTCTCACGG GCCTGACTGG AGACAAGGGG GAGCCGGGTC CTCCAGGGCA ACCAGGTTAC 
    CCAGGTGCCA CGGGCCCCCC AGGACTGCCT GGCATCAAGG GGGAGCGTGG CTACACCGGG 
    TCAGCGGGAG AGAAAGGAGA GCCGGGCCCC CCAGGATCTG AAGGCCTCCC AGGCCCCCCA 
    GGCCCAGCGG GTCCCAGAGG AGAGCGAGGA CCCCAAGGTA ACTCCGGTGA GAAGGGCGAC 
    CAGGGATTTC AAGGCCAGCC AGGCTTTCCG GGCCCACCGG GTCCCCCTGG ATTCCCAGGC 
    AAAGTTGGAT CACCTGGCCC ACCTGGCCCT CAAGCAGAGA AGGGCAGCGA AGGGATTCGA 
    GGCCCATCAG GCCTGCCTGG CTCCCCTGGG CCACCGGGAC CTCCTGGGAT TCAGGGCCCC 
    GCCGGTCTGG ATGGTTTGGA TGGGAAGGAC GGCAAGCCTG GCTTGAGGGG GGACCCTGGT 
    CCTGCTGGCC CCCCTGGACT CATGGGACCA CCGGGCTTTA AGGGGAAAAC AGGACATCCT 
    GGCCTCCCAG GACCTAAGGG TGACTGTGGC AAACCAGGTC CCCCTGGCAG CACTGGCCGG 
    CCTGGCGCAG AGGGTGAACC TGGTGCCATG GGACCCCAGG GAAGACCCGG TCCCCCGGGA 
    CACGTTGGGC CACCAGGGCC TCCAGGCCAG CCAGGACCAG CTGGGATCTC TGCAGTGGGT 
    CTGAAAGGAG ACCGAGGAGC CACCGGAGAA AGGGGCCTTG CAGGCCTCCC AGGCCAGCCC 
    GGCCCCCCTG GACACCCTGG CCCCCCAGGC GAACCTGGTA CGGATGGTGC AGCTGGCAAA 
    GAGGGACCCC CTGGAAAGCA GGGATTCTAT GGACCTCCTG GTCCCAAGGG TGATCCAGGA 
    GCTGCAGGAC AGAAGGGCCA GGCAGGAGAG AAGGGGAGAG CCGGCATGCC TGGTGGACCT 
    GGCAAGAGTG GTTCCATGGG GCCTGTTGGG CCACCGGGCC CTGCAGGAGA GAGAGGCCAC 
    CCTGGAGCTC CGGGGCCTTC GGGGAGCCCT GGCTTGCCTG GTGTGCCTGG CTCCATGGGA 
    GACATGGTGA ATTATGATGA AATCAAGAGG TTCATCAGAC AAGAGATCAT TAAAATGTTT 
    GATGAGAGAA TGGCTTACTA CACCTCCAGG ATGCAGTTCC CCATGGAGAT GGCGGCAGCT 
    CCGGGACGAC CAGGGCCTCC AGGGAAGGAT GGTGCTCCGG GCAGGCCAGG TGCTCCAGGG 
    TCACCTGGGC TCCCTGGTCA GATTGGCAGA GAAGGACGGC AGGGCTTGCC AGGAGTAAGA 
    GGATTGCCTG GTACCAAAGG TGAAAAAGGG GACATTGGTA TTGGCATTGC AGGAGAAAAT 
    GGTCTTCCCG GCCCCCCAGG TCCTCAAGGT CCTCCAGGCT ATGGCAAGAT GGGTGCAACA 
    GGACCAATGG GCCAGCAAGG CATCCCTGGC ATCCCTGGGC CCCCGGGTCC CATGGGCCAG 
    CCAGGCAAGG CTGGCCACTG TAATCCCTCT GACTGCTTTG GGGCCATGCC GATGGAGCAG 
    CAGTACCCAC CCATGAAAAC CATGAAGGGG CCTTTTGGCT GA

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

    COL16A1 ( XM_011540724.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539026.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu57032
    Clone ID Related Accession (Same CDS sequence) XM_011540724.1
    Accession Version XM_011540724.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4692bp)
    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(XVI) chain isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by 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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGCCAACCCG GTCTACCAGG AGTTCAAGGG CCCCCAGGAC TGAAGGGCGT GCAGGGAGAG 
    CCAGGGCCTC CAGGAAGGGG AGTCCAGGGA CCCCAGGGGG AGCCTGGAGC CCCGGGTTTG 
    CCTGGCATTC AGGGACTTCC GGGACCTCGG GGACCACCTG GCCCCACTGG AGAGAAGGGT 
    GCCCAGGGAT CTCCAGGGGT GAAAGGAGCC ACCGGACCTG TGGGACCTCC TGGGGCCAGT 
    GTCTCTGGGC CTCCGGGCCG TGATGGGCAG CAAGGACAGA CGGGACTCAG AGGAACACCA 
    GGTGAAAAAG GACCACGAGG AGAGAAGGGT GAGCCAGGGG AGTGCTCCTG CCCCTCTCAA 
    GGAGACCTCA TCTTCTCTGG CATGCCGGGT GCTCCGGGAC TTTGGATGGG CAGCTCCTGG 
    CAGCCGGGCC CGCAGGGTCC ACCAGGTATT CCCGGACCAC CAGGCCCCCC TGGAGTACCT 
    GGGCTGCAGG GAGTGCCTGG AAACAACGGT TTGCCAGGAC AGCCTGGGCT CACTGCAGAA 
    CTGGGATCCT TACCAATTGA ACAGCACCTC CTTAAGAGTA TCTGCGGGGA CTGTGTCCAG 
    GGGCAGAGGG CCCACCCAGG GTACCTCGTG GAGAAGGGAG AGAAGGGAGA CCAGGGCATC 
    CCTGGTGTGC CAGGCCTCGA CAACTGCGCC CAGTGCTTTT TGTCACTGGA GCGCCCAAGA 
    GCCGAGGAGG CCCGGGGTGA CAACAGTGAG GGAGATCCTG GCTGTGTTGG GAGCCCAGGC 
    CTACCTGGTC CTCCGGGATT GCCAGGCCAG AGAGGAGAAG AGGGTCCGCC TGGCATGAGG 
    GGCTCCCCGG GTCCTCCAGG CCCTATCGGC CCCCCAGGTT TTCCTGGTGC TGTTGGCTCC 
    CCCGGATTGC CTGGCCTTCA AGGAGAGCGA GGTCTCACGG GCCTGACTGG AGACAAGGGG 
    GAGCCGGGTC CTCCAGGGCA ACCAGGTTAC CCAGGTGCCA CGGGCCCCCC AGGACTGCCT 
    GGCATCAAGG GGGAGCGTGG CTACACCGGG TCAGCGGGAG AGAAAGGAGA GCCGGGCCCC 
    CCAGGATCTG AAGGCCTCCC AGGCCCCCCA GGCCCAGCGG GTCCCAGAGG AGAGCGAGGA 
    CCCCAAGGTA ACTCCGGTGA GAAGGGCGAC CAGGGATTTC AAGGCCAGCC AGGCTTTCCG 
    GGCCCACCGG GTCCCCCTGG ATTCCCAGGC AAAGTTGGAT CACCTGGCCC ACCTGGCCCT 
    CAAGCAGAGA AGGGCAGCGA AGGGATTCGA GGCCCATCAG GCCTGCCTGG CTCCCCTGGG 
    CCACCGGGAC CTCCTGGGAT TCAGGGCCCC GCCGGTCTGG ATGGTTTGGA TGGGAAGGAC 
    GGCAAGCCTG GCTTGAGGGG GGACCCTGGT CCTGCTGGCC CCCCTGGACT CATGGGACCA 
    CCGGGCTTTA AGGGGAAAAC AGGACATCCT GGCCTCCCAG GACCTAAGGG TGACTGTGGC 
    AAACCAGGTC CCCCTGGCAG CACTGGCCGG CCTGGCGCAG AGGGTGAACC TGGTGCCATG 
    GGACCCCAGG GAAGACCCGG TCCCCCGGGA CACGTTGGGC CACCAGGGCC TCCAGGCCAG 
    CCAGGACCAG CTGGGATCTC TGCAGTGGGT CTGAAAGGAG ACCGAGGAGC CACCGGAGAA 
    AGGGGCCTTG CAGGCCTCCC AGGCCAGCCC GGCCCCCCTG GACACCCTGG CCCCCCAGGC 
    GAACCTGGTA CGGATGGTGC AGCTGGCAAA GAGGGACCCC CTGGAAAGCA GGGATTCTAT 
    GGACCTCCTG GTCCCAAGGG TGATCCAGGA GCTGCAGGAC AGAAGGGCCA GGCAGGAGAG 
    AAGGGGAGAG CCGGCATGCC TGGTGGACCT GGCAAGAGTG GTTCCATGGG GCCTGTTGGG 
    CCACCGGGCC CTGCAGGAGA GAGAGGCCAC CCTGGAGCTC CGGGGCCTTC GGGGAGCCCT 
    GGCTTGCCTG GTGTGCCTGG CTCCATGGGA GACATGGTGA ATTATGATGA AATCAAGAGG 
    TTCATCAGAC AAGAGATCAT TAAAATGTTT GATGAGAGAA TGGCTTACTA CACCTCCAGG 
    ATGCAGTTCC CCATGGAGAT GGCGGCAGCT CCGGGACGAC CAGGGCCTCC AGGGAAGGAT 
    GGTGCTCCGG GCAGGCCAGG TGCTCCAGGG TCACCTGGGC TCCCTGGTCA GATTGGCAGA 
    GAAGGACGGC AGGGCTTGCC AGGAGTAAGA GGATTGCCTG GTACCAAAGG TGAAAAAGGG 
    GACATTGGTA TTGGCATTGC AGGAGAAAAT GGTCTTCCCG GCCCCCCAGG TCCTCAAGGT 
    CCTCCAGGCT ATGGCAAGAT GGGTGCAACA GGACCAATGG GCCAGCAAGG CATCCCTGGC 
    ATCCCTGGGC CCCCGGGTCC CATGGGCCAG CCAGGCAAGG CTGGCCACTG TAATCCCTCT 
    GACTGCTTTG GGGCCATGCC GATGGAGCAG CAGTACCCAC CCATGAAAAC CATGAAGGGG 
    CCTTTTGGCT GA

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

    RefSeq XP_011539026.1
    CDS361..5052
    Translation

    Target ORF information:

    RefSeq Version XM_011540724.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540724.1

    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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGCCAACCCG GTCTACCAGG AGTTCAAGGG CCCCCAGGAC TGAAGGGCGT GCAGGGAGAG 
    CCAGGGCCTC CAGGAAGGGG AGTCCAGGGA CCCCAGGGGG AGCCTGGAGC CCCGGGTTTG 
    CCTGGCATTC AGGGACTTCC GGGACCTCGG GGACCACCTG GCCCCACTGG AGAGAAGGGT 
    GCCCAGGGAT CTCCAGGGGT GAAAGGAGCC ACCGGACCTG TGGGACCTCC TGGGGCCAGT 
    GTCTCTGGGC CTCCGGGCCG TGATGGGCAG CAAGGACAGA CGGGACTCAG AGGAACACCA 
    GGTGAAAAAG GACCACGAGG AGAGAAGGGT GAGCCAGGGG AGTGCTCCTG CCCCTCTCAA 
    GGAGACCTCA TCTTCTCTGG CATGCCGGGT GCTCCGGGAC TTTGGATGGG CAGCTCCTGG 
    CAGCCGGGCC CGCAGGGTCC ACCAGGTATT CCCGGACCAC CAGGCCCCCC TGGAGTACCT 
    GGGCTGCAGG GAGTGCCTGG AAACAACGGT TTGCCAGGAC AGCCTGGGCT CACTGCAGAA 
    CTGGGATCCT TACCAATTGA ACAGCACCTC CTTAAGAGTA TCTGCGGGGA CTGTGTCCAG 
    GGGCAGAGGG CCCACCCAGG GTACCTCGTG GAGAAGGGAG AGAAGGGAGA CCAGGGCATC 
    CCTGGTGTGC CAGGCCTCGA CAACTGCGCC CAGTGCTTTT TGTCACTGGA GCGCCCAAGA 
    GCCGAGGAGG CCCGGGGTGA CAACAGTGAG GGAGATCCTG GCTGTGTTGG GAGCCCAGGC 
    CTACCTGGTC CTCCGGGATT GCCAGGCCAG AGAGGAGAAG AGGGTCCGCC TGGCATGAGG 
    GGCTCCCCGG GTCCTCCAGG CCCTATCGGC CCCCCAGGTT TTCCTGGTGC TGTTGGCTCC 
    CCCGGATTGC CTGGCCTTCA AGGAGAGCGA GGTCTCACGG GCCTGACTGG AGACAAGGGG 
    GAGCCGGGTC CTCCAGGGCA ACCAGGTTAC CCAGGTGCCA CGGGCCCCCC AGGACTGCCT 
    GGCATCAAGG GGGAGCGTGG CTACACCGGG TCAGCGGGAG AGAAAGGAGA GCCGGGCCCC 
    CCAGGATCTG AAGGCCTCCC AGGCCCCCCA GGCCCAGCGG GTCCCAGAGG AGAGCGAGGA 
    CCCCAAGGTA ACTCCGGTGA GAAGGGCGAC CAGGGATTTC AAGGCCAGCC AGGCTTTCCG 
    GGCCCACCGG GTCCCCCTGG ATTCCCAGGC AAAGTTGGAT CACCTGGCCC ACCTGGCCCT 
    CAAGCAGAGA AGGGCAGCGA AGGGATTCGA GGCCCATCAG GCCTGCCTGG CTCCCCTGGG 
    CCACCGGGAC CTCCTGGGAT TCAGGGCCCC GCCGGTCTGG ATGGTTTGGA TGGGAAGGAC 
    GGCAAGCCTG GCTTGAGGGG GGACCCTGGT CCTGCTGGCC CCCCTGGACT CATGGGACCA 
    CCGGGCTTTA AGGGGAAAAC AGGACATCCT GGCCTCCCAG GACCTAAGGG TGACTGTGGC 
    AAACCAGGTC CCCCTGGCAG CACTGGCCGG CCTGGCGCAG AGGGTGAACC TGGTGCCATG 
    GGACCCCAGG GAAGACCCGG TCCCCCGGGA CACGTTGGGC CACCAGGGCC TCCAGGCCAG 
    CCAGGACCAG CTGGGATCTC TGCAGTGGGT CTGAAAGGAG ACCGAGGAGC CACCGGAGAA 
    AGGGGCCTTG CAGGCCTCCC AGGCCAGCCC GGCCCCCCTG GACACCCTGG CCCCCCAGGC 
    GAACCTGGTA CGGATGGTGC AGCTGGCAAA GAGGGACCCC CTGGAAAGCA GGGATTCTAT 
    GGACCTCCTG GTCCCAAGGG TGATCCAGGA GCTGCAGGAC AGAAGGGCCA GGCAGGAGAG 
    AAGGGGAGAG CCGGCATGCC TGGTGGACCT GGCAAGAGTG GTTCCATGGG GCCTGTTGGG 
    CCACCGGGCC CTGCAGGAGA GAGAGGCCAC CCTGGAGCTC CGGGGCCTTC GGGGAGCCCT 
    GGCTTGCCTG GTGTGCCTGG CTCCATGGGA GACATGGTGA ATTATGATGA AATCAAGAGG 
    TTCATCAGAC AAGAGATCAT TAAAATGTTT GATGAGAGAA TGGCTTACTA CACCTCCAGG 
    ATGCAGTTCC CCATGGAGAT GGCGGCAGCT CCGGGACGAC CAGGGCCTCC AGGGAAGGAT 
    GGTGCTCCGG GCAGGCCAGG TGCTCCAGGG TCACCTGGGC TCCCTGGTCA GATTGGCAGA 
    GAAGGACGGC AGGGCTTGCC AGGAGTAAGA GGATTGCCTG GTACCAAAGG TGAAAAAGGG 
    GACATTGGTA TTGGCATTGC AGGAGAAAAT GGTCTTCCCG GCCCCCCAGG TCCTCAAGGT 
    CCTCCAGGCT ATGGCAAGAT GGGTGCAACA GGACCAATGG GCCAGCAAGG CATCCCTGGC 
    ATCCCTGGGC CCCCGGGTCC CATGGGCCAG CCAGGCAAGG CTGGCCACTG TAATCCCTCT 
    GACTGCTTTG GGGCCATGCC GATGGAGCAG CAGTACCCAC CCATGAAAAC CATGAAGGGG 
    CCTTTTGGCT GA

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

    COL16A1 ( XM_011540726.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539028.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu57034
    Clone ID Related Accession (Same CDS sequence) XM_011540726.3 , XM_011540726.2
    Accession Version XM_011540726.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4209bp)
    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(XVI) chain isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011540726.2. ##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
    ATGCTGAGTG TGGCTGGACG TGTGGCCTCT GTGCACGTGG ACTGCAGCTC AGCCTCCTCC 
    CAGCCTCTGG GGCCCCGACG ACCCATGAGG CCTGTGGGCC ATGTATTTCT AGGCTTGGAT 
    GCTGAGCAGG GCAAGCCTGT CTCGTTTGAC CTTCAGCAGG TGCACATCTA CTGTGACCCG 
    GAGCTCGTGC TGGAGGAGGG CTGCTGTGAG ATTTTACCAG CAGGGTGCCC CCCAGAGACC 
    TCCAAGGCCC GCCGGGACAC CCAGAGCAAT GAGCTCATTG AGATCAATCC ACAGTCTGAA 
    GGCAAGGTCT ACACCCGCTG CTTCTGCCTG GAGGAGCCTC AAAACAGCGA GGTGGATGCC 
    CAGCTGACGG GAAGAATCAG CCAGAAGGCA GAAAGGGGAG CAAAGGTCCA TCAGGAGACA 
    GCAGCCGATG AGTGTCCGCC CTGTGTCCAT GGTGCCCGGG ACAGCAATGT CACACTTGCT 
    CCCTCTGGCC CCAAGGGAGG GAAAGGTGAG CGGGGCCTGC CTGGTCCACC AGGCTCCAAG 
    GGAGAGAAGG GAGCACGGGG CAATGACTGT GTTCGAATCT CCCCGGATGC CCCACTTCAG 
    TGTGCAGAAG GCCCGAAGGG AGAGAAGGGG GAGTCAGGAG CTCTGGGACC CTCAGGACTC 
    CCAGGCTCAA CAGGCGAGAA GGGCCAGAAA GGCGAGAAGG GCGACGGAGG CATCAAGGGC 
    GTGCCGGGAA AGCCAGGCCG GGACGGCCGG CCAGGAGAGA TCTGTGTCAT TGGGCCCAAA 
    GGGCAGAAGG GAGACCCTGG CTTTGTTGGG CCTGAGGGGC TGGCAGGAGA GCCTGGGCCC 
    CCCGGCCTCC CTGGACCCCC TGGGATAGGA CTGCCTGGGA CCCCGGGGGA TCCAGGTGGC 
    CCACCAGGCC CCAAGGGAGA CAAGGGCAGC TCGGGGATCC CAGGAAAGGA AGGCCCTGGT 
    GGGAAACCTG GGAAGCCAGG TGTGAAGGGA GAGAAGGGTG ACCCCTGTGA AGTGTGCCCA 
    ACACTGCCTG AAGGGTTCCA GAACTTTGTT GGACTTCCTG GAAAGCCAGG GCCCAAAGGG 
    GAGCCTGGTG ATCCTGTACC AGCCAGGGGA GACCCTGGCA TCCAAGGCAT CAAAGGAGAG 
    AAGGGGGAGC CCTGCTTGTC CTGCAGCTCG GTTGTAGGGG CCCAGCATCT TGTGTCCTCC 
    ACAGGGGCCA GTGGAGATGT GGGTTCCCCT GGCTTTGGTC TGCCTGGCCT TCCGGGTAGA 
    GCTGGGGTTC CAGGGCTGAA AGGAGAGAAG GGTAACTTCG GGGAGGCAGG GCCAGCTGGC 
    AGTCCAGGGC CACCAGGACC AGTGGGGCCA GCAGGCATCA AAGGGGCGAA GGGGGAGCCC 
    TGTGAGCCGT GCCCAGCCCT GTCCAACCTT CAGGATGGGG ATGTCCGTGT GGTGGCCTTG 
    CCTGGCCCAT CCGGAGAGAA GGGGGAACCT GGGCCTCCAG GCTTTGGCTT GCCAGGAAAA 
    CAGGGCAAGG CTGGAGAGCG TGGACTGAAG GGGCAGAAGG GTGATGCTGG GAATCCTGGA 
    GACCCTGGAA CGCCGGGCAC CACAGGGCGG CCAGGACTGT CAGGAGAGCC TGGAGTTCAG 
    GGCCCCGCGG GGCCAAAAGG AGAAAAGGGT GATGGCTGCA CTGCCTGCCC CAGCCTGCAG 
    GGGACAGTGA CAGACATGGC AGGACGGCCT GGGCAGCCCG GCCCCAAAGG AGAGCAGGGC 
    CCCGAAGGCG TGGGCCGACC TGGTAAACCC GGCCAACCCG GTCTACCAGG AGTTCAAGGG 
    CCCCCAGGAC TGAAGGGCGT GCAGGGAGAG CCAGGGCCTC CAGGAAGGGG AGTCCAGGGA 
    CCCCAGGGGG AGCCTGGAGC CCCGGGTTTG CCTGGCATTC AGGGACTTCC GGGACCTCGG 
    GGACCACCTG GCCCCACTGG AGAGAAGGGT GCCCAGGGAT CTCCAGGGGT GAAAGGAGCC 
    ACCGGACCTG TGGGACCTCC TGGGGCCAGT GTCTCTGGGC CTCCGGGCCG TGATGGGCAG 
    CAAGGACAGA CGGGACTCAG AGGAACACCA GGTGAAAAAG GACCACGAGG AGAGAAGGGT 
    GAGCCAGGGG AGTGCTCCTG CCCCTCTCAA GGAGACCTCA TCTTCTCTGG CATGCCGGGT 
    CCACCAGGTA TTCCCGGACC ACCAGGCCCC CCTGGAGTAC CTGGGCTGCA GGGAGTGCCT 
    GGAAACAACG GTTTGCCAGG ACAGCCTGGG CTCACTGCAG AACTGGGATC CTTACCAATT 
    GAACAGCACC TCCTTAAGAG TATCTGCGGG GACTGTGTCC AGGGGCAGAG GGCCCACCCA 
    GGGTACCTCG TGGAGAAGGG AGAGAAGGGA GACCAGGGCA TCCCTGGTGT GCCAGGCCTC 
    GACAACTGCG CCCAGTGCTT TTTGTCACTG GAGCGCCCAA GAGCCGAGGA GGCCCGGGGT 
    GACAACAGTG AGGGAGATCC TGGCTGTGTT GGGAGCCCAG GCCTACCTGG TCCTCCGGGA 
    TTGCCAGGCC AGAGAGGAGA AGAGGGTCCG CCTGGCATGA GGGGCTCCCC GGGTCCTCCA 
    GGCCCTATCG GCCTTCAAGG AGAGCGAGGT CTCACGGGCC TGACTGGAGA CAAGGGGGAG 
    CCGGGTCCTC CAGGGCAACC AGGTTACCCA GGTGCCACGG GCCCCCCAGG ACTGCCTGGC 
    ATCAAGGGGG AGCGTGGCTA CACCGGGTCA GCGGGAGAGA AAGGAGAGCC GGGCCCCCCA 
    GGATCTGAAG GCCTCCCAGG CCCCCCAGGC CCAGCGGGTC CCAGAGGAGA GCGAGGACCC 
    CAAGGTAACT CCGGTGAGAA GGGCGACCAG GGATTTCAAG GCCAGCCAGG CTTTCCGGGC 
    CCACCGGGTC CCCCTGGATT CCCAGGCAAA GTTGGATCAC CTGGCCCACC TGGCCCTCAA 
    GCAGAGAAGG GCAGCGAAGG GATTCGAGGC CCATCAGGCC TGCCTGGCTC CCCTGGGCCA 
    CCGGGACCTC CTGGGATTCA GGGCCCCGCC GGTCTGGATG GTTTGGATGG GAAGGACGGC 
    AAGCCTGGCT TGAGGGGGGA CCCTGGTCCT GCTGGCCCCC CTGGACTCAT GGGACCACCG 
    GGCTTTAAGG GGAAAACAGG ACATCCTGGC CTCCCAGGAC CTAAGGGTGA CTGTGGCAAA 
    CCAGGTCCCC CTGGCAGCAC TGGCCGGCCT GGCGCAGAGG GTGAACCTGG TGCCATGGGA 
    CCCCAGGGAA GACCCGGTCC CCCGGGACAC GTTGGGCCAC CAGGGCCTCC AGGCCAGCCA 
    GGACCAGCTG GGATCTCTGC AGTGGGTCTG AAAGGAGACC GAGGAGCCAC CGGAGAAAGG 
    GGCCTTGCAG GCCTCCCAGG CCAGCCCGGC CCCCCTGGAC ACCCTGGCCC CCCAGGCGAA 
    CCTGGTACGG ATGGTGCAGC TGGCAAAGAG GGACCCCCTG GAAAGCAGGG ATTCTATGGA 
    CCTCCTGGTC CCAAGGGTGA TCCAGGAGCT GCAGGACAGA AGGGCCAGGC AGGAGAGAAG 
    GGGAGAGCCG GCATGCCTGG TGGACCTGGC AAGAGTGGTT CCATGGGGCC TGTTGGGCCA 
    CCGGGCCCTG CAGGAGAGAG AGGCCACCCT GGAGCTCCGG GGCCTTCGGG GAGCCCTGGC 
    TTGCCTGGTG TGCCTGGCTC CATGGGAGAC ATGGTGAATT ATGATGAAAT CAAGAGGTTC 
    ATCAGACAAG AGATCATTAA AATGTTTGAT GAGAGAATGG CTTACTACAC CTCCAGGATG 
    CAGTTCCCCA TGGAGATGGC GGCAGCTCCG GGACGACCAG GGCCTCCAGG GAAGGATGGT 
    GCTCCGGGCA GGCCAGGTGC TCCAGGGTCA CCTGGGCTCC CTGGTCAGAT TGGCAGAGAA 
    GGACGGCAGG GCTTGCCAGG AGTAAGAGGA TTGCCTGGTA CCAAAGGTGA AAAAGGGGAC 
    ATTGGTATTG GCATTGCAGG AGAAAATGGT CTTCCCGGCC CCCCAGGTCC TCAAGGTCCT 
    CCAGGCTATG GCAAGATGGG TGCAACAGGA CCAATGGGCC AGCAAGGCAT CCCTGGCATC 
    CCTGGGCCCC CGGGTCCCAT GGGCCAGCCA GGCAAGGCTG GCCACTGTAA TCCCTCTGAC 
    TGCTTTGGGG CCATGCCGAT GGAGCAGCAG TACCCACCCA TGAAAACCAT GAAGGGGCCT 
    TTTGGCTGA

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

    RefSeq XP_011539028.1
    CDS389..4597
    Translation

    Target ORF information:

    RefSeq Version XM_011540726.3
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540726.3

    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
    ATGCTGAGTG TGGCTGGACG TGTGGCCTCT GTGCACGTGG ACTGCAGCTC AGCCTCCTCC 
    CAGCCTCTGG GGCCCCGACG ACCCATGAGG CCTGTGGGCC ATGTATTTCT AGGCTTGGAT 
    GCTGAGCAGG GCAAGCCTGT CTCGTTTGAC CTTCAGCAGG TGCACATCTA CTGTGACCCG 
    GAGCTCGTGC TGGAGGAGGG CTGCTGTGAG ATTTTACCAG CAGGGTGCCC CCCAGAGACC 
    TCCAAGGCCC GCCGGGACAC CCAGAGCAAT GAGCTCATTG AGATCAATCC ACAGTCTGAA 
    GGCAAGGTCT ACACCCGCTG CTTCTGCCTG GAGGAGCCTC AAAACAGCGA GGTGGATGCC 
    CAGCTGACGG GAAGAATCAG CCAGAAGGCA GAAAGGGGAG CAAAGGTCCA TCAGGAGACA 
    GCAGCCGATG AGTGTCCGCC CTGTGTCCAT GGTGCCCGGG ACAGCAATGT CACACTTGCT 
    CCCTCTGGCC CCAAGGGAGG GAAAGGTGAG CGGGGCCTGC CTGGTCCACC AGGCTCCAAG 
    GGAGAGAAGG GAGCACGGGG CAATGACTGT GTTCGAATCT CCCCGGATGC CCCACTTCAG 
    TGTGCAGAAG GCCCGAAGGG AGAGAAGGGG GAGTCAGGAG CTCTGGGACC CTCAGGACTC 
    CCAGGCTCAA CAGGCGAGAA GGGCCAGAAA GGCGAGAAGG GCGACGGAGG CATCAAGGGC 
    GTGCCGGGAA AGCCAGGCCG GGACGGCCGG CCAGGAGAGA TCTGTGTCAT TGGGCCCAAA 
    GGGCAGAAGG GAGACCCTGG CTTTGTTGGG CCTGAGGGGC TGGCAGGAGA GCCTGGGCCC 
    CCCGGCCTCC CTGGACCCCC TGGGATAGGA CTGCCTGGGA CCCCGGGGGA TCCAGGTGGC 
    CCACCAGGCC CCAAGGGAGA CAAGGGCAGC TCGGGGATCC CAGGAAAGGA AGGCCCTGGT 
    GGGAAACCTG GGAAGCCAGG TGTGAAGGGA GAGAAGGGTG ACCCCTGTGA AGTGTGCCCA 
    ACACTGCCTG AAGGGTTCCA GAACTTTGTT GGACTTCCTG GAAAGCCAGG GCCCAAAGGG 
    GAGCCTGGTG ATCCTGTACC AGCCAGGGGA GACCCTGGCA TCCAAGGCAT CAAAGGAGAG 
    AAGGGGGAGC CCTGCTTGTC CTGCAGCTCG GTTGTAGGGG CCCAGCATCT TGTGTCCTCC 
    ACAGGGGCCA GTGGAGATGT GGGTTCCCCT GGCTTTGGTC TGCCTGGCCT TCCGGGTAGA 
    GCTGGGGTTC CAGGGCTGAA AGGAGAGAAG GGTAACTTCG GGGAGGCAGG GCCAGCTGGC 
    AGTCCAGGGC CACCAGGACC AGTGGGGCCA GCAGGCATCA AAGGGGCGAA GGGGGAGCCC 
    TGTGAGCCGT GCCCAGCCCT GTCCAACCTT CAGGATGGGG ATGTCCGTGT GGTGGCCTTG 
    CCTGGCCCAT CCGGAGAGAA GGGGGAACCT GGGCCTCCAG GCTTTGGCTT GCCAGGAAAA 
    CAGGGCAAGG CTGGAGAGCG TGGACTGAAG GGGCAGAAGG GTGATGCTGG GAATCCTGGA 
    GACCCTGGAA CGCCGGGCAC CACAGGGCGG CCAGGACTGT CAGGAGAGCC TGGAGTTCAG 
    GGCCCCGCGG GGCCAAAAGG AGAAAAGGGT GATGGCTGCA CTGCCTGCCC CAGCCTGCAG 
    GGGACAGTGA CAGACATGGC AGGACGGCCT GGGCAGCCCG GCCCCAAAGG AGAGCAGGGC 
    CCCGAAGGCG TGGGCCGACC TGGTAAACCC GGCCAACCCG GTCTACCAGG AGTTCAAGGG 
    CCCCCAGGAC TGAAGGGCGT GCAGGGAGAG CCAGGGCCTC CAGGAAGGGG AGTCCAGGGA 
    CCCCAGGGGG AGCCTGGAGC CCCGGGTTTG CCTGGCATTC AGGGACTTCC GGGACCTCGG 
    GGACCACCTG GCCCCACTGG AGAGAAGGGT GCCCAGGGAT CTCCAGGGGT GAAAGGAGCC 
    ACCGGACCTG TGGGACCTCC TGGGGCCAGT GTCTCTGGGC CTCCGGGCCG TGATGGGCAG 
    CAAGGACAGA CGGGACTCAG AGGAACACCA GGTGAAAAAG GACCACGAGG AGAGAAGGGT 
    GAGCCAGGGG AGTGCTCCTG CCCCTCTCAA GGAGACCTCA TCTTCTCTGG CATGCCGGGT 
    CCACCAGGTA TTCCCGGACC ACCAGGCCCC CCTGGAGTAC CTGGGCTGCA GGGAGTGCCT 
    GGAAACAACG GTTTGCCAGG ACAGCCTGGG CTCACTGCAG AACTGGGATC CTTACCAATT 
    GAACAGCACC TCCTTAAGAG TATCTGCGGG GACTGTGTCC AGGGGCAGAG GGCCCACCCA 
    GGGTACCTCG TGGAGAAGGG AGAGAAGGGA GACCAGGGCA TCCCTGGTGT GCCAGGCCTC 
    GACAACTGCG CCCAGTGCTT TTTGTCACTG GAGCGCCCAA GAGCCGAGGA GGCCCGGGGT 
    GACAACAGTG AGGGAGATCC TGGCTGTGTT GGGAGCCCAG GCCTACCTGG TCCTCCGGGA 
    TTGCCAGGCC AGAGAGGAGA AGAGGGTCCG CCTGGCATGA GGGGCTCCCC GGGTCCTCCA 
    GGCCCTATCG GCCTTCAAGG AGAGCGAGGT CTCACGGGCC TGACTGGAGA CAAGGGGGAG 
    CCGGGTCCTC CAGGGCAACC AGGTTACCCA GGTGCCACGG GCCCCCCAGG ACTGCCTGGC 
    ATCAAGGGGG AGCGTGGCTA CACCGGGTCA GCGGGAGAGA AAGGAGAGCC GGGCCCCCCA 
    GGATCTGAAG GCCTCCCAGG CCCCCCAGGC CCAGCGGGTC CCAGAGGAGA GCGAGGACCC 
    CAAGGTAACT CCGGTGAGAA GGGCGACCAG GGATTTCAAG GCCAGCCAGG CTTTCCGGGC 
    CCACCGGGTC CCCCTGGATT CCCAGGCAAA GTTGGATCAC CTGGCCCACC TGGCCCTCAA 
    GCAGAGAAGG GCAGCGAAGG GATTCGAGGC CCATCAGGCC TGCCTGGCTC CCCTGGGCCA 
    CCGGGACCTC CTGGGATTCA GGGCCCCGCC GGTCTGGATG GTTTGGATGG GAAGGACGGC 
    AAGCCTGGCT TGAGGGGGGA CCCTGGTCCT GCTGGCCCCC CTGGACTCAT GGGACCACCG 
    GGCTTTAAGG GGAAAACAGG ACATCCTGGC CTCCCAGGAC CTAAGGGTGA CTGTGGCAAA 
    CCAGGTCCCC CTGGCAGCAC TGGCCGGCCT GGCGCAGAGG GTGAACCTGG TGCCATGGGA 
    CCCCAGGGAA GACCCGGTCC CCCGGGACAC GTTGGGCCAC CAGGGCCTCC AGGCCAGCCA 
    GGACCAGCTG GGATCTCTGC AGTGGGTCTG AAAGGAGACC GAGGAGCCAC CGGAGAAAGG 
    GGCCTTGCAG GCCTCCCAGG CCAGCCCGGC CCCCCTGGAC ACCCTGGCCC CCCAGGCGAA 
    CCTGGTACGG ATGGTGCAGC TGGCAAAGAG GGACCCCCTG GAAAGCAGGG ATTCTATGGA 
    CCTCCTGGTC CCAAGGGTGA TCCAGGAGCT GCAGGACAGA AGGGCCAGGC AGGAGAGAAG 
    GGGAGAGCCG GCATGCCTGG TGGACCTGGC AAGAGTGGTT CCATGGGGCC TGTTGGGCCA 
    CCGGGCCCTG CAGGAGAGAG AGGCCACCCT GGAGCTCCGG GGCCTTCGGG GAGCCCTGGC 
    TTGCCTGGTG TGCCTGGCTC CATGGGAGAC ATGGTGAATT ATGATGAAAT CAAGAGGTTC 
    ATCAGACAAG AGATCATTAA AATGTTTGAT GAGAGAATGG CTTACTACAC CTCCAGGATG 
    CAGTTCCCCA TGGAGATGGC GGCAGCTCCG GGACGACCAG GGCCTCCAGG GAAGGATGGT 
    GCTCCGGGCA GGCCAGGTGC TCCAGGGTCA CCTGGGCTCC CTGGTCAGAT TGGCAGAGAA 
    GGACGGCAGG GCTTGCCAGG AGTAAGAGGA TTGCCTGGTA CCAAAGGTGA AAAAGGGGAC 
    ATTGGTATTG GCATTGCAGG AGAAAATGGT CTTCCCGGCC CCCCAGGTCC TCAAGGTCCT 
    CCAGGCTATG GCAAGATGGG TGCAACAGGA CCAATGGGCC AGCAAGGCAT CCCTGGCATC 
    CCTGGGCCCC CGGGTCCCAT GGGCCAGCCA GGCAAGGCTG GCCACTGTAA TCCCTCTGAC 
    TGCTTTGGGG CCATGCCGAT GGAGCAGCAG TACCCACCCA TGAAAACCAT GAAGGGGCCT 
    TTTGGCTGA

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

    COL16A1 ( XM_011540726.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539028.1 Homo sapiens collagen type XVI alpha 1 (COL16A1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu57034
    Clone ID Related Accession (Same CDS sequence) XM_011540726.3 , XM_011540726.2
    Accession Version XM_011540726.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4209bp)
    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(XVI) chain isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540726.1. ##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
    ATGCTGAGTG TGGCTGGACG TGTGGCCTCT GTGCACGTGG ACTGCAGCTC AGCCTCCTCC 
    CAGCCTCTGG GGCCCCGACG ACCCATGAGG CCTGTGGGCC ATGTATTTCT AGGCTTGGAT 
    GCTGAGCAGG GCAAGCCTGT CTCGTTTGAC CTTCAGCAGG TGCACATCTA CTGTGACCCG 
    GAGCTCGTGC TGGAGGAGGG CTGCTGTGAG ATTTTACCAG CAGGGTGCCC CCCAGAGACC 
    TCCAAGGCCC GCCGGGACAC CCAGAGCAAT GAGCTCATTG AGATCAATCC ACAGTCTGAA 
    GGCAAGGTCT ACACCCGCTG CTTCTGCCTG GAGGAGCCTC AAAACAGCGA GGTGGATGCC 
    CAGCTGACGG GAAGAATCAG CCAGAAGGCA GAAAGGGGAG CAAAGGTCCA TCAGGAGACA 
    GCAGCCGATG AGTGTCCGCC CTGTGTCCAT GGTGCCCGGG ACAGCAATGT CACACTTGCT 
    CCCTCTGGCC CCAAGGGAGG GAAAGGTGAG CGGGGCCTGC CTGGTCCACC AGGCTCCAAG 
    GGAGAGAAGG GAGCACGGGG CAATGACTGT GTTCGAATCT CCCCGGATGC CCCACTTCAG 
    TGTGCAGAAG GCCCGAAGGG AGAGAAGGGG GAGTCAGGAG CTCTGGGACC CTCAGGACTC 
    CCAGGCTCAA CAGGCGAGAA GGGCCAGAAA GGCGAGAAGG GCGACGGAGG CATCAAGGGC 
    GTGCCGGGAA AGCCAGGCCG GGACGGCCGG CCAGGAGAGA TCTGTGTCAT TGGGCCCAAA 
    GGGCAGAAGG GAGACCCTGG CTTTGTTGGG CCTGAGGGGC TGGCAGGAGA GCCTGGGCCC 
    CCCGGCCTCC CTGGACCCCC TGGGATAGGA CTGCCTGGGA CCCCGGGGGA TCCAGGTGGC 
    CCACCAGGCC CCAAGGGAGA CAAGGGCAGC TCGGGGATCC CAGGAAAGGA AGGCCCTGGT 
    GGGAAACCTG GGAAGCCAGG TGTGAAGGGA GAGAAGGGTG ACCCCTGTGA AGTGTGCCCA 
    ACACTGCCTG AAGGGTTCCA GAACTTTGTT GGACTTCCTG GAAAGCCAGG GCCCAAAGGG 
    GAGCCTGGTG ATCCTGTACC AGCCAGGGGA GACCCTGGCA TCCAAGGCAT CAAAGGAGAG 
    AAGGGGGAGC CCTGCTTGTC CTGCAGCTCG GTTGTAGGGG CCCAGCATCT TGTGTCCTCC 
    ACAGGGGCCA GTGGAGATGT GGGTTCCCCT GGCTTTGGTC TGCCTGGCCT TCCGGGTAGA 
    GCTGGGGTTC CAGGGCTGAA AGGAGAGAAG GGTAACTTCG GGGAGGCAGG GCCAGCTGGC 
    AGTCCAGGGC CACCAGGACC AGTGGGGCCA GCAGGCATCA AAGGGGCGAA GGGGGAGCCC 
    TGTGAGCCGT GCCCAGCCCT GTCCAACCTT CAGGATGGGG ATGTCCGTGT GGTGGCCTTG 
    CCTGGCCCAT CCGGAGAGAA GGGGGAACCT GGGCCTCCAG GCTTTGGCTT GCCAGGAAAA 
    CAGGGCAAGG CTGGAGAGCG TGGACTGAAG GGGCAGAAGG GTGATGCTGG GAATCCTGGA 
    GACCCTGGAA CGCCGGGCAC CACAGGGCGG CCAGGACTGT CAGGAGAGCC TGGAGTTCAG 
    GGCCCCGCGG GGCCAAAAGG AGAAAAGGGT GATGGCTGCA CTGCCTGCCC CAGCCTGCAG 
    GGGACAGTGA CAGACATGGC AGGACGGCCT GGGCAGCCCG GCCCCAAAGG AGAGCAGGGC 
    CCCGAAGGCG TGGGCCGACC TGGTAAACCC GGCCAACCCG GTCTACCAGG AGTTCAAGGG 
    CCCCCAGGAC TGAAGGGCGT GCAGGGAGAG CCAGGGCCTC CAGGAAGGGG AGTCCAGGGA 
    CCCCAGGGGG AGCCTGGAGC CCCGGGTTTG CCTGGCATTC AGGGACTTCC GGGACCTCGG 
    GGACCACCTG GCCCCACTGG AGAGAAGGGT GCCCAGGGAT CTCCAGGGGT GAAAGGAGCC 
    ACCGGACCTG TGGGACCTCC TGGGGCCAGT GTCTCTGGGC CTCCGGGCCG TGATGGGCAG 
    CAAGGACAGA CGGGACTCAG AGGAACACCA GGTGAAAAAG GACCACGAGG AGAGAAGGGT 
    GAGCCAGGGG AGTGCTCCTG CCCCTCTCAA GGAGACCTCA TCTTCTCTGG CATGCCGGGT 
    CCACCAGGTA TTCCCGGACC ACCAGGCCCC CCTGGAGTAC CTGGGCTGCA GGGAGTGCCT 
    GGAAACAACG GTTTGCCAGG ACAGCCTGGG CTCACTGCAG AACTGGGATC CTTACCAATT 
    GAACAGCACC TCCTTAAGAG TATCTGCGGG GACTGTGTCC AGGGGCAGAG GGCCCACCCA 
    GGGTACCTCG TGGAGAAGGG AGAGAAGGGA GACCAGGGCA TCCCTGGTGT GCCAGGCCTC 
    GACAACTGCG CCCAGTGCTT TTTGTCACTG GAGCGCCCAA GAGCCGAGGA GGCCCGGGGT 
    GACAACAGTG AGGGAGATCC TGGCTGTGTT GGGAGCCCAG GCCTACCTGG TCCTCCGGGA 
    TTGCCAGGCC AGAGAGGAGA AGAGGGTCCG CCTGGCATGA GGGGCTCCCC GGGTCCTCCA 
    GGCCCTATCG GCCTTCAAGG AGAGCGAGGT CTCACGGGCC TGACTGGAGA CAAGGGGGAG 
    CCGGGTCCTC CAGGGCAACC AGGTTACCCA GGTGCCACGG GCCCCCCAGG ACTGCCTGGC 
    ATCAAGGGGG AGCGTGGCTA CACCGGGTCA GCGGGAGAGA AAGGAGAGCC GGGCCCCCCA 
    GGATCTGAAG GCCTCCCAGG CCCCCCAGGC CCAGCGGGTC CCAGAGGAGA GCGAGGACCC 
    CAAGGTAACT CCGGTGAGAA GGGCGACCAG GGATTTCAAG GCCAGCCAGG CTTTCCGGGC 
    CCACCGGGTC CCCCTGGATT CCCAGGCAAA GTTGGATCAC CTGGCCCACC TGGCCCTCAA 
    GCAGAGAAGG GCAGCGAAGG GATTCGAGGC CCATCAGGCC TGCCTGGCTC CCCTGGGCCA 
    CCGGGACCTC CTGGGATTCA GGGCCCCGCC GGTCTGGATG GTTTGGATGG GAAGGACGGC 
    AAGCCTGGCT TGAGGGGGGA CCCTGGTCCT GCTGGCCCCC CTGGACTCAT GGGACCACCG 
    GGCTTTAAGG GGAAAACAGG ACATCCTGGC CTCCCAGGAC CTAAGGGTGA CTGTGGCAAA 
    CCAGGTCCCC CTGGCAGCAC TGGCCGGCCT GGCGCAGAGG GTGAACCTGG TGCCATGGGA 
    CCCCAGGGAA GACCCGGTCC CCCGGGACAC GTTGGGCCAC CAGGGCCTCC AGGCCAGCCA 
    GGACCAGCTG GGATCTCTGC AGTGGGTCTG AAAGGAGACC GAGGAGCCAC CGGAGAAAGG 
    GGCCTTGCAG GCCTCCCAGG CCAGCCCGGC CCCCCTGGAC ACCCTGGCCC CCCAGGCGAA 
    CCTGGTACGG ATGGTGCAGC TGGCAAAGAG GGACCCCCTG GAAAGCAGGG ATTCTATGGA 
    CCTCCTGGTC CCAAGGGTGA TCCAGGAGCT GCAGGACAGA AGGGCCAGGC AGGAGAGAAG 
    GGGAGAGCCG GCATGCCTGG TGGACCTGGC AAGAGTGGTT CCATGGGGCC TGTTGGGCCA 
    CCGGGCCCTG CAGGAGAGAG AGGCCACCCT GGAGCTCCGG GGCCTTCGGG GAGCCCTGGC 
    TTGCCTGGTG TGCCTGGCTC CATGGGAGAC ATGGTGAATT ATGATGAAAT CAAGAGGTTC 
    ATCAGACAAG AGATCATTAA AATGTTTGAT GAGAGAATGG CTTACTACAC CTCCAGGATG 
    CAGTTCCCCA TGGAGATGGC GGCAGCTCCG GGACGACCAG GGCCTCCAGG GAAGGATGGT 
    GCTCCGGGCA GGCCAGGTGC TCCAGGGTCA CCTGGGCTCC CTGGTCAGAT TGGCAGAGAA 
    GGACGGCAGG GCTTGCCAGG AGTAAGAGGA TTGCCTGGTA CCAAAGGTGA AAAAGGGGAC 
    ATTGGTATTG GCATTGCAGG AGAAAATGGT CTTCCCGGCC CCCCAGGTCC TCAAGGTCCT 
    CCAGGCTATG GCAAGATGGG TGCAACAGGA CCAATGGGCC AGCAAGGCAT CCCTGGCATC 
    CCTGGGCCCC CGGGTCCCAT GGGCCAGCCA GGCAAGGCTG GCCACTGTAA TCCCTCTGAC 
    TGCTTTGGGG CCATGCCGAT GGAGCAGCAG TACCCACCCA TGAAAACCAT GAAGGGGCCT 
    TTTGGCTGA

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

    RefSeq XP_011539028.1
    CDS390..4598
    Translation

    Target ORF information:

    RefSeq Version XM_011540726.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 (COL16A1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540726.2

    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
    ATGCTGAGTG TGGCTGGACG TGTGGCCTCT GTGCACGTGG ACTGCAGCTC AGCCTCCTCC 
    CAGCCTCTGG GGCCCCGACG ACCCATGAGG CCTGTGGGCC ATGTATTTCT AGGCTTGGAT 
    GCTGAGCAGG GCAAGCCTGT CTCGTTTGAC CTTCAGCAGG TGCACATCTA CTGTGACCCG 
    GAGCTCGTGC TGGAGGAGGG CTGCTGTGAG ATTTTACCAG CAGGGTGCCC CCCAGAGACC 
    TCCAAGGCCC GCCGGGACAC CCAGAGCAAT GAGCTCATTG AGATCAATCC ACAGTCTGAA 
    GGCAAGGTCT ACACCCGCTG CTTCTGCCTG GAGGAGCCTC AAAACAGCGA GGTGGATGCC 
    CAGCTGACGG GAAGAATCAG CCAGAAGGCA GAAAGGGGAG CAAAGGTCCA TCAGGAGACA 
    GCAGCCGATG AGTGTCCGCC CTGTGTCCAT GGTGCCCGGG ACAGCAATGT CACACTTGCT 
    CCCTCTGGCC CCAAGGGAGG GAAAGGTGAG CGGGGCCTGC CTGGTCCACC AGGCTCCAAG 
    GGAGAGAAGG GAGCACGGGG CAATGACTGT GTTCGAATCT CCCCGGATGC CCCACTTCAG 
    TGTGCAGAAG GCCCGAAGGG AGAGAAGGGG GAGTCAGGAG CTCTGGGACC CTCAGGACTC 
    CCAGGCTCAA CAGGCGAGAA GGGCCAGAAA GGCGAGAAGG GCGACGGAGG CATCAAGGGC 
    GTGCCGGGAA AGCCAGGCCG GGACGGCCGG CCAGGAGAGA TCTGTGTCAT TGGGCCCAAA 
    GGGCAGAAGG GAGACCCTGG CTTTGTTGGG CCTGAGGGGC TGGCAGGAGA GCCTGGGCCC 
    CCCGGCCTCC CTGGACCCCC TGGGATAGGA CTGCCTGGGA CCCCGGGGGA TCCAGGTGGC 
    CCACCAGGCC CCAAGGGAGA CAAGGGCAGC TCGGGGATCC CAGGAAAGGA AGGCCCTGGT 
    GGGAAACCTG GGAAGCCAGG TGTGAAGGGA GAGAAGGGTG ACCCCTGTGA AGTGTGCCCA 
    ACACTGCCTG AAGGGTTCCA GAACTTTGTT GGACTTCCTG GAAAGCCAGG GCCCAAAGGG 
    GAGCCTGGTG ATCCTGTACC AGCCAGGGGA GACCCTGGCA TCCAAGGCAT CAAAGGAGAG 
    AAGGGGGAGC CCTGCTTGTC CTGCAGCTCG GTTGTAGGGG CCCAGCATCT TGTGTCCTCC 
    ACAGGGGCCA GTGGAGATGT GGGTTCCCCT GGCTTTGGTC TGCCTGGCCT TCCGGGTAGA 
    GCTGGGGTTC CAGGGCTGAA AGGAGAGAAG GGTAACTTCG GGGAGGCAGG GCCAGCTGGC 
    AGTCCAGGGC CACCAGGACC AGTGGGGCCA GCAGGCATCA AAGGGGCGAA GGGGGAGCCC 
    TGTGAGCCGT GCCCAGCCCT GTCCAACCTT CAGGATGGGG ATGTCCGTGT GGTGGCCTTG 
    CCTGGCCCAT CCGGAGAGAA GGGGGAACCT GGGCCTCCAG GCTTTGGCTT GCCAGGAAAA 
    CAGGGCAAGG CTGGAGAGCG TGGACTGAAG GGGCAGAAGG GTGATGCTGG GAATCCTGGA 
    GACCCTGGAA CGCCGGGCAC CACAGGGCGG CCAGGACTGT CAGGAGAGCC TGGAGTTCAG 
    GGCCCCGCGG GGCCAAAAGG AGAAAAGGGT GATGGCTGCA CTGCCTGCCC CAGCCTGCAG 
    GGGACAGTGA CAGACATGGC AGGACGGCCT GGGCAGCCCG GCCCCAAAGG AGAGCAGGGC 
    CCCGAAGGCG TGGGCCGACC TGGTAAACCC GGCCAACCCG GTCTACCAGG AGTTCAAGGG 
    CCCCCAGGAC TGAAGGGCGT GCAGGGAGAG CCAGGGCCTC CAGGAAGGGG AGTCCAGGGA 
    CCCCAGGGGG AGCCTGGAGC CCCGGGTTTG CCTGGCATTC AGGGACTTCC GGGACCTCGG 
    GGACCACCTG GCCCCACTGG AGAGAAGGGT GCCCAGGGAT CTCCAGGGGT GAAAGGAGCC 
    ACCGGACCTG TGGGACCTCC TGGGGCCAGT GTCTCTGGGC CTCCGGGCCG TGATGGGCAG 
    CAAGGACAGA CGGGACTCAG AGGAACACCA GGTGAAAAAG GACCACGAGG AGAGAAGGGT 
    GAGCCAGGGG AGTGCTCCTG CCCCTCTCAA GGAGACCTCA TCTTCTCTGG CATGCCGGGT 
    CCACCAGGTA TTCCCGGACC ACCAGGCCCC CCTGGAGTAC CTGGGCTGCA GGGAGTGCCT 
    GGAAACAACG GTTTGCCAGG ACAGCCTGGG CTCACTGCAG AACTGGGATC CTTACCAATT 
    GAACAGCACC TCCTTAAGAG TATCTGCGGG GACTGTGTCC AGGGGCAGAG GGCCCACCCA 
    GGGTACCTCG TGGAGAAGGG AGAGAAGGGA GACCAGGGCA TCCCTGGTGT GCCAGGCCTC 
    GACAACTGCG CCCAGTGCTT TTTGTCACTG GAGCGCCCAA GAGCCGAGGA GGCCCGGGGT 
    GACAACAGTG AGGGAGATCC TGGCTGTGTT GGGAGCCCAG GCCTACCTGG TCCTCCGGGA 
    TTGCCAGGCC AGAGAGGAGA AGAGGGTCCG CCTGGCATGA GGGGCTCCCC GGGTCCTCCA 
    GGCCCTATCG GCCTTCAAGG AGAGCGAGGT CTCACGGGCC TGACTGGAGA CAAGGGGGAG 
    CCGGGTCCTC CAGGGCAACC AGGTTACCCA GGTGCCACGG GCCCCCCAGG ACTGCCTGGC 
    ATCAAGGGGG AGCGTGGCTA CACCGGGTCA GCGGGAGAGA AAGGAGAGCC GGGCCCCCCA 
    GGATCTGAAG GCCTCCCAGG CCCCCCAGGC CCAGCGGGTC CCAGAGGAGA GCGAGGACCC 
    CAAGGTAACT CCGGTGAGAA GGGCGACCAG GGATTTCAAG GCCAGCCAGG CTTTCCGGGC 
    CCACCGGGTC CCCCTGGATT CCCAGGCAAA GTTGGATCAC CTGGCCCACC TGGCCCTCAA 
    GCAGAGAAGG GCAGCGAAGG GATTCGAGGC CCATCAGGCC TGCCTGGCTC CCCTGGGCCA 
    CCGGGACCTC CTGGGATTCA GGGCCCCGCC GGTCTGGATG GTTTGGATGG GAAGGACGGC 
    AAGCCTGGCT TGAGGGGGGA CCCTGGTCCT GCTGGCCCCC CTGGACTCAT GGGACCACCG 
    GGCTTTAAGG GGAAAACAGG ACATCCTGGC CTCCCAGGAC CTAAGGGTGA CTGTGGCAAA 
    CCAGGTCCCC CTGGCAGCAC TGGCCGGCCT GGCGCAGAGG GTGAACCTGG TGCCATGGGA 
    CCCCAGGGAA GACCCGGTCC CCCGGGACAC GTTGGGCCAC CAGGGCCTCC AGGCCAGCCA 
    GGACCAGCTG GGATCTCTGC AGTGGGTCTG AAAGGAGACC GAGGAGCCAC CGGAGAAAGG 
    GGCCTTGCAG GCCTCCCAGG CCAGCCCGGC CCCCCTGGAC ACCCTGGCCC CCCAGGCGAA 
    CCTGGTACGG ATGGTGCAGC TGGCAAAGAG GGACCCCCTG GAAAGCAGGG ATTCTATGGA 
    CCTCCTGGTC CCAAGGGTGA TCCAGGAGCT GCAGGACAGA AGGGCCAGGC AGGAGAGAAG 
    GGGAGAGCCG GCATGCCTGG TGGACCTGGC AAGAGTGGTT CCATGGGGCC TGTTGGGCCA 
    CCGGGCCCTG CAGGAGAGAG AGGCCACCCT GGAGCTCCGG GGCCTTCGGG GAGCCCTGGC 
    TTGCCTGGTG TGCCTGGCTC CATGGGAGAC ATGGTGAATT ATGATGAAAT CAAGAGGTTC 
    ATCAGACAAG AGATCATTAA AATGTTTGAT GAGAGAATGG CTTACTACAC CTCCAGGATG 
    CAGTTCCCCA TGGAGATGGC GGCAGCTCCG GGACGACCAG GGCCTCCAGG GAAGGATGGT 
    GCTCCGGGCA GGCCAGGTGC TCCAGGGTCA CCTGGGCTCC CTGGTCAGAT TGGCAGAGAA 
    GGACGGCAGG GCTTGCCAGG AGTAAGAGGA TTGCCTGGTA CCAAAGGTGA AAAAGGGGAC 
    ATTGGTATTG GCATTGCAGG AGAAAATGGT CTTCCCGGCC CCCCAGGTCC TCAAGGTCCT 
    CCAGGCTATG GCAAGATGGG TGCAACAGGA CCAATGGGCC AGCAAGGCAT CCCTGGCATC 
    CCTGGGCCCC CGGGTCCCAT GGGCCAGCCA GGCAAGGCTG GCCACTGTAA TCCCTCTGAC 
    TGCTTTGGGG CCATGCCGAT GGAGCAGCAG TACCCACCCA TGAAAACCAT GAAGGGGCCT 
    TTTGGCTGA

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

    COL16A1 ( XM_011540727.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539029.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu57035
    Clone ID Related Accession (Same CDS sequence) XM_011540727.2
    Accession Version XM_011540727.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3909bp)
    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(XVI) chain isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540727.1. ##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
    ATGGAGGGTG TGCAGGGTGG AGCGGGCAAG AGCCGGGAGT GGACGTTGCC TAGAGCTGGC 
    TTGGCAGCCT CCTGGGTCAC ACTTGCTCCC TCTGGCCCCA AGGGAGGGAA AGGTGAGCGG 
    GGCCTGCCTG GTCCACCAGG CTCCAAGGGA GAGAAGGGAG CACGGGGCAA TGACTGTGTT 
    CGAATCTCCC CGGATGCCCC ACTTCAGTGT GCAGAAGGCC CGAAGGGAGA GAAGGGGGAG 
    TCAGGAGCTC TGGGACCCTC AGGACTCCCA GGCTCAACAG GCGAGAAGGG CCAGAAAGGC 
    GAGAAGGGCG ACGGAGGCAT CAAGGGCGTG CCGGGAAAGC CAGGCCGGGA CGGCCGGCCA 
    GGAGAGATCT GTGTCATTGG GCCCAAAGGG CAGAAGGGAG ACCCTGGCTT TGTTGGGCCT 
    GAGGGGCTGG CAGGAGAGCC TGGGCCCCCC GGCCTCCCTG GACCCCCTGG GATAGGACTG 
    CCTGGGACCC CGGGGGATCC AGGTGGCCCA CCAGGCCCCA AGGGAGACAA GGGCAGCTCG 
    GGGATCCCAG GAAAGGAAGG CCCTGGTGGG AAACCTGGGA AGCCAGGTGT GAAGGGAGAG 
    AAGGGTGACC CCTGTGAAGT GTGCCCAACA CTGCCTGAAG GGTTCCAGAA CTTTGTTGGA 
    CTTCCTGGAA AGCCAGGGCC CAAAGGGGAG CCTGGTGATC CTGTACCAGC CAGGGGAGAC 
    CCTGGCATCC AAGGCATCAA AGGAGAGAAG GGGGAGCCCT GCTTGTCCTG CAGCTCGGTT 
    GTAGGGGCCC AGCATCTTGT GTCCTCCACA GGGGCCAGTG GAGATGTGGG TTCCCCTGGC 
    TTTGGTCTGC CTGGCCTTCC GGGTAGAGCT GGGGTTCCAG GGCTGAAAGG AGAGAAGGGT 
    AACTTCGGGG AGGCAGGGCC AGCTGGCAGT CCAGGGCCAC CAGGACCAGT GGGGCCAGCA 
    GGCATCAAAG GGGCGAAGGG GGAGCCCTGT GAGCCGTGCC CAGCCCTGTC CAACCTTCAG 
    GATGGGGATG TCCGTGTGGT GGCCTTGCCT GGCCCATCCG GAGAGAAGGG GGAACCTGGG 
    CCTCCAGGCT TTGGCTTGCC AGGAAAACAG GGCAAGGCTG GAGAGCGTGG ACTGAAGGGG 
    CAGAAGGGTG ATGCTGGGAA TCCTGGAGAC CCTGGAACGC CGGGCACCAC AGGGCGGCCA 
    GGACTGTCAG GAGAGCCTGG AGTTCAGGGC CCCGCGGGGC CAAAAGGAGA AAAGGGTGAT 
    GGCTGCACTG CCTGCCCCAG CCTGCAGGGG ACAGTGACAG ACATGGCAGG ACGGCCTGGG 
    CAGCCCGGCC CCAAAGGAGA GCAGGGCCCC GAAGGCGTGG GCCGACCTGG TAAACCCGGC 
    CAACCCGGTC TACCAGGAGT TCAAGGGCCC CCAGGACTGA AGGGCGTGCA GGGAGAGCCA 
    GGGCCTCCAG GAAGGGGAGT CCAGGGACCC CAGGGGGAGC CTGGAGCCCC GGGTTTGCCT 
    GGCATTCAGG GACTTCCGGG ACCTCGGGGA CCACCTGGCC CCACTGGAGA GAAGGGTGCC 
    CAGGGATCTC CAGGGGTGAA AGGAGCCACC GGACCTGTGG GACCTCCTGG GGCCAGTGTC 
    TCTGGGCCTC CGGGCCGTGA TGGGCAGCAA GGACAGACGG GACTCAGAGG AACACCAGGT 
    GAAAAAGGAC CACGAGGAGA GAAGGGTGAG CCAGGGGAGT GCTCCTGCCC CTCTCAAGGA 
    GACCTCATCT TCTCTGGCAT GCCGGGTGCT CCGGGACTTT GGATGGGCAG CTCCTGGCAG 
    CCGGGCCCGC AGGGTCCACC AGGTATTCCC GGACCACCAG GCCCCCCTGG AGTACCTGGG 
    CTGCAGGGAG TGCCTGGAAA CAACGGTTTG CCAGGACAGC CTGGGCTCAC TGCAGAACTG 
    GGATCCTTAC CAATTGAACA GCACCTCCTT AAGAGTATCT GCGGGGACTG TGTCCAGGGG 
    CAGAGGGCCC ACCCAGGGTA CCTCGTGGAG AAGGGAGAGA AGGGAGACCA GGGCATCCCT 
    GGTGTGCCAG GCCTCGACAA CTGCGCCCAG TGCTTTTTGT CACTGGAGCG CCCAAGAGCC 
    GAGGAGGCCC GGGGTGACAA CAGTGAGGGA GATCCTGGCT GTGTTGGGAG CCCAGGCCTA 
    CCTGGTCCTC CGGGATTGCC AGGCCAGAGA GGAGAAGAGG GTCCGCCTGG CATGAGGGGC 
    TCCCCGGGTC CTCCAGGCCC TATCGGCCCC CCAGGTTTTC CTGGTGCTGT TGGCTCCCCC 
    GGATTGCCTG GCCTTCAAGG AGAGCGAGGT CTCACGGGCC TGACTGGAGA CAAGGGGGAG 
    CCGGGTCCTC CAGGGCAACC AGGTTACCCA GGTGCCACGG GCCCCCCAGG ACTGCCTGGC 
    ATCAAGGGGG AGCGTGGCTA CACCGGGTCA GCGGGAGAGA AAGGAGAGCC GGGCCCCCCA 
    GGATCTGAAG GCCTCCCAGG CCCCCCAGGC CCAGCGGGTC CCAGAGGAGA GCGAGGACCC 
    CAAGGTAACT CCGGTGAGAA GGGCGACCAG GGATTTCAAG GCCAGCCAGG CTTTCCGGGC 
    CCACCGGGTC CCCCTGGATT CCCAGGCAAA GTTGGATCAC CTGGCCCACC TGGCCCTCAA 
    GCAGAGAAGG GCAGCGAAGG GATTCGAGGC CCATCAGGCC TGCCTGGCTC CCCTGGGCCA 
    CCGGGACCTC CTGGGATTCA GGGCCCCGCC GGTCTGGATG GTTTGGATGG GAAGGACGGC 
    AAGCCTGGCT TGAGGGGGGA CCCTGGTCCT GCTGGCCCCC CTGGACTCAT GGGACCACCG 
    GGCTTTAAGG GGAAAACAGG ACATCCTGGC CTCCCAGGAC CTAAGGGTGA CTGTGGCAAA 
    CCAGGTCCCC CTGGCAGCAC TGGCCGGCCT GGCGCAGAGG GTGAACCTGG TGCCATGGGA 
    CCCCAGGGAA GACCCGGTCC CCCGGGACAC GTTGGGCCAC CAGGGCCTCC AGGCCAGCCA 
    GGACCAGCTG GGATCTCTGC AGTGGGTCTG AAAGGAGACC GAGGAGCCAC CGGAGAAAGG 
    GGCCTTGCAG GCCTCCCAGG CCAGCCCGGC CCCCCTGGAC ACCCTGGCCC CCCAGGCGAA 
    CCTGGTACGG ATGGTGCAGC TGGCAAAGAG GGACCCCCTG GAAAGCAGGG ATTCTATGGA 
    CCTCCTGGTC CCAAGGGTGA TCCAGGAGCT GCAGGACAGA AGGGCCAGGC AGGAGAGAAG 
    GGGAGAGCCG GCATGCCTGG TGGACCTGGC AAGAGTGGTT CCATGGGGCC TGTTGGGCCA 
    CCGGGCCCTG CAGGAGAGAG AGGCCACCCT GGAGCTCCGG GGCCTTCGGG GAGCCCTGGC 
    TTGCCTGGTG TGCCTGGCTC CATGGGAGAC ATGGTGAATT ATGATGAAAT CAAGAGGTTC 
    ATCAGACAAG AGATCATTAA AATGTTTGAT GAGAGAATGG CTTACTACAC CTCCAGGATG 
    CAGTTCCCCA TGGAGATGGC GGCAGCTCCG GGACGACCAG GGCCTCCAGG GAAGGATGGT 
    GCTCCGGGCA GGCCAGGTGC TCCAGGGTCA CCTGGGCTCC CTGGTCAGAT TGGCAGAGAA 
    GGACGGCAGG GCTTGCCAGG AGTAAGAGGA TTGCCTGGTA CCAAAGGTGA AAAAGGGGAC 
    ATTGGTATTG GCATTGCAGG AGAAAATGGT CTTCCCGGCC CCCCAGGTCC TCAAGGTCCT 
    CCAGGCTATG GCAAGATGGG TGCAACAGGA CCAATGGGCC AGCAAGGCAT CCCTGGCATC 
    CCTGGGCCCC CGGGTCCCAT GGGCCAGCCA GGCAAGGCTG GCCACTGTAA TCCCTCTGAC 
    TGCTTTGGGG CCATGCCGAT GGAGCAGCAG TACCCACCCA TGAAAACCAT GAAGGGGCCT 
    TTTGGCTGA

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

    RefSeq XP_011539029.1
    CDS28..3936
    Translation

    Target ORF information:

    RefSeq Version XM_011540727.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540727.2

    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
    ATGGAGGGTG TGCAGGGTGG AGCGGGCAAG AGCCGGGAGT GGACGTTGCC TAGAGCTGGC 
    TTGGCAGCCT CCTGGGTCAC ACTTGCTCCC TCTGGCCCCA AGGGAGGGAA AGGTGAGCGG 
    GGCCTGCCTG GTCCACCAGG CTCCAAGGGA GAGAAGGGAG CACGGGGCAA TGACTGTGTT 
    CGAATCTCCC CGGATGCCCC ACTTCAGTGT GCAGAAGGCC CGAAGGGAGA GAAGGGGGAG 
    TCAGGAGCTC TGGGACCCTC AGGACTCCCA GGCTCAACAG GCGAGAAGGG CCAGAAAGGC 
    GAGAAGGGCG ACGGAGGCAT CAAGGGCGTG CCGGGAAAGC CAGGCCGGGA CGGCCGGCCA 
    GGAGAGATCT GTGTCATTGG GCCCAAAGGG CAGAAGGGAG ACCCTGGCTT TGTTGGGCCT 
    GAGGGGCTGG CAGGAGAGCC TGGGCCCCCC GGCCTCCCTG GACCCCCTGG GATAGGACTG 
    CCTGGGACCC CGGGGGATCC AGGTGGCCCA CCAGGCCCCA AGGGAGACAA GGGCAGCTCG 
    GGGATCCCAG GAAAGGAAGG CCCTGGTGGG AAACCTGGGA AGCCAGGTGT GAAGGGAGAG 
    AAGGGTGACC CCTGTGAAGT GTGCCCAACA CTGCCTGAAG GGTTCCAGAA CTTTGTTGGA 
    CTTCCTGGAA AGCCAGGGCC CAAAGGGGAG CCTGGTGATC CTGTACCAGC CAGGGGAGAC 
    CCTGGCATCC AAGGCATCAA AGGAGAGAAG GGGGAGCCCT GCTTGTCCTG CAGCTCGGTT 
    GTAGGGGCCC AGCATCTTGT GTCCTCCACA GGGGCCAGTG GAGATGTGGG TTCCCCTGGC 
    TTTGGTCTGC CTGGCCTTCC GGGTAGAGCT GGGGTTCCAG GGCTGAAAGG AGAGAAGGGT 
    AACTTCGGGG AGGCAGGGCC AGCTGGCAGT CCAGGGCCAC CAGGACCAGT GGGGCCAGCA 
    GGCATCAAAG GGGCGAAGGG GGAGCCCTGT GAGCCGTGCC CAGCCCTGTC CAACCTTCAG 
    GATGGGGATG TCCGTGTGGT GGCCTTGCCT GGCCCATCCG GAGAGAAGGG GGAACCTGGG 
    CCTCCAGGCT TTGGCTTGCC AGGAAAACAG GGCAAGGCTG GAGAGCGTGG ACTGAAGGGG 
    CAGAAGGGTG ATGCTGGGAA TCCTGGAGAC CCTGGAACGC CGGGCACCAC AGGGCGGCCA 
    GGACTGTCAG GAGAGCCTGG AGTTCAGGGC CCCGCGGGGC CAAAAGGAGA AAAGGGTGAT 
    GGCTGCACTG CCTGCCCCAG CCTGCAGGGG ACAGTGACAG ACATGGCAGG ACGGCCTGGG 
    CAGCCCGGCC CCAAAGGAGA GCAGGGCCCC GAAGGCGTGG GCCGACCTGG TAAACCCGGC 
    CAACCCGGTC TACCAGGAGT TCAAGGGCCC CCAGGACTGA AGGGCGTGCA GGGAGAGCCA 
    GGGCCTCCAG GAAGGGGAGT CCAGGGACCC CAGGGGGAGC CTGGAGCCCC GGGTTTGCCT 
    GGCATTCAGG GACTTCCGGG ACCTCGGGGA CCACCTGGCC CCACTGGAGA GAAGGGTGCC 
    CAGGGATCTC CAGGGGTGAA AGGAGCCACC GGACCTGTGG GACCTCCTGG GGCCAGTGTC 
    TCTGGGCCTC CGGGCCGTGA TGGGCAGCAA GGACAGACGG GACTCAGAGG AACACCAGGT 
    GAAAAAGGAC CACGAGGAGA GAAGGGTGAG CCAGGGGAGT GCTCCTGCCC CTCTCAAGGA 
    GACCTCATCT TCTCTGGCAT GCCGGGTGCT CCGGGACTTT GGATGGGCAG CTCCTGGCAG 
    CCGGGCCCGC AGGGTCCACC AGGTATTCCC GGACCACCAG GCCCCCCTGG AGTACCTGGG 
    CTGCAGGGAG TGCCTGGAAA CAACGGTTTG CCAGGACAGC CTGGGCTCAC TGCAGAACTG 
    GGATCCTTAC CAATTGAACA GCACCTCCTT AAGAGTATCT GCGGGGACTG TGTCCAGGGG 
    CAGAGGGCCC ACCCAGGGTA CCTCGTGGAG AAGGGAGAGA AGGGAGACCA GGGCATCCCT 
    GGTGTGCCAG GCCTCGACAA CTGCGCCCAG TGCTTTTTGT CACTGGAGCG CCCAAGAGCC 
    GAGGAGGCCC GGGGTGACAA CAGTGAGGGA GATCCTGGCT GTGTTGGGAG CCCAGGCCTA 
    CCTGGTCCTC CGGGATTGCC AGGCCAGAGA GGAGAAGAGG GTCCGCCTGG CATGAGGGGC 
    TCCCCGGGTC CTCCAGGCCC TATCGGCCCC CCAGGTTTTC CTGGTGCTGT TGGCTCCCCC 
    GGATTGCCTG GCCTTCAAGG AGAGCGAGGT CTCACGGGCC TGACTGGAGA CAAGGGGGAG 
    CCGGGTCCTC CAGGGCAACC AGGTTACCCA GGTGCCACGG GCCCCCCAGG ACTGCCTGGC 
    ATCAAGGGGG AGCGTGGCTA CACCGGGTCA GCGGGAGAGA AAGGAGAGCC GGGCCCCCCA 
    GGATCTGAAG GCCTCCCAGG CCCCCCAGGC CCAGCGGGTC CCAGAGGAGA GCGAGGACCC 
    CAAGGTAACT CCGGTGAGAA GGGCGACCAG GGATTTCAAG GCCAGCCAGG CTTTCCGGGC 
    CCACCGGGTC CCCCTGGATT CCCAGGCAAA GTTGGATCAC CTGGCCCACC TGGCCCTCAA 
    GCAGAGAAGG GCAGCGAAGG GATTCGAGGC CCATCAGGCC TGCCTGGCTC CCCTGGGCCA 
    CCGGGACCTC CTGGGATTCA GGGCCCCGCC GGTCTGGATG GTTTGGATGG GAAGGACGGC 
    AAGCCTGGCT TGAGGGGGGA CCCTGGTCCT GCTGGCCCCC CTGGACTCAT GGGACCACCG 
    GGCTTTAAGG GGAAAACAGG ACATCCTGGC CTCCCAGGAC CTAAGGGTGA CTGTGGCAAA 
    CCAGGTCCCC CTGGCAGCAC TGGCCGGCCT GGCGCAGAGG GTGAACCTGG TGCCATGGGA 
    CCCCAGGGAA GACCCGGTCC CCCGGGACAC GTTGGGCCAC CAGGGCCTCC AGGCCAGCCA 
    GGACCAGCTG GGATCTCTGC AGTGGGTCTG AAAGGAGACC GAGGAGCCAC CGGAGAAAGG 
    GGCCTTGCAG GCCTCCCAGG CCAGCCCGGC CCCCCTGGAC ACCCTGGCCC CCCAGGCGAA 
    CCTGGTACGG ATGGTGCAGC TGGCAAAGAG GGACCCCCTG GAAAGCAGGG ATTCTATGGA 
    CCTCCTGGTC CCAAGGGTGA TCCAGGAGCT GCAGGACAGA AGGGCCAGGC AGGAGAGAAG 
    GGGAGAGCCG GCATGCCTGG TGGACCTGGC AAGAGTGGTT CCATGGGGCC TGTTGGGCCA 
    CCGGGCCCTG CAGGAGAGAG AGGCCACCCT GGAGCTCCGG GGCCTTCGGG GAGCCCTGGC 
    TTGCCTGGTG TGCCTGGCTC CATGGGAGAC ATGGTGAATT ATGATGAAAT CAAGAGGTTC 
    ATCAGACAAG AGATCATTAA AATGTTTGAT GAGAGAATGG CTTACTACAC CTCCAGGATG 
    CAGTTCCCCA TGGAGATGGC GGCAGCTCCG GGACGACCAG GGCCTCCAGG GAAGGATGGT 
    GCTCCGGGCA GGCCAGGTGC TCCAGGGTCA CCTGGGCTCC CTGGTCAGAT TGGCAGAGAA 
    GGACGGCAGG GCTTGCCAGG AGTAAGAGGA TTGCCTGGTA CCAAAGGTGA AAAAGGGGAC 
    ATTGGTATTG GCATTGCAGG AGAAAATGGT CTTCCCGGCC CCCCAGGTCC TCAAGGTCCT 
    CCAGGCTATG GCAAGATGGG TGCAACAGGA CCAATGGGCC AGCAAGGCAT CCCTGGCATC 
    CCTGGGCCCC CGGGTCCCAT GGGCCAGCCA GGCAAGGCTG GCCACTGTAA TCCCTCTGAC 
    TGCTTTGGGG CCATGCCGAT GGAGCAGCAG TACCCACCCA TGAAAACCAT GAAGGGGCCT 
    TTTGGCTGA

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

    COL16A1 ( XM_011540728.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539030.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OHu57036
    Clone ID Related Accession (Same CDS sequence) XM_011540728.2
    Accession Version XM_011540728.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3270bp)
    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(XVI) chain isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011540728.1. ##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
    ATGGCAACCT CCCAGGGCTT TCCAGGAGAC TCTAGGGTGC CTTTTGGGCA AGCTGGGCTG 
    GAGCCCACCC TTACTGGAGA CCCTGGCATC CAAGGCATCA AAGGAGAGAA GGGGGAGCCC 
    TGCTTGTCCT GCAGCTCGGT TGTAGGGGCC CAGCATCTTG TGTCCTCCAC AGGGGCCAGT 
    GGAGATGTGG GTTCCCCTGG CTTTGGTCTG CCTGGCCTTC CGGGTAGAGC TGGGGTTCCA 
    GGGCTGAAAG GAGAGAAGGG TAACTTCGGG GAGGCAGGGC CAGCTGGCAG TCCAGGGCCA 
    CCAGGACCAG TGGGGCCAGC AGGCATCAAA GGGGCGAAGG GGGAGCCCTG TGAGCCGTGC 
    CCAGCCCTGT CCAACCTTCA GGATGGGGAT GTCCGTGTGG TGGCCTTGCC TGGCCCATCC 
    GGAGAGAAGG GGGAACCTGG GCCTCCAGGC TTTGGCTTGC CAGGAAAACA GGGCAAGGCT 
    GGAGAGCGTG GACTGAAGGG GCAGAAGGGT GATGCTGGGA ATCCTGGAGA CCCTGGAACG 
    CCGGGCACCA CAGGGCGGCC AGGACTGTCA GGAGAGCCTG GAGTTCAGGG CCCCGCGGGG 
    CCAAAAGGAG AAAAGGGTGA TGGCTGCACT GCCTGCCCCA GCCTGCAGGG GACAGTGACA 
    GACATGGCAG GACGGCCTGG GCAGCCCGGC CCCAAAGGAG AGCAGGGCCC CGAAGGCGTG 
    GGCCGACCTG GTAAACCCGG CCAACCCGGT CTACCAGGAG TTCAAGGGCC CCCAGGACTG 
    AAGGGCGTGC AGGGAGAGCC AGGGCCTCCA GGAAGGGGAG TCCAGGGACC CCAGGGGGAG 
    CCTGGAGCCC CGGGTTTGCC TGGCATTCAG GGACTTCCGG GACCTCGGGG ACCACCTGGC 
    CCCACTGGAG AGAAGGGTGC CCAGGGATCT CCAGGGGTGA AAGGAGCCAC CGGACCTGTG 
    GGACCTCCTG GGGCCAGTGT CTCTGGGCCT CCGGGCCGTG ATGGGCAGCA AGGACAGACG 
    GGACTCAGAG GAACACCAGG TGAAAAAGGA CCACGAGGAG AGAAGGGTGA GCCAGGGGAG 
    TGCTCCTGCC CCTCTCAAGG AGACCTCATC TTCTCTGGCA TGCCGGGTGC TCCGGGACTT 
    TGGATGGGCA GCTCCTGGCA GCCGGGCCCG CAGGGTCCAC CAGGTATTCC CGGACCACCA 
    GGCCCCCCTG GAGTACCTGG GCTGCAGGGA GTGCCTGGAA ACAACGGTTT GCCAGGACAG 
    CCTGGGCTCA CTGCAGAACT GGGATCCTTA CCAATTGAAC AGCACCTCCT TAAGAGTATC 
    TGCGGGGACT GTGTCCAGGG GCAGAGGGCC CACCCAGGGT ACCTCGTGGA GAAGGGAGAG 
    AAGGGAGACC AGGGCATCCC TGGTGTGCCA GGCCTCGACA ACTGCGCCCA GTGCTTTTTG 
    TCACTGGAGC GCCCAAGAGC CGAGGAGGCC CGGGGTGACA ACAGTGAGGG AGATCCTGGC 
    TGTGTTGGGA GCCCAGGCCT ACCTGGTCCT CCGGGATTGC CAGGCCAGAG AGGAGAAGAG 
    GGTCCGCCTG GCATGAGGGG CTCCCCGGGT CCTCCAGGCC CTATCGGCCC CCCAGGTTTT 
    CCTGGTGCTG TTGGCTCCCC CGGATTGCCT GGCCTTCAAG GAGAGCGAGG TCTCACGGGC 
    CTGACTGGAG ACAAGGGGGA GCCGGGTCCT CCAGGGCAAC CAGGTTACCC AGGTGCCACG 
    GGCCCCCCAG GACTGCCTGG CATCAAGGGG GAGCGTGGCT ACACCGGGTC AGCGGGAGAG 
    AAAGGAGAGC CGGGCCCCCC AGGATCTGAA GGCCTCCCAG GCCCCCCAGG CCCAGCGGGT 
    CCCAGAGGAG AGCGAGGACC CCAAGGTAAC TCCGGTGAGA AGGGCGACCA GGGATTTCAA 
    GGCCAGCCAG GCTTTCCGGG CCCACCGGGT CCCCCTGGAT TCCCAGGCAA AGTTGGATCA 
    CCTGGCCCAC CTGGCCCTCA AGCAGAGAAG GGCAGCGAAG GGATTCGAGG CCCATCAGGC 
    CTGCCTGGCT CCCCTGGGCC ACCGGGACCT CCTGGGATTC AGGGCCCCGC CGGTCTGGAT 
    GGTTTGGATG GGAAGGACGG CAAGCCTGGC TTGAGGGGGG ACCCTGGTCC TGCTGGCCCC 
    CCTGGACTCA TGGGACCACC GGGCTTTAAG GGGAAAACAG GACATCCTGG CCTCCCAGGA 
    CCTAAGGGTG ACTGTGGCAA ACCAGGTCCC CCTGGCAGCA CTGGCCGGCC TGGCGCAGAG 
    GGTGAACCTG GTGCCATGGG ACCCCAGGGA AGACCCGGTC CCCCGGGACA CGTTGGGCCA 
    CCAGGGCCTC CAGGCCAGCC AGGACCAGCT GGGATCTCTG CAGTGGGTCT GAAAGGAGAC 
    CGAGGAGCCA CCGGAGAAAG GGGCCTTGCA GGCCTCCCAG GCCAGCCCGG CCCCCCTGGA 
    CACCCTGGCC CCCCAGGCGA ACCTGGTACG GATGGTGCAG CTGGCAAAGA GGGACCCCCT 
    GGAAAGCAGG GATTCTATGG ACCTCCTGGT CCCAAGGGTG ATCCAGGAGC TGCAGGACAG 
    AAGGGCCAGG CAGGAGAGAA GGGGAGAGCC GGCATGCCTG GTGGACCTGG CAAGAGTGGT 
    TCCATGGGGC CTGTTGGGCC ACCGGGCCCT GCAGGAGAGA GAGGCCACCC TGGAGCTCCG 
    GGGCCTTCGG GGAGCCCTGG CTTGCCTGGT GTGCCTGGCT CCATGGGAGA CATGGTGAAT 
    TATGATGAAA TCAAGAGGTT CATCAGACAA GAGATCATTA AAATGTTTGA TGAGAGAATG 
    GCTTACTACA CCTCCAGGAT GCAGTTCCCC ATGGAGATGG CGGCAGCTCC GGGACGACCA 
    GGGCCTCCAG GGAAGGATGG TGCTCCGGGC AGGCCAGGTG CTCCAGGGTC ACCTGGGCTC 
    CCTGGTCAGA TTGGCAGAGA AGGACGGCAG GGCTTGCCAG GAGTAAGAGG ATTGCCTGGT 
    ACCAAAGGTG AAAAAGGGGA CATTGGTATT GGCATTGCAG GAGAAAATGG TCTTCCCGGC 
    CCCCCAGGTC CTCAAGGTCC TCCAGGCTAT GGCAAGATGG GTGCAACAGG ACCAATGGGC 
    CAGCAAGGCA TCCCTGGCAT CCCTGGGCCC CCGGGTCCCA TGGGCCAGCC AGGCAAGGCT 
    GGCCACTGTA ATCCCTCTGA CTGCTTTGGG GCCATGCCGA TGGAGCAGCA GTACCCACCC 
    ATGAAAACCA TGAAGGGGCC TTTTGGCTGA

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

    RefSeq XP_011539030.1
    CDS149..3418
    Translation

    Target ORF information:

    RefSeq Version XM_011540728.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540728.2

    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
    ATGGCAACCT CCCAGGGCTT TCCAGGAGAC TCTAGGGTGC CTTTTGGGCA AGCTGGGCTG 
    GAGCCCACCC TTACTGGAGA CCCTGGCATC CAAGGCATCA AAGGAGAGAA GGGGGAGCCC 
    TGCTTGTCCT GCAGCTCGGT TGTAGGGGCC CAGCATCTTG TGTCCTCCAC AGGGGCCAGT 
    GGAGATGTGG GTTCCCCTGG CTTTGGTCTG CCTGGCCTTC CGGGTAGAGC TGGGGTTCCA 
    GGGCTGAAAG GAGAGAAGGG TAACTTCGGG GAGGCAGGGC CAGCTGGCAG TCCAGGGCCA 
    CCAGGACCAG TGGGGCCAGC AGGCATCAAA GGGGCGAAGG GGGAGCCCTG TGAGCCGTGC 
    CCAGCCCTGT CCAACCTTCA GGATGGGGAT GTCCGTGTGG TGGCCTTGCC TGGCCCATCC 
    GGAGAGAAGG GGGAACCTGG GCCTCCAGGC TTTGGCTTGC CAGGAAAACA GGGCAAGGCT 
    GGAGAGCGTG GACTGAAGGG GCAGAAGGGT GATGCTGGGA ATCCTGGAGA CCCTGGAACG 
    CCGGGCACCA CAGGGCGGCC AGGACTGTCA GGAGAGCCTG GAGTTCAGGG CCCCGCGGGG 
    CCAAAAGGAG AAAAGGGTGA TGGCTGCACT GCCTGCCCCA GCCTGCAGGG GACAGTGACA 
    GACATGGCAG GACGGCCTGG GCAGCCCGGC CCCAAAGGAG AGCAGGGCCC CGAAGGCGTG 
    GGCCGACCTG GTAAACCCGG CCAACCCGGT CTACCAGGAG TTCAAGGGCC CCCAGGACTG 
    AAGGGCGTGC AGGGAGAGCC AGGGCCTCCA GGAAGGGGAG TCCAGGGACC CCAGGGGGAG 
    CCTGGAGCCC CGGGTTTGCC TGGCATTCAG GGACTTCCGG GACCTCGGGG ACCACCTGGC 
    CCCACTGGAG AGAAGGGTGC CCAGGGATCT CCAGGGGTGA AAGGAGCCAC CGGACCTGTG 
    GGACCTCCTG GGGCCAGTGT CTCTGGGCCT CCGGGCCGTG ATGGGCAGCA AGGACAGACG 
    GGACTCAGAG GAACACCAGG TGAAAAAGGA CCACGAGGAG AGAAGGGTGA GCCAGGGGAG 
    TGCTCCTGCC CCTCTCAAGG AGACCTCATC TTCTCTGGCA TGCCGGGTGC TCCGGGACTT 
    TGGATGGGCA GCTCCTGGCA GCCGGGCCCG CAGGGTCCAC CAGGTATTCC CGGACCACCA 
    GGCCCCCCTG GAGTACCTGG GCTGCAGGGA GTGCCTGGAA ACAACGGTTT GCCAGGACAG 
    CCTGGGCTCA CTGCAGAACT GGGATCCTTA CCAATTGAAC AGCACCTCCT TAAGAGTATC 
    TGCGGGGACT GTGTCCAGGG GCAGAGGGCC CACCCAGGGT ACCTCGTGGA GAAGGGAGAG 
    AAGGGAGACC AGGGCATCCC TGGTGTGCCA GGCCTCGACA ACTGCGCCCA GTGCTTTTTG 
    TCACTGGAGC GCCCAAGAGC CGAGGAGGCC CGGGGTGACA ACAGTGAGGG AGATCCTGGC 
    TGTGTTGGGA GCCCAGGCCT ACCTGGTCCT CCGGGATTGC CAGGCCAGAG AGGAGAAGAG 
    GGTCCGCCTG GCATGAGGGG CTCCCCGGGT CCTCCAGGCC CTATCGGCCC CCCAGGTTTT 
    CCTGGTGCTG TTGGCTCCCC CGGATTGCCT GGCCTTCAAG GAGAGCGAGG TCTCACGGGC 
    CTGACTGGAG ACAAGGGGGA GCCGGGTCCT CCAGGGCAAC CAGGTTACCC AGGTGCCACG 
    GGCCCCCCAG GACTGCCTGG CATCAAGGGG GAGCGTGGCT ACACCGGGTC AGCGGGAGAG 
    AAAGGAGAGC CGGGCCCCCC AGGATCTGAA GGCCTCCCAG GCCCCCCAGG CCCAGCGGGT 
    CCCAGAGGAG AGCGAGGACC CCAAGGTAAC TCCGGTGAGA AGGGCGACCA GGGATTTCAA 
    GGCCAGCCAG GCTTTCCGGG CCCACCGGGT CCCCCTGGAT TCCCAGGCAA AGTTGGATCA 
    CCTGGCCCAC CTGGCCCTCA AGCAGAGAAG GGCAGCGAAG GGATTCGAGG CCCATCAGGC 
    CTGCCTGGCT CCCCTGGGCC ACCGGGACCT CCTGGGATTC AGGGCCCCGC CGGTCTGGAT 
    GGTTTGGATG GGAAGGACGG CAAGCCTGGC TTGAGGGGGG ACCCTGGTCC TGCTGGCCCC 
    CCTGGACTCA TGGGACCACC GGGCTTTAAG GGGAAAACAG GACATCCTGG CCTCCCAGGA 
    CCTAAGGGTG ACTGTGGCAA ACCAGGTCCC CCTGGCAGCA CTGGCCGGCC TGGCGCAGAG 
    GGTGAACCTG GTGCCATGGG ACCCCAGGGA AGACCCGGTC CCCCGGGACA CGTTGGGCCA 
    CCAGGGCCTC CAGGCCAGCC AGGACCAGCT GGGATCTCTG CAGTGGGTCT GAAAGGAGAC 
    CGAGGAGCCA CCGGAGAAAG GGGCCTTGCA GGCCTCCCAG GCCAGCCCGG CCCCCCTGGA 
    CACCCTGGCC CCCCAGGCGA ACCTGGTACG GATGGTGCAG CTGGCAAAGA GGGACCCCCT 
    GGAAAGCAGG GATTCTATGG ACCTCCTGGT CCCAAGGGTG ATCCAGGAGC TGCAGGACAG 
    AAGGGCCAGG CAGGAGAGAA GGGGAGAGCC GGCATGCCTG GTGGACCTGG CAAGAGTGGT 
    TCCATGGGGC CTGTTGGGCC ACCGGGCCCT GCAGGAGAGA GAGGCCACCC TGGAGCTCCG 
    GGGCCTTCGG GGAGCCCTGG CTTGCCTGGT GTGCCTGGCT CCATGGGAGA CATGGTGAAT 
    TATGATGAAA TCAAGAGGTT CATCAGACAA GAGATCATTA AAATGTTTGA TGAGAGAATG 
    GCTTACTACA CCTCCAGGAT GCAGTTCCCC ATGGAGATGG CGGCAGCTCC GGGACGACCA 
    GGGCCTCCAG GGAAGGATGG TGCTCCGGGC AGGCCAGGTG CTCCAGGGTC ACCTGGGCTC 
    CCTGGTCAGA TTGGCAGAGA AGGACGGCAG GGCTTGCCAG GAGTAAGAGG ATTGCCTGGT 
    ACCAAAGGTG AAAAAGGGGA CATTGGTATT GGCATTGCAG GAGAAAATGG TCTTCCCGGC 
    CCCCCAGGTC CTCAAGGTCC TCCAGGCTAT GGCAAGATGG GTGCAACAGG ACCAATGGGC 
    CAGCAAGGCA TCCCTGGCAT CCCTGGGCCC CCGGGTCCCA TGGGCCAGCC AGGCAAGGCT 
    GGCCACTGTA ATCCCTCTGA CTGCTTTGGG GCCATGCCGA TGGAGCAGCA GTACCCACCC 
    ATGAAAACCA TGAAGGGGCC TTTTGGCTGA

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

    COL16A1 ( XM_011540729.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539031.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu57037
    Clone ID Related Accession (Same CDS sequence) XM_011540729.1
    Accession Version XM_011540729.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3207bp)
    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(XVI) chain isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTGCTCCGG GACTTTGGAT GGGCAGCTCC 
    TGGCAGCCGG GCCCGCAGGG TCCACCAGGT ATTCCCGGAC CACCAGGCCC CCCTGGAGTA 
    CCTGGGCTGC AGGGAGTGCC TGGAAACAAC GGTTTGCCAG GACAGCCTGG GCTCACTGCA 
    GAACTGGGAT CCTTACCAAT TGAACAGCAC CTCCTTAAGA GTATCTGCGG GGACTGTGTC 
    CAGGGGCAGA GGGCCCACCC AGGGTACCTC GTGGAGAAGG GAGAGAAGGG AGACCAGGGC 
    ATCCCTGGTG TGCCAGGCCT CGACAACTGC GCCCAGTGCT TTTTGTCACT GGAGCGCCCA 
    AGAGCCGAGG AGGCCCGGGG TGACAACAGT GAGGGAGATC CTGGCTGTGT TGGGAGCCCA 
    GGCCTACCTG GTCCTCCGGG ATTGCCAGGC CAGAGAGGAG AAGAGGGTCC GCCTGGCATG 
    AGGGGCTCCC CGGGTCCTCC AGGCCCTATC GGCCCCCCAG GTTTTCCTGG TGCTGTTGGC 
    TCCCCCGGAT TGCCTGTAAG AACCTAG

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

    RefSeq XP_011539031.1
    CDS361..3567
    Translation

    Target ORF information:

    RefSeq Version XM_011540729.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540729.1

    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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTGCTCCGG GACTTTGGAT GGGCAGCTCC 
    TGGCAGCCGG GCCCGCAGGG TCCACCAGGT ATTCCCGGAC CACCAGGCCC CCCTGGAGTA 
    CCTGGGCTGC AGGGAGTGCC TGGAAACAAC GGTTTGCCAG GACAGCCTGG GCTCACTGCA 
    GAACTGGGAT CCTTACCAAT TGAACAGCAC CTCCTTAAGA GTATCTGCGG GGACTGTGTC 
    CAGGGGCAGA GGGCCCACCC AGGGTACCTC GTGGAGAAGG GAGAGAAGGG AGACCAGGGC 
    ATCCCTGGTG TGCCAGGCCT CGACAACTGC GCCCAGTGCT TTTTGTCACT GGAGCGCCCA 
    AGAGCCGAGG AGGCCCGGGG TGACAACAGT GAGGGAGATC CTGGCTGTGT TGGGAGCCCA 
    GGCCTACCTG GTCCTCCGGG ATTGCCAGGC CAGAGAGGAG AAGAGGGTCC GCCTGGCATG 
    AGGGGCTCCC CGGGTCCTCC AGGCCCTATC GGCCCCCCAG GTTTTCCTGG TGCTGTTGGC 
    TCCCCCGGAT TGCCTGTAAG AACCTAG

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

    COL16A1 ( XM_011540730.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539032.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu57038
    Clone ID Related Accession (Same CDS sequence) XM_011540730.1
    Accession Version XM_011540730.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3159bp)
    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(XVI) chain isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTCCACCAG GTATTCCCGG ACCACCAGGC 
    CCCCCTGGAG TACCTGGGCT GCAGGGAGTG CCTGGAAACA ACGGTTTGCC AGGACAGCCT 
    GGGCTCACTG CAGAACTGGG ATCCTTACCA ATTGAACAGC ACCTCCTTAA GAGTATCTGC 
    GGGGACTGTG TCCAGGGGCA GAGGGCCCAC CCAGGGTACC TCGTGGAGAA GGGAGAGAAG 
    GGAGACCAGG GCATCCCTGG TGTGCCAGGC CTCGACAACT GCGCCCAGTG CTTTTTGTCA 
    CTGGAGCGCC CAAGAGCCGA GGAGGCCCGG GGTGACAACA GTGAGGGAGA TCCTGGCTGT 
    GTTGGGAGCC CAGGCCTACC TGGTCCTCCG GGATTGCCAG GCCAGAGAGG AGAAGAGGGT 
    CCGCCTGGCA TGAGGGGCTC CCCGGGTCCT CCAGGCCCTA TCGGCCCCCC AGGTTTTCCT 
    GGTGCTGTTG GCTCCCCCGG ATTGCCTGTA AGAACCTAG

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

    RefSeq XP_011539032.1
    CDS361..3519
    Translation

    Target ORF information:

    RefSeq Version XM_011540730.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011540730.1

    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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTCCACCAG GTATTCCCGG ACCACCAGGC 
    CCCCCTGGAG TACCTGGGCT GCAGGGAGTG CCTGGAAACA ACGGTTTGCC AGGACAGCCT 
    GGGCTCACTG CAGAACTGGG ATCCTTACCA ATTGAACAGC ACCTCCTTAA GAGTATCTGC 
    GGGGACTGTG TCCAGGGGCA GAGGGCCCAC CCAGGGTACC TCGTGGAGAA GGGAGAGAAG 
    GGAGACCAGG GCATCCCTGG TGTGCCAGGC CTCGACAACT GCGCCCAGTG CTTTTTGTCA 
    CTGGAGCGCC CAAGAGCCGA GGAGGCCCGG GGTGACAACA GTGAGGGAGA TCCTGGCTGT 
    GTTGGGAGCC CAGGCCTACC TGGTCCTCCG GGATTGCCAG GCCAGAGAGG AGAAGAGGGT 
    CCGCCTGGCA TGAGGGGCTC CCCGGGTCCT CCAGGCCCTA TCGGCCCCCC AGGTTTTCCT 
    GGTGCTGTTG GCTCCCCCGG ATTGCCTGTA AGAACCTAG

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

    COL16A1 ( XM_017000338.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855827.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu83151
    Clone ID Related Accession (Same CDS sequence) XM_017000338.1
    Accession Version XM_017000338.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4782bp)
    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(XVI) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by 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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTGCTCCGG GACTTTGGAT GGGCAGCTCC 
    TGGCAGCCGG GCCCGCAGGG TCCACCAGGT ATTCCCGGAC CACCAGGCCC CCCTGGAGTA 
    CCTGGGCTGC AGGGAGTGCC TGGAAACAAC GGTTTGCCAG GACAGCCTGG GCTCACTGCA 
    GAACTGAGTA TCTGCGGGGA CTGTGTCCAG GGGCAGAGGG CCCACCCAGG GTACCTCGTG 
    GAGAAGGGAG AGAAGGGAGA CCAGGGCATC CCTGGTGTGC CAGGCCTCGA CAACTGCGCC 
    CAGTGCTTTT TGTCACTGGA GCGCCCAAGA GCCGAGGAGG CCCGGGGTGA CAACAGTGAG 
    GGAGATCCTG GCTGTGTTGG GAGCCCAGGC CTACCTGGTC CTCCGGGATT GCCAGGCCAG 
    AGAGGAGAAG AGGGTCCGCC TGGCATGAGG GGCTCCCCGG GTCCTCCAGG CCCTATCGGC 
    CCCCCAGGTT TTCCTGGTGC TGTTGGCTCC CCCGGATTGC CTGGCCTTCA AGGAGAGCGA 
    GGTCTCACGG GCCTGACTGG AGACAAGGGG GAGCCGGGTC CTCCAGGGCA ACCAGGTTAC 
    CCAGGTGCCA CGGGCCCCCC AGGACTGCCT GGCATCAAGG GGGAGCGTGG CTACACCGGG 
    TCAGCGGGAG AGAAAGGAGA GCCGGGCCCC CCAGGATCTG AAGGCCTCCC AGGCCCCCCA 
    GGCCCAGCGG GTCCCAGAGG AGAGCGAGGA CCCCAAGGTA ACTCCGGTGA GAAGGGCGAC 
    CAGGGATTTC AAGGCCAGCC AGGCTTTCCG GGCCCACCGG GTCCCCCTGG ATTCCCAGGC 
    AAAGTTGGAT CACCTGGCCC ACCTGGCCCT CAAGCAGAGA AGGGCAGCGA AGGGATTCGA 
    GGCCCATCAG GCCTGCCTGG CTCCCCTGGG CCACCGGGAC CTCCTGGGAT TCAGGGCCCC 
    GCCGGTCTGG ATGGTTTGGA TGGGAAGGAC GGCAAGCCTG GCTTGAGGGG GGACCCTGGT 
    CCTGCTGGCC CCCCTGGACT CATGGGACCA CCGGGCTTTA AGGGGAAAAC AGGACATCCT 
    GGCCTCCCAG GACCTAAGGG TGACTGTGGC AAACCAGGTC CCCCTGGCAG CACTGGCCGG 
    CCTGGCGCAG AGGGTGAACC TGGTGCCATG GGACCCCAGG GAAGACCCGG TCCCCCGGGA 
    CACGTTGGGC CACCAGGGCC TCCAGGCCAG CCAGGACCAG CTGGGATCTC TGCAGTGGGT 
    CTGAAAGGAG ACCGAGGAGC CACCGGAGAA AGGGGCCTTG CAGGCCTCCC AGGCCAGCCC 
    GGCCCCCCTG GACACCCTGG CCCCCCAGGC GAACCTGGTA CGGATGGTGC AGCTGGCAAA 
    GAGGGACCCC CTGGAAAGCA GGGATTCTAT GGACCTCCTG GTCCCAAGGG TGATCCAGGA 
    GCTGCAGGAC AGAAGGGCCA GGCAGGAGAG AAGGGGAGAG CCGGCATGCC TGGTGGACCT 
    GGCAAGAGTG GTTCCATGGG GCCTGTTGGG CCACCGGGCC CTGCAGGAGA GAGAGGCCAC 
    CCTGGAGCTC CGGGGCCTTC GGGGAGCCCT GGCTTGCCTG GTGTGCCTGG CTCCATGGGA 
    GACATGGTGA ATTATGATGA AATCAAGAGG TTCATCAGAC AAGAGATCAT TAAAATGTTT 
    GATGAGAGAA TGGCTTACTA CACCTCCAGG ATGCAGTTCC CCATGGAGAT GGCGGCAGCT 
    CCGGGACGAC CAGGGCCTCC AGGGAAGGAT GGTGCTCCGG GCAGGCCAGG TGCTCCAGGG 
    TCACCTGGGC TCCCTGGTCA GATTGGCAGA GAAGGACGGC AGGGCTTGCC AGGAGTAAGA 
    GGATTGCCTG GTACCAAAGG TGAAAAAGGG GACATTGGTA TTGGCATTGC AGGAGAAAAT 
    GGTCTTCCCG GCCCCCCAGG TCCTCAAGGT CCTCCAGGCT ATGGCAAGAT GGGTGCAACA 
    GGACCAATGG GCCAGCAAGG CATCCCTGGC ATCCCTGGGC CCCCGGGTCC CATGGGCCAG 
    CCAGGCAAGG CTGGCCACTG TAATCCCTCT GACTGCTTTG GGGCCATGCC GATGGAGCAG 
    CAGTACCCAC CCATGAAAAC CATGAAGGGG CCTTTTGGCT GA

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

    RefSeq XP_016855827.1
    CDS361..5142
    Translation

    Target ORF information:

    RefSeq Version XM_017000338.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000338.1

    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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGAGACCCTG GCATCCAAGG CATCAAAGGA GAGAAGGGGG AGCCCTGCTT GTCCTGCAGC 
    TCGGTTGTAG GGGCCCAGCA TCTTGTGTCC TCCACAGGGG CCAGTGGAGA TGTGGGTTCC 
    CCTGGCTTTG GTCTGCCTGG CCTTCCGGGT AGAGCTGGGG TTCCAGGGCT GAAAGGAGAG 
    AAGGGTAACT TCGGGGAGGC AGGGCCAGCT GGCAGTCCAG GGCCACCAGG ACCAGTGGGG 
    CCAGCAGGCA TCAAAGGGGC GAAGGGGGAG CCCTGTGAGC CGTGCCCAGC CCTGTCCAAC 
    CTTCAGGATG GGGATGTCCG TGTGGTGGCC TTGCCTGGCC CATCCGGAGA GAAGGGGGAA 
    CCTGGGCCTC CAGGCTTTGG CTTGCCAGGA AAACAGGGCA AGGCTGGAGA GCGTGGACTG 
    AAGGGGCAGA AGGGTGATGC TGGGAATCCT GGAGACCCTG GAACGCCGGG CACCACAGGG 
    CGGCCAGGAC TGTCAGGAGA GCCTGGAGTT CAGGGCCCCG CGGGGCCAAA AGGAGAAAAG 
    GGTGATGGCT GCACTGCCTG CCCCAGCCTG CAGGGGACAG TGACAGACAT GGCAGGACGG 
    CCTGGGCAGC CCGGCCCCAA AGGAGAGCAG GGCCCCGAAG GCGTGGGCCG ACCTGGTAAA 
    CCCGGCCAAC CCGGTCTACC AGGAGTTCAA GGGCCCCCAG GACTGAAGGG CGTGCAGGGA 
    GAGCCAGGGC CTCCAGGAAG GGGAGTCCAG GGACCCCAGG GGGAGCCTGG AGCCCCGGGT 
    TTGCCTGGCA TTCAGGGACT TCCGGGACCT CGGGGACCAC CTGGCCCCAC TGGAGAGAAG 
    GGTGCCCAGG GATCTCCAGG GGTGAAAGGA GCCACCGGAC CTGTGGGACC TCCTGGGGCC 
    AGTGTCTCTG GGCCTCCGGG CCGTGATGGG CAGCAAGGAC AGACGGGACT CAGAGGAACA 
    CCAGGTGAAA AAGGACCACG AGGAGAGAAG GGTGAGCCAG GGGAGTGCTC CTGCCCCTCT 
    CAAGGAGACC TCATCTTCTC TGGCATGCCG GGTGCTCCGG GACTTTGGAT GGGCAGCTCC 
    TGGCAGCCGG GCCCGCAGGG TCCACCAGGT ATTCCCGGAC CACCAGGCCC CCCTGGAGTA 
    CCTGGGCTGC AGGGAGTGCC TGGAAACAAC GGTTTGCCAG GACAGCCTGG GCTCACTGCA 
    GAACTGAGTA TCTGCGGGGA CTGTGTCCAG GGGCAGAGGG CCCACCCAGG GTACCTCGTG 
    GAGAAGGGAG AGAAGGGAGA CCAGGGCATC CCTGGTGTGC CAGGCCTCGA CAACTGCGCC 
    CAGTGCTTTT TGTCACTGGA GCGCCCAAGA GCCGAGGAGG CCCGGGGTGA CAACAGTGAG 
    GGAGATCCTG GCTGTGTTGG GAGCCCAGGC CTACCTGGTC CTCCGGGATT GCCAGGCCAG 
    AGAGGAGAAG AGGGTCCGCC TGGCATGAGG GGCTCCCCGG GTCCTCCAGG CCCTATCGGC 
    CCCCCAGGTT TTCCTGGTGC TGTTGGCTCC CCCGGATTGC CTGGCCTTCA AGGAGAGCGA 
    GGTCTCACGG GCCTGACTGG AGACAAGGGG GAGCCGGGTC CTCCAGGGCA ACCAGGTTAC 
    CCAGGTGCCA CGGGCCCCCC AGGACTGCCT GGCATCAAGG GGGAGCGTGG CTACACCGGG 
    TCAGCGGGAG AGAAAGGAGA GCCGGGCCCC CCAGGATCTG AAGGCCTCCC AGGCCCCCCA 
    GGCCCAGCGG GTCCCAGAGG AGAGCGAGGA CCCCAAGGTA ACTCCGGTGA GAAGGGCGAC 
    CAGGGATTTC AAGGCCAGCC AGGCTTTCCG GGCCCACCGG GTCCCCCTGG ATTCCCAGGC 
    AAAGTTGGAT CACCTGGCCC ACCTGGCCCT CAAGCAGAGA AGGGCAGCGA AGGGATTCGA 
    GGCCCATCAG GCCTGCCTGG CTCCCCTGGG CCACCGGGAC CTCCTGGGAT TCAGGGCCCC 
    GCCGGTCTGG ATGGTTTGGA TGGGAAGGAC GGCAAGCCTG GCTTGAGGGG GGACCCTGGT 
    CCTGCTGGCC CCCCTGGACT CATGGGACCA CCGGGCTTTA AGGGGAAAAC AGGACATCCT 
    GGCCTCCCAG GACCTAAGGG TGACTGTGGC AAACCAGGTC CCCCTGGCAG CACTGGCCGG 
    CCTGGCGCAG AGGGTGAACC TGGTGCCATG GGACCCCAGG GAAGACCCGG TCCCCCGGGA 
    CACGTTGGGC CACCAGGGCC TCCAGGCCAG CCAGGACCAG CTGGGATCTC TGCAGTGGGT 
    CTGAAAGGAG ACCGAGGAGC CACCGGAGAA AGGGGCCTTG CAGGCCTCCC AGGCCAGCCC 
    GGCCCCCCTG GACACCCTGG CCCCCCAGGC GAACCTGGTA CGGATGGTGC AGCTGGCAAA 
    GAGGGACCCC CTGGAAAGCA GGGATTCTAT GGACCTCCTG GTCCCAAGGG TGATCCAGGA 
    GCTGCAGGAC AGAAGGGCCA GGCAGGAGAG AAGGGGAGAG CCGGCATGCC TGGTGGACCT 
    GGCAAGAGTG GTTCCATGGG GCCTGTTGGG CCACCGGGCC CTGCAGGAGA GAGAGGCCAC 
    CCTGGAGCTC CGGGGCCTTC GGGGAGCCCT GGCTTGCCTG GTGTGCCTGG CTCCATGGGA 
    GACATGGTGA ATTATGATGA AATCAAGAGG TTCATCAGAC AAGAGATCAT TAAAATGTTT 
    GATGAGAGAA TGGCTTACTA CACCTCCAGG ATGCAGTTCC CCATGGAGAT GGCGGCAGCT 
    CCGGGACGAC CAGGGCCTCC AGGGAAGGAT GGTGCTCCGG GCAGGCCAGG TGCTCCAGGG 
    TCACCTGGGC TCCCTGGTCA GATTGGCAGA GAAGGACGGC AGGGCTTGCC AGGAGTAAGA 
    GGATTGCCTG GTACCAAAGG TGAAAAAGGG GACATTGGTA TTGGCATTGC AGGAGAAAAT 
    GGTCTTCCCG GCCCCCCAGG TCCTCAAGGT CCTCCAGGCT ATGGCAAGAT GGGTGCAACA 
    GGACCAATGG GCCAGCAAGG CATCCCTGGC ATCCCTGGGC CCCCGGGTCC CATGGGCCAG 
    CCAGGCAAGG CTGGCCACTG TAATCCCTCT GACTGCTTTG GGGCCATGCC GATGGAGCAG 
    CAGTACCCAC CCATGAAAAC CATGAAGGGG CCTTTTGGCT GA

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

    COL16A1 ( XM_017000339.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855828.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu83152
    Clone ID Related Accession (Same CDS sequence) XM_017000339.1
    Accession Version XM_017000339.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4779bp)
    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(XVI) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGGGAGCCCT GCTTGTCCTG CAGCTCGGTT GTAGGGGCCC AGCATCTTGT GTCCTCCACA 
    GGGGCCAGTG GAGATGTGGG TTCCCCTGGC TTTGGTCTGC CTGGCCTTCC GGGTAGAGCT 
    GGGGTTCCAG GGCTGAAAGG AGAGAAGGGT AACTTCGGGG AGGCAGGGCC AGCTGGCAGT 
    CCAGGGCCAC CAGGACCAGT GGGGCCAGCA GGCATCAAAG GGGCGAAGGG GGAGCCCTGT 
    GAGCCGTGCC CAGCCCTGTC CAACCTTCAG GATGGGGATG TCCGTGTGGT GGCCTTGCCT 
    GGCCCATCCG GAGAGAAGGG GGAACCTGGG CCTCCAGGCT TTGGCTTGCC AGGAAAACAG 
    GGCAAGGCTG GAGAGCGTGG ACTGAAGGGG CAGAAGGGTG ATGCTGGGAA TCCTGGAGAC 
    CCTGGAACGC CGGGCACCAC AGGGCGGCCA GGACTGTCAG GAGAGCCTGG AGTTCAGGGC 
    CCCGCGGGGC CAAAAGGAGA AAAGGGTGAT GGCTGCACTG CCTGCCCCAG CCTGCAGGGG 
    ACAGTGACAG ACATGGCAGG ACGGCCTGGG CAGCCCGGCC CCAAAGGAGA GCAGGGCCCC 
    GAAGGCGTGG GCCGACCTGG TAAACCCGGC CAACCCGGTC TACCAGGAGT TCAAGGGCCC 
    CCAGGACTGA AGGGCGTGCA GGGAGAGCCA GGGCCTCCAG GAAGGGGAGT CCAGGGACCC 
    CAGGGGGAGC CTGGAGCCCC GGGTTTGCCT GGCATTCAGG GACTTCCGGG ACCTCGGGGA 
    CCACCTGGCC CCACTGGAGA GAAGGGTGCC CAGGGATCTC CAGGGGTGAA AGGAGCCACC 
    GGACCTGTGG GACCTCCTGG GGCCAGTGTC TCTGGGCCTC CGGGCCGTGA TGGGCAGCAA 
    GGACAGACGG GACTCAGAGG AACACCAGGT GAAAAAGGAC CACGAGGAGA GAAGGGTGAG 
    CCAGGGGAGT GCTCCTGCCC CTCTCAAGGA GACCTCATCT TCTCTGGCAT GCCGGGTGCT 
    CCGGGACTTT GGATGGGCAG CTCCTGGCAG CCGGGCCCGC AGGGTCCACC AGGTATTCCC 
    GGACCACCAG GCCCCCCTGG AGTACCTGGG CTGCAGGGAG TGCCTGGAAA CAACGGTTTG 
    CCAGGACAGC CTGGGCTCAC TGCAGAACTG GGATCCTTAC CAATTGAACA GCACCTCCTT 
    AAGAGTATCT GCGGGGACTG TGTCCAGGGG CAGAGGGCCC ACCCAGGGTA CCTCGTGGAG 
    AAGGGAGAGA AGGGAGACCA GGGCATCCCT GGTGTGCCAG GCCTCGACAA CTGCGCCCAG 
    TGCTTTTTGT CACTGGAGCG CCCAAGAGCC GAGGAGGCCC GGGGTGACAA CAGTGAGGGA 
    GATCCTGGCT GTGTTGGGAG CCCAGGCCTA CCTGGTCCTC CGGGATTGCC AGGCCAGAGA 
    GGAGAAGAGG GTCCGCCTGG CATGAGGGGC TCCCCGGGTC CTCCAGGCCC TATCGGCCCC 
    CCAGGTTTTC CTGGTGCTGT TGGCTCCCCC GGATTGCCTG GCCTTCAAGG AGAGCGAGGT 
    CTCACGGGCC TGACTGGAGA CAAGGGGGAG CCGGGTCCTC CAGGGCAACC AGGTTACCCA 
    GGTGCCACGG GCCCCCCAGG ACTGCCTGGC ATCAAGGGGG AGCGTGGCTA CACCGGGTCA 
    GCGGGAGAGA AAGGAGAGCC GGGCCCCCCA GGATCTGAAG GCCTCCCAGG CCCCCCAGGC 
    CCAGCGGGTC CCAGAGGAGA GCGAGGACCC CAAGGTAACT CCGGTGAGAA GGGCGACCAG 
    GGATTTCAAG GCCAGCCAGG CTTTCCGGGC CCACCGGGTC CCCCTGGATT CCCAGGCAAA 
    GTTGGATCAC CTGGCCCACC TGGCCCTCAA GCAGAGAAGG GCAGCGAAGG GATTCGAGGC 
    CCATCAGGCC TGCCTGGCTC CCCTGGGCCA CCGGGACCTC CTGGGATTCA GGGCCCCGCC 
    GGTCTGGATG GTTTGGATGG GAAGGACGGC AAGCCTGGCT TGAGGGGGGA CCCTGGTCCT 
    GCTGGCCCCC CTGGACTCAT GGGACCACCG GGCTTTAAGG GGAAAACAGG ACATCCTGGC 
    CTCCCAGGAC CTAAGGGTGA CTGTGGCAAA CCAGGTCCCC CTGGCAGCAC TGGCCGGCCT 
    GGCGCAGAGG GTGAACCTGG TGCCATGGGA CCCCAGGGAA GACCCGGTCC CCCGGGACAC 
    GTTGGGCCAC CAGGGCCTCC AGGCCAGCCA GGACCAGCTG GGATCTCTGC AGTGGGTCTG 
    AAAGGAGACC GAGGAGCCAC CGGAGAAAGG GGCCTTGCAG GCCTCCCAGG CCAGCCCGGC 
    CCCCCTGGAC ACCCTGGCCC CCCAGGCGAA CCTGGTACGG ATGGTGCAGC TGGCAAAGAG 
    GGACCCCCTG GAAAGCAGGG ATTCTATGGA CCTCCTGGTC CCAAGGGTGA TCCAGGAGCT 
    GCAGGACAGA AGGGCCAGGC AGGAGAGAAG GGGAGAGCCG GCATGCCTGG TGGACCTGGC 
    AAGAGTGGTT CCATGGGGCC TGTTGGGCCA CCGGGCCCTG CAGGAGAGAG AGGCCACCCT 
    GGAGCTCCGG GGCCTTCGGG GAGCCCTGGC TTGCCTGGTG TGCCTGGCTC CATGGGAGAC 
    ATGGTGAATT ATGATGAAAT CAAGAGGTTC ATCAGACAAG AGATCATTAA AATGTTTGAT 
    GAGAGAATGG CTTACTACAC CTCCAGGATG CAGTTCCCCA TGGAGATGGC GGCAGCTCCG 
    GGACGACCAG GGCCTCCAGG GAAGGATGGT GCTCCGGGCA GGCCAGGTGC TCCAGGGTCA 
    CCTGGGCTCC CTGGTCAGAT TGGCAGAGAA GGACGGCAGG GCTTGCCAGG AGTAAGAGGA 
    TTGCCTGGTA CCAAAGGTGA AAAAGGGGAC ATTGGTATTG GCATTGCAGG AGAAAATGGT 
    CTTCCCGGCC CCCCAGGTCC TCAAGGTCCT CCAGGCTATG GCAAGATGGG TGCAACAGGA 
    CCAATGGGCC AGCAAGGCAT CCCTGGCATC CCTGGGCCCC CGGGTCCCAT GGGCCAGCCA 
    GGCAAGGCTG GCCACTGTAA TCCCTCTGAC TGCTTTGGGG CCATGCCGAT GGAGCAGCAG 
    TACCCACCCA TGAAAACCAT GAAGGGGCCT TTTGGCTGA

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

    RefSeq XP_016855828.1
    CDS361..5139
    Translation

    Target ORF information:

    RefSeq Version XM_017000339.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000339.1

    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
    ATGTGGGTAT CCTGGGCTCC TGGCCTGTGG CTGCTCGGTC TTTGGGCTAC CTTCGGCCAT 
    GGGGCAAATA CAGGTGCACA ATGCCCACCT TCACAGCAGG AAGGACTCAA ATTGGAACAC 
    AGTAGTAGCC TGCCAGCCAA CGTGACTGGC TTCAACCTCA TCCACCGACT CAGCCTCATG 
    AAGACGTCTG CCATCAAGAA GATCCGCAAC CCCAAGGGGC CTCTCATCCT GCGCCTGGGG 
    GCGGCCCCCG TGACCCAGCC CACGCGAAGA GTATTCCCTC GGGGTCTCCC GGAGGAGTTT 
    GCCCTGGTGC TGACACTACT GCTGAAGAAA CACACCCACC AGAAGACGTG GTATCTGTTT 
    CAAGTGACCG ATGCAAATGG GTATCCACAG ATATCCCTGG AAGTCAACAG CCAAGAGCGG 
    AGCCTGGAGC TCAGGGCCCA GGGCCAGGAT GGCGACTTTG TGTCCTGCAT CTTCCCAGTG 
    CCCCAGCTCT TCGACTTGCG TTGGCACAAG CTGATGCTGA GTGTGGCTGG ACGTGTGGCC 
    TCTGTGCACG TGGACTGCAG CTCAGCCTCC TCCCAGCCTC TGGGGCCCCG ACGACCCATG 
    AGGCCTGTGG GCCATGTATT TCTAGGCTTG GATGCTGAGC AGGGCAAGCC TGTCTCGTTT 
    GACCTTCAGC AGGTGCACAT CTACTGTGAC CCGGAGCTCG TGCTGGAGGA GGGCTGCTGT 
    GAGATTTTAC CAGCAGGGTG CCCCCCAGAG ACCTCCAAGG CCCGCCGGGA CACCCAGAGC 
    AATGAGCTCA TTGAGATCAA TCCACAGTCT GAAGGCAAGG TCTACACCCG CTGCTTCTGC 
    CTGGAGGAGC CTCAAAACAG CGAGGTGGAT GCCCAGCTGA CGGGAAGAAT CAGCCAGAAG 
    GCAGAAAGGG GAGCAAAGGT CCATCAGGAG ACAGCAGCCG ATGAGTGTCC GCCCTGTGTC 
    CATGGTGCCC GGGACAGCAA TGTCACACTT GCTCCCTCTG GCCCCAAGGG AGGGAAAGGT 
    GAGCGGGGCC TGCCTGGTCC ACCAGGCTCC AAGGGAGAGA AGGGAGCACG GGGCAATGAC 
    TGTGTTCGAA TCTCCCCGGA TGCCCCACTT CAGTGTGCAG AAGGCCCGAA GGGAGAGAAG 
    GGGGAGTCAG GAGCTCTGGG ACCCTCAGGA CTCCCAGGCT CAACAGGCGA GAAGGGCCAG 
    AAAGGCGAGA AGGGCGACGG AGGCATCAAG GGCGTGCCGG GAAAGCCAGG CCGGGACGGC 
    CGGCCAGGAG AGATCTGTGT CATTGGGCCC AAAGGGCAGA AGGGAGACCC TGGCTTTGTT 
    GGGCCTGAGG GGCTGGCAGG AGAGCCTGGG CCCCCCGGCC TCCCTGGACC CCCTGGGATA 
    GGACTGCCTG GGACCCCGGG GGATCCAGGT GGCCCACCAG GCCCCAAGGG AGACAAGGGC 
    AGCTCGGGGA TCCCAGGAAA GGAAGGCCCT GGTGGGAAAC CTGGGAAGCC AGGTGTGAAG 
    GGAGAGAAGG GTGACCCCTG TGAAGTGTGC CCAACACTGC CTGAAGGGTT CCAGAACTTT 
    GTTGGACTTC CTGGAAAGCC AGGGCCCAAA GGGGAGCCTG GTGATCCTGT ACCAGCCAGG 
    GGGGAGCCCT GCTTGTCCTG CAGCTCGGTT GTAGGGGCCC AGCATCTTGT GTCCTCCACA 
    GGGGCCAGTG GAGATGTGGG TTCCCCTGGC TTTGGTCTGC CTGGCCTTCC GGGTAGAGCT 
    GGGGTTCCAG GGCTGAAAGG AGAGAAGGGT AACTTCGGGG AGGCAGGGCC AGCTGGCAGT 
    CCAGGGCCAC CAGGACCAGT GGGGCCAGCA GGCATCAAAG GGGCGAAGGG GGAGCCCTGT 
    GAGCCGTGCC CAGCCCTGTC CAACCTTCAG GATGGGGATG TCCGTGTGGT GGCCTTGCCT 
    GGCCCATCCG GAGAGAAGGG GGAACCTGGG CCTCCAGGCT TTGGCTTGCC AGGAAAACAG 
    GGCAAGGCTG GAGAGCGTGG ACTGAAGGGG CAGAAGGGTG ATGCTGGGAA TCCTGGAGAC 
    CCTGGAACGC CGGGCACCAC AGGGCGGCCA GGACTGTCAG GAGAGCCTGG AGTTCAGGGC 
    CCCGCGGGGC CAAAAGGAGA AAAGGGTGAT GGCTGCACTG CCTGCCCCAG CCTGCAGGGG 
    ACAGTGACAG ACATGGCAGG ACGGCCTGGG CAGCCCGGCC CCAAAGGAGA GCAGGGCCCC 
    GAAGGCGTGG GCCGACCTGG TAAACCCGGC CAACCCGGTC TACCAGGAGT TCAAGGGCCC 
    CCAGGACTGA AGGGCGTGCA GGGAGAGCCA GGGCCTCCAG GAAGGGGAGT CCAGGGACCC 
    CAGGGGGAGC CTGGAGCCCC GGGTTTGCCT GGCATTCAGG GACTTCCGGG ACCTCGGGGA 
    CCACCTGGCC CCACTGGAGA GAAGGGTGCC CAGGGATCTC CAGGGGTGAA AGGAGCCACC 
    GGACCTGTGG GACCTCCTGG GGCCAGTGTC TCTGGGCCTC CGGGCCGTGA TGGGCAGCAA 
    GGACAGACGG GACTCAGAGG AACACCAGGT GAAAAAGGAC CACGAGGAGA GAAGGGTGAG 
    CCAGGGGAGT GCTCCTGCCC CTCTCAAGGA GACCTCATCT TCTCTGGCAT GCCGGGTGCT 
    CCGGGACTTT GGATGGGCAG CTCCTGGCAG CCGGGCCCGC AGGGTCCACC AGGTATTCCC 
    GGACCACCAG GCCCCCCTGG AGTACCTGGG CTGCAGGGAG TGCCTGGAAA CAACGGTTTG 
    CCAGGACAGC CTGGGCTCAC TGCAGAACTG GGATCCTTAC CAATTGAACA GCACCTCCTT 
    AAGAGTATCT GCGGGGACTG TGTCCAGGGG CAGAGGGCCC ACCCAGGGTA CCTCGTGGAG 
    AAGGGAGAGA AGGGAGACCA GGGCATCCCT GGTGTGCCAG GCCTCGACAA CTGCGCCCAG 
    TGCTTTTTGT CACTGGAGCG CCCAAGAGCC GAGGAGGCCC GGGGTGACAA CAGTGAGGGA 
    GATCCTGGCT GTGTTGGGAG CCCAGGCCTA CCTGGTCCTC CGGGATTGCC AGGCCAGAGA 
    GGAGAAGAGG GTCCGCCTGG CATGAGGGGC TCCCCGGGTC CTCCAGGCCC TATCGGCCCC 
    CCAGGTTTTC CTGGTGCTGT TGGCTCCCCC GGATTGCCTG GCCTTCAAGG AGAGCGAGGT 
    CTCACGGGCC TGACTGGAGA CAAGGGGGAG CCGGGTCCTC CAGGGCAACC AGGTTACCCA 
    GGTGCCACGG GCCCCCCAGG ACTGCCTGGC ATCAAGGGGG AGCGTGGCTA CACCGGGTCA 
    GCGGGAGAGA AAGGAGAGCC GGGCCCCCCA GGATCTGAAG GCCTCCCAGG CCCCCCAGGC 
    CCAGCGGGTC CCAGAGGAGA GCGAGGACCC CAAGGTAACT CCGGTGAGAA GGGCGACCAG 
    GGATTTCAAG GCCAGCCAGG CTTTCCGGGC CCACCGGGTC CCCCTGGATT CCCAGGCAAA 
    GTTGGATCAC CTGGCCCACC TGGCCCTCAA GCAGAGAAGG GCAGCGAAGG GATTCGAGGC 
    CCATCAGGCC TGCCTGGCTC CCCTGGGCCA CCGGGACCTC CTGGGATTCA GGGCCCCGCC 
    GGTCTGGATG GTTTGGATGG GAAGGACGGC AAGCCTGGCT TGAGGGGGGA CCCTGGTCCT 
    GCTGGCCCCC CTGGACTCAT GGGACCACCG GGCTTTAAGG GGAAAACAGG ACATCCTGGC 
    CTCCCAGGAC CTAAGGGTGA CTGTGGCAAA CCAGGTCCCC CTGGCAGCAC TGGCCGGCCT 
    GGCGCAGAGG GTGAACCTGG TGCCATGGGA CCCCAGGGAA GACCCGGTCC CCCGGGACAC 
    GTTGGGCCAC CAGGGCCTCC AGGCCAGCCA GGACCAGCTG GGATCTCTGC AGTGGGTCTG 
    AAAGGAGACC GAGGAGCCAC CGGAGAAAGG GGCCTTGCAG GCCTCCCAGG CCAGCCCGGC 
    CCCCCTGGAC ACCCTGGCCC CCCAGGCGAA CCTGGTACGG ATGGTGCAGC TGGCAAAGAG 
    GGACCCCCTG GAAAGCAGGG ATTCTATGGA CCTCCTGGTC CCAAGGGTGA TCCAGGAGCT 
    GCAGGACAGA AGGGCCAGGC AGGAGAGAAG GGGAGAGCCG GCATGCCTGG TGGACCTGGC 
    AAGAGTGGTT CCATGGGGCC TGTTGGGCCA CCGGGCCCTG CAGGAGAGAG AGGCCACCCT 
    GGAGCTCCGG GGCCTTCGGG GAGCCCTGGC TTGCCTGGTG TGCCTGGCTC CATGGGAGAC 
    ATGGTGAATT ATGATGAAAT CAAGAGGTTC ATCAGACAAG AGATCATTAA AATGTTTGAT 
    GAGAGAATGG CTTACTACAC CTCCAGGATG CAGTTCCCCA TGGAGATGGC GGCAGCTCCG 
    GGACGACCAG GGCCTCCAGG GAAGGATGGT GCTCCGGGCA GGCCAGGTGC TCCAGGGTCA 
    CCTGGGCTCC CTGGTCAGAT TGGCAGAGAA GGACGGCAGG GCTTGCCAGG AGTAAGAGGA 
    TTGCCTGGTA CCAAAGGTGA AAAAGGGGAC ATTGGTATTG GCATTGCAGG AGAAAATGGT 
    CTTCCCGGCC CCCCAGGTCC TCAAGGTCCT CCAGGCTATG GCAAGATGGG TGCAACAGGA 
    CCAATGGGCC AGCAAGGCAT CCCTGGCATC CCTGGGCCCC CGGGTCCCAT GGGCCAGCCA 
    GGCAAGGCTG GCCACTGTAA TCCCTCTGAC TGCTTTGGGG CCATGCCGAT GGAGCAGCAG 
    TACCCACCCA TGAAAACCAT GAAGGGGCCT TTTGGCTGA

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

    COL16A1 ( XM_017000340.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855829.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu83153
    Clone ID Related Accession (Same CDS sequence) XM_017000340.2 , XM_017000340.1
    Accession Version XM_017000340.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3234bp)
    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(XVI) chain isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017000340.1. ##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
    ATGGCAACCT CCCAGGGCTT TCCAGGAGAC TCTAGGGTGC CTTTTGGGCA AGCTGGGCTG 
    GAGCCCACCC TTACTGGGGA GCCCTGCTTG TCCTGCAGCT CGGTTGTAGG GGCCCAGCAT 
    CTTGTGTCCT CCACAGGGGC CAGTGGAGAT GTGGGTTCCC CTGGCTTTGG TCTGCCTGGC 
    CTTCCGGGTA GAGCTGGGGT TCCAGGGCTG AAAGGAGAGA AGGGTAACTT CGGGGAGGCA 
    GGGCCAGCTG GCAGTCCAGG GCCACCAGGA CCAGTGGGGC CAGCAGGCAT CAAAGGGGCG 
    AAGGGGGAGC CCTGTGAGCC GTGCCCAGCC CTGTCCAACC TTCAGGATGG GGATGTCCGT 
    GTGGTGGCCT TGCCTGGCCC ATCCGGAGAG AAGGGGGAAC CTGGGCCTCC AGGCTTTGGC 
    TTGCCAGGAA AACAGGGCAA GGCTGGAGAG CGTGGACTGA AGGGGCAGAA GGGTGATGCT 
    GGGAATCCTG GAGACCCTGG AACGCCGGGC ACCACAGGGC GGCCAGGACT GTCAGGAGAG 
    CCTGGAGTTC AGGGCCCCGC GGGGCCAAAA GGAGAAAAGG GTGATGGCTG CACTGCCTGC 
    CCCAGCCTGC AGGGGACAGT GACAGACATG GCAGGACGGC CTGGGCAGCC CGGCCCCAAA 
    GGAGAGCAGG GCCCCGAAGG CGTGGGCCGA CCTGGTAAAC CCGGCCAACC CGGTCTACCA 
    GGAGTTCAAG GGCCCCCAGG ACTGAAGGGC GTGCAGGGAG AGCCAGGGCC TCCAGGAAGG 
    GGAGTCCAGG GACCCCAGGG GGAGCCTGGA GCCCCGGGTT TGCCTGGCAT TCAGGGACTT 
    CCGGGACCTC GGGGACCACC TGGCCCCACT GGAGAGAAGG GTGCCCAGGG ATCTCCAGGG 
    GTGAAAGGAG CCACCGGACC TGTGGGACCT CCTGGGGCCA GTGTCTCTGG GCCTCCGGGC 
    CGTGATGGGC AGCAAGGACA GACGGGACTC AGAGGAACAC CAGGTGAAAA AGGACCACGA 
    GGAGAGAAGG GTGAGCCAGG GGAGTGCTCC TGCCCCTCTC AAGGAGACCT CATCTTCTCT 
    GGCATGCCGG GTGCTCCGGG ACTTTGGATG GGCAGCTCCT GGCAGCCGGG CCCGCAGGGT 
    CCACCAGGTA TTCCCGGACC ACCAGGCCCC CCTGGAGTAC CTGGGCTGCA GGGAGTGCCT 
    GGAAACAACG GTTTGCCAGG ACAGCCTGGG CTCACTGCAG AACTGGGATC CTTACCAATT 
    GAACAGCACC TCCTTAAGAG TATCTGCGGG GACTGTGTCC AGGGGCAGAG GGCCCACCCA 
    GGGTACCTCG TGGAGAAGGG AGAGAAGGGA GACCAGGGCA TCCCTGGTGT GCCAGGCCTC 
    GACAACTGCG CCCAGTGCTT TTTGTCACTG GAGCGCCCAA GAGCCGAGGA GGCCCGGGGT 
    GACAACAGTG AGGGAGATCC TGGCTGTGTT GGGAGCCCAG GCCTACCTGG TCCTCCGGGA 
    TTGCCAGGCC AGAGAGGAGA AGAGGGTCCG CCTGGCATGA GGGGCTCCCC GGGTCCTCCA 
    GGCCCTATCG GCCCCCCAGG TTTTCCTGGT GCTGTTGGCT CCCCCGGATT GCCTGGCCTT 
    CAAGGAGAGC GAGGTCTCAC GGGCCTGACT GGAGACAAGG GGGAGCCGGG TCCTCCAGGG 
    CAACCAGGTT ACCCAGGTGC CACGGGCCCC CCAGGACTGC CTGGCATCAA GGGGGAGCGT 
    GGCTACACCG GGTCAGCGGG AGAGAAAGGA GAGCCGGGCC CCCCAGGATC TGAAGGCCTC 
    CCAGGCCCCC CAGGCCCAGC GGGTCCCAGA GGAGAGCGAG GACCCCAAGG TAACTCCGGT 
    GAGAAGGGCG ACCAGGGATT TCAAGGCCAG CCAGGCTTTC CGGGCCCACC GGGTCCCCCT 
    GGATTCCCAG GCAAAGTTGG ATCACCTGGC CCACCTGGCC CTCAAGCAGA GAAGGGCAGC 
    GAAGGGATTC GAGGCCCATC AGGCCTGCCT GGCTCCCCTG GGCCACCGGG ACCTCCTGGG 
    ATTCAGGGCC CCGCCGGTCT GGATGGTTTG GATGGGAAGG ACGGCAAGCC TGGCTTGAGG 
    GGGGACCCTG GTCCTGCTGG CCCCCCTGGA CTCATGGGAC CACCGGGCTT TAAGGGGAAA 
    ACAGGACATC CTGGCCTCCC AGGACCTAAG GGTGACTGTG GCAAACCAGG TCCCCCTGGC 
    AGCACTGGCC GGCCTGGCGC AGAGGGTGAA CCTGGTGCCA TGGGACCCCA GGGAAGACCC 
    GGTCCCCCGG GACACGTTGG GCCACCAGGG CCTCCAGGCC AGCCAGGACC AGCTGGGATC 
    TCTGCAGTGG GTCTGAAAGG AGACCGAGGA GCCACCGGAG AAAGGGGCCT TGCAGGCCTC 
    CCAGGCCAGC CCGGCCCCCC TGGACACCCT GGCCCCCCAG GCGAACCTGG TACGGATGGT 
    GCAGCTGGCA AAGAGGGACC CCCTGGAAAG CAGGGATTCT ATGGACCTCC TGGTCCCAAG 
    GGTGATCCAG GAGCTGCAGG ACAGAAGGGC CAGGCAGGAG AGAAGGGGAG AGCCGGCATG 
    CCTGGTGGAC CTGGCAAGAG TGGTTCCATG GGGCCTGTTG GGCCACCGGG CCCTGCAGGA 
    GAGAGAGGCC ACCCTGGAGC TCCGGGGCCT TCGGGGAGCC CTGGCTTGCC TGGTGTGCCT 
    GGCTCCATGG GAGACATGGT GAATTATGAT GAAATCAAGA GGTTCATCAG ACAAGAGATC 
    ATTAAAATGT TTGATGAGAG AATGGCTTAC TACACCTCCA GGATGCAGTT CCCCATGGAG 
    ATGGCGGCAG CTCCGGGACG ACCAGGGCCT CCAGGGAAGG ATGGTGCTCC GGGCAGGCCA 
    GGTGCTCCAG GGTCACCTGG GCTCCCTGGT CAGATTGGCA GAGAAGGACG GCAGGGCTTG 
    CCAGGAGTAA GAGGATTGCC TGGTACCAAA GGTGAAAAAG GGGACATTGG TATTGGCATT 
    GCAGGAGAAA ATGGTCTTCC CGGCCCCCCA GGTCCTCAAG GTCCTCCAGG CTATGGCAAG 
    ATGGGTGCAA CAGGACCAAT GGGCCAGCAA GGCATCCCTG GCATCCCTGG GCCCCCGGGT 
    CCCATGGGCC AGCCAGGCAA GGCTGGCCAC TGTAATCCCT CTGACTGCTT TGGGGCCATG 
    CCGATGGAGC AGCAGTACCC ACCCATGAAA ACCATGAAGG GGCCTTTTGG CTGA

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

    RefSeq XP_016855829.1
    CDS149..3382
    Translation

    Target ORF information:

    RefSeq Version XM_017000340.2
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000340.2

    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
    ATGGCAACCT CCCAGGGCTT TCCAGGAGAC TCTAGGGTGC CTTTTGGGCA AGCTGGGCTG 
    GAGCCCACCC TTACTGGGGA GCCCTGCTTG TCCTGCAGCT CGGTTGTAGG GGCCCAGCAT 
    CTTGTGTCCT CCACAGGGGC CAGTGGAGAT GTGGGTTCCC CTGGCTTTGG TCTGCCTGGC 
    CTTCCGGGTA GAGCTGGGGT TCCAGGGCTG AAAGGAGAGA AGGGTAACTT CGGGGAGGCA 
    GGGCCAGCTG GCAGTCCAGG GCCACCAGGA CCAGTGGGGC CAGCAGGCAT CAAAGGGGCG 
    AAGGGGGAGC CCTGTGAGCC GTGCCCAGCC CTGTCCAACC TTCAGGATGG GGATGTCCGT 
    GTGGTGGCCT TGCCTGGCCC ATCCGGAGAG AAGGGGGAAC CTGGGCCTCC AGGCTTTGGC 
    TTGCCAGGAA AACAGGGCAA GGCTGGAGAG CGTGGACTGA AGGGGCAGAA GGGTGATGCT 
    GGGAATCCTG GAGACCCTGG AACGCCGGGC ACCACAGGGC GGCCAGGACT GTCAGGAGAG 
    CCTGGAGTTC AGGGCCCCGC GGGGCCAAAA GGAGAAAAGG GTGATGGCTG CACTGCCTGC 
    CCCAGCCTGC AGGGGACAGT GACAGACATG GCAGGACGGC CTGGGCAGCC CGGCCCCAAA 
    GGAGAGCAGG GCCCCGAAGG CGTGGGCCGA CCTGGTAAAC CCGGCCAACC CGGTCTACCA 
    GGAGTTCAAG GGCCCCCAGG ACTGAAGGGC GTGCAGGGAG AGCCAGGGCC TCCAGGAAGG 
    GGAGTCCAGG GACCCCAGGG GGAGCCTGGA GCCCCGGGTT TGCCTGGCAT TCAGGGACTT 
    CCGGGACCTC GGGGACCACC TGGCCCCACT GGAGAGAAGG GTGCCCAGGG ATCTCCAGGG 
    GTGAAAGGAG CCACCGGACC TGTGGGACCT CCTGGGGCCA GTGTCTCTGG GCCTCCGGGC 
    CGTGATGGGC AGCAAGGACA GACGGGACTC AGAGGAACAC CAGGTGAAAA AGGACCACGA 
    GGAGAGAAGG GTGAGCCAGG GGAGTGCTCC TGCCCCTCTC AAGGAGACCT CATCTTCTCT 
    GGCATGCCGG GTGCTCCGGG ACTTTGGATG GGCAGCTCCT GGCAGCCGGG CCCGCAGGGT 
    CCACCAGGTA TTCCCGGACC ACCAGGCCCC CCTGGAGTAC CTGGGCTGCA GGGAGTGCCT 
    GGAAACAACG GTTTGCCAGG ACAGCCTGGG CTCACTGCAG AACTGGGATC CTTACCAATT 
    GAACAGCACC TCCTTAAGAG TATCTGCGGG GACTGTGTCC AGGGGCAGAG GGCCCACCCA 
    GGGTACCTCG TGGAGAAGGG AGAGAAGGGA GACCAGGGCA TCCCTGGTGT GCCAGGCCTC 
    GACAACTGCG CCCAGTGCTT TTTGTCACTG GAGCGCCCAA GAGCCGAGGA GGCCCGGGGT 
    GACAACAGTG AGGGAGATCC TGGCTGTGTT GGGAGCCCAG GCCTACCTGG TCCTCCGGGA 
    TTGCCAGGCC AGAGAGGAGA AGAGGGTCCG CCTGGCATGA GGGGCTCCCC GGGTCCTCCA 
    GGCCCTATCG GCCCCCCAGG TTTTCCTGGT GCTGTTGGCT CCCCCGGATT GCCTGGCCTT 
    CAAGGAGAGC GAGGTCTCAC GGGCCTGACT GGAGACAAGG GGGAGCCGGG TCCTCCAGGG 
    CAACCAGGTT ACCCAGGTGC CACGGGCCCC CCAGGACTGC CTGGCATCAA GGGGGAGCGT 
    GGCTACACCG GGTCAGCGGG AGAGAAAGGA GAGCCGGGCC CCCCAGGATC TGAAGGCCTC 
    CCAGGCCCCC CAGGCCCAGC GGGTCCCAGA GGAGAGCGAG GACCCCAAGG TAACTCCGGT 
    GAGAAGGGCG ACCAGGGATT TCAAGGCCAG CCAGGCTTTC CGGGCCCACC GGGTCCCCCT 
    GGATTCCCAG GCAAAGTTGG ATCACCTGGC CCACCTGGCC CTCAAGCAGA GAAGGGCAGC 
    GAAGGGATTC GAGGCCCATC AGGCCTGCCT GGCTCCCCTG GGCCACCGGG ACCTCCTGGG 
    ATTCAGGGCC CCGCCGGTCT GGATGGTTTG GATGGGAAGG ACGGCAAGCC TGGCTTGAGG 
    GGGGACCCTG GTCCTGCTGG CCCCCCTGGA CTCATGGGAC CACCGGGCTT TAAGGGGAAA 
    ACAGGACATC CTGGCCTCCC AGGACCTAAG GGTGACTGTG GCAAACCAGG TCCCCCTGGC 
    AGCACTGGCC GGCCTGGCGC AGAGGGTGAA CCTGGTGCCA TGGGACCCCA GGGAAGACCC 
    GGTCCCCCGG GACACGTTGG GCCACCAGGG CCTCCAGGCC AGCCAGGACC AGCTGGGATC 
    TCTGCAGTGG GTCTGAAAGG AGACCGAGGA GCCACCGGAG AAAGGGGCCT TGCAGGCCTC 
    CCAGGCCAGC CCGGCCCCCC TGGACACCCT GGCCCCCCAG GCGAACCTGG TACGGATGGT 
    GCAGCTGGCA AAGAGGGACC CCCTGGAAAG CAGGGATTCT ATGGACCTCC TGGTCCCAAG 
    GGTGATCCAG GAGCTGCAGG ACAGAAGGGC CAGGCAGGAG AGAAGGGGAG AGCCGGCATG 
    CCTGGTGGAC CTGGCAAGAG TGGTTCCATG GGGCCTGTTG GGCCACCGGG CCCTGCAGGA 
    GAGAGAGGCC ACCCTGGAGC TCCGGGGCCT TCGGGGAGCC CTGGCTTGCC TGGTGTGCCT 
    GGCTCCATGG GAGACATGGT GAATTATGAT GAAATCAAGA GGTTCATCAG ACAAGAGATC 
    ATTAAAATGT TTGATGAGAG AATGGCTTAC TACACCTCCA GGATGCAGTT CCCCATGGAG 
    ATGGCGGCAG CTCCGGGACG ACCAGGGCCT CCAGGGAAGG ATGGTGCTCC GGGCAGGCCA 
    GGTGCTCCAG GGTCACCTGG GCTCCCTGGT CAGATTGGCA GAGAAGGACG GCAGGGCTTG 
    CCAGGAGTAA GAGGATTGCC TGGTACCAAA GGTGAAAAAG GGGACATTGG TATTGGCATT 
    GCAGGAGAAA ATGGTCTTCC CGGCCCCCCA GGTCCTCAAG GTCCTCCAGG CTATGGCAAG 
    ATGGGTGCAA CAGGACCAAT GGGCCAGCAA GGCATCCCTG GCATCCCTGG GCCCCCGGGT 
    CCCATGGGCC AGCCAGGCAA GGCTGGCCAC TGTAATCCCT CTGACTGCTT TGGGGCCATG 
    CCGATGGAGC AGCAGTACCC ACCCATGAAA ACCATGAAGG GGCCTTTTGG CTGA

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

    COL16A1 ( XM_017000340.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855829.1 Homo sapiens collagen type XVI alpha 1 (COL16A1), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu83153
    Clone ID Related Accession (Same CDS sequence) XM_017000340.2 , XM_017000340.1
    Accession Version XM_017000340.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3234bp)
    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(XVI) chain isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGCAACCT CCCAGGGCTT TCCAGGAGAC TCTAGGGTGC CTTTTGGGCA AGCTGGGCTG 
    GAGCCCACCC TTACTGGGGA GCCCTGCTTG TCCTGCAGCT CGGTTGTAGG GGCCCAGCAT 
    CTTGTGTCCT CCACAGGGGC CAGTGGAGAT GTGGGTTCCC CTGGCTTTGG TCTGCCTGGC 
    CTTCCGGGTA GAGCTGGGGT TCCAGGGCTG AAAGGAGAGA AGGGTAACTT CGGGGAGGCA 
    GGGCCAGCTG GCAGTCCAGG GCCACCAGGA CCAGTGGGGC CAGCAGGCAT CAAAGGGGCG 
    AAGGGGGAGC CCTGTGAGCC GTGCCCAGCC CTGTCCAACC TTCAGGATGG GGATGTCCGT 
    GTGGTGGCCT TGCCTGGCCC ATCCGGAGAG AAGGGGGAAC CTGGGCCTCC AGGCTTTGGC 
    TTGCCAGGAA AACAGGGCAA GGCTGGAGAG CGTGGACTGA AGGGGCAGAA GGGTGATGCT 
    GGGAATCCTG GAGACCCTGG AACGCCGGGC ACCACAGGGC GGCCAGGACT GTCAGGAGAG 
    CCTGGAGTTC AGGGCCCCGC GGGGCCAAAA GGAGAAAAGG GTGATGGCTG CACTGCCTGC 
    CCCAGCCTGC AGGGGACAGT GACAGACATG GCAGGACGGC CTGGGCAGCC CGGCCCCAAA 
    GGAGAGCAGG GCCCCGAAGG CGTGGGCCGA CCTGGTAAAC CCGGCCAACC CGGTCTACCA 
    GGAGTTCAAG GGCCCCCAGG ACTGAAGGGC GTGCAGGGAG AGCCAGGGCC TCCAGGAAGG 
    GGAGTCCAGG GACCCCAGGG GGAGCCTGGA GCCCCGGGTT TGCCTGGCAT TCAGGGACTT 
    CCGGGACCTC GGGGACCACC TGGCCCCACT GGAGAGAAGG GTGCCCAGGG ATCTCCAGGG 
    GTGAAAGGAG CCACCGGACC TGTGGGACCT CCTGGGGCCA GTGTCTCTGG GCCTCCGGGC 
    CGTGATGGGC AGCAAGGACA GACGGGACTC AGAGGAACAC CAGGTGAAAA AGGACCACGA 
    GGAGAGAAGG GTGAGCCAGG GGAGTGCTCC TGCCCCTCTC AAGGAGACCT CATCTTCTCT 
    GGCATGCCGG GTGCTCCGGG ACTTTGGATG GGCAGCTCCT GGCAGCCGGG CCCGCAGGGT 
    CCACCAGGTA TTCCCGGACC ACCAGGCCCC CCTGGAGTAC CTGGGCTGCA GGGAGTGCCT 
    GGAAACAACG GTTTGCCAGG ACAGCCTGGG CTCACTGCAG AACTGGGATC CTTACCAATT 
    GAACAGCACC TCCTTAAGAG TATCTGCGGG GACTGTGTCC AGGGGCAGAG GGCCCACCCA 
    GGGTACCTCG TGGAGAAGGG AGAGAAGGGA GACCAGGGCA TCCCTGGTGT GCCAGGCCTC 
    GACAACTGCG CCCAGTGCTT TTTGTCACTG GAGCGCCCAA GAGCCGAGGA GGCCCGGGGT 
    GACAACAGTG AGGGAGATCC TGGCTGTGTT GGGAGCCCAG GCCTACCTGG TCCTCCGGGA 
    TTGCCAGGCC AGAGAGGAGA AGAGGGTCCG CCTGGCATGA GGGGCTCCCC GGGTCCTCCA 
    GGCCCTATCG GCCCCCCAGG TTTTCCTGGT GCTGTTGGCT CCCCCGGATT GCCTGGCCTT 
    CAAGGAGAGC GAGGTCTCAC GGGCCTGACT GGAGACAAGG GGGAGCCGGG TCCTCCAGGG 
    CAACCAGGTT ACCCAGGTGC CACGGGCCCC CCAGGACTGC CTGGCATCAA GGGGGAGCGT 
    GGCTACACCG GGTCAGCGGG AGAGAAAGGA GAGCCGGGCC CCCCAGGATC TGAAGGCCTC 
    CCAGGCCCCC CAGGCCCAGC GGGTCCCAGA GGAGAGCGAG GACCCCAAGG TAACTCCGGT 
    GAGAAGGGCG ACCAGGGATT TCAAGGCCAG CCAGGCTTTC CGGGCCCACC GGGTCCCCCT 
    GGATTCCCAG GCAAAGTTGG ATCACCTGGC CCACCTGGCC CTCAAGCAGA GAAGGGCAGC 
    GAAGGGATTC GAGGCCCATC AGGCCTGCCT GGCTCCCCTG GGCCACCGGG ACCTCCTGGG 
    ATTCAGGGCC CCGCCGGTCT GGATGGTTTG GATGGGAAGG ACGGCAAGCC TGGCTTGAGG 
    GGGGACCCTG GTCCTGCTGG CCCCCCTGGA CTCATGGGAC CACCGGGCTT TAAGGGGAAA 
    ACAGGACATC CTGGCCTCCC AGGACCTAAG GGTGACTGTG GCAAACCAGG TCCCCCTGGC 
    AGCACTGGCC GGCCTGGCGC AGAGGGTGAA CCTGGTGCCA TGGGACCCCA GGGAAGACCC 
    GGTCCCCCGG GACACGTTGG GCCACCAGGG CCTCCAGGCC AGCCAGGACC AGCTGGGATC 
    TCTGCAGTGG GTCTGAAAGG AGACCGAGGA GCCACCGGAG AAAGGGGCCT TGCAGGCCTC 
    CCAGGCCAGC CCGGCCCCCC TGGACACCCT GGCCCCCCAG GCGAACCTGG TACGGATGGT 
    GCAGCTGGCA AAGAGGGACC CCCTGGAAAG CAGGGATTCT ATGGACCTCC TGGTCCCAAG 
    GGTGATCCAG GAGCTGCAGG ACAGAAGGGC CAGGCAGGAG AGAAGGGGAG AGCCGGCATG 
    CCTGGTGGAC CTGGCAAGAG TGGTTCCATG GGGCCTGTTG GGCCACCGGG CCCTGCAGGA 
    GAGAGAGGCC ACCCTGGAGC TCCGGGGCCT TCGGGGAGCC CTGGCTTGCC TGGTGTGCCT 
    GGCTCCATGG GAGACATGGT GAATTATGAT GAAATCAAGA GGTTCATCAG ACAAGAGATC 
    ATTAAAATGT TTGATGAGAG AATGGCTTAC TACACCTCCA GGATGCAGTT CCCCATGGAG 
    ATGGCGGCAG CTCCGGGACG ACCAGGGCCT CCAGGGAAGG ATGGTGCTCC GGGCAGGCCA 
    GGTGCTCCAG GGTCACCTGG GCTCCCTGGT CAGATTGGCA GAGAAGGACG GCAGGGCTTG 
    CCAGGAGTAA GAGGATTGCC TGGTACCAAA GGTGAAAAAG GGGACATTGG TATTGGCATT 
    GCAGGAGAAA ATGGTCTTCC CGGCCCCCCA GGTCCTCAAG GTCCTCCAGG CTATGGCAAG 
    ATGGGTGCAA CAGGACCAAT GGGCCAGCAA GGCATCCCTG GCATCCCTGG GCCCCCGGGT 
    CCCATGGGCC AGCCAGGCAA GGCTGGCCAC TGTAATCCCT CTGACTGCTT TGGGGCCATG 
    CCGATGGAGC AGCAGTACCC ACCCATGAAA ACCATGAAGG GGCCTTTTGG CTGA

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

    RefSeq XP_016855829.1
    CDS148..3381
    Translation

    Target ORF information:

    RefSeq Version XM_017000340.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 (COL16A1), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000340.1

    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
    ATGGCAACCT CCCAGGGCTT TCCAGGAGAC TCTAGGGTGC CTTTTGGGCA AGCTGGGCTG 
    GAGCCCACCC TTACTGGGGA GCCCTGCTTG TCCTGCAGCT CGGTTGTAGG GGCCCAGCAT 
    CTTGTGTCCT CCACAGGGGC CAGTGGAGAT GTGGGTTCCC CTGGCTTTGG TCTGCCTGGC 
    CTTCCGGGTA GAGCTGGGGT TCCAGGGCTG AAAGGAGAGA AGGGTAACTT CGGGGAGGCA 
    GGGCCAGCTG GCAGTCCAGG GCCACCAGGA CCAGTGGGGC CAGCAGGCAT CAAAGGGGCG 
    AAGGGGGAGC CCTGTGAGCC GTGCCCAGCC CTGTCCAACC TTCAGGATGG GGATGTCCGT 
    GTGGTGGCCT TGCCTGGCCC ATCCGGAGAG AAGGGGGAAC CTGGGCCTCC AGGCTTTGGC 
    TTGCCAGGAA AACAGGGCAA GGCTGGAGAG CGTGGACTGA AGGGGCAGAA GGGTGATGCT 
    GGGAATCCTG GAGACCCTGG AACGCCGGGC ACCACAGGGC GGCCAGGACT GTCAGGAGAG 
    CCTGGAGTTC AGGGCCCCGC GGGGCCAAAA GGAGAAAAGG GTGATGGCTG CACTGCCTGC 
    CCCAGCCTGC AGGGGACAGT GACAGACATG GCAGGACGGC CTGGGCAGCC CGGCCCCAAA 
    GGAGAGCAGG GCCCCGAAGG CGTGGGCCGA CCTGGTAAAC CCGGCCAACC CGGTCTACCA 
    GGAGTTCAAG GGCCCCCAGG ACTGAAGGGC GTGCAGGGAG AGCCAGGGCC TCCAGGAAGG 
    GGAGTCCAGG GACCCCAGGG GGAGCCTGGA GCCCCGGGTT TGCCTGGCAT TCAGGGACTT 
    CCGGGACCTC GGGGACCACC TGGCCCCACT GGAGAGAAGG GTGCCCAGGG ATCTCCAGGG 
    GTGAAAGGAG CCACCGGACC TGTGGGACCT CCTGGGGCCA GTGTCTCTGG GCCTCCGGGC 
    CGTGATGGGC AGCAAGGACA GACGGGACTC AGAGGAACAC CAGGTGAAAA AGGACCACGA 
    GGAGAGAAGG GTGAGCCAGG GGAGTGCTCC TGCCCCTCTC AAGGAGACCT CATCTTCTCT 
    GGCATGCCGG GTGCTCCGGG ACTTTGGATG GGCAGCTCCT GGCAGCCGGG CCCGCAGGGT 
    CCACCAGGTA TTCCCGGACC ACCAGGCCCC CCTGGAGTAC CTGGGCTGCA GGGAGTGCCT 
    GGAAACAACG GTTTGCCAGG ACAGCCTGGG CTCACTGCAG AACTGGGATC CTTACCAATT 
    GAACAGCACC TCCTTAAGAG TATCTGCGGG GACTGTGTCC AGGGGCAGAG GGCCCACCCA 
    GGGTACCTCG TGGAGAAGGG AGAGAAGGGA GACCAGGGCA TCCCTGGTGT GCCAGGCCTC 
    GACAACTGCG CCCAGTGCTT TTTGTCACTG GAGCGCCCAA GAGCCGAGGA GGCCCGGGGT 
    GACAACAGTG AGGGAGATCC TGGCTGTGTT GGGAGCCCAG GCCTACCTGG TCCTCCGGGA 
    TTGCCAGGCC AGAGAGGAGA AGAGGGTCCG CCTGGCATGA GGGGCTCCCC GGGTCCTCCA 
    GGCCCTATCG GCCCCCCAGG TTTTCCTGGT GCTGTTGGCT CCCCCGGATT GCCTGGCCTT 
    CAAGGAGAGC GAGGTCTCAC GGGCCTGACT GGAGACAAGG GGGAGCCGGG TCCTCCAGGG 
    CAACCAGGTT ACCCAGGTGC CACGGGCCCC CCAGGACTGC CTGGCATCAA GGGGGAGCGT 
    GGCTACACCG GGTCAGCGGG AGAGAAAGGA GAGCCGGGCC CCCCAGGATC TGAAGGCCTC 
    CCAGGCCCCC CAGGCCCAGC GGGTCCCAGA GGAGAGCGAG GACCCCAAGG TAACTCCGGT 
    GAGAAGGGCG ACCAGGGATT TCAAGGCCAG CCAGGCTTTC CGGGCCCACC GGGTCCCCCT 
    GGATTCCCAG GCAAAGTTGG ATCACCTGGC CCACCTGGCC CTCAAGCAGA GAAGGGCAGC 
    GAAGGGATTC GAGGCCCATC AGGCCTGCCT GGCTCCCCTG GGCCACCGGG ACCTCCTGGG 
    ATTCAGGGCC CCGCCGGTCT GGATGGTTTG GATGGGAAGG ACGGCAAGCC TGGCTTGAGG 
    GGGGACCCTG GTCCTGCTGG CCCCCCTGGA CTCATGGGAC CACCGGGCTT TAAGGGGAAA 
    ACAGGACATC CTGGCCTCCC AGGACCTAAG GGTGACTGTG GCAAACCAGG TCCCCCTGGC 
    AGCACTGGCC GGCCTGGCGC AGAGGGTGAA CCTGGTGCCA TGGGACCCCA GGGAAGACCC 
    GGTCCCCCGG GACACGTTGG GCCACCAGGG CCTCCAGGCC AGCCAGGACC AGCTGGGATC 
    TCTGCAGTGG GTCTGAAAGG AGACCGAGGA GCCACCGGAG AAAGGGGCCT TGCAGGCCTC 
    CCAGGCCAGC CCGGCCCCCC TGGACACCCT GGCCCCCCAG GCGAACCTGG TACGGATGGT 
    GCAGCTGGCA AAGAGGGACC CCCTGGAAAG CAGGGATTCT ATGGACCTCC TGGTCCCAAG 
    GGTGATCCAG GAGCTGCAGG ACAGAAGGGC CAGGCAGGAG AGAAGGGGAG AGCCGGCATG 
    CCTGGTGGAC CTGGCAAGAG TGGTTCCATG GGGCCTGTTG GGCCACCGGG CCCTGCAGGA 
    GAGAGAGGCC ACCCTGGAGC TCCGGGGCCT TCGGGGAGCC CTGGCTTGCC TGGTGTGCCT 
    GGCTCCATGG GAGACATGGT GAATTATGAT GAAATCAAGA GGTTCATCAG ACAAGAGATC 
    ATTAAAATGT TTGATGAGAG AATGGCTTAC TACACCTCCA GGATGCAGTT CCCCATGGAG 
    ATGGCGGCAG CTCCGGGACG ACCAGGGCCT CCAGGGAAGG ATGGTGCTCC GGGCAGGCCA 
    GGTGCTCCAG GGTCACCTGG GCTCCCTGGT CAGATTGGCA GAGAAGGACG GCAGGGCTTG 
    CCAGGAGTAA GAGGATTGCC TGGTACCAAA GGTGAAAAAG GGGACATTGG TATTGGCATT 
    GCAGGAGAAA ATGGTCTTCC CGGCCCCCCA GGTCCTCAAG GTCCTCCAGG CTATGGCAAG 
    ATGGGTGCAA CAGGACCAAT GGGCCAGCAA GGCATCCCTG GCATCCCTGG GCCCCCGGGT 
    CCCATGGGCC AGCCAGGCAA GGCTGGCCAC TGTAATCCCT CTGACTGCTT TGGGGCCATG 
    CCGATGGAGC AGCAGTACCC ACCCATGAAA ACCATGAAGG GGCCTTTTGG CTGA

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

    COL16A1 ( XM_017000341.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016855830.1 Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu83154
    Clone ID Related Accession (Same CDS sequence) XM_017000341.1
    Accession Version XM_017000341.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3087bp)
    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(XVI) chain isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGGGGTATG TGCTCCATTA TTCCCATTTC ACAGATGAGG AAACGGAGGC ACACAAAGGC 
    CAAGTAAATT GCCAGGGTAA CTTCGGGGAG GCAGGGCCAG CTGGCAGTCC AGGGCCACCA 
    GGACCAGTGG GGCCAGCAGG CATCAAAGGG GCGAAGGGGG AGCCCTGTGA GCCGTGCCCA 
    GCCCTGTCCA ACCTTCAGGA TGGGGATGTC CGTGTGGTGG CCTTGCCTGG CCCATCCGGA 
    GAGAAGGGGG AACCTGGGCC TCCAGGCTTT GGCTTGCCAG GAAAACAGGG CAAGGCTGGA 
    GAGCGTGGAC TGAAGGGGCA GAAGGGTGAT GCTGGGAATC CTGGAGACCC TGGAACGCCG 
    GGCACCACAG GGCGGCCAGG ACTGTCAGGA GAGCCTGGAG TTCAGGGCCC CGCGGGGCCA 
    AAAGGAGAAA AGGGTGATGG CTGCACTGCC TGCCCCAGCC TGCAGGGGAC AGTGACAGAC 
    ATGGCAGGAC GGCCTGGGCA GCCCGGCCCC AAAGGAGAGC AGGGCCCCGA AGGCGTGGGC 
    CGACCTGGTA AACCCGGCCA ACCCGGTCTA CCAGGAGTTC AAGGGCCCCC AGGACTGAAG 
    GGCGTGCAGG GAGAGCCAGG GCCTCCAGGA AGGGGAGTCC AGGGACCCCA GGGGGAGCCT 
    GGAGCCCCGG GTTTGCCTGG CATTCAGGGA CTTCCGGGAC CTCGGGGACC ACCTGGCCCC 
    ACTGGAGAGA AGGGTGCCCA GGGATCTCCA GGGGTGAAAG GAGCCACCGG ACCTGTGGGA 
    CCTCCTGGGG CCAGTGTCTC TGGGCCTCCG GGCCGTGATG GGCAGCAAGG ACAGACGGGA 
    CTCAGAGGAA CACCAGGTGA AAAAGGACCA CGAGGAGAGA AGGGTGAGCC AGGGGAGTGC 
    TCCTGCCCCT CTCAAGGAGA CCTCATCTTC TCTGGCATGC CGGGTGCTCC GGGACTTTGG 
    ATGGGCAGCT CCTGGCAGCC GGGCCCGCAG GGTCCACCAG GTATTCCCGG ACCACCAGGC 
    CCCCCTGGAG TACCTGGGCT GCAGGGAGTG CCTGGAAACA ACGGTTTGCC AGGACAGCCT 
    GGGCTCACTG CAGAACTGGG ATCCTTACCA ATTGAACAGC ACCTCCTTAA GAGTATCTGC 
    GGGGACTGTG TCCAGGGGCA GAGGGCCCAC CCAGGGTACC TCGTGGAGAA GGGAGAGAAG 
    GGAGACCAGG GCATCCCTGG TGTGCCAGGC CTCGACAACT GCGCCCAGTG CTTTTTGTCA 
    CTGGAGCGCC CAAGAGCCGA GGAGGCCCGG GGTGACAACA GTGAGGGAGA TCCTGGCTGT 
    GTTGGGAGCC CAGGCCTACC TGGTCCTCCG GGATTGCCAG GCCAGAGAGG AGAAGAGGGT 
    CCGCCTGGCA TGAGGGGCTC CCCGGGTCCT CCAGGCCCTA TCGGCCCCCC AGGTTTTCCT 
    GGTGCTGTTG GCTCCCCCGG ATTGCCTGGC CTTCAAGGAG AGCGAGGTCT CACGGGCCTG 
    ACTGGAGACA AGGGGGAGCC GGGTCCTCCA GGGCAACCAG GTTACCCAGG TGCCACGGGC 
    CCCCCAGGAC TGCCTGGCAT CAAGGGGGAG CGTGGCTACA CCGGGTCAGC GGGAGAGAAA 
    GGAGAGCCGG GCCCCCCAGG ATCTGAAGGC CTCCCAGGCC CCCCAGGCCC AGCGGGTCCC 
    AGAGGAGAGC GAGGACCCCA AGGTAACTCC GGTGAGAAGG GCGACCAGGG ATTTCAAGGC 
    CAGCCAGGCT TTCCGGGCCC ACCGGGTCCC CCTGGATTCC CAGGCAAAGT TGGATCACCT 
    GGCCCACCTG GCCCTCAAGC AGAGAAGGGC AGCGAAGGGA TTCGAGGCCC ATCAGGCCTG 
    CCTGGCTCCC CTGGGCCACC GGGACCTCCT GGGATTCAGG GCCCCGCCGG TCTGGATGGT 
    TTGGATGGGA AGGACGGCAA GCCTGGCTTG AGGGGGGACC CTGGTCCTGC TGGCCCCCCT 
    GGACTCATGG GACCACCGGG CTTTAAGGGG AAAACAGGAC ATCCTGGCCT CCCAGGACCT 
    AAGGGTGACT GTGGCAAACC AGGTCCCCCT GGCAGCACTG GCCGGCCTGG CGCAGAGGGT 
    GAACCTGGTG CCATGGGACC CCAGGGAAGA CCCGGTCCCC CGGGACACGT TGGGCCACCA 
    GGGCCTCCAG GCCAGCCAGG ACCAGCTGGG ATCTCTGCAG TGGGTCTGAA AGGAGACCGA 
    GGAGCCACCG GAGAAAGGGG CCTTGCAGGC CTCCCAGGCC AGCCCGGCCC CCCTGGACAC 
    CCTGGCCCCC CAGGCGAACC TGGTACGGAT GGTGCAGCTG GCAAAGAGGG ACCCCCTGGA 
    AAGCAGGGAT TCTATGGACC TCCTGGTCCC AAGGGTGATC CAGGAGCTGC AGGACAGAAG 
    GGCCAGGCAG GAGAGAAGGG GAGAGCCGGC ATGCCTGGTG GACCTGGCAA GAGTGGTTCC 
    ATGGGGCCTG TTGGGCCACC GGGCCCTGCA GGAGAGAGAG GCCACCCTGG AGCTCCGGGG 
    CCTTCGGGGA GCCCTGGCTT GCCTGGTGTG CCTGGCTCCA TGGGAGACAT GGTGAATTAT 
    GATGAAATCA AGAGGTTCAT CAGACAAGAG ATCATTAAAA TGTTTGATGA GAGAATGGCT 
    TACTACACCT CCAGGATGCA GTTCCCCATG GAGATGGCGG CAGCTCCGGG ACGACCAGGG 
    CCTCCAGGGA AGGATGGTGC TCCGGGCAGG CCAGGTGCTC CAGGGTCACC TGGGCTCCCT 
    GGTCAGATTG GCAGAGAAGG ACGGCAGGGC TTGCCAGGAG TAAGAGGATT GCCTGGTACC 
    AAAGGTGAAA AAGGGGACAT TGGTATTGGC ATTGCAGGAG AAAATGGTCT TCCCGGCCCC 
    CCAGGTCCTC AAGGTCCTCC AGGCTATGGC AAGATGGGTG CAACAGGACC AATGGGCCAG 
    CAAGGCATCC CTGGCATCCC TGGGCCCCCG GGTCCCATGG GCCAGCCAGG CAAGGCTGGC 
    CACTGTAATC CCTCTGACTG CTTTGGGGCC ATGCCGATGG AGCAGCAGTA CCCACCCATG 
    AAAACCATGA AGGGGCCTTT TGGCTGA

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

    RefSeq XP_016855830.1
    CDS85..3171
    Translation

    Target ORF information:

    RefSeq Version XM_017000341.1
    Organism Homo sapiens(human)
    Definition Homo sapiens collagen type XVI alpha 1 chain (COL16A1), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017000341.1

    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
    ATGGGGTATG TGCTCCATTA TTCCCATTTC ACAGATGAGG AAACGGAGGC ACACAAAGGC 
    CAAGTAAATT GCCAGGGTAA CTTCGGGGAG GCAGGGCCAG CTGGCAGTCC AGGGCCACCA 
    GGACCAGTGG GGCCAGCAGG CATCAAAGGG GCGAAGGGGG AGCCCTGTGA GCCGTGCCCA 
    GCCCTGTCCA ACCTTCAGGA TGGGGATGTC CGTGTGGTGG CCTTGCCTGG CCCATCCGGA 
    GAGAAGGGGG AACCTGGGCC TCCAGGCTTT GGCTTGCCAG GAAAACAGGG CAAGGCTGGA 
    GAGCGTGGAC TGAAGGGGCA GAAGGGTGAT GCTGGGAATC CTGGAGACCC TGGAACGCCG 
    GGCACCACAG GGCGGCCAGG ACTGTCAGGA GAGCCTGGAG TTCAGGGCCC CGCGGGGCCA 
    AAAGGAGAAA AGGGTGATGG CTGCACTGCC TGCCCCAGCC TGCAGGGGAC AGTGACAGAC 
    ATGGCAGGAC GGCCTGGGCA GCCCGGCCCC AAAGGAGAGC AGGGCCCCGA AGGCGTGGGC 
    CGACCTGGTA AACCCGGCCA ACCCGGTCTA CCAGGAGTTC AAGGGCCCCC AGGACTGAAG 
    GGCGTGCAGG GAGAGCCAGG GCCTCCAGGA AGGGGAGTCC AGGGACCCCA GGGGGAGCCT 
    GGAGCCCCGG GTTTGCCTGG CATTCAGGGA CTTCCGGGAC CTCGGGGACC ACCTGGCCCC 
    ACTGGAGAGA AGGGTGCCCA GGGATCTCCA GGGGTGAAAG GAGCCACCGG ACCTGTGGGA 
    CCTCCTGGGG CCAGTGTCTC TGGGCCTCCG GGCCGTGATG GGCAGCAAGG ACAGACGGGA 
    CTCAGAGGAA CACCAGGTGA AAAAGGACCA CGAGGAGAGA AGGGTGAGCC AGGGGAGTGC 
    TCCTGCCCCT CTCAAGGAGA CCTCATCTTC TCTGGCATGC CGGGTGCTCC GGGACTTTGG 
    ATGGGCAGCT CCTGGCAGCC GGGCCCGCAG GGTCCACCAG GTATTCCCGG ACCACCAGGC 
    CCCCCTGGAG TACCTGGGCT GCAGGGAGTG CCTGGAAACA ACGGTTTGCC AGGACAGCCT 
    GGGCTCACTG CAGAACTGGG ATCCTTACCA ATTGAACAGC ACCTCCTTAA GAGTATCTGC 
    GGGGACTGTG TCCAGGGGCA GAGGGCCCAC CCAGGGTACC TCGTGGAGAA GGGAGAGAAG 
    GGAGACCAGG GCATCCCTGG TGTGCCAGGC CTCGACAACT GCGCCCAGTG CTTTTTGTCA 
    CTGGAGCGCC CAAGAGCCGA GGAGGCCCGG GGTGACAACA GTGAGGGAGA TCCTGGCTGT 
    GTTGGGAGCC CAGGCCTACC TGGTCCTCCG GGATTGCCAG GCCAGAGAGG AGAAGAGGGT 
    CCGCCTGGCA TGAGGGGCTC CCCGGGTCCT CCAGGCCCTA TCGGCCCCCC AGGTTTTCCT 
    GGTGCTGTTG GCTCCCCCGG ATTGCCTGGC CTTCAAGGAG AGCGAGGTCT CACGGGCCTG 
    ACTGGAGACA AGGGGGAGCC GGGTCCTCCA GGGCAACCAG GTTACCCAGG TGCCACGGGC 
    CCCCCAGGAC TGCCTGGCAT CAAGGGGGAG CGTGGCTACA CCGGGTCAGC GGGAGAGAAA 
    GGAGAGCCGG GCCCCCCAGG ATCTGAAGGC CTCCCAGGCC CCCCAGGCCC AGCGGGTCCC 
    AGAGGAGAGC GAGGACCCCA AGGTAACTCC GGTGAGAAGG GCGACCAGGG ATTTCAAGGC 
    CAGCCAGGCT TTCCGGGCCC ACCGGGTCCC CCTGGATTCC CAGGCAAAGT TGGATCACCT 
    GGCCCACCTG GCCCTCAAGC AGAGAAGGGC AGCGAAGGGA TTCGAGGCCC ATCAGGCCTG 
    CCTGGCTCCC CTGGGCCACC GGGACCTCCT GGGATTCAGG GCCCCGCCGG TCTGGATGGT 
    TTGGATGGGA AGGACGGCAA GCCTGGCTTG AGGGGGGACC CTGGTCCTGC TGGCCCCCCT 
    GGACTCATGG GACCACCGGG CTTTAAGGGG AAAACAGGAC ATCCTGGCCT CCCAGGACCT 
    AAGGGTGACT GTGGCAAACC AGGTCCCCCT GGCAGCACTG GCCGGCCTGG CGCAGAGGGT 
    GAACCTGGTG CCATGGGACC CCAGGGAAGA CCCGGTCCCC CGGGACACGT TGGGCCACCA 
    GGGCCTCCAG GCCAGCCAGG ACCAGCTGGG ATCTCTGCAG TGGGTCTGAA AGGAGACCGA 
    GGAGCCACCG GAGAAAGGGG CCTTGCAGGC CTCCCAGGCC AGCCCGGCCC CCCTGGACAC 
    CCTGGCCCCC CAGGCGAACC TGGTACGGAT GGTGCAGCTG GCAAAGAGGG ACCCCCTGGA 
    AAGCAGGGAT TCTATGGACC TCCTGGTCCC AAGGGTGATC CAGGAGCTGC AGGACAGAAG 
    GGCCAGGCAG GAGAGAAGGG GAGAGCCGGC ATGCCTGGTG GACCTGGCAA GAGTGGTTCC 
    ATGGGGCCTG TTGGGCCACC GGGCCCTGCA GGAGAGAGAG GCCACCCTGG AGCTCCGGGG 
    CCTTCGGGGA GCCCTGGCTT GCCTGGTGTG CCTGGCTCCA TGGGAGACAT GGTGAATTAT 
    GATGAAATCA AGAGGTTCAT CAGACAAGAG ATCATTAAAA TGTTTGATGA GAGAATGGCT 
    TACTACACCT CCAGGATGCA GTTCCCCATG GAGATGGCGG CAGCTCCGGG ACGACCAGGG 
    CCTCCAGGGA AGGATGGTGC TCCGGGCAGG CCAGGTGCTC CAGGGTCACC TGGGCTCCCT 
    GGTCAGATTG GCAGAGAAGG ACGGCAGGGC TTGCCAGGAG TAAGAGGATT GCCTGGTACC 
    AAAGGTGAAA AAGGGGACAT TGGTATTGGC ATTGCAGGAG AAAATGGTCT TCCCGGCCCC 
    CCAGGTCCTC AAGGTCCTCC AGGCTATGGC AAGATGGGTG CAACAGGACC AATGGGCCAG 
    CAAGGCATCC CTGGCATCCC TGGGCCCCCG GGTCCCATGG GCCAGCCAGG CAAGGCTGGC 
    CACTGTAATC CCTCTGACTG CTTTGGGGCC ATGCCGATGG AGCAGCAGTA CCCACCCATG 
    AAAACCATGA AGGGGCCTTT TGGCTGA

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

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