COL19A1 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following COL19A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL19A1 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
OMb84592 XM_015136650.2
Latest version!
Macaca mulatta collagen type XIX alpha 1 chain (COL19A1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb84593 XM_028847452.1
Latest version!
Macaca mulatta collagen type XIX alpha 1 chain (COL19A1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb84594 XM_015136651.2
Latest version!
Macaca mulatta collagen type XIX alpha 1 chain (COL19A1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OMb84595 XM_015136652.2
Latest version!
Macaca mulatta collagen type XIX alpha 1 chain (COL19A1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OMb32316 XM_015136650.1
Latest version!
Macaca mulatta collagen, type XIX, alpha 1 (COL19A1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMb32317 XM_015136651.1
Latest version!
Macaca mulatta collagen, type XIX, alpha 1 (COL19A1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $629.30
$899.00
OMb32318 XM_015136652.1
Latest version!
Macaca mulatta collagen, type XIX, alpha 1 (COL19A1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $629.30
$899.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OMb84592
    Clone ID Related Accession (Same CDS sequence) XM_015136650.2
    Accession Version XM_015136650.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3564bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product collagen alpha-1(XIX) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041757.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015136650.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGCGTCCCC CTTCCCCACT CGCAGGGAGC TCACTCCTCG GCGGTGCTGC AGCCCTGTCC 
    GGACTCCACT GCGCCTCTGA GGGGCTCAAA CACGAATTCA AGATCTGTGG CCACTTGTTC
    ACATGGTTTC AAGGCACAAT GAGACTCACT GGCCCTTGGA AACTTTGGCT TTGGATGTCA
    GTGTTCCTGC TTCCTGCTTC CACTTCCGTG ACCATTAGGG ACAAGACAGA AGAGTCATGC
    CCTATCCTGA GAATAGAGGG ACATCAGCTG ACCTATGACA ACATAAACAA AGTTGAAGTT
    TCAGGTTTTG ATCTAGGAGA GAGCTTTTCT CTAAGACGCG CATTTTGTGA AAGTGATAAA
    ACCTGTTTCA AATTGGGAAG TGCACTTCTT ATTAGAGACA CTATTAAGGT ATTTCCCAAA
    GGCCTTCCTG AGGAGTACTC AGTAACTGCC ATGTTTCGAG TAAGAAGAAA CGCCAAAAAG
    GAACGGTGGT TTCTGTGGCA GGTTTTAAAC CAGCAGAATA TTCCACAGAT TTCTATAGTA
    GTTGATGGTG GAAAGAAGGT GGTGGAATTT ATGTTTCAAG CCACAGAGGG AGATGTGTTG
    AACTACATTT TTAGAAATCG AGAACTCCGT GCTTTGTTTG ATCGTCAGTG GCACAAACTT
    GGCATCAGTA TACAATCCCG AGTCCTTTCA CTCTATATGG ATTGTAATTT AATTGCAAGG
    AGACAGACTG ATGAAAAGGA CACTGTGGAT TTCCATGGAC GGACAGTTAT TGCTACGCGA
    GTTGCAGATG GCAAGCCTGT GGATATTGAA CTTCACCAAC TTAAAATCTA CTGCAGTGCA
    AACCTCATAG CTCAAGAAAC ATGTTGTGAA ATATCAGATA CTAAGTGCCC AGAGCAGGAT
    GGCTTTGGAA ATATTGCATC ATCATCGGTA ACTGCTCATG CCAGTAAAAT GTCTTCATAT
    CTGCCAGCAA AGCAGGAACT GAAAGACCAG TGCCAGTGCA TTCCAAACAA GGGAGAAGCA
    GGATTACCAG GAGCTCCGGG TTCACCTGGG CAGAAAGGGG ATAAAGGAGA GCCGGGTGAA
    AATGGTTTAC ATGGTGCTCC AGGACTACCT GGTCAAAAGG GAGAGCAAGG TTTTGAAGGC
    AGCAAAGGAG AAACTGGTGA AAAGGGTGAA CAAGGAGAAA AAGGAGATCC AGGTCTGGCT
    GGCCTTAATG GAGAAAATGG TTTGAAAGGT GACTTGGGTC CTCGTGGTCT ACCTGGCCCA
    AAAGGAGAAA AGGGAGATAC CGGACCCCCA GGACCACCAG TCTTACCCGG TTCCCTGGGG
    ATACAAGGCC CCCAAGGTCC ACCTGGAAAA GAGGGTCAGA GGGGAAGACG AGGGAAAACA
    GGACCTCCAG GAAAACCAGG ACCCCCGGGA CCACCTGGAC CTCCTGGAAT ACAAGGAATA
    CACCAGACTC TTGGTGGATA TTATAACAAG GATAACAAGG GAAATGATGA ACATGAAGCT
    GGAGGCCTGA AAGGAGACAA GGGTGAAAAT GGACTACCAG GATTTCCAGG GTCTGTTGGC
    CCTAAAGGAC AAAAAGGAGA ACCTGGAGAG CCTTTTACAA AAGGAGAAAA AGGAGATAGA
    GGAGAACCTG GGATAATAGG ATCACAGGGA GTAAAGGGTG AACCTGGAGA TCCTGGTCCC
    CCTGGTTTAA TAGGAAGCCC AGGACTAAAG GGTCAGCAGG GATCTGCAGG CTCCATGGGA
    CCCAGAGGAC CACCAGGAGA TGTTGGATTG CCAGGAGAAC ATGGTATCCC AGGAAAACAA
    GGCATTAAAG GAGAAAAGGG AGATCCAGGT GGGATCATAG GCCCTCCTGG GCTTCCAGGT
    CCAAAAGGTG AGGCTGGTCC TCCAGGGAAA AGCCTGCCAG GGGAACCAGG ATTAGATGGA
    AATCCTGGAG CACCTGGTCC GCGTGGACCA AAGGGTGAAA GAGGACTTCC AGGTGTTCAT
    GGTTCCCCAG GGGACATGGG CCCACCAGGG GTAGGAATTC CTGGCAGAAC AGGCTCCCAA
    GGACCAGTTG GAGAGCCAGG TATTCAGGGT CCTCGAGGTC TTCCTGGGTT GCCAGGAACC
    CCAGGGACTC CAGGGAATGA TGGAGTTCCA GGGAGGGATG GAAAGCCAGG CCTGCCAGGC
    CCCCCAGGTG ACCCGATTGC ACTTCCTCTC TTGGGAGACA TTGGTGTTTT GCTCAAGAAT
    TTCTGTGGCA ACTGCCAAGC CAGTGTCCCA GGGCTGAAAA GCAACAAAGG AGAAGGAGGC
    GCTGGTGAGC CTGGAAAGTA TGATTCCATG GCCCGGAAGG GTGATATAGG GCCACGGGGT
    CCTCCAGGAA TCCCAGGCAG AGAGGGACCA AAGGGAAGCA AAGGAGAGCG GGGCTACCCT
    GGGATACCTG GGGAGAAAGG CGATGAGGGT CTTCAAGGGA TTCCAGGCAT TCCAGGCGCT
    CCAGGCCCAA CTGGACCCCC TGGCTTACTG GGAAGAACTG GACATCCTGG TCCCACAGGA
    GCAAAAGGTG AAAAGGGCAG CCACGGACCC CCCGGGAAAC CCGGACCACC TGGACCACCT
    GGTATTCCAT TTAATGAAGG AAATGGCATG AGCAGTTTAT ATAAAATTAA GGGAGGTGTG
    AATGTTCCCA GTTACCCAGG GCCACCCGGT CCTCCTGGCC CAAAAGGCGA TCCTGGCCCA
    GTGGGAGAGC CTGGTGCAAT GGGGTTGCCA GGATTAGAAG GATTTCCAGG TGTAAAGGGA
    GATCGAGGCC CAGCAGGTCC CCCGGGAATA GCAGGGATGT CGGGGAAACC TGGAGCCCCA
    GGGCCTCCAG GAGTTCCAGG GGAACCGGGT GAGAGAGGAC CTGTTGGAGA TATAGGTTTC
    CCTGGACCAG AAGGACCCTC AGGAAAGCCA GGAATAAATG GAAAAGATGG AATACCAGGT
    GCTCAGGGCA TCATGGGTAA GCCTGGAGAC AGAGGCCCCA AAGGAGAACG TGGTGATCAG
    GGGATTCCAG GAGACAGAGG CCCACAAGGT GAACGGGGAA AACCAGGCCT TACAGGCATG
    AAGGGGGCCA TCGGTCCTAT TGGTCCACCA GGAAACAAGG GCTCAATGGG ATCCCCTGGC
    CACCAAGGCC CTCCAGGCTC TCCTGGCATC CCTGGCATTC CGGCTGATGC AGTTTCATTT
    GAAGAAATAA AGAAGTATAT TAATCAAGAG GTCCTAAGGA TTTTTGAAGA GAGGATGGCT
    GTATTCCTAT CCCAGCTTAA GCTGCCGGCA GCAATGTTGG CTGCCCAAGC TCATGGGAGG
    CCTGGGCCAC CAGGAAAGGA TGGGTTGCCT GGGCCACCAG GAGACCCTGG ACCCCAAGGC
    TACAGAGGAC AGAAGGGAGA AAGAGGTGAA CCTGGAATTG GGCTGCCAGG GAGTCCAGGT
    CTTCCTGGGA CTTCGGCTCT GGGTTTGCCG GGCTCACCAG GTGCCCCAGG CCCCCAGGGG
    CCCCCAGGAC CCAGTGGAAG ATGTAACCCA GAAGACTGCC TCTATCCTCT GTCTCAGGCC
    CATCAGCAGA CAGGTGGGAA ATGA

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

    RefSeq XP_014992136.2
    CDS88..3651
    Translation

    Target ORF information:

    RefSeq Version XM_015136650.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen type XIX alpha 1 chain (COL19A1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015136650.2

    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
    ATGCGTCCCC CTTCCCCACT CGCAGGGAGC TCACTCCTCG GCGGTGCTGC AGCCCTGTCC 
    GGACTCCACT GCGCCTCTGA GGGGCTCAAA CACGAATTCA AGATCTGTGG CCACTTGTTC
    ACATGGTTTC AAGGCACAAT GAGACTCACT GGCCCTTGGA AACTTTGGCT TTGGATGTCA
    GTGTTCCTGC TTCCTGCTTC CACTTCCGTG ACCATTAGGG ACAAGACAGA AGAGTCATGC
    CCTATCCTGA GAATAGAGGG ACATCAGCTG ACCTATGACA ACATAAACAA AGTTGAAGTT
    TCAGGTTTTG ATCTAGGAGA GAGCTTTTCT CTAAGACGCG CATTTTGTGA AAGTGATAAA
    ACCTGTTTCA AATTGGGAAG TGCACTTCTT ATTAGAGACA CTATTAAGGT ATTTCCCAAA
    GGCCTTCCTG AGGAGTACTC AGTAACTGCC ATGTTTCGAG TAAGAAGAAA CGCCAAAAAG
    GAACGGTGGT TTCTGTGGCA GGTTTTAAAC CAGCAGAATA TTCCACAGAT TTCTATAGTA
    GTTGATGGTG GAAAGAAGGT GGTGGAATTT ATGTTTCAAG CCACAGAGGG AGATGTGTTG
    AACTACATTT TTAGAAATCG AGAACTCCGT GCTTTGTTTG ATCGTCAGTG GCACAAACTT
    GGCATCAGTA TACAATCCCG AGTCCTTTCA CTCTATATGG ATTGTAATTT AATTGCAAGG
    AGACAGACTG ATGAAAAGGA CACTGTGGAT TTCCATGGAC GGACAGTTAT TGCTACGCGA
    GTTGCAGATG GCAAGCCTGT GGATATTGAA CTTCACCAAC TTAAAATCTA CTGCAGTGCA
    AACCTCATAG CTCAAGAAAC ATGTTGTGAA ATATCAGATA CTAAGTGCCC AGAGCAGGAT
    GGCTTTGGAA ATATTGCATC ATCATCGGTA ACTGCTCATG CCAGTAAAAT GTCTTCATAT
    CTGCCAGCAA AGCAGGAACT GAAAGACCAG TGCCAGTGCA TTCCAAACAA GGGAGAAGCA
    GGATTACCAG GAGCTCCGGG TTCACCTGGG CAGAAAGGGG ATAAAGGAGA GCCGGGTGAA
    AATGGTTTAC ATGGTGCTCC AGGACTACCT GGTCAAAAGG GAGAGCAAGG TTTTGAAGGC
    AGCAAAGGAG AAACTGGTGA AAAGGGTGAA CAAGGAGAAA AAGGAGATCC AGGTCTGGCT
    GGCCTTAATG GAGAAAATGG TTTGAAAGGT GACTTGGGTC CTCGTGGTCT ACCTGGCCCA
    AAAGGAGAAA AGGGAGATAC CGGACCCCCA GGACCACCAG TCTTACCCGG TTCCCTGGGG
    ATACAAGGCC CCCAAGGTCC ACCTGGAAAA GAGGGTCAGA GGGGAAGACG AGGGAAAACA
    GGACCTCCAG GAAAACCAGG ACCCCCGGGA CCACCTGGAC CTCCTGGAAT ACAAGGAATA
    CACCAGACTC TTGGTGGATA TTATAACAAG GATAACAAGG GAAATGATGA ACATGAAGCT
    GGAGGCCTGA AAGGAGACAA GGGTGAAAAT GGACTACCAG GATTTCCAGG GTCTGTTGGC
    CCTAAAGGAC AAAAAGGAGA ACCTGGAGAG CCTTTTACAA AAGGAGAAAA AGGAGATAGA
    GGAGAACCTG GGATAATAGG ATCACAGGGA GTAAAGGGTG AACCTGGAGA TCCTGGTCCC
    CCTGGTTTAA TAGGAAGCCC AGGACTAAAG GGTCAGCAGG GATCTGCAGG CTCCATGGGA
    CCCAGAGGAC CACCAGGAGA TGTTGGATTG CCAGGAGAAC ATGGTATCCC AGGAAAACAA
    GGCATTAAAG GAGAAAAGGG AGATCCAGGT GGGATCATAG GCCCTCCTGG GCTTCCAGGT
    CCAAAAGGTG AGGCTGGTCC TCCAGGGAAA AGCCTGCCAG GGGAACCAGG ATTAGATGGA
    AATCCTGGAG CACCTGGTCC GCGTGGACCA AAGGGTGAAA GAGGACTTCC AGGTGTTCAT
    GGTTCCCCAG GGGACATGGG CCCACCAGGG GTAGGAATTC CTGGCAGAAC AGGCTCCCAA
    GGACCAGTTG GAGAGCCAGG TATTCAGGGT CCTCGAGGTC TTCCTGGGTT GCCAGGAACC
    CCAGGGACTC CAGGGAATGA TGGAGTTCCA GGGAGGGATG GAAAGCCAGG CCTGCCAGGC
    CCCCCAGGTG ACCCGATTGC ACTTCCTCTC TTGGGAGACA TTGGTGTTTT GCTCAAGAAT
    TTCTGTGGCA ACTGCCAAGC CAGTGTCCCA GGGCTGAAAA GCAACAAAGG AGAAGGAGGC
    GCTGGTGAGC CTGGAAAGTA TGATTCCATG GCCCGGAAGG GTGATATAGG GCCACGGGGT
    CCTCCAGGAA TCCCAGGCAG AGAGGGACCA AAGGGAAGCA AAGGAGAGCG GGGCTACCCT
    GGGATACCTG GGGAGAAAGG CGATGAGGGT CTTCAAGGGA TTCCAGGCAT TCCAGGCGCT
    CCAGGCCCAA CTGGACCCCC TGGCTTACTG GGAAGAACTG GACATCCTGG TCCCACAGGA
    GCAAAAGGTG AAAAGGGCAG CCACGGACCC CCCGGGAAAC CCGGACCACC TGGACCACCT
    GGTATTCCAT TTAATGAAGG AAATGGCATG AGCAGTTTAT ATAAAATTAA GGGAGGTGTG
    AATGTTCCCA GTTACCCAGG GCCACCCGGT CCTCCTGGCC CAAAAGGCGA TCCTGGCCCA
    GTGGGAGAGC CTGGTGCAAT GGGGTTGCCA GGATTAGAAG GATTTCCAGG TGTAAAGGGA
    GATCGAGGCC CAGCAGGTCC CCCGGGAATA GCAGGGATGT CGGGGAAACC TGGAGCCCCA
    GGGCCTCCAG GAGTTCCAGG GGAACCGGGT GAGAGAGGAC CTGTTGGAGA TATAGGTTTC
    CCTGGACCAG AAGGACCCTC AGGAAAGCCA GGAATAAATG GAAAAGATGG AATACCAGGT
    GCTCAGGGCA TCATGGGTAA GCCTGGAGAC AGAGGCCCCA AAGGAGAACG TGGTGATCAG
    GGGATTCCAG GAGACAGAGG CCCACAAGGT GAACGGGGAA AACCAGGCCT TACAGGCATG
    AAGGGGGCCA TCGGTCCTAT TGGTCCACCA GGAAACAAGG GCTCAATGGG ATCCCCTGGC
    CACCAAGGCC CTCCAGGCTC TCCTGGCATC CCTGGCATTC CGGCTGATGC AGTTTCATTT
    GAAGAAATAA AGAAGTATAT TAATCAAGAG GTCCTAAGGA TTTTTGAAGA GAGGATGGCT
    GTATTCCTAT CCCAGCTTAA GCTGCCGGCA GCAATGTTGG CTGCCCAAGC TCATGGGAGG
    CCTGGGCCAC CAGGAAAGGA TGGGTTGCCT GGGCCACCAG GAGACCCTGG ACCCCAAGGC
    TACAGAGGAC AGAAGGGAGA AAGAGGTGAA CCTGGAATTG GGCTGCCAGG GAGTCCAGGT
    CTTCCTGGGA CTTCGGCTCT GGGTTTGCCG GGCTCACCAG GTGCCCCAGG CCCCCAGGGG
    CCCCCAGGAC CCAGTGGAAG ATGTAACCCA GAAGACTGCC TCTATCCTCT GTCTCAGGCC
    CATCAGCAGA CAGGTGGGAA ATGA

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

    CloneID OMb84593
    Clone ID Related Accession (Same CDS sequence) XM_028847452.1
    Accession Version XM_028847452.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3561bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product collagen alpha-1(XIX) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041757.1) 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 Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGCGTCCCC CTTCCCCACT CGCAGGGAGC TCACTCCTCG GCGGTGCTGC AGCCCTGTCC 
    GGACTCCACT GCGCCTCTGA GGGGCTCAAA CACGAATTCA AGATCTGTGG CCACTTGTTC
    ACATGGTTTC AAGGCACAAT GAGACTCACT GGCCCTTGGA AACTTTGGCT TTGGATGTCA
    GTGTTCCTGC TTCCTGCTTC CACTTCCGTG ACCATTAGGG ACAAGACAGA AGAGTCATGC
    CCTATCCTGA GAATAGAGGG ACATCAGCTG ACCTATGACA ACATAAACAA AGTTGAAGTT
    TCAGGTTTTG ATCTAGGAGA GAGCTTTTCT CTAAGACGCG CATTTTGTGA AAGTGATAAA
    ACCTGTTTCA AATTGGGAAG TGCACTTCTT ATTAGAGACA CTATTAAGGT ATTTCCCAAA
    GGCCTTCCTG AGGAGTACTC AGTAACTGCC ATGTTTCGAG TAAGAAGAAA CGCCAAAAAG
    GAACGGTGGT TTCTGTGGCA GGTTTTAAAC CAGCAGAATA TTCCACAGAT TTCTATAGTA
    GTTGATGGTG GAAAGAAGGT GGTGGAATTT ATGTTTCAAG CCACAGAGGG AGATGTGTTG
    AACTACATTT TTAGAAATCG AGAACTCCGT GCTTTGTTTG ATCGTCAGTG GCACAAACTT
    GGCATCAGTA TACAATCCCG AGTCCTTTCA CTCTATATGG ATTGTAATTT AATTGCAAGG
    AGACAGACTG ATGAAAAGGA CACTGTGGAT TTCCATGGAC GGACAGTTAT TGCTACGCGA
    GTTGCAGATG GCAAGCCTGT GGATATTGAA CTTCACCAAC TTAAAATCTA CTGCAGTGCA
    AACCTCATAG CTCAAGAAAC ATGTTGTGAA ATATCAGATA CTAAGTGCCC AGAGCAGGAT
    GGCTTTGGAA ATATTGCATC ATCATCGGTA ACTGCTCATG CCAGTAAAAT GTCTTCATAT
    CTGCCAGCAA AGCAGGAACT GAAAGACCAG TGCCAGTGCA TTCCAAACAA GGGAGAAGCA
    GGATTACCAG GAGCTCCGGG TTCACCTGGG CAGAAAGGGG ATAAAGGAGA GCCGGGTGAA
    AATGGTTTAC ATGGTGCTCC AGGACTACCT GGTCAAAAGG GAGAGCAAGG TTTTGAAGGC
    AGCAAAGGAG AAACTGGTGA AAAGGGTGAA CAAGGAGAAA AAGGAGATCC AGGTCTGGCT
    GGCCTTAATG GAGAAAATGG TTTGAAAGGT GACTTGGGTC CTCGTGGTCT ACCTGGCCCA
    AAAGGAGAAA AGGGAGATAC CGGACCCCCA GGACCACCAG TCTTACCCGG TTCCCTGGGG
    ATACAAGGCC CCCAAGGTCC ACCTGGAAAA GAGGGTCAGA GGGGAAGACG AGGGAAAACA
    GGACCTCCAG GAAAACCAGG ACCCCCGGGA CCACCTGGAC CTCCTGGAAT ACAAGGAATA
    CACCAGACTC TTGGTGGATA TTATAACAAG GATAACAAGG GAAATGATGA ACATGAAGCT
    GGAGGCCTGA AAGGAGACAA GGGTGAAAAT GGACTACCAG GATTTCCAGG GTCTGTTGGC
    CCTAAAGGAC AAAAAGGAGA ACCTGGAGAG CCTTTTACAA AAGGAGAAAA AGGAGATAGA
    GGAGAACCTG GGATAATAGG ATCACAGGGA GTAAAGGGTG AACCTGGAGA TCCTGGTCCC
    CCTGGTTTAA TAGGAAGCCC AGGACTAAAG GGTCAGCAGG GATCTGCAGG CTCCATGGGA
    CCCAGAGGAC CACCAGGAGA TGTTGGATTG CCAGGAGAAC ATGGTATCCC AGGAAAACAA
    GGCATTAAAG GAGAAAAGGG AGATCCAGGT GGGATCATAG GCCCTCCTGG GCTTCCAGGT
    CCAAAAGGTG AGGCTGGTCC TCCAGGGAAA AGCCTGCCAG GGGAACCAGG ATTAGATGGA
    AATCCTGGAG CACCTGGTCC GCGTGGACCA AAGGGTGAAA GAGGACTTCC AGGTGTTCAT
    GGTTCCCCAG GGGACATGGG CCCACCAGGG GTAGGAATTC CTGGCAGAAC AGGCTCCCAA
    GGACCAGTTG GAGAGCCAGG TATTCAGGGT CCTCGAGGTC TTCCTGGGTT GCCAGGAACC
    CCAGGGACTC CAGGGAATGA TGGAGTTCCA GGGAGGGATG GAAAGCCAGG CCTGCCAGGC
    CCCCCAGGTG ACCCGATTGC ACTTCCTCTC TTGGGAGACA TTGGTGTTTT GCTCAAGAAT
    TTCTGTGGCA ACTGCCAAGC CAGTGTCCCA GGGCTGAAAA GCAACAAAGG AGAAGGAGGC
    GCTGGTGAGC CTGGAAAGTA TGATTCCATG GCCCGGAAGG GTGATATAGG GCCACGGGGT
    CCTCCAGGAA TCCCAGGCAG AGAGGGACCA AAGGGAAGCA AAGGAGAGCG GGGCTACCCT
    GGGATACCTG GGGAGAAAGG CGATGAGGGT CTTCAAGGGA TTCCAGGCAT TCCAGGCGCT
    CCAGGCCCAA CTGGACCCCC TGGCTTACTG GGAAGAACTG GACATCCTGG TCCCACAGGA
    GCAAAAGGTG AAAAGGGCAG CCACGGACCC CCCGGGAAAC CCGGACCACC TGGACCACCT
    GGTATTCCAT TTAATGAAGG AAATGGCATG AGCAGTTTAT ATAAAATTAA GGGAGGTGTG
    AATGTTCCCA GTTACCCAGG GCCACCCGGT CCTCCTGGCC CAAAAGGCGA TCCTGGCCCA
    GTGGGAGAGC CTGGTGCAAT GGGGTTGCCA GGATTAGAAG GATTTCCAGG TGTAAAGGGA
    GATCGAGGCC CAGCAGGTCC CCCGGGAATA GCAGGGATGT CGGGGAAACC TGGAGCCCCA
    GGGCCTCCAG GAGTTCCAGG GGAACCGGGT GAGAGAGGAC CTGTTGGAGA TATAGGTTTC
    CCTGGACCAG AAGGACCCTC AGGAAAGCCA GGAATAAATG GAAAAGATGG AATACCAGGT
    GCTCAGGGCA TCATGGGTAA GCCTGGAGAC AGAGGCCCCA AAGGAGAACG TGGTGATCAG
    GGGATTCCAG GAGACAGAGG CCCACAAGGT GAACGGGGAA AACCAGGCCT TACAGGCATG
    AAGGGGGCCA TCGGTCCTAT TGGTCCACCA GGAAACAAGG GCTCAATGGG ATCCCCTGGC
    CACCAAGGCC CTCCAGGCTC TCCTGGCATC CCTGGCATTC CGGCTGATGC AGTTTCATTT
    GAAGAAATAA AGAAGTATAT TAATCAAGAG GTCCTAAGGA TTTTTGAAGA GAGGATGGCT
    GTATTCCTAT CCCAGCTTAA GCTGCCGGCA GCAATGTTGG CTGCCCAAGC TCATGGGAGG
    CCTGGGCCAC CAGGAAAGGA TGGGTTGCCT GGGCCACCAG GAGACCCTGG ACCCCAAGGC
    TACAGAGGAC AGAAGGGAGA AAGAGGTGAA CCTGGAATTG GGCTGCCAGG GAGTCCAGGT
    CTTCCTGGGA CTTCGGATAC TTTTTCCTGC CTCAGCTCTG TACACATGAT ATGCAACAAA
    GGGCAGCAAG AAGTGCTGGA TCCACCTAAT TTAACACCAA ATGAAGTTGA GATTTGGCAA
    TTGCCCAATT CCTTTAATTA A

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

    RefSeq XP_028703285.1
    CDS88..3648
    Translation

    Target ORF information:

    RefSeq Version XM_028847452.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen type XIX alpha 1 chain (COL19A1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028847452.1

    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
    ATGCGTCCCC CTTCCCCACT CGCAGGGAGC TCACTCCTCG GCGGTGCTGC AGCCCTGTCC 
    GGACTCCACT GCGCCTCTGA GGGGCTCAAA CACGAATTCA AGATCTGTGG CCACTTGTTC
    ACATGGTTTC AAGGCACAAT GAGACTCACT GGCCCTTGGA AACTTTGGCT TTGGATGTCA
    GTGTTCCTGC TTCCTGCTTC CACTTCCGTG ACCATTAGGG ACAAGACAGA AGAGTCATGC
    CCTATCCTGA GAATAGAGGG ACATCAGCTG ACCTATGACA ACATAAACAA AGTTGAAGTT
    TCAGGTTTTG ATCTAGGAGA GAGCTTTTCT CTAAGACGCG CATTTTGTGA AAGTGATAAA
    ACCTGTTTCA AATTGGGAAG TGCACTTCTT ATTAGAGACA CTATTAAGGT ATTTCCCAAA
    GGCCTTCCTG AGGAGTACTC AGTAACTGCC ATGTTTCGAG TAAGAAGAAA CGCCAAAAAG
    GAACGGTGGT TTCTGTGGCA GGTTTTAAAC CAGCAGAATA TTCCACAGAT TTCTATAGTA
    GTTGATGGTG GAAAGAAGGT GGTGGAATTT ATGTTTCAAG CCACAGAGGG AGATGTGTTG
    AACTACATTT TTAGAAATCG AGAACTCCGT GCTTTGTTTG ATCGTCAGTG GCACAAACTT
    GGCATCAGTA TACAATCCCG AGTCCTTTCA CTCTATATGG ATTGTAATTT AATTGCAAGG
    AGACAGACTG ATGAAAAGGA CACTGTGGAT TTCCATGGAC GGACAGTTAT TGCTACGCGA
    GTTGCAGATG GCAAGCCTGT GGATATTGAA CTTCACCAAC TTAAAATCTA CTGCAGTGCA
    AACCTCATAG CTCAAGAAAC ATGTTGTGAA ATATCAGATA CTAAGTGCCC AGAGCAGGAT
    GGCTTTGGAA ATATTGCATC ATCATCGGTA ACTGCTCATG CCAGTAAAAT GTCTTCATAT
    CTGCCAGCAA AGCAGGAACT GAAAGACCAG TGCCAGTGCA TTCCAAACAA GGGAGAAGCA
    GGATTACCAG GAGCTCCGGG TTCACCTGGG CAGAAAGGGG ATAAAGGAGA GCCGGGTGAA
    AATGGTTTAC ATGGTGCTCC AGGACTACCT GGTCAAAAGG GAGAGCAAGG TTTTGAAGGC
    AGCAAAGGAG AAACTGGTGA AAAGGGTGAA CAAGGAGAAA AAGGAGATCC AGGTCTGGCT
    GGCCTTAATG GAGAAAATGG TTTGAAAGGT GACTTGGGTC CTCGTGGTCT ACCTGGCCCA
    AAAGGAGAAA AGGGAGATAC CGGACCCCCA GGACCACCAG TCTTACCCGG TTCCCTGGGG
    ATACAAGGCC CCCAAGGTCC ACCTGGAAAA GAGGGTCAGA GGGGAAGACG AGGGAAAACA
    GGACCTCCAG GAAAACCAGG ACCCCCGGGA CCACCTGGAC CTCCTGGAAT ACAAGGAATA
    CACCAGACTC TTGGTGGATA TTATAACAAG GATAACAAGG GAAATGATGA ACATGAAGCT
    GGAGGCCTGA AAGGAGACAA GGGTGAAAAT GGACTACCAG GATTTCCAGG GTCTGTTGGC
    CCTAAAGGAC AAAAAGGAGA ACCTGGAGAG CCTTTTACAA AAGGAGAAAA AGGAGATAGA
    GGAGAACCTG GGATAATAGG ATCACAGGGA GTAAAGGGTG AACCTGGAGA TCCTGGTCCC
    CCTGGTTTAA TAGGAAGCCC AGGACTAAAG GGTCAGCAGG GATCTGCAGG CTCCATGGGA
    CCCAGAGGAC CACCAGGAGA TGTTGGATTG CCAGGAGAAC ATGGTATCCC AGGAAAACAA
    GGCATTAAAG GAGAAAAGGG AGATCCAGGT GGGATCATAG GCCCTCCTGG GCTTCCAGGT
    CCAAAAGGTG AGGCTGGTCC TCCAGGGAAA AGCCTGCCAG GGGAACCAGG ATTAGATGGA
    AATCCTGGAG CACCTGGTCC GCGTGGACCA AAGGGTGAAA GAGGACTTCC AGGTGTTCAT
    GGTTCCCCAG GGGACATGGG CCCACCAGGG GTAGGAATTC CTGGCAGAAC AGGCTCCCAA
    GGACCAGTTG GAGAGCCAGG TATTCAGGGT CCTCGAGGTC TTCCTGGGTT GCCAGGAACC
    CCAGGGACTC CAGGGAATGA TGGAGTTCCA GGGAGGGATG GAAAGCCAGG CCTGCCAGGC
    CCCCCAGGTG ACCCGATTGC ACTTCCTCTC TTGGGAGACA TTGGTGTTTT GCTCAAGAAT
    TTCTGTGGCA ACTGCCAAGC CAGTGTCCCA GGGCTGAAAA GCAACAAAGG AGAAGGAGGC
    GCTGGTGAGC CTGGAAAGTA TGATTCCATG GCCCGGAAGG GTGATATAGG GCCACGGGGT
    CCTCCAGGAA TCCCAGGCAG AGAGGGACCA AAGGGAAGCA AAGGAGAGCG GGGCTACCCT
    GGGATACCTG GGGAGAAAGG CGATGAGGGT CTTCAAGGGA TTCCAGGCAT TCCAGGCGCT
    CCAGGCCCAA CTGGACCCCC TGGCTTACTG GGAAGAACTG GACATCCTGG TCCCACAGGA
    GCAAAAGGTG AAAAGGGCAG CCACGGACCC CCCGGGAAAC CCGGACCACC TGGACCACCT
    GGTATTCCAT TTAATGAAGG AAATGGCATG AGCAGTTTAT ATAAAATTAA GGGAGGTGTG
    AATGTTCCCA GTTACCCAGG GCCACCCGGT CCTCCTGGCC CAAAAGGCGA TCCTGGCCCA
    GTGGGAGAGC CTGGTGCAAT GGGGTTGCCA GGATTAGAAG GATTTCCAGG TGTAAAGGGA
    GATCGAGGCC CAGCAGGTCC CCCGGGAATA GCAGGGATGT CGGGGAAACC TGGAGCCCCA
    GGGCCTCCAG GAGTTCCAGG GGAACCGGGT GAGAGAGGAC CTGTTGGAGA TATAGGTTTC
    CCTGGACCAG AAGGACCCTC AGGAAAGCCA GGAATAAATG GAAAAGATGG AATACCAGGT
    GCTCAGGGCA TCATGGGTAA GCCTGGAGAC AGAGGCCCCA AAGGAGAACG TGGTGATCAG
    GGGATTCCAG GAGACAGAGG CCCACAAGGT GAACGGGGAA AACCAGGCCT TACAGGCATG
    AAGGGGGCCA TCGGTCCTAT TGGTCCACCA GGAAACAAGG GCTCAATGGG ATCCCCTGGC
    CACCAAGGCC CTCCAGGCTC TCCTGGCATC CCTGGCATTC CGGCTGATGC AGTTTCATTT
    GAAGAAATAA AGAAGTATAT TAATCAAGAG GTCCTAAGGA TTTTTGAAGA GAGGATGGCT
    GTATTCCTAT CCCAGCTTAA GCTGCCGGCA GCAATGTTGG CTGCCCAAGC TCATGGGAGG
    CCTGGGCCAC CAGGAAAGGA TGGGTTGCCT GGGCCACCAG GAGACCCTGG ACCCCAAGGC
    TACAGAGGAC AGAAGGGAGA AAGAGGTGAA CCTGGAATTG GGCTGCCAGG GAGTCCAGGT
    CTTCCTGGGA CTTCGGATAC TTTTTCCTGC CTCAGCTCTG TACACATGAT ATGCAACAAA
    GGGCAGCAAG AAGTGCTGGA TCCACCTAAT TTAACACCAA ATGAAGTTGA GATTTGGCAA
    TTGCCCAATT CCTTTAATTA A

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

    CloneID OMb84594
    Clone ID Related Accession (Same CDS sequence) XM_015136651.2
    Accession Version XM_015136651.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3426bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product collagen alpha-1(XIX) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041757.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015136651.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGAGACTCA CTGGCCCTTG GAAACTTTGG CTTTGGATGT CAGTGTTCCT GCTTCCTGCT 
    TCCACTTCCG TGACCATTAG GGACAAGACA GAAGAGTCAT GCCCTATCCT GAGAATAGAG
    GGACATCAGC TGACCTATGA CAACATAAAC AAAGTTGAAG TTTCAGGTTT TGATCTAGGA
    GAGAGCTTTT CTCTAAGACG CGCATTTTGT GAAAGTGATA AAACCTGTTT CAAATTGGGA
    AGTGCACTTC TTATTAGAGA CACTATTAAG GTATTTCCCA AAGGCCTTCC TGAGGAGTAC
    TCAGTAACTG CCATGTTTCG AGTAAGAAGA AACGCCAAAA AGGAACGGTG GTTTCTGTGG
    CAGGTTTTAA ACCAGCAGAA TATTCCACAG ATTTCTATAG TAGTTGATGG TGGAAAGAAG
    GTGGTGGAAT TTATGTTTCA AGCCACAGAG GGAGATGTGT TGAACTACAT TTTTAGAAAT
    CGAGAACTCC GTGCTTTGTT TGATCGTCAG TGGCACAAAC TTGGCATCAG TATACAATCC
    CGAGTCCTTT CACTCTATAT GGATTGTAAT TTAATTGCAA GGAGACAGAC TGATGAAAAG
    GACACTGTGG ATTTCCATGG ACGGACAGTT ATTGCTACGC GAGTTGCAGA TGGCAAGCCT
    GTGGATATTG AACTTCACCA ACTTAAAATC TACTGCAGTG CAAACCTCAT AGCTCAAGAA
    ACATGTTGTG AAATATCAGA TACTAAGTGC CCAGAGCAGG ATGGCTTTGG AAATATTGCA
    TCATCATCGG TAACTGCTCA TGCCAGTAAA ATGTCTTCAT ATCTGCCAGC AAAGCAGGAA
    CTGAAAGACC AGTGCCAGTG CATTCCAAAC AAGGGAGAAG CAGGATTACC AGGAGCTCCG
    GGTTCACCTG GGCAGAAAGG GGATAAAGGA GAGCCGGGTG AAAATGGTTT ACATGGTGCT
    CCAGGACTAC CTGGTCAAAA GGGAGAGCAA GGTTTTGAAG GCAGCAAAGG AGAAACTGGT
    GAAAAGGGTG AACAAGGAGA AAAAGGAGAT CCAGGTCTGG CTGGCCTTAA TGGAGAAAAT
    GGTTTGAAAG GTGACTTGGG TCCTCGTGGT CTACCTGGCC CAAAAGGAGA AAAGGGAGAT
    ACCGGACCCC CAGGACCACC AGTCTTACCC GGTTCCCTGG GGATACAAGG CCCCCAAGGT
    CCACCTGGAA AAGAGGGTCA GAGGGGAAGA CGAGGGAAAA CAGGACCTCC AGGAAAACCA
    GGACCCCCGG GACCACCTGG ACCTCCTGGA ATACAAGGAA TACACCAGAC TCTTGGTGGA
    TATTATAACA AGGATAACAA GGGAAATGAT GAACATGAAG CTGGAGGCCT GAAAGGAGAC
    AAGGGTGAAA ATGGACTACC AGGATTTCCA GGGTCTGTTG GCCCTAAAGG ACAAAAAGGA
    GAACCTGGAG AGCCTTTTAC AAAAGGAGAA AAAGGAGATA GAGGAGAACC TGGGATAATA
    GGATCACAGG GAGTAAAGGG TGAACCTGGA GATCCTGGTC CCCCTGGTTT AATAGGAAGC
    CCAGGACTAA AGGGTCAGCA GGGATCTGCA GGCTCCATGG GACCCAGAGG ACCACCAGGA
    GATGTTGGAT TGCCAGGAGA ACATGGTATC CCAGGAAAAC AAGGCATTAA AGGAGAAAAG
    GGAGATCCAG GTGGGATCAT AGGCCCTCCT GGGCTTCCAG GTCCAAAAGG TGAGGCTGGT
    CCTCCAGGGA AAAGCCTGCC AGGGGAACCA GGATTAGATG GAAATCCTGG AGCACCTGGT
    CCGCGTGGAC CAAAGGGTGA AAGAGGACTT CCAGGTGTTC ATGGTTCCCC AGGGGACATG
    GGCCCACCAG GGGTAGGAAT TCCTGGCAGA ACAGGCTCCC AAGGACCAGT TGGAGAGCCA
    GGTATTCAGG GTCCTCGAGG TCTTCCTGGG TTGCCAGGAA CCCCAGGGAC TCCAGGGAAT
    GATGGAGTTC CAGGGAGGGA TGGAAAGCCA GGCCTGCCAG GCCCCCCAGG TGACCCGATT
    GCACTTCCTC TCTTGGGAGA CATTGGTGTT TTGCTCAAGA ATTTCTGTGG CAACTGCCAA
    GCCAGTGTCC CAGGGCTGAA AAGCAACAAA GGAGAAGGAG GCGCTGGTGA GCCTGGAAAG
    TATGATTCCA TGGCCCGGAA GGGTGATATA GGGCCACGGG GTCCTCCAGG AATCCCAGGC
    AGAGAGGGAC CAAAGGGAAG CAAAGGAGAG CGGGGCTACC CTGGGATACC TGGGGAGAAA
    GGCGATGAGG GTCTTCAAGG GATTCCAGGC ATTCCAGGCG CTCCAGGCCC AACTGGACCC
    CCTGGCTTAC TGGGAAGAAC TGGACATCCT GGTCCCACAG GAGCAAAAGG TGAAAAGGGC
    AGCCACGGAC CCCCCGGGAA ACCCGGACCA CCTGGACCAC CTGGTATTCC ATTTAATGAA
    GGAAATGGCA TGAGCAGTTT ATATAAAATT AAGGGAGGTG TGAATGTTCC CAGTTACCCA
    GGGCCACCCG GTCCTCCTGG CCCAAAAGGC GATCCTGGCC CAGTGGGAGA GCCTGGTGCA
    ATGGGGTTGC CAGGATTAGA AGGATTTCCA GGTGTAAAGG GAGATCGAGG CCCAGCAGGT
    CCCCCGGGAA TAGCAGGGAT GTCGGGGAAA CCTGGAGCCC CAGGGCCTCC AGGAGTTCCA
    GGGGAACCGG GTGAGAGAGG ACCTGTTGGA GATATAGGTT TCCCTGGACC AGAAGGACCC
    TCAGGAAAGC CAGGAATAAA TGGAAAAGAT GGAATACCAG GTGCTCAGGG CATCATGGGT
    AAGCCTGGAG ACAGAGGCCC CAAAGGAGAA CGTGGTGATC AGGGGATTCC AGGAGACAGA
    GGCCCACAAG GTGAACGGGG AAAACCAGGC CTTACAGGCA TGAAGGGGGC CATCGGTCCT
    ATTGGTCCAC CAGGAAACAA GGGCTCAATG GGATCCCCTG GCCACCAAGG CCCTCCAGGC
    TCTCCTGGCA TCCCTGGCAT TCCGGCTGAT GCAGTTTCAT TTGAAGAAAT AAAGAAGTAT
    ATTAATCAAG AGGTCCTAAG GATTTTTGAA GAGAGGATGG CTGTATTCCT ATCCCAGCTT
    AAGCTGCCGG CAGCAATGTT GGCTGCCCAA GCTCATGGGA GGCCTGGGCC ACCAGGAAAG
    GATGGGTTGC CTGGGCCACC AGGAGACCCT GGACCCCAAG GCTACAGAGG ACAGAAGGGA
    GAAAGAGGTG AACCTGGAAT TGGGCTGCCA GGGAGTCCAG GTCTTCCTGG GACTTCGGCT
    CTGGGTTTGC CGGGCTCACC AGGTGCCCCA GGCCCCCAGG GGCCCCCAGG ACCCAGTGGA
    AGATGTAACC CAGAAGACTG CCTCTATCCT CTGTCTCAGG CCCATCAGCA GACAGGTGGG
    AAATGA

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

    RefSeq XP_014992137.2
    CDS254..3679
    Translation

    Target ORF information:

    RefSeq Version XM_015136651.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen type XIX alpha 1 chain (COL19A1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015136651.2

    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
    ATGAGACTCA CTGGCCCTTG GAAACTTTGG CTTTGGATGT CAGTGTTCCT GCTTCCTGCT 
    TCCACTTCCG TGACCATTAG GGACAAGACA GAAGAGTCAT GCCCTATCCT GAGAATAGAG
    GGACATCAGC TGACCTATGA CAACATAAAC AAAGTTGAAG TTTCAGGTTT TGATCTAGGA
    GAGAGCTTTT CTCTAAGACG CGCATTTTGT GAAAGTGATA AAACCTGTTT CAAATTGGGA
    AGTGCACTTC TTATTAGAGA CACTATTAAG GTATTTCCCA AAGGCCTTCC TGAGGAGTAC
    TCAGTAACTG CCATGTTTCG AGTAAGAAGA AACGCCAAAA AGGAACGGTG GTTTCTGTGG
    CAGGTTTTAA ACCAGCAGAA TATTCCACAG ATTTCTATAG TAGTTGATGG TGGAAAGAAG
    GTGGTGGAAT TTATGTTTCA AGCCACAGAG GGAGATGTGT TGAACTACAT TTTTAGAAAT
    CGAGAACTCC GTGCTTTGTT TGATCGTCAG TGGCACAAAC TTGGCATCAG TATACAATCC
    CGAGTCCTTT CACTCTATAT GGATTGTAAT TTAATTGCAA GGAGACAGAC TGATGAAAAG
    GACACTGTGG ATTTCCATGG ACGGACAGTT ATTGCTACGC GAGTTGCAGA TGGCAAGCCT
    GTGGATATTG AACTTCACCA ACTTAAAATC TACTGCAGTG CAAACCTCAT AGCTCAAGAA
    ACATGTTGTG AAATATCAGA TACTAAGTGC CCAGAGCAGG ATGGCTTTGG AAATATTGCA
    TCATCATCGG TAACTGCTCA TGCCAGTAAA ATGTCTTCAT ATCTGCCAGC AAAGCAGGAA
    CTGAAAGACC AGTGCCAGTG CATTCCAAAC AAGGGAGAAG CAGGATTACC AGGAGCTCCG
    GGTTCACCTG GGCAGAAAGG GGATAAAGGA GAGCCGGGTG AAAATGGTTT ACATGGTGCT
    CCAGGACTAC CTGGTCAAAA GGGAGAGCAA GGTTTTGAAG GCAGCAAAGG AGAAACTGGT
    GAAAAGGGTG AACAAGGAGA AAAAGGAGAT CCAGGTCTGG CTGGCCTTAA TGGAGAAAAT
    GGTTTGAAAG GTGACTTGGG TCCTCGTGGT CTACCTGGCC CAAAAGGAGA AAAGGGAGAT
    ACCGGACCCC CAGGACCACC AGTCTTACCC GGTTCCCTGG GGATACAAGG CCCCCAAGGT
    CCACCTGGAA AAGAGGGTCA GAGGGGAAGA CGAGGGAAAA CAGGACCTCC AGGAAAACCA
    GGACCCCCGG GACCACCTGG ACCTCCTGGA ATACAAGGAA TACACCAGAC TCTTGGTGGA
    TATTATAACA AGGATAACAA GGGAAATGAT GAACATGAAG CTGGAGGCCT GAAAGGAGAC
    AAGGGTGAAA ATGGACTACC AGGATTTCCA GGGTCTGTTG GCCCTAAAGG ACAAAAAGGA
    GAACCTGGAG AGCCTTTTAC AAAAGGAGAA AAAGGAGATA GAGGAGAACC TGGGATAATA
    GGATCACAGG GAGTAAAGGG TGAACCTGGA GATCCTGGTC CCCCTGGTTT AATAGGAAGC
    CCAGGACTAA AGGGTCAGCA GGGATCTGCA GGCTCCATGG GACCCAGAGG ACCACCAGGA
    GATGTTGGAT TGCCAGGAGA ACATGGTATC CCAGGAAAAC AAGGCATTAA AGGAGAAAAG
    GGAGATCCAG GTGGGATCAT AGGCCCTCCT GGGCTTCCAG GTCCAAAAGG TGAGGCTGGT
    CCTCCAGGGA AAAGCCTGCC AGGGGAACCA GGATTAGATG GAAATCCTGG AGCACCTGGT
    CCGCGTGGAC CAAAGGGTGA AAGAGGACTT CCAGGTGTTC ATGGTTCCCC AGGGGACATG
    GGCCCACCAG GGGTAGGAAT TCCTGGCAGA ACAGGCTCCC AAGGACCAGT TGGAGAGCCA
    GGTATTCAGG GTCCTCGAGG TCTTCCTGGG TTGCCAGGAA CCCCAGGGAC TCCAGGGAAT
    GATGGAGTTC CAGGGAGGGA TGGAAAGCCA GGCCTGCCAG GCCCCCCAGG TGACCCGATT
    GCACTTCCTC TCTTGGGAGA CATTGGTGTT TTGCTCAAGA ATTTCTGTGG CAACTGCCAA
    GCCAGTGTCC CAGGGCTGAA AAGCAACAAA GGAGAAGGAG GCGCTGGTGA GCCTGGAAAG
    TATGATTCCA TGGCCCGGAA GGGTGATATA GGGCCACGGG GTCCTCCAGG AATCCCAGGC
    AGAGAGGGAC CAAAGGGAAG CAAAGGAGAG CGGGGCTACC CTGGGATACC TGGGGAGAAA
    GGCGATGAGG GTCTTCAAGG GATTCCAGGC ATTCCAGGCG CTCCAGGCCC AACTGGACCC
    CCTGGCTTAC TGGGAAGAAC TGGACATCCT GGTCCCACAG GAGCAAAAGG TGAAAAGGGC
    AGCCACGGAC CCCCCGGGAA ACCCGGACCA CCTGGACCAC CTGGTATTCC ATTTAATGAA
    GGAAATGGCA TGAGCAGTTT ATATAAAATT AAGGGAGGTG TGAATGTTCC CAGTTACCCA
    GGGCCACCCG GTCCTCCTGG CCCAAAAGGC GATCCTGGCC CAGTGGGAGA GCCTGGTGCA
    ATGGGGTTGC CAGGATTAGA AGGATTTCCA GGTGTAAAGG GAGATCGAGG CCCAGCAGGT
    CCCCCGGGAA TAGCAGGGAT GTCGGGGAAA CCTGGAGCCC CAGGGCCTCC AGGAGTTCCA
    GGGGAACCGG GTGAGAGAGG ACCTGTTGGA GATATAGGTT TCCCTGGACC AGAAGGACCC
    TCAGGAAAGC CAGGAATAAA TGGAAAAGAT GGAATACCAG GTGCTCAGGG CATCATGGGT
    AAGCCTGGAG ACAGAGGCCC CAAAGGAGAA CGTGGTGATC AGGGGATTCC AGGAGACAGA
    GGCCCACAAG GTGAACGGGG AAAACCAGGC CTTACAGGCA TGAAGGGGGC CATCGGTCCT
    ATTGGTCCAC CAGGAAACAA GGGCTCAATG GGATCCCCTG GCCACCAAGG CCCTCCAGGC
    TCTCCTGGCA TCCCTGGCAT TCCGGCTGAT GCAGTTTCAT TTGAAGAAAT AAAGAAGTAT
    ATTAATCAAG AGGTCCTAAG GATTTTTGAA GAGAGGATGG CTGTATTCCT ATCCCAGCTT
    AAGCTGCCGG CAGCAATGTT GGCTGCCCAA GCTCATGGGA GGCCTGGGCC ACCAGGAAAG
    GATGGGTTGC CTGGGCCACC AGGAGACCCT GGACCCCAAG GCTACAGAGG ACAGAAGGGA
    GAAAGAGGTG AACCTGGAAT TGGGCTGCCA GGGAGTCCAG GTCTTCCTGG GACTTCGGCT
    CTGGGTTTGC CGGGCTCACC AGGTGCCCCA GGCCCCCAGG GGCCCCCAGG ACCCAGTGGA
    AGATGTAACC CAGAAGACTG CCTCTATCCT CTGTCTCAGG CCCATCAGCA GACAGGTGGG
    AAATGA

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

    CloneID OMb84595
    Clone ID Related Accession (Same CDS sequence) XM_015136652.2
    Accession Version XM_015136652.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3372bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product collagen alpha-1(XIX) chain isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041757.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015136652.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGCGTCCCC CTTCCCCACT CGCAGGGAGC TCACTCCTCG GCGGTGCTGC AGCCCTGTCC 
    GGACTCCACT GCGCCTCTGA GGGGCTCAAA CACGAATTCA AGATCTGTGG CCACTTGTTC
    ACATGGTTTC AAGGCACAAT GAGACTCACT GGCCCTTGGA AACTTTGGCT TTGGATGTCA
    GTGTTCCTGC TTCCTGCTTC CACTTCCGTG ACCATTAGGG ACAAGACAGA AGAGTCATGC
    CCTATCCTGA GAATAGAGGG ACATCAGCTG ACCTATGACA ACATAAACAA AGTTGAAGTT
    TCAGGTTTTG ATCTAGGAGA GAGCTTTTCT CTAAGACGCG CATTTTGTGA AAGTGATAAA
    ACCTGTTTCA AATTGGGAAG TGCACTTCTT ATTAGAGACA CTATTAAGGT ATTTCCCAAA
    GGCCTTCCTG AGGAGTACTC AGTAACTGCC ATGTTTCGAG TAAGAAGAAA CGCCAAAAAG
    GAACGGTGGT TTCTGTGGCA GGTTTTAAAC CAGCAGAATA TTCCACAGAT TTCTATAGTA
    GTTGATGGTG GAAAGAAGGT GGTGGAATTT ATGTTTCAAG CCACAGAGGG AGATGTGTTG
    AACTACATTT TTAGAAATCG AGAACTCCGT GCTTTGTTTG ATCGTCAGTG GCACAAACTT
    GGCATCAGTA TACAATCCCG AGTCCTTTCA CTCTATATGG ATTGTAATTT AATTGCAAGG
    AGACAGACTG ATGAAAAGGA CACTGTGGAT TTCCATGGAC GGACAGTTAT TGCTACGCGA
    GTTGCAGATG GCAAGCCTGT GGATATTGAA CTTCACCAAC TTAAAATCTA CTGCAGTGCA
    AACCTCATAG CTCAAGAAAC ATGTTGTGAA ATATCAGATA CTAAGTGCCC AGAGCAGGAT
    GGCTTTGGAA ATATTGCATC ATCATCGGTA ACTGCTCATG CCAGTAAAAT GTCTTCATAT
    CTGCCAGCAA AGCAGGAACT GAAAGACCAG TGCCAGTGCA TTCCAAACAA GGGAGAAGCA
    GGATTACCAG GAGCTCCGGG TTCACCTGGG CAGAAAGGGG ATAAAGGAGA GCCGGGTGAA
    AATGGTTTAC ATGGTGCTCC AGGACTACCT GGTCAAAAGG GAGAGCAAGG TTTTGAAGGC
    AGCAAAGGAG AAACTGGTGA AAAGGGTGAA CAAGGAGAAA AAGGAGATCC AGGTCTGGCT
    GGCCTTAATG GAGAAAATGG TTTGAAAGGT GACTTGGGTC CTCGTGGTCT ACCTGGCCCA
    AAAGGAGAAA AGGGAGATAC CGGACCCCCA GGACCACCAG TCTTACCCGG TTCCCTGGGG
    ATACAAGGCC CCCAAGGTCC ACCTGGAAAA GAGGGTCAGA GGGGAAGACG AGGGAAAACA
    GGACCTCCAG GAAAACCAGG ACCCCCGGGA CCACCTGGAC CTCCTGGAAT ACAAGGAATA
    CACCAGACTC TTGGTGGATA TTATAACAAG GATAACAAGG GAAATGATGA ACATGAAGCT
    GGAGGCCTGA AAGGAGACAA GGGTGAAAAT GGACTACCAG GATTTCCAGG GTCTGTTGGC
    CCTAAAGGAC AAAAAGGAGA ACCTGGAGAG CCTTTTACAA AAGGAGAAAA AGGAGATAGA
    GGAGAACCTG GGATAATAGG ATCACAGGGA GTAAAGGGTG AACCTGGAGA TCCTGGTCCC
    CCTGGTTTAA TAGGAAGCCC AGGACTAAAG GGTCAGCAGG GATCTGCAGG CTCCATGGGA
    CCCAGAGGAC CACCAGGAGA TGTTGGATTG CCAGGAGAAC ATGGTATCCC AGGAAAACAA
    GGCATTAAAG GAGAAAAGGG AGATCCAGGT GGGATCATAG GCCCTCCTGG GCTTCCAGGT
    CCAAAAGGTG AGGCTGGTCC TCCAGGGAAA AGCCTGCCAG GGGAACCAGG ATTAGATGGA
    AATCCTGGAG CACCTGGTCC GCGTGGACCA AAGGGTGAAA GAGGACTTCC AGGTGTTCAT
    GGTTCCCCAG GGGACATGGG CCCACCAGGG GTAGGAATTC CTGGCAGAAC AGGCTCCCAA
    GGACCAGTTG GAGAGCCAGG TATTCAGGGT CCTCGAGGTC TTCCTGGGTT GCCAGGAACC
    CCAGGGACTC CAGGGAATGA TGGAGTTCCA GGGAGGGATG GAAAGCCAGG CCTGCCAGGC
    CCCCCAGGTG ACCCGATTGC ACTTCCTCTC TTGGGAGACA TTGGTGTTTT GCTCAAGAAT
    TTCTGTGGCA ACTGCCAAGC CAGTGTCCCA GGGCTGAAAA GCAACAAAGG AGAAGGAGGC
    GCTGGTGAGC CTGGAAAGTA TGATTCCATG GCCCGGAAGG GTGATATAGG GCCACGGGGT
    CCTCCAGGAA TCCCAGGCAG AGAGGGACCA AAGGGAAGCA AAGGAGAGCG GGGCTACCCT
    GGGATACCTG GGGAGAAAGG CGATGAGGGT CTTCAAGGGA TTCCAGGCAT TCCAGGCGCT
    CCAGGCCCAA CTGGACCCCC TGGCTTACTG GGAAGAACTG GACATCCTGG TCCCACAGGA
    GCAAAAGGTG AAAAGGGCAG CCACGGACCC CCCGGGAAAC CCGGACCACC TGGACCACCT
    GGTATTCCAT TTAATGAAGG AAATGGCATG AGCAGTTTAT ATAAAATTAA GGGAGGTGTG
    AATGTTCCCA GTTACCCAGG GCCACCCGGT CCTCCTGGCC CAAAAGGCGA TCCTGGCCCA
    GTGGGAGAGC CTGGTGCAAT GGGGTTGCCA GGATTAGAAG GATTTCCAGG TGTAAAGGGA
    GATCGAGGCC CAGCAGGTCC CCCGGGAATA GCAGGGATGT CGGGGAAACC TGGAGCCCCA
    GGGCCTCCAG GAGTTCCAGG GGAACCGGGT GAGAGAGGAC CTGTTGGAGA TATAGGTTTC
    CCTGGACCAG AAGGACCCTC AGGAAAGCCA GGAATAAATG GAAAAGATGG AATACCAGGT
    GCTCAGGGCA TCATGGGTAA GCCTGGAGAC AGAGGCCCCA AAGGAGAACG TGGTGATCAG
    GGGATTCCAG GAGACAGAGG CCCACAAGGT GAACGGGGAA AACCAGGCCT TACAGGCATG
    AAGGGGGCCA TCGGTCCTAT TGGTCCACCA GGAAACAAGG GCTCAATGGG ATCCCCTGGC
    CACCAAGGCC CTCCAGGCTC TCCTGGCATC CCTGGCATTC CGGCTGATGC AGTTTCATTT
    GAAGAAATAA AGAAGTATAT TAATCAAGAG GTCCTAAGGA TTTTTGAAGA GAGGATGGCT
    GTATTCCTAT CCCAGCTTAA GCTGCCGGCA GCAATGTTGG CTGCCCAAGC TCATGGGAGG
    CCTGGGCCAC CAGGAAAGGA TGGGTTGCCT GGGCCACCAG GAGACCCTGG ACCCCAAGCA
    GGAGACATAT AG

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

    RefSeq XP_014992138.2
    CDS88..3459
    Translation

    Target ORF information:

    RefSeq Version XM_015136652.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen type XIX alpha 1 chain (COL19A1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015136652.2

    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
    ATGCGTCCCC CTTCCCCACT CGCAGGGAGC TCACTCCTCG GCGGTGCTGC AGCCCTGTCC 
    GGACTCCACT GCGCCTCTGA GGGGCTCAAA CACGAATTCA AGATCTGTGG CCACTTGTTC
    ACATGGTTTC AAGGCACAAT GAGACTCACT GGCCCTTGGA AACTTTGGCT TTGGATGTCA
    GTGTTCCTGC TTCCTGCTTC CACTTCCGTG ACCATTAGGG ACAAGACAGA AGAGTCATGC
    CCTATCCTGA GAATAGAGGG ACATCAGCTG ACCTATGACA ACATAAACAA AGTTGAAGTT
    TCAGGTTTTG ATCTAGGAGA GAGCTTTTCT CTAAGACGCG CATTTTGTGA AAGTGATAAA
    ACCTGTTTCA AATTGGGAAG TGCACTTCTT ATTAGAGACA CTATTAAGGT ATTTCCCAAA
    GGCCTTCCTG AGGAGTACTC AGTAACTGCC ATGTTTCGAG TAAGAAGAAA CGCCAAAAAG
    GAACGGTGGT TTCTGTGGCA GGTTTTAAAC CAGCAGAATA TTCCACAGAT TTCTATAGTA
    GTTGATGGTG GAAAGAAGGT GGTGGAATTT ATGTTTCAAG CCACAGAGGG AGATGTGTTG
    AACTACATTT TTAGAAATCG AGAACTCCGT GCTTTGTTTG ATCGTCAGTG GCACAAACTT
    GGCATCAGTA TACAATCCCG AGTCCTTTCA CTCTATATGG ATTGTAATTT AATTGCAAGG
    AGACAGACTG ATGAAAAGGA CACTGTGGAT TTCCATGGAC GGACAGTTAT TGCTACGCGA
    GTTGCAGATG GCAAGCCTGT GGATATTGAA CTTCACCAAC TTAAAATCTA CTGCAGTGCA
    AACCTCATAG CTCAAGAAAC ATGTTGTGAA ATATCAGATA CTAAGTGCCC AGAGCAGGAT
    GGCTTTGGAA ATATTGCATC ATCATCGGTA ACTGCTCATG CCAGTAAAAT GTCTTCATAT
    CTGCCAGCAA AGCAGGAACT GAAAGACCAG TGCCAGTGCA TTCCAAACAA GGGAGAAGCA
    GGATTACCAG GAGCTCCGGG TTCACCTGGG CAGAAAGGGG ATAAAGGAGA GCCGGGTGAA
    AATGGTTTAC ATGGTGCTCC AGGACTACCT GGTCAAAAGG GAGAGCAAGG TTTTGAAGGC
    AGCAAAGGAG AAACTGGTGA AAAGGGTGAA CAAGGAGAAA AAGGAGATCC AGGTCTGGCT
    GGCCTTAATG GAGAAAATGG TTTGAAAGGT GACTTGGGTC CTCGTGGTCT ACCTGGCCCA
    AAAGGAGAAA AGGGAGATAC CGGACCCCCA GGACCACCAG TCTTACCCGG TTCCCTGGGG
    ATACAAGGCC CCCAAGGTCC ACCTGGAAAA GAGGGTCAGA GGGGAAGACG AGGGAAAACA
    GGACCTCCAG GAAAACCAGG ACCCCCGGGA CCACCTGGAC CTCCTGGAAT ACAAGGAATA
    CACCAGACTC TTGGTGGATA TTATAACAAG GATAACAAGG GAAATGATGA ACATGAAGCT
    GGAGGCCTGA AAGGAGACAA GGGTGAAAAT GGACTACCAG GATTTCCAGG GTCTGTTGGC
    CCTAAAGGAC AAAAAGGAGA ACCTGGAGAG CCTTTTACAA AAGGAGAAAA AGGAGATAGA
    GGAGAACCTG GGATAATAGG ATCACAGGGA GTAAAGGGTG AACCTGGAGA TCCTGGTCCC
    CCTGGTTTAA TAGGAAGCCC AGGACTAAAG GGTCAGCAGG GATCTGCAGG CTCCATGGGA
    CCCAGAGGAC CACCAGGAGA TGTTGGATTG CCAGGAGAAC ATGGTATCCC AGGAAAACAA
    GGCATTAAAG GAGAAAAGGG AGATCCAGGT GGGATCATAG GCCCTCCTGG GCTTCCAGGT
    CCAAAAGGTG AGGCTGGTCC TCCAGGGAAA AGCCTGCCAG GGGAACCAGG ATTAGATGGA
    AATCCTGGAG CACCTGGTCC GCGTGGACCA AAGGGTGAAA GAGGACTTCC AGGTGTTCAT
    GGTTCCCCAG GGGACATGGG CCCACCAGGG GTAGGAATTC CTGGCAGAAC AGGCTCCCAA
    GGACCAGTTG GAGAGCCAGG TATTCAGGGT CCTCGAGGTC TTCCTGGGTT GCCAGGAACC
    CCAGGGACTC CAGGGAATGA TGGAGTTCCA GGGAGGGATG GAAAGCCAGG CCTGCCAGGC
    CCCCCAGGTG ACCCGATTGC ACTTCCTCTC TTGGGAGACA TTGGTGTTTT GCTCAAGAAT
    TTCTGTGGCA ACTGCCAAGC CAGTGTCCCA GGGCTGAAAA GCAACAAAGG AGAAGGAGGC
    GCTGGTGAGC CTGGAAAGTA TGATTCCATG GCCCGGAAGG GTGATATAGG GCCACGGGGT
    CCTCCAGGAA TCCCAGGCAG AGAGGGACCA AAGGGAAGCA AAGGAGAGCG GGGCTACCCT
    GGGATACCTG GGGAGAAAGG CGATGAGGGT CTTCAAGGGA TTCCAGGCAT TCCAGGCGCT
    CCAGGCCCAA CTGGACCCCC TGGCTTACTG GGAAGAACTG GACATCCTGG TCCCACAGGA
    GCAAAAGGTG AAAAGGGCAG CCACGGACCC CCCGGGAAAC CCGGACCACC TGGACCACCT
    GGTATTCCAT TTAATGAAGG AAATGGCATG AGCAGTTTAT ATAAAATTAA GGGAGGTGTG
    AATGTTCCCA GTTACCCAGG GCCACCCGGT CCTCCTGGCC CAAAAGGCGA TCCTGGCCCA
    GTGGGAGAGC CTGGTGCAAT GGGGTTGCCA GGATTAGAAG GATTTCCAGG TGTAAAGGGA
    GATCGAGGCC CAGCAGGTCC CCCGGGAATA GCAGGGATGT CGGGGAAACC TGGAGCCCCA
    GGGCCTCCAG GAGTTCCAGG GGAACCGGGT GAGAGAGGAC CTGTTGGAGA TATAGGTTTC
    CCTGGACCAG AAGGACCCTC AGGAAAGCCA GGAATAAATG GAAAAGATGG AATACCAGGT
    GCTCAGGGCA TCATGGGTAA GCCTGGAGAC AGAGGCCCCA AAGGAGAACG TGGTGATCAG
    GGGATTCCAG GAGACAGAGG CCCACAAGGT GAACGGGGAA AACCAGGCCT TACAGGCATG
    AAGGGGGCCA TCGGTCCTAT TGGTCCACCA GGAAACAAGG GCTCAATGGG ATCCCCTGGC
    CACCAAGGCC CTCCAGGCTC TCCTGGCATC CCTGGCATTC CGGCTGATGC AGTTTCATTT
    GAAGAAATAA AGAAGTATAT TAATCAAGAG GTCCTAAGGA TTTTTGAAGA GAGGATGGCT
    GTATTCCTAT CCCAGCTTAA GCTGCCGGCA GCAATGTTGG CTGCCCAAGC TCATGGGAGG
    CCTGGGCCAC CAGGAAAGGA TGGGTTGCCT GGGCCACCAG GAGACCCTGG ACCCCAAGCA
    GGAGACATAT AG

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

    CloneID OMb32316
    Clone ID Related Accession (Same CDS sequence) XM_015136650.1
    Accession Version XM_015136650.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3564bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product collagen alpha-1(XIX) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804811.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCGTCCCC CTTCCCCACT CGCAGGGAGC TCACTCCTCG GCGGTGCTGC AGCCCTGTCC 
    GGACTCCACT GCGCCTCTGA GGGGCTCAAA CACGAATTCA AGATCTGTGG CCACTTGTTC
    ACATGGTTTC AAGGCACAAT GAGACTCACT GGCCCTTGGA AACTTTGGCT TTGGATGTCA
    GTGTTCCTGC TTCCTGCTTC CACTTCCGTG ACCATTAGGG ACAAGACAGA AGAGTCATGC
    CCTATCCTGA GAATAGAGGG ACATCAGCTG ACCTATGACA ACATAAACAA AGTTGAAGTT
    TCAGGTTTTG ATCTAGGAGA GAGCTTTTCT CTAAGACGCG CATTTTGTGA AAGTGATAAA
    ACCTGTTTCA AATTGGGAAG TGCACTTCTT ATTAGAGACA CTATTAAGGT ATTTCCCAAA
    GGCCTTCCTG AGGAGTACTC AGTAACTGCC ATGTTTCGAG TAAGAAGAAA CGCCAAAAAG
    GAACGGTGGT TTCTGTGGCA GGTTTTAAAC CAGCAGAATA TTCCACAGAT TTCTATAGTA
    GTTGATGGTG GAAAGAAGGT GGTGGAATTT ATGTTTCAAG CCACAGAGGG AGATGTGTTG
    AACTACATTT TTAGAAATCG AGAACTCCGT GCTTTGTTTG ATCGTCAGTG GCACAAACTT
    GGCATCAGTA TACAATCCCG AGTCCTTTCA CTCTATATGG ATTGTAATTT AATTGCAAGG
    AGACAGACTG ATGAAAAGGA CACTGTGGAT TTCCATGGAC GGACAGTTAT TGCTACGCGA
    GTTGCAGATG GCAAGCCTGT GGATATTGAA CTTCACCAAC TTAAAATCTA CTGCAGTGCA
    AACCTCATAG CTCAAGAAAC ATGTTGTGAA ATATCAGATA CTAAGTGCCC AGAGCAGGAT
    GGCTTTGGAA ATATTGCATC ATCATCGGTA ACTGCTCATG CCAGTAAAAT GTCTTCATAT
    CTGCCAGCAA AGCAGGAACT GAAAGACCAG TGCCAGTGCA TTCCAAACAA GGGAGAAGCA
    GGATTACCAG GAGCTCCGGG TTCACCTGGG CAGAAAGGGG ATAAAGGAGA GCCGGGTGAA
    AATGGTTTAC ATGGTGCTCC AGGACTACCT GGTCAAAAGG GAGAGCAAGG TTTTGAAGGC
    AGCAAAGGAG AAACTGGTGA AAAGGGTGAA CAAGGAGAAA AAGGAGATCC AGGTCTGGCT
    GGCCTTAATG GAGAAAATGG TTTGAAAGGT GACTTGGGTC CTCGTGGTCT ACCTGGCCCA
    AAAGGAGAAA AGGGAGATAC CGGACCCCCA GGACCACCAG TCTTACCCGG TTCCCTGGGG
    ATACAAGGCC CCCAAGGTCC ACCTGGAAAA GAGGGTCAGA GGGGAAGACG AGGGAAAACA
    GGACCTCCAG GAAAACCAGG ACCCCCGGGA CCACCTGGAC CTCCTGGAAT ACAAGGAATA
    CACCAGACTC TTGGTGGATA TTATAACAAG GATAACAAGG GAAATGATGA ACATGAAGCT
    GGAGGCCTGA AAGGAGACAA GGGTGAAAAT GGACTACCAG GATTTCCAGG GTCTGTTGGC
    CCTAAAGGAC AAAAAGGAGA ACCTGGAGAG CCTTTTACAA AAGGAGAAAA AGGAGATAGA
    GGAGAACCTG GGATAATAGG ATCACAGGGA GTAAAGGGTG AACCTGGAGA TCCTGGTCCC
    CCTGGTTTAA TAGGAAGCCC AGGACTAAAG GGTCAGCAGG GATCTGCAGG CTCCATGGGA
    CCCAGAGGAC CACCAGGAGA TGTTGGATTG CCAGGAGAAC ATGGTATCCC AGGAAAACAA
    GGCATTAAAG GAGAAAAGGG AGATCCAGGT GGGATCATAG GCCCTCCTGG GCTTCCAGGT
    CCAAAAGGTG AGGCTGGTCC TCCAGGGAAA AGCCTGCCAG GGGAACCAGG ATTAGATGGA
    AATCCTGGAG CACCTGGTCC GCGTGGACCA AAGGGTGAAA GAGGACTTCC AGGTGTTCAC
    GGTTCCCCAG GGGACATAGG CCCACCAGGG GTAGGAATTC CTGGCAGAAC AGGCTCCCAA
    GGACCAGTTG GAGAGCCAGG TATTCAGGGT CCTCGAGGTC TTCCTGGGTT GCCAGGAACC
    CCAGGGACTC CAGGGAATGA TGGAGTTCCA GGGAGGGATG GAAAGCCAGG CCTGCCAGGC
    CCCCCAGGTG ACCCGATTGC ACTTCCTCTC TTGGGAGACA TTGGTGTTTT GCTCAAGAAT
    TTCTGTGGCA ACTGCCAAGC CAGTGTCCCA GGGCTGAAAA GCAACAAAGG AGAAGGAGGC
    GCTGGTGAGC CTGGAAAGTA TGATTCCATG GCCCGGAAGG GTGATATAGG GCCACGGGGT
    CCTCCAGGAA TCCCAGGCAG AGAGGGACCA AAGGGAAGCA AAGGAGAGCG GGGCTACCCT
    GGGATACCTG GGGAGAAAGG CGATGAGGGT CTTCAAGGGA TTCCAGGCAT TCCAGGCGCT
    CCAGGCCCAA CTGGACCCCC TGGCTTACTG GGAAGAACTG GACATCCTGG TCCCACAGGA
    GCAAAAGGTG AAAAGGGCAG CCACGGACCC CCCGGGAAAC CCGGACCACC TGGACCACCT
    GGTATTCCAT TTAATGAAGG AAATGGCATG AGCAGTTTAT ATAAAATTAA GGGAGGTGTG
    AATGTTCCCA GTTACCCAGG GCCACCCGGT CCTCCTGGCC CAAAAGGCGA TCCTGGCCCA
    GTGGGAGAGC CTGGTGCAAT GGGGTTGCCA GGATTAGAAG GATTTCCAGG TGTAAAGGGA
    GATCGAGGCC CAGCAGGTCC CCCGGGAATA GCAGGGATGT CGGGGAAACC TGGAGCCCCA
    GGGCCTCCAG GAGTTCCAGG GGAACCGGGT GAGAGAGGAC CTGTTGGAGA TATAGGTTTC
    CCTGGACCAG AAGGACCCTC AGGAAAGCCA GGAATAAATG GAAAAGATGG AATACCAGGT
    GCTCAGGGCA TCATGGGTAA GCCTGGAGAC AGAGGCCCCA AAGGAGAACG TGGTGATCAG
    GGGATTCCAG GAGACAGAGG CCCACAAGGT GAACGGGGAA AACCAGGCCT TACAGGCATG
    AAGGGGGCCA TCGGTCCTAT TGGTCCACCA GGAAACAAGG GCTCAATGGG ATCCCCTGGC
    CACCAAGGCC CTCCAGGCTC TCCTGGCATC CCTGGCATTC CGGCTGATGC AGTTTCATTT
    GAAGAAATAA AGAAGTATAT TAATCAAGAG GTCCTAAGAA TTTTTGAAGA GAGGATGGCT
    GTATTCCTAT CCCAGCTTAA GCTGCCGGCA GCAATGTTGG CTGCCCAAGC TCATGGGAGG
    CCTGGGCCAC CAGGAAAGGA TGGGTTGCCT GGGCCACCAG GAGACCCTGG ACCCCAAGGC
    TACAGAGGAC AGAAGGGAGA AAGAGGTGAA CCTGGAATTG GGCTGCCAGG GAGTCCAGGT
    CTTCCTGGGA CTTCGGCTCT GGGTTTGCCA GGCTCACCAG GTGCCCCAGG CCCCCAGGGG
    CCCCCAGGAC CCAGTGGAAG ATGTAACCCA GAAGACTGCC TCTATCCTCT GTCTCAGGCC
    CATCAGCGGA CAGGTGGGAA ATGA

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

    RefSeq XP_014992136.1
    CDS580..4143
    Translation

    Target ORF information:

    RefSeq Version XM_015136650.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen, type XIX, alpha 1 (COL19A1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015136650.1

    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
    ATGCGTCCCC CTTCCCCACT CGCAGGGAGC TCACTCCTCG GCGGTGCTGC AGCCCTGTCC 
    GGACTCCACT GCGCCTCTGA GGGGCTCAAA CACGAATTCA AGATCTGTGG CCACTTGTTC
    ACATGGTTTC AAGGCACAAT GAGACTCACT GGCCCTTGGA AACTTTGGCT TTGGATGTCA
    GTGTTCCTGC TTCCTGCTTC CACTTCCGTG ACCATTAGGG ACAAGACAGA AGAGTCATGC
    CCTATCCTGA GAATAGAGGG ACATCAGCTG ACCTATGACA ACATAAACAA AGTTGAAGTT
    TCAGGTTTTG ATCTAGGAGA GAGCTTTTCT CTAAGACGCG CATTTTGTGA AAGTGATAAA
    ACCTGTTTCA AATTGGGAAG TGCACTTCTT ATTAGAGACA CTATTAAGGT ATTTCCCAAA
    GGCCTTCCTG AGGAGTACTC AGTAACTGCC ATGTTTCGAG TAAGAAGAAA CGCCAAAAAG
    GAACGGTGGT TTCTGTGGCA GGTTTTAAAC CAGCAGAATA TTCCACAGAT TTCTATAGTA
    GTTGATGGTG GAAAGAAGGT GGTGGAATTT ATGTTTCAAG CCACAGAGGG AGATGTGTTG
    AACTACATTT TTAGAAATCG AGAACTCCGT GCTTTGTTTG ATCGTCAGTG GCACAAACTT
    GGCATCAGTA TACAATCCCG AGTCCTTTCA CTCTATATGG ATTGTAATTT AATTGCAAGG
    AGACAGACTG ATGAAAAGGA CACTGTGGAT TTCCATGGAC GGACAGTTAT TGCTACGCGA
    GTTGCAGATG GCAAGCCTGT GGATATTGAA CTTCACCAAC TTAAAATCTA CTGCAGTGCA
    AACCTCATAG CTCAAGAAAC ATGTTGTGAA ATATCAGATA CTAAGTGCCC AGAGCAGGAT
    GGCTTTGGAA ATATTGCATC ATCATCGGTA ACTGCTCATG CCAGTAAAAT GTCTTCATAT
    CTGCCAGCAA AGCAGGAACT GAAAGACCAG TGCCAGTGCA TTCCAAACAA GGGAGAAGCA
    GGATTACCAG GAGCTCCGGG TTCACCTGGG CAGAAAGGGG ATAAAGGAGA GCCGGGTGAA
    AATGGTTTAC ATGGTGCTCC AGGACTACCT GGTCAAAAGG GAGAGCAAGG TTTTGAAGGC
    AGCAAAGGAG AAACTGGTGA AAAGGGTGAA CAAGGAGAAA AAGGAGATCC AGGTCTGGCT
    GGCCTTAATG GAGAAAATGG TTTGAAAGGT GACTTGGGTC CTCGTGGTCT ACCTGGCCCA
    AAAGGAGAAA AGGGAGATAC CGGACCCCCA GGACCACCAG TCTTACCCGG TTCCCTGGGG
    ATACAAGGCC CCCAAGGTCC ACCTGGAAAA GAGGGTCAGA GGGGAAGACG AGGGAAAACA
    GGACCTCCAG GAAAACCAGG ACCCCCGGGA CCACCTGGAC CTCCTGGAAT ACAAGGAATA
    CACCAGACTC TTGGTGGATA TTATAACAAG GATAACAAGG GAAATGATGA ACATGAAGCT
    GGAGGCCTGA AAGGAGACAA GGGTGAAAAT GGACTACCAG GATTTCCAGG GTCTGTTGGC
    CCTAAAGGAC AAAAAGGAGA ACCTGGAGAG CCTTTTACAA AAGGAGAAAA AGGAGATAGA
    GGAGAACCTG GGATAATAGG ATCACAGGGA GTAAAGGGTG AACCTGGAGA TCCTGGTCCC
    CCTGGTTTAA TAGGAAGCCC AGGACTAAAG GGTCAGCAGG GATCTGCAGG CTCCATGGGA
    CCCAGAGGAC CACCAGGAGA TGTTGGATTG CCAGGAGAAC ATGGTATCCC AGGAAAACAA
    GGCATTAAAG GAGAAAAGGG AGATCCAGGT GGGATCATAG GCCCTCCTGG GCTTCCAGGT
    CCAAAAGGTG AGGCTGGTCC TCCAGGGAAA AGCCTGCCAG GGGAACCAGG ATTAGATGGA
    AATCCTGGAG CACCTGGTCC GCGTGGACCA AAGGGTGAAA GAGGACTTCC AGGTGTTCAC
    GGTTCCCCAG GGGACATAGG CCCACCAGGG GTAGGAATTC CTGGCAGAAC AGGCTCCCAA
    GGACCAGTTG GAGAGCCAGG TATTCAGGGT CCTCGAGGTC TTCCTGGGTT GCCAGGAACC
    CCAGGGACTC CAGGGAATGA TGGAGTTCCA GGGAGGGATG GAAAGCCAGG CCTGCCAGGC
    CCCCCAGGTG ACCCGATTGC ACTTCCTCTC TTGGGAGACA TTGGTGTTTT GCTCAAGAAT
    TTCTGTGGCA ACTGCCAAGC CAGTGTCCCA GGGCTGAAAA GCAACAAAGG AGAAGGAGGC
    GCTGGTGAGC CTGGAAAGTA TGATTCCATG GCCCGGAAGG GTGATATAGG GCCACGGGGT
    CCTCCAGGAA TCCCAGGCAG AGAGGGACCA AAGGGAAGCA AAGGAGAGCG GGGCTACCCT
    GGGATACCTG GGGAGAAAGG CGATGAGGGT CTTCAAGGGA TTCCAGGCAT TCCAGGCGCT
    CCAGGCCCAA CTGGACCCCC TGGCTTACTG GGAAGAACTG GACATCCTGG TCCCACAGGA
    GCAAAAGGTG AAAAGGGCAG CCACGGACCC CCCGGGAAAC CCGGACCACC TGGACCACCT
    GGTATTCCAT TTAATGAAGG AAATGGCATG AGCAGTTTAT ATAAAATTAA GGGAGGTGTG
    AATGTTCCCA GTTACCCAGG GCCACCCGGT CCTCCTGGCC CAAAAGGCGA TCCTGGCCCA
    GTGGGAGAGC CTGGTGCAAT GGGGTTGCCA GGATTAGAAG GATTTCCAGG TGTAAAGGGA
    GATCGAGGCC CAGCAGGTCC CCCGGGAATA GCAGGGATGT CGGGGAAACC TGGAGCCCCA
    GGGCCTCCAG GAGTTCCAGG GGAACCGGGT GAGAGAGGAC CTGTTGGAGA TATAGGTTTC
    CCTGGACCAG AAGGACCCTC AGGAAAGCCA GGAATAAATG GAAAAGATGG AATACCAGGT
    GCTCAGGGCA TCATGGGTAA GCCTGGAGAC AGAGGCCCCA AAGGAGAACG TGGTGATCAG
    GGGATTCCAG GAGACAGAGG CCCACAAGGT GAACGGGGAA AACCAGGCCT TACAGGCATG
    AAGGGGGCCA TCGGTCCTAT TGGTCCACCA GGAAACAAGG GCTCAATGGG ATCCCCTGGC
    CACCAAGGCC CTCCAGGCTC TCCTGGCATC CCTGGCATTC CGGCTGATGC AGTTTCATTT
    GAAGAAATAA AGAAGTATAT TAATCAAGAG GTCCTAAGAA TTTTTGAAGA GAGGATGGCT
    GTATTCCTAT CCCAGCTTAA GCTGCCGGCA GCAATGTTGG CTGCCCAAGC TCATGGGAGG
    CCTGGGCCAC CAGGAAAGGA TGGGTTGCCT GGGCCACCAG GAGACCCTGG ACCCCAAGGC
    TACAGAGGAC AGAAGGGAGA AAGAGGTGAA CCTGGAATTG GGCTGCCAGG GAGTCCAGGT
    CTTCCTGGGA CTTCGGCTCT GGGTTTGCCA GGCTCACCAG GTGCCCCAGG CCCCCAGGGG
    CCCCCAGGAC CCAGTGGAAG ATGTAACCCA GAAGACTGCC TCTATCCTCT GTCTCAGGCC
    CATCAGCGGA CAGGTGGGAA ATGA

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

    CloneID OMb32317
    Clone ID Related Accession (Same CDS sequence) XM_015136651.1
    Accession Version XM_015136651.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3426bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product collagen alpha-1(XIX) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804811.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGAGACTCA CTGGCCCTTG GAAACTTTGG CTTTGGATGT CAGTGTTCCT GCTTCCTGCT 
    TCCACTTCCG TGACCATTAG GGACAAGACA GAAGAGTCAT GCCCTATCCT GAGAATAGAG
    GGACATCAGC TGACCTATGA CAACATAAAC AAAGTTGAAG TTTCAGGTTT TGATCTAGGA
    GAGAGCTTTT CTCTAAGACG CGCATTTTGT GAAAGTGATA AAACCTGTTT CAAATTGGGA
    AGTGCACTTC TTATTAGAGA CACTATTAAG GTATTTCCCA AAGGCCTTCC TGAGGAGTAC
    TCAGTAACTG CCATGTTTCG AGTAAGAAGA AACGCCAAAA AGGAACGGTG GTTTCTGTGG
    CAGGTTTTAA ACCAGCAGAA TATTCCACAG ATTTCTATAG TAGTTGATGG TGGAAAGAAG
    GTGGTGGAAT TTATGTTTCA AGCCACAGAG GGAGATGTGT TGAACTACAT TTTTAGAAAT
    CGAGAACTCC GTGCTTTGTT TGATCGTCAG TGGCACAAAC TTGGCATCAG TATACAATCC
    CGAGTCCTTT CACTCTATAT GGATTGTAAT TTAATTGCAA GGAGACAGAC TGATGAAAAG
    GACACTGTGG ATTTCCATGG ACGGACAGTT ATTGCTACGC GAGTTGCAGA TGGCAAGCCT
    GTGGATATTG AACTTCACCA ACTTAAAATC TACTGCAGTG CAAACCTCAT AGCTCAAGAA
    ACATGTTGTG AAATATCAGA TACTAAGTGC CCAGAGCAGG ATGGCTTTGG AAATATTGCA
    TCATCATCGG TAACTGCTCA TGCCAGTAAA ATGTCTTCAT ATCTGCCAGC AAAGCAGGAA
    CTGAAAGACC AGTGCCAGTG CATTCCAAAC AAGGGAGAAG CAGGATTACC AGGAGCTCCG
    GGTTCACCTG GGCAGAAAGG GGATAAAGGA GAGCCGGGTG AAAATGGTTT ACATGGTGCT
    CCAGGACTAC CTGGTCAAAA GGGAGAGCAA GGTTTTGAAG GCAGCAAAGG AGAAACTGGT
    GAAAAGGGTG AACAAGGAGA AAAAGGAGAT CCAGGTCTGG CTGGCCTTAA TGGAGAAAAT
    GGTTTGAAAG GTGACTTGGG TCCTCGTGGT CTACCTGGCC CAAAAGGAGA AAAGGGAGAT
    ACCGGACCCC CAGGACCACC AGTCTTACCC GGTTCCCTGG GGATACAAGG CCCCCAAGGT
    CCACCTGGAA AAGAGGGTCA GAGGGGAAGA CGAGGGAAAA CAGGACCTCC AGGAAAACCA
    GGACCCCCGG GACCACCTGG ACCTCCTGGA ATACAAGGAA TACACCAGAC TCTTGGTGGA
    TATTATAACA AGGATAACAA GGGAAATGAT GAACATGAAG CTGGAGGCCT GAAAGGAGAC
    AAGGGTGAAA ATGGACTACC AGGATTTCCA GGGTCTGTTG GCCCTAAAGG ACAAAAAGGA
    GAACCTGGAG AGCCTTTTAC AAAAGGAGAA AAAGGAGATA GAGGAGAACC TGGGATAATA
    GGATCACAGG GAGTAAAGGG TGAACCTGGA GATCCTGGTC CCCCTGGTTT AATAGGAAGC
    CCAGGACTAA AGGGTCAGCA GGGATCTGCA GGCTCCATGG GACCCAGAGG ACCACCAGGA
    GATGTTGGAT TGCCAGGAGA ACATGGTATC CCAGGAAAAC AAGGCATTAA AGGAGAAAAG
    GGAGATCCAG GTGGGATCAT AGGCCCTCCT GGGCTTCCAG GTCCAAAAGG TGAGGCTGGT
    CCTCCAGGGA AAAGCCTGCC AGGGGAACCA GGATTAGATG GAAATCCTGG AGCACCTGGT
    CCGCGTGGAC CAAAGGGTGA AAGAGGACTT CCAGGTGTTC ACGGTTCCCC AGGGGACATA
    GGCCCACCAG GGGTAGGAAT TCCTGGCAGA ACAGGCTCCC AAGGACCAGT TGGAGAGCCA
    GGTATTCAGG GTCCTCGAGG TCTTCCTGGG TTGCCAGGAA CCCCAGGGAC TCCAGGGAAT
    GATGGAGTTC CAGGGAGGGA TGGAAAGCCA GGCCTGCCAG GCCCCCCAGG TGACCCGATT
    GCACTTCCTC TCTTGGGAGA CATTGGTGTT TTGCTCAAGA ATTTCTGTGG CAACTGCCAA
    GCCAGTGTCC CAGGGCTGAA AAGCAACAAA GGAGAAGGAG GCGCTGGTGA GCCTGGAAAG
    TATGATTCCA TGGCCCGGAA GGGTGATATA GGGCCACGGG GTCCTCCAGG AATCCCAGGC
    AGAGAGGGAC CAAAGGGAAG CAAAGGAGAG CGGGGCTACC CTGGGATACC TGGGGAGAAA
    GGCGATGAGG GTCTTCAAGG GATTCCAGGC ATTCCAGGCG CTCCAGGCCC AACTGGACCC
    CCTGGCTTAC TGGGAAGAAC TGGACATCCT GGTCCCACAG GAGCAAAAGG TGAAAAGGGC
    AGCCACGGAC CCCCCGGGAA ACCCGGACCA CCTGGACCAC CTGGTATTCC ATTTAATGAA
    GGAAATGGCA TGAGCAGTTT ATATAAAATT AAGGGAGGTG TGAATGTTCC CAGTTACCCA
    GGGCCACCCG GTCCTCCTGG CCCAAAAGGC GATCCTGGCC CAGTGGGAGA GCCTGGTGCA
    ATGGGGTTGC CAGGATTAGA AGGATTTCCA GGTGTAAAGG GAGATCGAGG CCCAGCAGGT
    CCCCCGGGAA TAGCAGGGAT GTCGGGGAAA CCTGGAGCCC CAGGGCCTCC AGGAGTTCCA
    GGGGAACCGG GTGAGAGAGG ACCTGTTGGA GATATAGGTT TCCCTGGACC AGAAGGACCC
    TCAGGAAAGC CAGGAATAAA TGGAAAAGAT GGAATACCAG GTGCTCAGGG CATCATGGGT
    AAGCCTGGAG ACAGAGGCCC CAAAGGAGAA CGTGGTGATC AGGGGATTCC AGGAGACAGA
    GGCCCACAAG GTGAACGGGG AAAACCAGGC CTTACAGGCA TGAAGGGGGC CATCGGTCCT
    ATTGGTCCAC CAGGAAACAA GGGCTCAATG GGATCCCCTG GCCACCAAGG CCCTCCAGGC
    TCTCCTGGCA TCCCTGGCAT TCCGGCTGAT GCAGTTTCAT TTGAAGAAAT AAAGAAGTAT
    ATTAATCAAG AGGTCCTAAG AATTTTTGAA GAGAGGATGG CTGTATTCCT ATCCCAGCTT
    AAGCTGCCGG CAGCAATGTT GGCTGCCCAA GCTCATGGGA GGCCTGGGCC ACCAGGAAAG
    GATGGGTTGC CTGGGCCACC AGGAGACCCT GGACCCCAAG GCTACAGAGG ACAGAAGGGA
    GAAAGAGGTG AACCTGGAAT TGGGCTGCCA GGGAGTCCAG GTCTTCCTGG GACTTCGGCT
    CTGGGTTTGC CAGGCTCACC AGGTGCCCCA GGCCCCCAGG GGCCCCCAGG ACCCAGTGGA
    AGATGTAACC CAGAAGACTG CCTCTATCCT CTGTCTCAGG CCCATCAGCG GACAGGTGGG
    AAATGA

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

    RefSeq XP_014992137.1
    CDS254..3679
    Translation

    Target ORF information:

    RefSeq Version XM_015136651.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen, type XIX, alpha 1 (COL19A1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015136651.1

    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
    ATGAGACTCA CTGGCCCTTG GAAACTTTGG CTTTGGATGT CAGTGTTCCT GCTTCCTGCT 
    TCCACTTCCG TGACCATTAG GGACAAGACA GAAGAGTCAT GCCCTATCCT GAGAATAGAG
    GGACATCAGC TGACCTATGA CAACATAAAC AAAGTTGAAG TTTCAGGTTT TGATCTAGGA
    GAGAGCTTTT CTCTAAGACG CGCATTTTGT GAAAGTGATA AAACCTGTTT CAAATTGGGA
    AGTGCACTTC TTATTAGAGA CACTATTAAG GTATTTCCCA AAGGCCTTCC TGAGGAGTAC
    TCAGTAACTG CCATGTTTCG AGTAAGAAGA AACGCCAAAA AGGAACGGTG GTTTCTGTGG
    CAGGTTTTAA ACCAGCAGAA TATTCCACAG ATTTCTATAG TAGTTGATGG TGGAAAGAAG
    GTGGTGGAAT TTATGTTTCA AGCCACAGAG GGAGATGTGT TGAACTACAT TTTTAGAAAT
    CGAGAACTCC GTGCTTTGTT TGATCGTCAG TGGCACAAAC TTGGCATCAG TATACAATCC
    CGAGTCCTTT CACTCTATAT GGATTGTAAT TTAATTGCAA GGAGACAGAC TGATGAAAAG
    GACACTGTGG ATTTCCATGG ACGGACAGTT ATTGCTACGC GAGTTGCAGA TGGCAAGCCT
    GTGGATATTG AACTTCACCA ACTTAAAATC TACTGCAGTG CAAACCTCAT AGCTCAAGAA
    ACATGTTGTG AAATATCAGA TACTAAGTGC CCAGAGCAGG ATGGCTTTGG AAATATTGCA
    TCATCATCGG TAACTGCTCA TGCCAGTAAA ATGTCTTCAT ATCTGCCAGC AAAGCAGGAA
    CTGAAAGACC AGTGCCAGTG CATTCCAAAC AAGGGAGAAG CAGGATTACC AGGAGCTCCG
    GGTTCACCTG GGCAGAAAGG GGATAAAGGA GAGCCGGGTG AAAATGGTTT ACATGGTGCT
    CCAGGACTAC CTGGTCAAAA GGGAGAGCAA GGTTTTGAAG GCAGCAAAGG AGAAACTGGT
    GAAAAGGGTG AACAAGGAGA AAAAGGAGAT CCAGGTCTGG CTGGCCTTAA TGGAGAAAAT
    GGTTTGAAAG GTGACTTGGG TCCTCGTGGT CTACCTGGCC CAAAAGGAGA AAAGGGAGAT
    ACCGGACCCC CAGGACCACC AGTCTTACCC GGTTCCCTGG GGATACAAGG CCCCCAAGGT
    CCACCTGGAA AAGAGGGTCA GAGGGGAAGA CGAGGGAAAA CAGGACCTCC AGGAAAACCA
    GGACCCCCGG GACCACCTGG ACCTCCTGGA ATACAAGGAA TACACCAGAC TCTTGGTGGA
    TATTATAACA AGGATAACAA GGGAAATGAT GAACATGAAG CTGGAGGCCT GAAAGGAGAC
    AAGGGTGAAA ATGGACTACC AGGATTTCCA GGGTCTGTTG GCCCTAAAGG ACAAAAAGGA
    GAACCTGGAG AGCCTTTTAC AAAAGGAGAA AAAGGAGATA GAGGAGAACC TGGGATAATA
    GGATCACAGG GAGTAAAGGG TGAACCTGGA GATCCTGGTC CCCCTGGTTT AATAGGAAGC
    CCAGGACTAA AGGGTCAGCA GGGATCTGCA GGCTCCATGG GACCCAGAGG ACCACCAGGA
    GATGTTGGAT TGCCAGGAGA ACATGGTATC CCAGGAAAAC AAGGCATTAA AGGAGAAAAG
    GGAGATCCAG GTGGGATCAT AGGCCCTCCT GGGCTTCCAG GTCCAAAAGG TGAGGCTGGT
    CCTCCAGGGA AAAGCCTGCC AGGGGAACCA GGATTAGATG GAAATCCTGG AGCACCTGGT
    CCGCGTGGAC CAAAGGGTGA AAGAGGACTT CCAGGTGTTC ACGGTTCCCC AGGGGACATA
    GGCCCACCAG GGGTAGGAAT TCCTGGCAGA ACAGGCTCCC AAGGACCAGT TGGAGAGCCA
    GGTATTCAGG GTCCTCGAGG TCTTCCTGGG TTGCCAGGAA CCCCAGGGAC TCCAGGGAAT
    GATGGAGTTC CAGGGAGGGA TGGAAAGCCA GGCCTGCCAG GCCCCCCAGG TGACCCGATT
    GCACTTCCTC TCTTGGGAGA CATTGGTGTT TTGCTCAAGA ATTTCTGTGG CAACTGCCAA
    GCCAGTGTCC CAGGGCTGAA AAGCAACAAA GGAGAAGGAG GCGCTGGTGA GCCTGGAAAG
    TATGATTCCA TGGCCCGGAA GGGTGATATA GGGCCACGGG GTCCTCCAGG AATCCCAGGC
    AGAGAGGGAC CAAAGGGAAG CAAAGGAGAG CGGGGCTACC CTGGGATACC TGGGGAGAAA
    GGCGATGAGG GTCTTCAAGG GATTCCAGGC ATTCCAGGCG CTCCAGGCCC AACTGGACCC
    CCTGGCTTAC TGGGAAGAAC TGGACATCCT GGTCCCACAG GAGCAAAAGG TGAAAAGGGC
    AGCCACGGAC CCCCCGGGAA ACCCGGACCA CCTGGACCAC CTGGTATTCC ATTTAATGAA
    GGAAATGGCA TGAGCAGTTT ATATAAAATT AAGGGAGGTG TGAATGTTCC CAGTTACCCA
    GGGCCACCCG GTCCTCCTGG CCCAAAAGGC GATCCTGGCC CAGTGGGAGA GCCTGGTGCA
    ATGGGGTTGC CAGGATTAGA AGGATTTCCA GGTGTAAAGG GAGATCGAGG CCCAGCAGGT
    CCCCCGGGAA TAGCAGGGAT GTCGGGGAAA CCTGGAGCCC CAGGGCCTCC AGGAGTTCCA
    GGGGAACCGG GTGAGAGAGG ACCTGTTGGA GATATAGGTT TCCCTGGACC AGAAGGACCC
    TCAGGAAAGC CAGGAATAAA TGGAAAAGAT GGAATACCAG GTGCTCAGGG CATCATGGGT
    AAGCCTGGAG ACAGAGGCCC CAAAGGAGAA CGTGGTGATC AGGGGATTCC AGGAGACAGA
    GGCCCACAAG GTGAACGGGG AAAACCAGGC CTTACAGGCA TGAAGGGGGC CATCGGTCCT
    ATTGGTCCAC CAGGAAACAA GGGCTCAATG GGATCCCCTG GCCACCAAGG CCCTCCAGGC
    TCTCCTGGCA TCCCTGGCAT TCCGGCTGAT GCAGTTTCAT TTGAAGAAAT AAAGAAGTAT
    ATTAATCAAG AGGTCCTAAG AATTTTTGAA GAGAGGATGG CTGTATTCCT ATCCCAGCTT
    AAGCTGCCGG CAGCAATGTT GGCTGCCCAA GCTCATGGGA GGCCTGGGCC ACCAGGAAAG
    GATGGGTTGC CTGGGCCACC AGGAGACCCT GGACCCCAAG GCTACAGAGG ACAGAAGGGA
    GAAAGAGGTG AACCTGGAAT TGGGCTGCCA GGGAGTCCAG GTCTTCCTGG GACTTCGGCT
    CTGGGTTTGC CAGGCTCACC AGGTGCCCCA GGCCCCCAGG GGCCCCCAGG ACCCAGTGGA
    AGATGTAACC CAGAAGACTG CCTCTATCCT CTGTCTCAGG CCCATCAGCG GACAGGTGGG
    AAATGA

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

    CloneID OMb32318
    Clone ID Related Accession (Same CDS sequence) XM_015136652.1
    Accession Version XM_015136652.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3372bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product collagen alpha-1(XIX) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804811.1) 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 :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCGTCCCC CTTCCCCACT CGCAGGGAGC TCACTCCTCG GCGGTGCTGC AGCCCTGTCC 
    GGACTCCACT GCGCCTCTGA GGGGCTCAAA CACGAATTCA AGATCTGTGG CCACTTGTTC
    ACATGGTTTC AAGGCACAAT GAGACTCACT GGCCCTTGGA AACTTTGGCT TTGGATGTCA
    GTGTTCCTGC TTCCTGCTTC CACTTCCGTG ACCATTAGGG ACAAGACAGA AGAGTCATGC
    CCTATCCTGA GAATAGAGGG ACATCAGCTG ACCTATGACA ACATAAACAA AGTTGAAGTT
    TCAGGTTTTG ATCTAGGAGA GAGCTTTTCT CTAAGACGCG CATTTTGTGA AAGTGATAAA
    ACCTGTTTCA AATTGGGAAG TGCACTTCTT ATTAGAGACA CTATTAAGGT ATTTCCCAAA
    GGCCTTCCTG AGGAGTACTC AGTAACTGCC ATGTTTCGAG TAAGAAGAAA CGCCAAAAAG
    GAACGGTGGT TTCTGTGGCA GGTTTTAAAC CAGCAGAATA TTCCACAGAT TTCTATAGTA
    GTTGATGGTG GAAAGAAGGT GGTGGAATTT ATGTTTCAAG CCACAGAGGG AGATGTGTTG
    AACTACATTT TTAGAAATCG AGAACTCCGT GCTTTGTTTG ATCGTCAGTG GCACAAACTT
    GGCATCAGTA TACAATCCCG AGTCCTTTCA CTCTATATGG ATTGTAATTT AATTGCAAGG
    AGACAGACTG ATGAAAAGGA CACTGTGGAT TTCCATGGAC GGACAGTTAT TGCTACGCGA
    GTTGCAGATG GCAAGCCTGT GGATATTGAA CTTCACCAAC TTAAAATCTA CTGCAGTGCA
    AACCTCATAG CTCAAGAAAC ATGTTGTGAA ATATCAGATA CTAAGTGCCC AGAGCAGGAT
    GGCTTTGGAA ATATTGCATC ATCATCGGTA ACTGCTCATG CCAGTAAAAT GTCTTCATAT
    CTGCCAGCAA AGCAGGAACT GAAAGACCAG TGCCAGTGCA TTCCAAACAA GGGAGAAGCA
    GGATTACCAG GAGCTCCGGG TTCACCTGGG CAGAAAGGGG ATAAAGGAGA GCCGGGTGAA
    AATGGTTTAC ATGGTGCTCC AGGACTACCT GGTCAAAAGG GAGAGCAAGG TTTTGAAGGC
    AGCAAAGGAG AAACTGGTGA AAAGGGTGAA CAAGGAGAAA AAGGAGATCC AGGTCTGGCT
    GGCCTTAATG GAGAAAATGG TTTGAAAGGT GACTTGGGTC CTCGTGGTCT ACCTGGCCCA
    AAAGGAGAAA AGGGAGATAC CGGACCCCCA GGACCACCAG TCTTACCCGG TTCCCTGGGG
    ATACAAGGCC CCCAAGGTCC ACCTGGAAAA GAGGGTCAGA GGGGAAGACG AGGGAAAACA
    GGACCTCCAG GAAAACCAGG ACCCCCGGGA CCACCTGGAC CTCCTGGAAT ACAAGGAATA
    CACCAGACTC TTGGTGGATA TTATAACAAG GATAACAAGG GAAATGATGA ACATGAAGCT
    GGAGGCCTGA AAGGAGACAA GGGTGAAAAT GGACTACCAG GATTTCCAGG GTCTGTTGGC
    CCTAAAGGAC AAAAAGGAGA ACCTGGAGAG CCTTTTACAA AAGGAGAAAA AGGAGATAGA
    GGAGAACCTG GGATAATAGG ATCACAGGGA GTAAAGGGTG AACCTGGAGA TCCTGGTCCC
    CCTGGTTTAA TAGGAAGCCC AGGACTAAAG GGTCAGCAGG GATCTGCAGG CTCCATGGGA
    CCCAGAGGAC CACCAGGAGA TGTTGGATTG CCAGGAGAAC ATGGTATCCC AGGAAAACAA
    GGCATTAAAG GAGAAAAGGG AGATCCAGGT GGGATCATAG GCCCTCCTGG GCTTCCAGGT
    CCAAAAGGTG AGGCTGGTCC TCCAGGGAAA AGCCTGCCAG GGGAACCAGG ATTAGATGGA
    AATCCTGGAG CACCTGGTCC GCGTGGACCA AAGGGTGAAA GAGGACTTCC AGGTGTTCAC
    GGTTCCCCAG GGGACATAGG CCCACCAGGG GTAGGAATTC CTGGCAGAAC AGGCTCCCAA
    GGACCAGTTG GAGAGCCAGG TATTCAGGGT CCTCGAGGTC TTCCTGGGTT GCCAGGAACC
    CCAGGGACTC CAGGGAATGA TGGAGTTCCA GGGAGGGATG GAAAGCCAGG CCTGCCAGGC
    CCCCCAGGTG ACCCGATTGC ACTTCCTCTC TTGGGAGACA TTGGTGTTTT GCTCAAGAAT
    TTCTGTGGCA ACTGCCAAGC CAGTGTCCCA GGGCTGAAAA GCAACAAAGG AGAAGGAGGC
    GCTGGTGAGC CTGGAAAGTA TGATTCCATG GCCCGGAAGG GTGATATAGG GCCACGGGGT
    CCTCCAGGAA TCCCAGGCAG AGAGGGACCA AAGGGAAGCA AAGGAGAGCG GGGCTACCCT
    GGGATACCTG GGGAGAAAGG CGATGAGGGT CTTCAAGGGA TTCCAGGCAT TCCAGGCGCT
    CCAGGCCCAA CTGGACCCCC TGGCTTACTG GGAAGAACTG GACATCCTGG TCCCACAGGA
    GCAAAAGGTG AAAAGGGCAG CCACGGACCC CCCGGGAAAC CCGGACCACC TGGACCACCT
    GGTATTCCAT TTAATGAAGG AAATGGCATG AGCAGTTTAT ATAAAATTAA GGGAGGTGTG
    AATGTTCCCA GTTACCCAGG GCCACCCGGT CCTCCTGGCC CAAAAGGCGA TCCTGGCCCA
    GTGGGAGAGC CTGGTGCAAT GGGGTTGCCA GGATTAGAAG GATTTCCAGG TGTAAAGGGA
    GATCGAGGCC CAGCAGGTCC CCCGGGAATA GCAGGGATGT CGGGGAAACC TGGAGCCCCA
    GGGCCTCCAG GAGTTCCAGG GGAACCGGGT GAGAGAGGAC CTGTTGGAGA TATAGGTTTC
    CCTGGACCAG AAGGACCCTC AGGAAAGCCA GGAATAAATG GAAAAGATGG AATACCAGGT
    GCTCAGGGCA TCATGGGTAA GCCTGGAGAC AGAGGCCCCA AAGGAGAACG TGGTGATCAG
    GGGATTCCAG GAGACAGAGG CCCACAAGGT GAACGGGGAA AACCAGGCCT TACAGGCATG
    AAGGGGGCCA TCGGTCCTAT TGGTCCACCA GGAAACAAGG GCTCAATGGG ATCCCCTGGC
    CACCAAGGCC CTCCAGGCTC TCCTGGCATC CCTGGCATTC CGGCTGATGC AGTTTCATTT
    GAAGAAATAA AGAAGTATAT TAATCAAGAG GTCCTAAGAA TTTTTGAAGA GAGGATGGCT
    GTATTCCTAT CCCAGCTTAA GCTGCCGGCA GCAATGTTGG CTGCCCAAGC TCATGGGAGG
    CCTGGGCCAC CAGGAAAGGA TGGGTTGCCT GGGCCACCAG GAGACCCTGG ACCCCAAGCA
    GGAGACATAT AG

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

    RefSeq XP_014992138.1
    CDS581..3952
    Translation

    Target ORF information:

    RefSeq Version XM_015136652.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen, type XIX, alpha 1 (COL19A1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015136652.1

    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
    ATGCGTCCCC CTTCCCCACT CGCAGGGAGC TCACTCCTCG GCGGTGCTGC AGCCCTGTCC 
    GGACTCCACT GCGCCTCTGA GGGGCTCAAA CACGAATTCA AGATCTGTGG CCACTTGTTC
    ACATGGTTTC AAGGCACAAT GAGACTCACT GGCCCTTGGA AACTTTGGCT TTGGATGTCA
    GTGTTCCTGC TTCCTGCTTC CACTTCCGTG ACCATTAGGG ACAAGACAGA AGAGTCATGC
    CCTATCCTGA GAATAGAGGG ACATCAGCTG ACCTATGACA ACATAAACAA AGTTGAAGTT
    TCAGGTTTTG ATCTAGGAGA GAGCTTTTCT CTAAGACGCG CATTTTGTGA AAGTGATAAA
    ACCTGTTTCA AATTGGGAAG TGCACTTCTT ATTAGAGACA CTATTAAGGT ATTTCCCAAA
    GGCCTTCCTG AGGAGTACTC AGTAACTGCC ATGTTTCGAG TAAGAAGAAA CGCCAAAAAG
    GAACGGTGGT TTCTGTGGCA GGTTTTAAAC CAGCAGAATA TTCCACAGAT TTCTATAGTA
    GTTGATGGTG GAAAGAAGGT GGTGGAATTT ATGTTTCAAG CCACAGAGGG AGATGTGTTG
    AACTACATTT TTAGAAATCG AGAACTCCGT GCTTTGTTTG ATCGTCAGTG GCACAAACTT
    GGCATCAGTA TACAATCCCG AGTCCTTTCA CTCTATATGG ATTGTAATTT AATTGCAAGG
    AGACAGACTG ATGAAAAGGA CACTGTGGAT TTCCATGGAC GGACAGTTAT TGCTACGCGA
    GTTGCAGATG GCAAGCCTGT GGATATTGAA CTTCACCAAC TTAAAATCTA CTGCAGTGCA
    AACCTCATAG CTCAAGAAAC ATGTTGTGAA ATATCAGATA CTAAGTGCCC AGAGCAGGAT
    GGCTTTGGAA ATATTGCATC ATCATCGGTA ACTGCTCATG CCAGTAAAAT GTCTTCATAT
    CTGCCAGCAA AGCAGGAACT GAAAGACCAG TGCCAGTGCA TTCCAAACAA GGGAGAAGCA
    GGATTACCAG GAGCTCCGGG TTCACCTGGG CAGAAAGGGG ATAAAGGAGA GCCGGGTGAA
    AATGGTTTAC ATGGTGCTCC AGGACTACCT GGTCAAAAGG GAGAGCAAGG TTTTGAAGGC
    AGCAAAGGAG AAACTGGTGA AAAGGGTGAA CAAGGAGAAA AAGGAGATCC AGGTCTGGCT
    GGCCTTAATG GAGAAAATGG TTTGAAAGGT GACTTGGGTC CTCGTGGTCT ACCTGGCCCA
    AAAGGAGAAA AGGGAGATAC CGGACCCCCA GGACCACCAG TCTTACCCGG TTCCCTGGGG
    ATACAAGGCC CCCAAGGTCC ACCTGGAAAA GAGGGTCAGA GGGGAAGACG AGGGAAAACA
    GGACCTCCAG GAAAACCAGG ACCCCCGGGA CCACCTGGAC CTCCTGGAAT ACAAGGAATA
    CACCAGACTC TTGGTGGATA TTATAACAAG GATAACAAGG GAAATGATGA ACATGAAGCT
    GGAGGCCTGA AAGGAGACAA GGGTGAAAAT GGACTACCAG GATTTCCAGG GTCTGTTGGC
    CCTAAAGGAC AAAAAGGAGA ACCTGGAGAG CCTTTTACAA AAGGAGAAAA AGGAGATAGA
    GGAGAACCTG GGATAATAGG ATCACAGGGA GTAAAGGGTG AACCTGGAGA TCCTGGTCCC
    CCTGGTTTAA TAGGAAGCCC AGGACTAAAG GGTCAGCAGG GATCTGCAGG CTCCATGGGA
    CCCAGAGGAC CACCAGGAGA TGTTGGATTG CCAGGAGAAC ATGGTATCCC AGGAAAACAA
    GGCATTAAAG GAGAAAAGGG AGATCCAGGT GGGATCATAG GCCCTCCTGG GCTTCCAGGT
    CCAAAAGGTG AGGCTGGTCC TCCAGGGAAA AGCCTGCCAG GGGAACCAGG ATTAGATGGA
    AATCCTGGAG CACCTGGTCC GCGTGGACCA AAGGGTGAAA GAGGACTTCC AGGTGTTCAC
    GGTTCCCCAG GGGACATAGG CCCACCAGGG GTAGGAATTC CTGGCAGAAC AGGCTCCCAA
    GGACCAGTTG GAGAGCCAGG TATTCAGGGT CCTCGAGGTC TTCCTGGGTT GCCAGGAACC
    CCAGGGACTC CAGGGAATGA TGGAGTTCCA GGGAGGGATG GAAAGCCAGG CCTGCCAGGC
    CCCCCAGGTG ACCCGATTGC ACTTCCTCTC TTGGGAGACA TTGGTGTTTT GCTCAAGAAT
    TTCTGTGGCA ACTGCCAAGC CAGTGTCCCA GGGCTGAAAA GCAACAAAGG AGAAGGAGGC
    GCTGGTGAGC CTGGAAAGTA TGATTCCATG GCCCGGAAGG GTGATATAGG GCCACGGGGT
    CCTCCAGGAA TCCCAGGCAG AGAGGGACCA AAGGGAAGCA AAGGAGAGCG GGGCTACCCT
    GGGATACCTG GGGAGAAAGG CGATGAGGGT CTTCAAGGGA TTCCAGGCAT TCCAGGCGCT
    CCAGGCCCAA CTGGACCCCC TGGCTTACTG GGAAGAACTG GACATCCTGG TCCCACAGGA
    GCAAAAGGTG AAAAGGGCAG CCACGGACCC CCCGGGAAAC CCGGACCACC TGGACCACCT
    GGTATTCCAT TTAATGAAGG AAATGGCATG AGCAGTTTAT ATAAAATTAA GGGAGGTGTG
    AATGTTCCCA GTTACCCAGG GCCACCCGGT CCTCCTGGCC CAAAAGGCGA TCCTGGCCCA
    GTGGGAGAGC CTGGTGCAAT GGGGTTGCCA GGATTAGAAG GATTTCCAGG TGTAAAGGGA
    GATCGAGGCC CAGCAGGTCC CCCGGGAATA GCAGGGATGT CGGGGAAACC TGGAGCCCCA
    GGGCCTCCAG GAGTTCCAGG GGAACCGGGT GAGAGAGGAC CTGTTGGAGA TATAGGTTTC
    CCTGGACCAG AAGGACCCTC AGGAAAGCCA GGAATAAATG GAAAAGATGG AATACCAGGT
    GCTCAGGGCA TCATGGGTAA GCCTGGAGAC AGAGGCCCCA AAGGAGAACG TGGTGATCAG
    GGGATTCCAG GAGACAGAGG CCCACAAGGT GAACGGGGAA AACCAGGCCT TACAGGCATG
    AAGGGGGCCA TCGGTCCTAT TGGTCCACCA GGAAACAAGG GCTCAATGGG ATCCCCTGGC
    CACCAAGGCC CTCCAGGCTC TCCTGGCATC CCTGGCATTC CGGCTGATGC AGTTTCATTT
    GAAGAAATAA AGAAGTATAT TAATCAAGAG GTCCTAAGAA TTTTTGAAGA GAGGATGGCT
    GTATTCCTAT CCCAGCTTAA GCTGCCGGCA GCAATGTTGG CTGCCCAAGC TCATGGGAGG
    CCTGGGCCAC CAGGAAAGGA TGGGTTGCCT GGGCCACCAG GAGACCCTGG ACCCCAAGCA
    GGAGACATAT AG

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