ORF » Species Summary » Macaca mulatta » COL15A1 cDNA ORF clone

COL15A1 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following COL15A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL15A1 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
OMb71470 XM_028835028.1
Latest version!		 Macaca mulatta collagen type XV alpha 1 chain (COL15A1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb71471 XM_028835029.1
Latest version!		 Macaca mulatta collagen type XV alpha 1 chain (COL15A1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb48913 XM_015117218.1
Latest version!		 Macaca mulatta collagen, type XV, alpha 1 (COL15A1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMb48914 XM_015117219.1
Latest version!		 Macaca mulatta collagen, type XV, alpha 1 (COL15A1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00

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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)
    COL15A1 ( XM_028835028.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028690861.1 Macaca mulatta collagen type XV alpha 1 chain (COL15A1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMb71470
    Clone ID Related Accession (Same CDS sequence) XM_028835028.1
    Accession Version XM_028835028.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4167bp)
    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(XV) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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 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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCACCAA GGAGGAACAA CGGGCAGTGC TGGTGTCTGC TGATGCTACT CTCGGTCTCC 
    ACGCCCCTCC CTGCAGTCAC CCAGACCCGC GCTGCGACAG AGTCTGCTTC CCAGGGTCAC 
    CTGGACCTCA CGCAGCTCAT CGGTGTCCCG CTGCCCTCGT CTGTATCCTT TGTCACAGGC 
    TATGGTGGCT TCCCGGCCTA CAGCTTTGGC CCTGGTGCCA ATGTCGGCCG CCCAGCCAGG 
    ACTCTCATCC CATCCACCTT CTTCAGGGAC TTCGCCATCA GCGTCATGGT GAAGCCCAGC 
    AGCACCCACG GCGGTGTGCT CTTCGCCATC ACTGATGCCT TCCAGAAGGT CATCTACCTG 
    GGCCTGCGGC TCTCAGGTGT GGAGGATGGC CACCAGCGGG TCATCCTCTA CTACACGGAG 
    CCGGGCTCCC ACGTGTCCCA AGAGGCTGCT GCCTTCTCGG TGCCCGTGAT GACCCACAGG 
    TGGAACCGCT TTGCCGTGAT TGTCCAGGGT GAGGAAGTGG CCCTCCTCGT GGACTGTGAG 
    GAGCACAGCC GCATCCCCTT CCAGCGGTCC CCCCAGGCTT TGACCTTCGA GTCCAGCGCT 
    GGAATCTTCG TGGGCAATGC AGGAGCTACA GGACTTGAGA GATTCACTGG CTCCCTCCAG 
    CAGCTCACCG TGCACCCTGA CCCCAGGACT CCCGAGGAGC TGTGCGACCC CGAAGAGTCC 
    TCGGCATCTG GAGAGACCAG TGGGCTGCAG GAGGCAGACG GAGTAGCTGA GATCTTAGAA 
    GCCGTCACCT ACACTCAAGC CCCGCCCAAA GAAGCAAAAG TTGAACCCAT AAACACACCT 
    CCAACTCCAT CCTCCCCCTT TGAGGACATG GAACTTTCCG GTGAACCTGT ACCTGAGGGG 
    ACCCCGGAAA CCACCAACAT GAGCATCATC CAGCACAGCA GCCCCGAACA AGGGTCTGGT 
    GAGATCCTGA ATGACACACT GGAGGGGATT CATTCTGTGG ATGGTGACCC CATTACTGAC 
    AGCGGCTCGG GGTCTGGGGC CTTCCTTGAC ATAGCTGAAG AAAAGAATTT AGCAGCAACA 
    GCCGTGGGGC TGGCCGAGGC GCCCATCAGC ACTGCTGGAG AAGCAGAGGC CGGCAGTGTG 
    CCCACCAGGG GACCGACCCT CTCTGTGTCC ACCCAGAACC CAGAGGAAGG GGTCACTCCA 
    GGTCCAGATA ATGAAGAGAC TTTAGCAGCA ACAGCAGCAG GGGAGGCCGA GGCACTCGCC 
    AGCACACCTT GGGAAGCAGA GGCCAGTGGT GTGCCCCCGG GGGAGCCGGA CCTCTCCATG 
    TCCCCACAGA GCCTCGGGGA AGAGGCTGCT GTGGGTCCAA GCAGTGAAGG AAGTTTAACA 
    ACAGCTGCAG CTGCAACCGA AGTGTCCCTC AGTACTTTTG AAGATGAGGA AGCCAGTGGG 
    GTCCCCACAG ATGGCCTGGC CCCCCTCACA GCCACCATGA CCCCTGAGCA GGCAGTCACT 
    TCTGGTCCTG GTGATGAAGA AGACTTGGCA GCAGCCACAA CAGAGGAGCC CCTCATCACA 
    GCTCGCGGTG AAGAGTCCGG CAGCCCTCCC CCCGATGGGC CACCGCTGCC CCTGCCCACA 
    CTGGCTCCTG AAAGAAGGGT CACTCCAGCT CAGAGAGAAC ATGTGGGAAT GAAAGGACAG 
    GCTGAGCCCA AAGGAGAAAA GGGTGATGCT GGGGAGGAGA TTCCTGGCCC GCCTGAACCT 
    TCTGGGCCTG TTGGACCCAC GGCGGGAGCA GAGGCAGAGG GCTCTGGCCT GGGCTGGGGC 
    TTGGACGTCG GCTCTGGCTC TGGTGACCTG GTGGGCAGTG AGGAGTTGCT GAGAGGTCCT 
    CCAGGGCCCC CAGGGCCACC TGGCTTACCT GGGATTCCAG GAAAACCAGG AACTGATGTT 
    TTCATGGGAC CCCCTGGATC TCCTGGAGAG GATGGACGTG CTGGTGAACC TGGGCCCCCG 
    GGCCCTGAGG GACAGCCTGG AGTTGATGGA GCCACCGGCC TTCCTGGGAT GAAAGGGGAG 
    AAGGGAGCAA GAGGGCCTAA TGGCTCAGTT GGTGAAAAGG GTGACCCTGG CAACAGAGGC 
    TTACCTGGAC CCCCGGGGAA AAAGGGACAA GCTGGCCCCC CTGGGGCCAT GGGACCCCCA 
    GGGCCTCCTG GACCCCCTGG GCCCCCAGGC CCTGGATGCA CAATGGGACT TGGATTCGAG 
    GATACCGAAG GCTCTGGAAG CACCCAGCTA TTGAGTGAAC CTAAACTCTC CAGACCAACG 
    GCTGCAATCG GTCCCAAAGG AGAGAAAGGA GACCGGGGAC CCAAGGGAGA AAGGGGGACG 
    GATGGAGCCA GTATTGTGGG ACCCCCTGGG CCGAGAGGGC CACCTGGGCG CATCGAGGTC 
    TTGTCTAGTT CCTTGATCAA TATCACCCAT GGATTCATGA ATTTCTCGGA CATTCCTGAG 
    CTGGTGGGGC CTCCGGGGCC GGACGGGTTG CCTGGGCTGC CAGGATTTCC GGGCCCTAGA 
    GGACCAAAAG GTGACACTGG TTTGCCTGGC TTTCCAGGAC TAAAAGGAGA ACAGGGCGAG 
    AAGGGAGAGC CAGGTGCCAT CCTGACAGGG GACATTCCTC TGGAAAGGCT GATGGGGAAA 
    AAGGGTGAAC CGGGAATGCA TGGAGCCCCA GGACCAATGG GTCCCAAAGG ACCACCGGGA 
    CATAAAGGAG AATTTGGTCT CCCCGGACGA CCTGGTCGCC CAGGACTGAA TGGCCTCAAG 
    GGTGCCAAAG GAGATCCAGG GGTCATTATG CAGGGCCCAC CTGGCTTACC TGGCCCTCCA 
    GGCCCCCCTG GGCCACCTGG AGCTGTGATT AACATCAAAG GAGCCATTTT CCCAATACCC 
    ATCCGACCAC ACTGCAAAAT GCCAGTTGAT ACTGCTCATC CCGGGAGTCC AGAGCTCATC 
    ACCTTTCACG GTGTTAAAGG AGAGAAAGGA TCCTGGGGCC TTCCTGGCTC AAAGGGAGAA 
    AAAGGCGACC AGGGAGCCCA GGGACCACCA GGTCCTCCAC TTGATCTAGC TTACCTGAGA 
    CACTTTCTGA ACAACTTGAA GGGGGAGAAT GGAGACAAGG GGTTCAAAGG TGAAAAAGGA 
    GAAAAAGGAG ACATTAACGA CGGCTTCCTT ATGTCTGGGC CTCCAGGCCT GCCCGGAAAT 
    CCAGGCCTGG CTGGCCAGAA AGGGGAGACA GTCGTTGGGC CCCAAGGACC CCCAGGTGCT 
    CCTGGTCTGC CTGGGCCACC TGGCTTTGGA AGACCTGGTG ATCCTGGGCC ACCGGGACCC 
    CCAGGGCCAC CAGGACCTCC GGCTATCCTG GGAGCAGCTG TGGCCCTTCC AGGTCCCCCT 
    GGCCCTCCAG GACAGCCAGG GCTTCCAGGA TCCAGAAACC TGGTCACAGC ATTCAGCAAC 
    ATGGATGACA TGCTGCAGAA AGCGCATTTG GTTATAGAAG GAACATTCAT CTACCTGAGG 
    GACAGCACTG AGTTTTTCAT TCGCGTTAGA GATGGCTGGA AAAAATTACA GCTAGGAGAA 
    CTGATCCCCA TTCCTGCTGA CAGCCCTCCA CCCCCTGCGC TTTCCAGCAA CCCACATCAG 
    CTTCTGCCTC CACCAAACCC CATTTCAAGT ACCAATTACG AGAAGCCTGC TCTGCATTTG 
    GCTGCTCTGA ACATGCCATT TTCTGGGGAC ATTCGAGCTG ATTTTCAGTG CTTCAAGCAG 
    GCCAGAGCTG CAGGACTGTT GTCCACCTAC CGAGCATTCT TATCTTCCCA TTTGCAAGAT 
    CTGTCCACCA TTGTGAGGAA AGCAGAGAGA TACAGCCTTC CCATAGTGAA CCTCAAGGGC 
    CAAGTACTTT TTAATAATTG GGACTCAATT TTTTCTGGCC ATGGAGGTCA GTTCAATATG 
    CATATTCCAA TATACTCCTT TGATGGTCGA GACGTAATGA CAGATCCTTC ATGGCCCCAG 
    AAGGTCATTT GGCACGGCTC CAGCCCCCAT GGTGTCCGCC TTGTGGATAA CTACTGTGAA 
    GCGTGGCGAA CCACGGACAC GGCGGTCACG GGACTTGCCT CCCCGCTGAG CACGGGGAAG 
    ATTCTGGACC AGAAAGCATA CAGCTGTGCT AATCGGCTAA TTGTTCTGTG TATCGAAAAC 
    AGTTTCATGA CAGACGCTAG AAAGTAA

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

    RefSeq XP_028690861.1
    CDS751..4917
    Translation

    Target ORF information:

    RefSeq Version XM_028835028.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen type XV alpha 1 chain (COL15A1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_028835028.1

    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
    ATGGCACCAA GGAGGAACAA CGGGCAGTGC TGGTGTCTGC TGATGCTACT CTCGGTCTCC 
    ACGCCCCTCC CTGCAGTCAC CCAGACCCGC GCTGCGACAG AGTCTGCTTC CCAGGGTCAC 
    CTGGACCTCA CGCAGCTCAT CGGTGTCCCG CTGCCCTCGT CTGTATCCTT TGTCACAGGC 
    TATGGTGGCT TCCCGGCCTA CAGCTTTGGC CCTGGTGCCA ATGTCGGCCG CCCAGCCAGG 
    ACTCTCATCC CATCCACCTT CTTCAGGGAC TTCGCCATCA GCGTCATGGT GAAGCCCAGC 
    AGCACCCACG GCGGTGTGCT CTTCGCCATC ACTGATGCCT TCCAGAAGGT CATCTACCTG 
    GGCCTGCGGC TCTCAGGTGT GGAGGATGGC CACCAGCGGG TCATCCTCTA CTACACGGAG 
    CCGGGCTCCC ACGTGTCCCA AGAGGCTGCT GCCTTCTCGG TGCCCGTGAT GACCCACAGG 
    TGGAACCGCT TTGCCGTGAT TGTCCAGGGT GAGGAAGTGG CCCTCCTCGT GGACTGTGAG 
    GAGCACAGCC GCATCCCCTT CCAGCGGTCC CCCCAGGCTT TGACCTTCGA GTCCAGCGCT 
    GGAATCTTCG TGGGCAATGC AGGAGCTACA GGACTTGAGA GATTCACTGG CTCCCTCCAG 
    CAGCTCACCG TGCACCCTGA CCCCAGGACT CCCGAGGAGC TGTGCGACCC CGAAGAGTCC 
    TCGGCATCTG GAGAGACCAG TGGGCTGCAG GAGGCAGACG GAGTAGCTGA GATCTTAGAA 
    GCCGTCACCT ACACTCAAGC CCCGCCCAAA GAAGCAAAAG TTGAACCCAT AAACACACCT 
    CCAACTCCAT CCTCCCCCTT TGAGGACATG GAACTTTCCG GTGAACCTGT ACCTGAGGGG 
    ACCCCGGAAA CCACCAACAT GAGCATCATC CAGCACAGCA GCCCCGAACA AGGGTCTGGT 
    GAGATCCTGA ATGACACACT GGAGGGGATT CATTCTGTGG ATGGTGACCC CATTACTGAC 
    AGCGGCTCGG GGTCTGGGGC CTTCCTTGAC ATAGCTGAAG AAAAGAATTT AGCAGCAACA 
    GCCGTGGGGC TGGCCGAGGC GCCCATCAGC ACTGCTGGAG AAGCAGAGGC CGGCAGTGTG 
    CCCACCAGGG GACCGACCCT CTCTGTGTCC ACCCAGAACC CAGAGGAAGG GGTCACTCCA 
    GGTCCAGATA ATGAAGAGAC TTTAGCAGCA ACAGCAGCAG GGGAGGCCGA GGCACTCGCC 
    AGCACACCTT GGGAAGCAGA GGCCAGTGGT GTGCCCCCGG GGGAGCCGGA CCTCTCCATG 
    TCCCCACAGA GCCTCGGGGA AGAGGCTGCT GTGGGTCCAA GCAGTGAAGG AAGTTTAACA 
    ACAGCTGCAG CTGCAACCGA AGTGTCCCTC AGTACTTTTG AAGATGAGGA AGCCAGTGGG 
    GTCCCCACAG ATGGCCTGGC CCCCCTCACA GCCACCATGA CCCCTGAGCA GGCAGTCACT 
    TCTGGTCCTG GTGATGAAGA AGACTTGGCA GCAGCCACAA CAGAGGAGCC CCTCATCACA 
    GCTCGCGGTG AAGAGTCCGG CAGCCCTCCC CCCGATGGGC CACCGCTGCC CCTGCCCACA 
    CTGGCTCCTG AAAGAAGGGT CACTCCAGCT CAGAGAGAAC ATGTGGGAAT GAAAGGACAG 
    GCTGAGCCCA AAGGAGAAAA GGGTGATGCT GGGGAGGAGA TTCCTGGCCC GCCTGAACCT 
    TCTGGGCCTG TTGGACCCAC GGCGGGAGCA GAGGCAGAGG GCTCTGGCCT GGGCTGGGGC 
    TTGGACGTCG GCTCTGGCTC TGGTGACCTG GTGGGCAGTG AGGAGTTGCT GAGAGGTCCT 
    CCAGGGCCCC CAGGGCCACC TGGCTTACCT GGGATTCCAG GAAAACCAGG AACTGATGTT 
    TTCATGGGAC CCCCTGGATC TCCTGGAGAG GATGGACGTG CTGGTGAACC TGGGCCCCCG 
    GGCCCTGAGG GACAGCCTGG AGTTGATGGA GCCACCGGCC TTCCTGGGAT GAAAGGGGAG 
    AAGGGAGCAA GAGGGCCTAA TGGCTCAGTT GGTGAAAAGG GTGACCCTGG CAACAGAGGC 
    TTACCTGGAC CCCCGGGGAA AAAGGGACAA GCTGGCCCCC CTGGGGCCAT GGGACCCCCA 
    GGGCCTCCTG GACCCCCTGG GCCCCCAGGC CCTGGATGCA CAATGGGACT TGGATTCGAG 
    GATACCGAAG GCTCTGGAAG CACCCAGCTA TTGAGTGAAC CTAAACTCTC CAGACCAACG 
    GCTGCAATCG GTCCCAAAGG AGAGAAAGGA GACCGGGGAC CCAAGGGAGA AAGGGGGACG 
    GATGGAGCCA GTATTGTGGG ACCCCCTGGG CCGAGAGGGC CACCTGGGCG CATCGAGGTC 
    TTGTCTAGTT CCTTGATCAA TATCACCCAT GGATTCATGA ATTTCTCGGA CATTCCTGAG 
    CTGGTGGGGC CTCCGGGGCC GGACGGGTTG CCTGGGCTGC CAGGATTTCC GGGCCCTAGA 
    GGACCAAAAG GTGACACTGG TTTGCCTGGC TTTCCAGGAC TAAAAGGAGA ACAGGGCGAG 
    AAGGGAGAGC CAGGTGCCAT CCTGACAGGG GACATTCCTC TGGAAAGGCT GATGGGGAAA 
    AAGGGTGAAC CGGGAATGCA TGGAGCCCCA GGACCAATGG GTCCCAAAGG ACCACCGGGA 
    CATAAAGGAG AATTTGGTCT CCCCGGACGA CCTGGTCGCC CAGGACTGAA TGGCCTCAAG 
    GGTGCCAAAG GAGATCCAGG GGTCATTATG CAGGGCCCAC CTGGCTTACC TGGCCCTCCA 
    GGCCCCCCTG GGCCACCTGG AGCTGTGATT AACATCAAAG GAGCCATTTT CCCAATACCC 
    ATCCGACCAC ACTGCAAAAT GCCAGTTGAT ACTGCTCATC CCGGGAGTCC AGAGCTCATC 
    ACCTTTCACG GTGTTAAAGG AGAGAAAGGA TCCTGGGGCC TTCCTGGCTC AAAGGGAGAA 
    AAAGGCGACC AGGGAGCCCA GGGACCACCA GGTCCTCCAC TTGATCTAGC TTACCTGAGA 
    CACTTTCTGA ACAACTTGAA GGGGGAGAAT GGAGACAAGG GGTTCAAAGG TGAAAAAGGA 
    GAAAAAGGAG ACATTAACGA CGGCTTCCTT ATGTCTGGGC CTCCAGGCCT GCCCGGAAAT 
    CCAGGCCTGG CTGGCCAGAA AGGGGAGACA GTCGTTGGGC CCCAAGGACC CCCAGGTGCT 
    CCTGGTCTGC CTGGGCCACC TGGCTTTGGA AGACCTGGTG ATCCTGGGCC ACCGGGACCC 
    CCAGGGCCAC CAGGACCTCC GGCTATCCTG GGAGCAGCTG TGGCCCTTCC AGGTCCCCCT 
    GGCCCTCCAG GACAGCCAGG GCTTCCAGGA TCCAGAAACC TGGTCACAGC ATTCAGCAAC 
    ATGGATGACA TGCTGCAGAA AGCGCATTTG GTTATAGAAG GAACATTCAT CTACCTGAGG 
    GACAGCACTG AGTTTTTCAT TCGCGTTAGA GATGGCTGGA AAAAATTACA GCTAGGAGAA 
    CTGATCCCCA TTCCTGCTGA CAGCCCTCCA CCCCCTGCGC TTTCCAGCAA CCCACATCAG 
    CTTCTGCCTC CACCAAACCC CATTTCAAGT ACCAATTACG AGAAGCCTGC TCTGCATTTG 
    GCTGCTCTGA ACATGCCATT TTCTGGGGAC ATTCGAGCTG ATTTTCAGTG CTTCAAGCAG 
    GCCAGAGCTG CAGGACTGTT GTCCACCTAC CGAGCATTCT TATCTTCCCA TTTGCAAGAT 
    CTGTCCACCA TTGTGAGGAA AGCAGAGAGA TACAGCCTTC CCATAGTGAA CCTCAAGGGC 
    CAAGTACTTT TTAATAATTG GGACTCAATT TTTTCTGGCC ATGGAGGTCA GTTCAATATG 
    CATATTCCAA TATACTCCTT TGATGGTCGA GACGTAATGA CAGATCCTTC ATGGCCCCAG 
    AAGGTCATTT GGCACGGCTC CAGCCCCCAT GGTGTCCGCC TTGTGGATAA CTACTGTGAA 
    GCGTGGCGAA CCACGGACAC GGCGGTCACG GGACTTGCCT CCCCGCTGAG CACGGGGAAG 
    ATTCTGGACC AGAAAGCATA CAGCTGTGCT AATCGGCTAA TTGTTCTGTG TATCGAAAAC 
    AGTTTCATGA CAGACGCTAG AAAGTAA

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

    COL15A1 ( XM_028835029.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028690862.1 Macaca mulatta collagen type XV alpha 1 chain (COL15A1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMb71471
    Clone ID Related Accession (Same CDS sequence) XM_028835029.1
    Accession Version XM_028835029.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3864bp)
    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(XV) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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 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
    3601
    3661
    3721
    3781
    3841
    ATGGCACCAA GGAGGAACAA CGGGCAGTGC TGGTGTCTGC TGATGCTACT CTCGGTCTCC 
    ACGCCCCTCC CTGCAGTCAC CCAGACCCGC GCTGCGACAG AGTCTGCTTC CCAGGGTCAC 
    CTGGACCTCA CGCAGCTCAT CGGTGTCCCG CTGCCCTCGT CTGTATCCTT TGTCACAGGC 
    TATGGTGGCT TCCCGGCCTA CAGCTTTGGC CCTGGTGCCA ATGTCGGCCG CCCAGCCAGG 
    ACTCTCATCC CATCCACCTT CTTCAGGGAC TTCGCCATCA GCGTCATGGT GAAGCCCAGC 
    AGCACCCACG GCGGTGTGCT CTTCGCCATC ACTGATGCCT TCCAGAAGGT CATCTACCTG 
    GGCCTGCGGC TCTCAGGTGT GGAGGATGGC CACCAGCGGG TCATCCTCTA CTACACGGAG 
    CCGGGCTCCC ACGTGTCCCA AGAGGCTGCT GCCTTCTCGG TGCCCGTGAT GACCCACAGG 
    TGGAACCGCT TTGCCGTGAT TGTCCAGGGT GAGGAAGTGG CCCTCCTCGT GGACTGTGAG 
    GAGCACAGCC GCATCCCCTT CCAGCGGTCC CCCCAGGCTT TGACCTTCGA GTCCAGCGCT 
    GGAATCTTCG TGGGCAATGC AGGAGCTACA GGACTTGAGA GATTCACTGG CTCCCTCCAG 
    CAGCTCACCG TGCACCCTGA CCCCAGGACT CCCGAGGAGC TGTGCGACCC CGAAGAGTCC 
    TCGGCATCTG GAGAGACCAG TGGGCTGCAG GAGGCAGACG GAGTAGCTGA GATCTTAGAA 
    GCCGTCACCT ACACTCAAGC CCCGCCCAAA GAAGCAAAAG TTGAACCCAT AAACACACCT 
    CCAACTCCAT CCTCCCCCTT TGAGGACATG GAACTTTCCG GTGAACCTGT ACCTGAGGGG 
    ACCCCGGAAA CCACCAACAT GAGCATCATC CAGCACAGCA GCCCCGAACA AGGGTCTGGT 
    GAGATCCTGA ATGACACACT GGAGGGGATT CATTCTGTGG ATGGTGACCC CATTACTGAC 
    AGCGGCTCGG GGTCTGGGGC CTTCCTTGAC ATAGCTGAAG AAAAGAATTT AGCAGCAACA 
    GCCGTGGGGC TGGCCGAGGC GCCCATCAGC ACTGCTGGAG AAGCAGAGGC CGGCAGTGTG 
    CCCACCAGGG GACCGACCCT CTCTGTGTCC ACCCAGAACC CAGAGGAAGG GGTCACTCCA 
    GGTCCTGGTG ATGAAGAAGA CTTGGCAGCA GCCACAACAG AGGAGCCCCT CATCACAGCT 
    CGCGGTGAAG AGTCCGGCAG CCCTCCCCCC GATGGGCCAC CGCTGCCCCT GCCCACACTG 
    GCTCCTGAAA GAAGGGTCAC TCCAGCTCAG AGAGAACATG TGGGAATGAA AGGACAGGCT 
    GAGCCCAAAG GAGAAAAGGG TGATGCTGGG GAGGAGATTC CTGGCCCGCC TGAACCTTCT 
    GGGCCTGTTG GACCCACGGC GGGAGCAGAG GCAGAGGGCT CTGGCCTGGG CTGGGGCTTG 
    GACGTCGGCT CTGGCTCTGG TGACCTGGTG GGCAGTGAGG AGTTGCTGAG AGGTCCTCCA 
    GGGCCCCCAG GGCCACCTGG CTTACCTGGG ATTCCAGGAA AACCAGGAAC TGATGTTTTC 
    ATGGGACCCC CTGGATCTCC TGGAGAGGAT GGACGTGCTG GTGAACCTGG GCCCCCGGGC 
    CCTGAGGGAC AGCCTGGAGT TGATGGAGCC ACCGGCCTTC CTGGGATGAA AGGGGAGAAG 
    GGAGCAAGAG GGCCTAATGG CTCAGTTGGT GAAAAGGGTG ACCCTGGCAA CAGAGGCTTA 
    CCTGGACCCC CGGGGAAAAA GGGACAAGCT GGCCCCCCTG GGGCCATGGG ACCCCCAGGG 
    CCTCCTGGAC CCCCTGGGCC CCCAGGCCCT GGATGCACAA TGGGACTTGG ATTCGAGGAT 
    ACCGAAGGCT CTGGAAGCAC CCAGCTATTG AGTGAACCTA AACTCTCCAG ACCAACGGCT 
    GCAATCGGTC CCAAAGGAGA GAAAGGAGAC CGGGGACCCA AGGGAGAAAG GGGGACGGAT 
    GGAGCCAGTA TTGTGGGACC CCCTGGGCCG AGAGGGCCAC CTGGGCGCAT CGAGGTCTTG 
    TCTAGTTCCT TGATCAATAT CACCCATGGA TTCATGAATT TCTCGGACAT TCCTGAGCTG 
    GTGGGGCCTC CGGGGCCGGA CGGGTTGCCT GGGCTGCCAG GATTTCCGGG CCCTAGAGGA 
    CCAAAAGGTG ACACTGGTTT GCCTGGCTTT CCAGGACTAA AAGGAGAACA GGGCGAGAAG 
    GGAGAGCCAG GTGCCATCCT GACAGGGGAC ATTCCTCTGG AAAGGCTGAT GGGGAAAAAG 
    GGTGAACCGG GAATGCATGG AGCCCCAGGA CCAATGGGTC CCAAAGGACC ACCGGGACAT 
    AAAGGAGAAT TTGGTCTCCC CGGACGACCT GGTCGCCCAG GACTGAATGG CCTCAAGGGT 
    GCCAAAGGAG ATCCAGGGGT CATTATGCAG GGCCCACCTG GCTTACCTGG CCCTCCAGGC 
    CCCCCTGGGC CACCTGGAGC TGTGATTAAC ATCAAAGGAG CCATTTTCCC AATACCCATC 
    CGACCACACT GCAAAATGCC AGTTGATACT GCTCATCCCG GGAGTCCAGA GCTCATCACC 
    TTTCACGGTG TTAAAGGAGA GAAAGGATCC TGGGGCCTTC CTGGCTCAAA GGGAGAAAAA 
    GGCGACCAGG GAGCCCAGGG ACCACCAGGT CCTCCACTTG ATCTAGCTTA CCTGAGACAC 
    TTTCTGAACA ACTTGAAGGG GGAGAATGGA GACAAGGGGT TCAAAGGTGA AAAAGGAGAA 
    AAAGGAGACA TTAACGACGG CTTCCTTATG TCTGGGCCTC CAGGCCTGCC CGGAAATCCA 
    GGCCTGGCTG GCCAGAAAGG GGAGACAGTC GTTGGGCCCC AAGGACCCCC AGGTGCTCCT 
    GGTCTGCCTG GGCCACCTGG CTTTGGAAGA CCTGGTGATC CTGGGCCACC GGGACCCCCA 
    GGGCCACCAG GACCTCCGGC TATCCTGGGA GCAGCTGTGG CCCTTCCAGG TCCCCCTGGC 
    CCTCCAGGAC AGCCAGGGCT TCCAGGATCC AGAAACCTGG TCACAGCATT CAGCAACATG 
    GATGACATGC TGCAGAAAGC GCATTTGGTT ATAGAAGGAA CATTCATCTA CCTGAGGGAC 
    AGCACTGAGT TTTTCATTCG CGTTAGAGAT GGCTGGAAAA AATTACAGCT AGGAGAACTG 
    ATCCCCATTC CTGCTGACAG CCCTCCACCC CCTGCGCTTT CCAGCAACCC ACATCAGCTT 
    CTGCCTCCAC CAAACCCCAT TTCAAGTACC AATTACGAGA AGCCTGCTCT GCATTTGGCT 
    GCTCTGAACA TGCCATTTTC TGGGGACATT CGAGCTGATT TTCAGTGCTT CAAGCAGGCC 
    AGAGCTGCAG GACTGTTGTC CACCTACCGA GCATTCTTAT CTTCCCATTT GCAAGATCTG 
    TCCACCATTG TGAGGAAAGC AGAGAGATAC AGCCTTCCCA TAGTGAACCT CAAGGGCCAA 
    GTACTTTTTA ATAATTGGGA CTCAATTTTT TCTGGCCATG GAGGTCAGTT CAATATGCAT 
    ATTCCAATAT ACTCCTTTGA TGGTCGAGAC GTAATGACAG ATCCTTCATG GCCCCAGAAG 
    GTCATTTGGC ACGGCTCCAG CCCCCATGGT GTCCGCCTTG TGGATAACTA CTGTGAAGCG 
    TGGCGAACCA CGGACACGGC GGTCACGGGA CTTGCCTCCC CGCTGAGCAC GGGGAAGATT 
    CTGGACCAGA AAGCATACAG CTGTGCTAAT CGGCTAATTG TTCTGTGTAT CGAAAACAGT 
    TTCATGACAG ACGCTAGAAA GTAA

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

    RefSeq XP_028690862.1
    CDS751..4614
    Translation

    Target ORF information:

    RefSeq Version XM_028835029.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen type XV alpha 1 chain (COL15A1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_028835029.1

    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
    ATGGCACCAA GGAGGAACAA CGGGCAGTGC TGGTGTCTGC TGATGCTACT CTCGGTCTCC 
    ACGCCCCTCC CTGCAGTCAC CCAGACCCGC GCTGCGACAG AGTCTGCTTC CCAGGGTCAC 
    CTGGACCTCA CGCAGCTCAT CGGTGTCCCG CTGCCCTCGT CTGTATCCTT TGTCACAGGC 
    TATGGTGGCT TCCCGGCCTA CAGCTTTGGC CCTGGTGCCA ATGTCGGCCG CCCAGCCAGG 
    ACTCTCATCC CATCCACCTT CTTCAGGGAC TTCGCCATCA GCGTCATGGT GAAGCCCAGC 
    AGCACCCACG GCGGTGTGCT CTTCGCCATC ACTGATGCCT TCCAGAAGGT CATCTACCTG 
    GGCCTGCGGC TCTCAGGTGT GGAGGATGGC CACCAGCGGG TCATCCTCTA CTACACGGAG 
    CCGGGCTCCC ACGTGTCCCA AGAGGCTGCT GCCTTCTCGG TGCCCGTGAT GACCCACAGG 
    TGGAACCGCT TTGCCGTGAT TGTCCAGGGT GAGGAAGTGG CCCTCCTCGT GGACTGTGAG 
    GAGCACAGCC GCATCCCCTT CCAGCGGTCC CCCCAGGCTT TGACCTTCGA GTCCAGCGCT 
    GGAATCTTCG TGGGCAATGC AGGAGCTACA GGACTTGAGA GATTCACTGG CTCCCTCCAG 
    CAGCTCACCG TGCACCCTGA CCCCAGGACT CCCGAGGAGC TGTGCGACCC CGAAGAGTCC 
    TCGGCATCTG GAGAGACCAG TGGGCTGCAG GAGGCAGACG GAGTAGCTGA GATCTTAGAA 
    GCCGTCACCT ACACTCAAGC CCCGCCCAAA GAAGCAAAAG TTGAACCCAT AAACACACCT 
    CCAACTCCAT CCTCCCCCTT TGAGGACATG GAACTTTCCG GTGAACCTGT ACCTGAGGGG 
    ACCCCGGAAA CCACCAACAT GAGCATCATC CAGCACAGCA GCCCCGAACA AGGGTCTGGT 
    GAGATCCTGA ATGACACACT GGAGGGGATT CATTCTGTGG ATGGTGACCC CATTACTGAC 
    AGCGGCTCGG GGTCTGGGGC CTTCCTTGAC ATAGCTGAAG AAAAGAATTT AGCAGCAACA 
    GCCGTGGGGC TGGCCGAGGC GCCCATCAGC ACTGCTGGAG AAGCAGAGGC CGGCAGTGTG 
    CCCACCAGGG GACCGACCCT CTCTGTGTCC ACCCAGAACC CAGAGGAAGG GGTCACTCCA 
    GGTCCTGGTG ATGAAGAAGA CTTGGCAGCA GCCACAACAG AGGAGCCCCT CATCACAGCT 
    CGCGGTGAAG AGTCCGGCAG CCCTCCCCCC GATGGGCCAC CGCTGCCCCT GCCCACACTG 
    GCTCCTGAAA GAAGGGTCAC TCCAGCTCAG AGAGAACATG TGGGAATGAA AGGACAGGCT 
    GAGCCCAAAG GAGAAAAGGG TGATGCTGGG GAGGAGATTC CTGGCCCGCC TGAACCTTCT 
    GGGCCTGTTG GACCCACGGC GGGAGCAGAG GCAGAGGGCT CTGGCCTGGG CTGGGGCTTG 
    GACGTCGGCT CTGGCTCTGG TGACCTGGTG GGCAGTGAGG AGTTGCTGAG AGGTCCTCCA 
    GGGCCCCCAG GGCCACCTGG CTTACCTGGG ATTCCAGGAA AACCAGGAAC TGATGTTTTC 
    ATGGGACCCC CTGGATCTCC TGGAGAGGAT GGACGTGCTG GTGAACCTGG GCCCCCGGGC 
    CCTGAGGGAC AGCCTGGAGT TGATGGAGCC ACCGGCCTTC CTGGGATGAA AGGGGAGAAG 
    GGAGCAAGAG GGCCTAATGG CTCAGTTGGT GAAAAGGGTG ACCCTGGCAA CAGAGGCTTA 
    CCTGGACCCC CGGGGAAAAA GGGACAAGCT GGCCCCCCTG GGGCCATGGG ACCCCCAGGG 
    CCTCCTGGAC CCCCTGGGCC CCCAGGCCCT GGATGCACAA TGGGACTTGG ATTCGAGGAT 
    ACCGAAGGCT CTGGAAGCAC CCAGCTATTG AGTGAACCTA AACTCTCCAG ACCAACGGCT 
    GCAATCGGTC CCAAAGGAGA GAAAGGAGAC CGGGGACCCA AGGGAGAAAG GGGGACGGAT 
    GGAGCCAGTA TTGTGGGACC CCCTGGGCCG AGAGGGCCAC CTGGGCGCAT CGAGGTCTTG 
    TCTAGTTCCT TGATCAATAT CACCCATGGA TTCATGAATT TCTCGGACAT TCCTGAGCTG 
    GTGGGGCCTC CGGGGCCGGA CGGGTTGCCT GGGCTGCCAG GATTTCCGGG CCCTAGAGGA 
    CCAAAAGGTG ACACTGGTTT GCCTGGCTTT CCAGGACTAA AAGGAGAACA GGGCGAGAAG 
    GGAGAGCCAG GTGCCATCCT GACAGGGGAC ATTCCTCTGG AAAGGCTGAT GGGGAAAAAG 
    GGTGAACCGG GAATGCATGG AGCCCCAGGA CCAATGGGTC CCAAAGGACC ACCGGGACAT 
    AAAGGAGAAT TTGGTCTCCC CGGACGACCT GGTCGCCCAG GACTGAATGG CCTCAAGGGT 
    GCCAAAGGAG ATCCAGGGGT CATTATGCAG GGCCCACCTG GCTTACCTGG CCCTCCAGGC 
    CCCCCTGGGC CACCTGGAGC TGTGATTAAC ATCAAAGGAG CCATTTTCCC AATACCCATC 
    CGACCACACT GCAAAATGCC AGTTGATACT GCTCATCCCG GGAGTCCAGA GCTCATCACC 
    TTTCACGGTG TTAAAGGAGA GAAAGGATCC TGGGGCCTTC CTGGCTCAAA GGGAGAAAAA 
    GGCGACCAGG GAGCCCAGGG ACCACCAGGT CCTCCACTTG ATCTAGCTTA CCTGAGACAC 
    TTTCTGAACA ACTTGAAGGG GGAGAATGGA GACAAGGGGT TCAAAGGTGA AAAAGGAGAA 
    AAAGGAGACA TTAACGACGG CTTCCTTATG TCTGGGCCTC CAGGCCTGCC CGGAAATCCA 
    GGCCTGGCTG GCCAGAAAGG GGAGACAGTC GTTGGGCCCC AAGGACCCCC AGGTGCTCCT 
    GGTCTGCCTG GGCCACCTGG CTTTGGAAGA CCTGGTGATC CTGGGCCACC GGGACCCCCA 
    GGGCCACCAG GACCTCCGGC TATCCTGGGA GCAGCTGTGG CCCTTCCAGG TCCCCCTGGC 
    CCTCCAGGAC AGCCAGGGCT TCCAGGATCC AGAAACCTGG TCACAGCATT CAGCAACATG 
    GATGACATGC TGCAGAAAGC GCATTTGGTT ATAGAAGGAA CATTCATCTA CCTGAGGGAC 
    AGCACTGAGT TTTTCATTCG CGTTAGAGAT GGCTGGAAAA AATTACAGCT AGGAGAACTG 
    ATCCCCATTC CTGCTGACAG CCCTCCACCC CCTGCGCTTT CCAGCAACCC ACATCAGCTT 
    CTGCCTCCAC CAAACCCCAT TTCAAGTACC AATTACGAGA AGCCTGCTCT GCATTTGGCT 
    GCTCTGAACA TGCCATTTTC TGGGGACATT CGAGCTGATT TTCAGTGCTT CAAGCAGGCC 
    AGAGCTGCAG GACTGTTGTC CACCTACCGA GCATTCTTAT CTTCCCATTT GCAAGATCTG 
    TCCACCATTG TGAGGAAAGC AGAGAGATAC AGCCTTCCCA TAGTGAACCT CAAGGGCCAA 
    GTACTTTTTA ATAATTGGGA CTCAATTTTT TCTGGCCATG GAGGTCAGTT CAATATGCAT 
    ATTCCAATAT ACTCCTTTGA TGGTCGAGAC GTAATGACAG ATCCTTCATG GCCCCAGAAG 
    GTCATTTGGC ACGGCTCCAG CCCCCATGGT GTCCGCCTTG TGGATAACTA CTGTGAAGCG 
    TGGCGAACCA CGGACACGGC GGTCACGGGA CTTGCCTCCC CGCTGAGCAC GGGGAAGATT 
    CTGGACCAGA AAGCATACAG CTGTGCTAAT CGGCTAATTG TTCTGTGTAT CGAAAACAGT 
    TTCATGACAG ACGCTAGAAA GTAA

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

    COL15A1 ( XM_015117218.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972704.1 Macaca mulatta collagen, type XV, alpha 1 (COL15A1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMb48913
    Clone ID Related Accession (Same CDS sequence) XM_015117218.1
    Accession Version XM_015117218.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4167bp)
    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(XV) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805513.1) 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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCACCAA GGAGGAACAA CGGGCAGTGC TGGTGTCTGC TGATGCTACT CTCGGTCTCC 
    ACGCCCCTCC CTGCAGTCAC CCAGACCCGC GCTGCGACAG AGTCTGCTTC CCAGGGTCAC 
    CTGGACCTCA CACAGCTCAT CGGTGTCCCG CTGCCCTCGT CTGTATCCTT TGTCACAGGC 
    TATGGTGGCT TCCCGGCCTA CAGCTTTGGC CCTGGTGCCA ATGTCGGCCG CCCAGCCAGG 
    ACTCTCATCC CATCCACCTT CTTCAGGGAC TTCGCCATCA GCGTCATGGT GAAGCCCAGC 
    AGCACCCACG GCGGTGTGCT CTTCGCCATC ACTGATGCCT TCCAGAAGGT CATCTACCTG 
    GGCCTGCGGC TCTCAGGTGT GGAGGATGGC CACCAGCGGG TCATCCTCTA CTACACGGAG 
    CCGGGCTCCC ACGTGTCCCA AGAGGCTGCT GCCTTCTCGG TGCCCGTGAT GACCCACAGG 
    TGGAACCGCT TCGCCGTGAT TGTCCAGGGT GAGGAAGTGG CCCTCCTCTT GGACTGTGAG 
    GAGCACAGCC GCATCCCCTT CCAGCGGTCC CCCCAGGCTT TGACCTTCGA GTCCAGCGCT 
    GGAATCTTCG TGGGCAATGC AGGAGCTACA GGACTTGAGA GATTCACTGG CTCCCTCCAG 
    CAGCTCACCG TGCACCCTGA CCCCAGGACT CCCGAGGAGC TGTGCGACCC CGAAGAGTCC 
    TCGGCATCTG GAGAGACCAG TGGGCTGCAG GAGGCAGACG GAGTAGCTGA GATCTTAGAA 
    GCCGTCACCT ACACTCAAGC CCCGCCCAAA GAAGCAAAAG TTGAACCCAT AAACACACCT 
    CCAACTCCAT CCTCCCCCTT TGAGGACATG GAACTTTCCG GTGAACCTGT ACCTGAGGGG 
    ACCCCGGAAA CCACCAACAT GAGCATCATC CAGCACAGCA GCCCCGAACA AGGGTCTGGT 
    GAGATCCTGA ATGACACACT GGAGGGGATT CATTCTGTGG ATGGTGACCC CATTACTGAC 
    AGCGGCTCAG GGTCTGGGGC CTTCCTTGAC ATAGCTGAAG AAAAGAATTT AGCAGCAACA 
    GCCGTGGGGC TGGCCGAGGC ACCCATCAGC ACTGCTAGAG AAGCAGAGGC CGGCAGTGTG 
    CCCACCAGGG GACCGACCCT CTCTGTGTCC ACCCAGAACC CAGAGGAAGG GGTCACTCCA 
    GGTCCAGATA ATGAAGAGAC TTTAGCAGCA ACAGCAGCAG GGGAGGCCGA GGCACTCGCC 
    AGCACACCTT GGGAAGCAGA GGCCAGTGGT GTGCCCCCGG GGGAGCCGGA CCTCTCCATG 
    TCCCCACAGA GCCTCGGGGA AGAGGCTGCT GTGGGTCCAA GCAGTGAAGG AAGTTTAACA 
    ACAGCTGCAG CTGCAACCGA AGTGTCCCTC AGTACTTTTG AGGATGAGGA AGCCAGTGGG 
    GTCCCCACAG ATGGCCTGGC CCCCCTCACA GCCACCATGA CCCCTGAGCA GGCAGTCACT 
    TCTGGTCCTG GTGATGAGGA AGACTTGGCA GCAGCCACAA CAGAGGAGCC CCTCATCACA 
    GCTCGCGGTG AAGAGTCCGG CAGCCCTCCC CCCGATGGGC CACCGCTGCC CCTGCCCACA 
    CTGGCTCCTG AAAGAAGGGT CACTCCAGCT CAGAGAGAAC ATGTGGGAAT GAAAGGACAG 
    GCTGAGCCCA AAGGAGAAAA GGGTGATGCT GGGGAGGAGA TTCCTGGCCC GCCTGAACCT 
    TCTGGGCCTG TTGGACCCAC GGCGGGAGCA GAGGCAGAGG GCTCTGGCCT GGGCTGGGGC 
    TTGGACGTCA GCTCTGGCTC TGGTGACCTG GTGGGCAGTG AGGAGTTGCT GAGAGGTCCT 
    CCAGGGCCCC CAGGGCCACC TGGCTTACCT GGGATTCCAG GAAAACCAGG AACTGATGTT 
    TTCATGGGAC CCCCTGGATC TCCTGGAGAG GATGGACGTG CTGGTGAACC TGGGCCCCCG 
    GGCCCTGAGG GACAGCCTGG AGTTGATGGA GCCACCGGCC TTCCTGGGAT GAAAGGGGAG 
    AAGGGAGCAA GAGGGCCTAA TGGCTCAGTT GGTGAAAAGG GTGACCCTGG CAACAGAGGC 
    TTACCTGGAC CCCCGGGGAA AAAGGGACAA GCTGGCCCCC CTGGGGCCAT GGGACCCCCA 
    GGGCCTCCTG GACCCCCTGG GCCCCCAGGC CCTGGATGCA CAATGGGACT TGGATTCGAG 
    GATACCGAAG GCTCTGGAAG CACCCAGCTA TTGAGTGAAC CTAAACTCTC CAGACCAACG 
    GCTGCAATCG GTCCCAAAGG AGAGAAAGGA GACCGGGGAC CCAAGGGAGA AAGGGGGACG 
    GATGGAGCCA GTATTGTGGG ACCCCCTGGG CCGAGAGGGC CACCTGGGCG CATCGAGGTC 
    TTGTCTAGTT CCTTGATCAA TATCACCCAT GGATTCATGA ATTTCTCGGA CATTCCTGAG 
    CTGGTGGGGC CTCCGGGGCC GGACGGGTTG CCTGGGCTGC CAGGATTTCC GGGCCCTAGA 
    GGACCAAAAG GTGACACTGG TTTGCCTGGC TTTCCAGGAC TAAAAGGAGA ACAGGGCGAG 
    AAGGGAGAGC CAGGTGCCAT CCTGACAGGG GACATTCCTC TGGAAAGGCT GATGGGGAAA 
    AAGGGTGAAC CGGGAATGCA TGGAGCCCCA GGACCAATGG GTCCCAAAGG ACCACCGGGA 
    CATAAAGGAG AATTTGGTCT CCCCGGACGA CCTGGTCGCC CAGGACTGAA TGGCCTCAAG 
    GGTGCCAAAG GAGATCCAGG GGTCATTATG CAGGGCCCAC CTGGCTTACC TGGCCCTCCA 
    GGCCCCCCTG GGCCACCTGG AGCTGTGATT AACATCAAAG GAGCCATTTT CCCAATACCC 
    ATCCGACCAC ACTGCAAAAT GCCAGTTGAT ACTGCTCATC CCGGGAGTCC AGAGCTCATC 
    ACCTTTCACG GTGTTAAAGG AGAGAAAGGA TCCTGGGGCC TTCCTGGCTC AAAGGGAGAA 
    AAAGGCGACC AGGGAGCCCA GGGACCACCA GGTCCTCCAC TTGATCTAGC TTACCTGAGA 
    CACTTTCTGA ACAACTTGAA GGGGGAGAAT GGAGACAAGG GGTTCAAAGG TGAAAAAGGA 
    GAAAAAGGAG ACATTAACGA CGGCTTCCTT ATGTCTGGGC CTCCAGGCCT GCCCGGAAAT 
    CCAGGCCTGG CTGGCCAGAA AGGGGAGACA GTCGTTGGGC CCCAAGGACC CCCAGGTGCT 
    CCTGGTCTGC CTGGGCCACC TGGCTTTGGA AGACCTGGTG ATCCTGGGCC ACCGGGACCC 
    CCAGGGCCAC CAGGACCTCC GGCTATCCTG GGAGCAGCTG TGGCCCTTCC AGGTCCCCCT 
    GGCCCTCCAG GACAGCCAGG GCTTCCAGGA TCCAGAAACC TGGTCACAGC ATTCAGCAAC 
    ATGGATGACA TGCTGCAGAA AGCGCATTTG GTTATAGAAG GAACATTCAT CTACCTGAGG 
    GACAGCACTG AGTTTTTCAT TCGCGTTAGA GATGGCTGGA AAAAATTACA GCTAGGAGAA 
    CTGATCCCCA TTCCTGCCGA CAGCCCTCCA CCCCCTGCGC TTTCCAGCAA CCCACATCAG 
    CTTCTGCCTC CACCAAACCC CATTTCAAGT ACCAATTACG AGAAGCCTGC TCTGCATTTG 
    GCTGCTCTGA ACATGCCATT TTCTGGGGAC ATTCGAGCTG ATTTTCAGTG CTTCAAGCAG 
    GCCAGAGCTG CAGGACTGTT GTCCACCTAC CGAGCATTCT TATCTTCCCA TTTGCAAGAT 
    CTGTCCACCA TTGTGAGGAA AGCAGAGAGA TACAGCCTTC CCATAGTGAA CCTCAAGGGC 
    CAAGTACTTT TTAATAATTG GGACTCAATT TTTTCTGGCC ATGGAGGTCA GTTCAATATG 
    CATATTCCAA TATACTCCTT TGATGGTCGA GACGTAATGA CAGATCCTTC ATGGCCCCAG 
    AAGGTCATTT GGCACGGCTC CAGCCCCCAT GGTGTCCGCC TTGTGGATAA CTACTGTGAA 
    GCGTGGCGAA CCACGGACAC GGCGGTCACG GGACTTGCCT CCCCGCTGAG CACGGGGAAG 
    ATTCTGGACC AGAAAGCATA CAGCTGTGCT AATCGGCTAA TTGTTCTGTG TATCGAAAAC 
    AGTTTCATGA CAGACGCTAG AAAGTAA

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

    RefSeq XP_014972704.1
    CDS376..4542
    Translation

    Target ORF information:

    RefSeq Version XM_015117218.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen, type XV, alpha 1 (COL15A1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015117218.1

    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
    ATGGCACCAA GGAGGAACAA CGGGCAGTGC TGGTGTCTGC TGATGCTACT CTCGGTCTCC 
    ACGCCCCTCC CTGCAGTCAC CCAGACCCGC GCTGCGACAG AGTCTGCTTC CCAGGGTCAC 
    CTGGACCTCA CACAGCTCAT CGGTGTCCCG CTGCCCTCGT CTGTATCCTT TGTCACAGGC 
    TATGGTGGCT TCCCGGCCTA CAGCTTTGGC CCTGGTGCCA ATGTCGGCCG CCCAGCCAGG 
    ACTCTCATCC CATCCACCTT CTTCAGGGAC TTCGCCATCA GCGTCATGGT GAAGCCCAGC 
    AGCACCCACG GCGGTGTGCT CTTCGCCATC ACTGATGCCT TCCAGAAGGT CATCTACCTG 
    GGCCTGCGGC TCTCAGGTGT GGAGGATGGC CACCAGCGGG TCATCCTCTA CTACACGGAG 
    CCGGGCTCCC ACGTGTCCCA AGAGGCTGCT GCCTTCTCGG TGCCCGTGAT GACCCACAGG 
    TGGAACCGCT TCGCCGTGAT TGTCCAGGGT GAGGAAGTGG CCCTCCTCTT GGACTGTGAG 
    GAGCACAGCC GCATCCCCTT CCAGCGGTCC CCCCAGGCTT TGACCTTCGA GTCCAGCGCT 
    GGAATCTTCG TGGGCAATGC AGGAGCTACA GGACTTGAGA GATTCACTGG CTCCCTCCAG 
    CAGCTCACCG TGCACCCTGA CCCCAGGACT CCCGAGGAGC TGTGCGACCC CGAAGAGTCC 
    TCGGCATCTG GAGAGACCAG TGGGCTGCAG GAGGCAGACG GAGTAGCTGA GATCTTAGAA 
    GCCGTCACCT ACACTCAAGC CCCGCCCAAA GAAGCAAAAG TTGAACCCAT AAACACACCT 
    CCAACTCCAT CCTCCCCCTT TGAGGACATG GAACTTTCCG GTGAACCTGT ACCTGAGGGG 
    ACCCCGGAAA CCACCAACAT GAGCATCATC CAGCACAGCA GCCCCGAACA AGGGTCTGGT 
    GAGATCCTGA ATGACACACT GGAGGGGATT CATTCTGTGG ATGGTGACCC CATTACTGAC 
    AGCGGCTCAG GGTCTGGGGC CTTCCTTGAC ATAGCTGAAG AAAAGAATTT AGCAGCAACA 
    GCCGTGGGGC TGGCCGAGGC ACCCATCAGC ACTGCTAGAG AAGCAGAGGC CGGCAGTGTG 
    CCCACCAGGG GACCGACCCT CTCTGTGTCC ACCCAGAACC CAGAGGAAGG GGTCACTCCA 
    GGTCCAGATA ATGAAGAGAC TTTAGCAGCA ACAGCAGCAG GGGAGGCCGA GGCACTCGCC 
    AGCACACCTT GGGAAGCAGA GGCCAGTGGT GTGCCCCCGG GGGAGCCGGA CCTCTCCATG 
    TCCCCACAGA GCCTCGGGGA AGAGGCTGCT GTGGGTCCAA GCAGTGAAGG AAGTTTAACA 
    ACAGCTGCAG CTGCAACCGA AGTGTCCCTC AGTACTTTTG AGGATGAGGA AGCCAGTGGG 
    GTCCCCACAG ATGGCCTGGC CCCCCTCACA GCCACCATGA CCCCTGAGCA GGCAGTCACT 
    TCTGGTCCTG GTGATGAGGA AGACTTGGCA GCAGCCACAA CAGAGGAGCC CCTCATCACA 
    GCTCGCGGTG AAGAGTCCGG CAGCCCTCCC CCCGATGGGC CACCGCTGCC CCTGCCCACA 
    CTGGCTCCTG AAAGAAGGGT CACTCCAGCT CAGAGAGAAC ATGTGGGAAT GAAAGGACAG 
    GCTGAGCCCA AAGGAGAAAA GGGTGATGCT GGGGAGGAGA TTCCTGGCCC GCCTGAACCT 
    TCTGGGCCTG TTGGACCCAC GGCGGGAGCA GAGGCAGAGG GCTCTGGCCT GGGCTGGGGC 
    TTGGACGTCA GCTCTGGCTC TGGTGACCTG GTGGGCAGTG AGGAGTTGCT GAGAGGTCCT 
    CCAGGGCCCC CAGGGCCACC TGGCTTACCT GGGATTCCAG GAAAACCAGG AACTGATGTT 
    TTCATGGGAC CCCCTGGATC TCCTGGAGAG GATGGACGTG CTGGTGAACC TGGGCCCCCG 
    GGCCCTGAGG GACAGCCTGG AGTTGATGGA GCCACCGGCC TTCCTGGGAT GAAAGGGGAG 
    AAGGGAGCAA GAGGGCCTAA TGGCTCAGTT GGTGAAAAGG GTGACCCTGG CAACAGAGGC 
    TTACCTGGAC CCCCGGGGAA AAAGGGACAA GCTGGCCCCC CTGGGGCCAT GGGACCCCCA 
    GGGCCTCCTG GACCCCCTGG GCCCCCAGGC CCTGGATGCA CAATGGGACT TGGATTCGAG 
    GATACCGAAG GCTCTGGAAG CACCCAGCTA TTGAGTGAAC CTAAACTCTC CAGACCAACG 
    GCTGCAATCG GTCCCAAAGG AGAGAAAGGA GACCGGGGAC CCAAGGGAGA AAGGGGGACG 
    GATGGAGCCA GTATTGTGGG ACCCCCTGGG CCGAGAGGGC CACCTGGGCG CATCGAGGTC 
    TTGTCTAGTT CCTTGATCAA TATCACCCAT GGATTCATGA ATTTCTCGGA CATTCCTGAG 
    CTGGTGGGGC CTCCGGGGCC GGACGGGTTG CCTGGGCTGC CAGGATTTCC GGGCCCTAGA 
    GGACCAAAAG GTGACACTGG TTTGCCTGGC TTTCCAGGAC TAAAAGGAGA ACAGGGCGAG 
    AAGGGAGAGC CAGGTGCCAT CCTGACAGGG GACATTCCTC TGGAAAGGCT GATGGGGAAA 
    AAGGGTGAAC CGGGAATGCA TGGAGCCCCA GGACCAATGG GTCCCAAAGG ACCACCGGGA 
    CATAAAGGAG AATTTGGTCT CCCCGGACGA CCTGGTCGCC CAGGACTGAA TGGCCTCAAG 
    GGTGCCAAAG GAGATCCAGG GGTCATTATG CAGGGCCCAC CTGGCTTACC TGGCCCTCCA 
    GGCCCCCCTG GGCCACCTGG AGCTGTGATT AACATCAAAG GAGCCATTTT CCCAATACCC 
    ATCCGACCAC ACTGCAAAAT GCCAGTTGAT ACTGCTCATC CCGGGAGTCC AGAGCTCATC 
    ACCTTTCACG GTGTTAAAGG AGAGAAAGGA TCCTGGGGCC TTCCTGGCTC AAAGGGAGAA 
    AAAGGCGACC AGGGAGCCCA GGGACCACCA GGTCCTCCAC TTGATCTAGC TTACCTGAGA 
    CACTTTCTGA ACAACTTGAA GGGGGAGAAT GGAGACAAGG GGTTCAAAGG TGAAAAAGGA 
    GAAAAAGGAG ACATTAACGA CGGCTTCCTT ATGTCTGGGC CTCCAGGCCT GCCCGGAAAT 
    CCAGGCCTGG CTGGCCAGAA AGGGGAGACA GTCGTTGGGC CCCAAGGACC CCCAGGTGCT 
    CCTGGTCTGC CTGGGCCACC TGGCTTTGGA AGACCTGGTG ATCCTGGGCC ACCGGGACCC 
    CCAGGGCCAC CAGGACCTCC GGCTATCCTG GGAGCAGCTG TGGCCCTTCC AGGTCCCCCT 
    GGCCCTCCAG GACAGCCAGG GCTTCCAGGA TCCAGAAACC TGGTCACAGC ATTCAGCAAC 
    ATGGATGACA TGCTGCAGAA AGCGCATTTG GTTATAGAAG GAACATTCAT CTACCTGAGG 
    GACAGCACTG AGTTTTTCAT TCGCGTTAGA GATGGCTGGA AAAAATTACA GCTAGGAGAA 
    CTGATCCCCA TTCCTGCCGA CAGCCCTCCA CCCCCTGCGC TTTCCAGCAA CCCACATCAG 
    CTTCTGCCTC CACCAAACCC CATTTCAAGT ACCAATTACG AGAAGCCTGC TCTGCATTTG 
    GCTGCTCTGA ACATGCCATT TTCTGGGGAC ATTCGAGCTG ATTTTCAGTG CTTCAAGCAG 
    GCCAGAGCTG CAGGACTGTT GTCCACCTAC CGAGCATTCT TATCTTCCCA TTTGCAAGAT 
    CTGTCCACCA TTGTGAGGAA AGCAGAGAGA TACAGCCTTC CCATAGTGAA CCTCAAGGGC 
    CAAGTACTTT TTAATAATTG GGACTCAATT TTTTCTGGCC ATGGAGGTCA GTTCAATATG 
    CATATTCCAA TATACTCCTT TGATGGTCGA GACGTAATGA CAGATCCTTC ATGGCCCCAG 
    AAGGTCATTT GGCACGGCTC CAGCCCCCAT GGTGTCCGCC TTGTGGATAA CTACTGTGAA 
    GCGTGGCGAA CCACGGACAC GGCGGTCACG GGACTTGCCT CCCCGCTGAG CACGGGGAAG 
    ATTCTGGACC AGAAAGCATA CAGCTGTGCT AATCGGCTAA TTGTTCTGTG TATCGAAAAC 
    AGTTTCATGA CAGACGCTAG AAAGTAA

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

    COL15A1 ( XM_015117219.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972705.1 Macaca mulatta collagen, type XV, alpha 1 (COL15A1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMb48914
    Clone ID Related Accession (Same CDS sequence) XM_015117219.1
    Accession Version XM_015117219.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4014bp)
    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(XV) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805513.1) 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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGCACCAA GGAGGAACAA CGGGCAGTGC TGGTGTCTGC TGATGCTACT CTCGGTCTCC 
    ACGCCCCTCC CTGCAGTCAC CCAGACCCGC GCTGCGACAG AGTCTGCTTC CCAGGGTCAC 
    CTGGACCTCA CACAGCTCAT CGGTGTCCCG CTGCCCTCGT CTGTATCCTT TGTCACAGGC 
    TATGGTGGCT TCCCGGCCTA CAGCTTTGGC CCTGGTGCCA ATGTCGGCCG CCCAGCCAGG 
    ACTCTCATCC CATCCACCTT CTTCAGGGAC TTCGCCATCA GCGTCATGGT GAAGCCCAGC 
    AGCACCCACG GCGGTGTGCT CTTCGCCATC ACTGATGCCT TCCAGAAGGT CATCTACCTG 
    GGCCTGCGGC TCTCAGGTGT GGAGGATGGC CACCAGCGGG TCATCCTCTA CTACACGGAG 
    CCGGGCTCCC ACGTGTCCCA AGAGGCTGCT GCCTTCTCGG TGCCCGTGAT GACCCACAGG 
    TGGAACCGCT TCGCCGTGAT TGTCCAGGGT GAGGAAGTGG CCCTCCTCTT GGACTGTGAG 
    GAGCACAGCC GCATCCCCTT CCAGCGGTCC CCCCAGGCTT TGACCTTCGA GTCCAGCGCT 
    GGAATCTTCG TGGGCAATGC AGGAGCTACA GGACTTGAGA GATTCACTGG CTCCCTCCAG 
    CAGCTCACCG TGCACCCTGA CCCCAGGACT CCCGAGGAGC TGTGCGACCC CGAAGAGTCC 
    TCGGCATCTG GAGAGACCAG TGGGCTGCAG GAGGCAGACG GAGTAGCTGA GATCTTAGAA 
    GCCGTCACCT ACACTCAAGC CCCGCCCAAA GAAGCAAAAG TTGAACCCAT AAACACACCT 
    CCAACTCCAT CCTCCCCCTT TGAGGACATG GAACTTTCCG GTGAACCTGT ACCTGAGGGG 
    ACCCCGGAAA CCACCAACAT GAGCATCATC CAGCACAGCA GCCCCGAACA AGGGTCTGGT 
    GAGATCCTGA ATGACACACT GGAGGGGATT CATTCTGTGG ATGGTGACCC CATTACTGAC 
    AGCGGCTCAG GGTCTGGGGC CTTCCTTGAC ATAGCTGAAG AAAAGAATTT AGCAGCAACA 
    GCCGTGGGGC TGGCCGAGGC ACCCATCAGC ACTGCTAGAG AAGCAGAGGC CGGCAGTGTG 
    CCCACCAGGG GACCGACCCT CTCTGTGTCC ACCCAGAACC CAGAGGAAGG GGTCACTCCA 
    GGTCCAAGCA GTGAAGGAAG TTTAACAACA GCTGCAGCTG CAACCGAAGT GTCCCTCAGT 
    ACTTTTGAGG ATGAGGAAGC CAGTGGGGTC CCCACAGATG GCCTGGCCCC CCTCACAGCC 
    ACCATGACCC CTGAGCAGGC AGTCACTTCT GGTCCTGGTG ATGAGGAAGA CTTGGCAGCA 
    GCCACAACAG AGGAGCCCCT CATCACAGCT CGCGGTGAAG AGTCCGGCAG CCCTCCCCCC 
    GATGGGCCAC CGCTGCCCCT GCCCACACTG GCTCCTGAAA GAAGGGTCAC TCCAGCTCAG 
    AGAGAACATG TGGGAATGAA AGGACAGGCT GAGCCCAAAG GAGAAAAGGG TGATGCTGGG 
    GAGGAGATTC CTGGCCCGCC TGAACCTTCT GGGCCTGTTG GACCCACGGC GGGAGCAGAG 
    GCAGAGGGCT CTGGCCTGGG CTGGGGCTTG GACGTCAGCT CTGGCTCTGG TGACCTGGTG 
    GGCAGTGAGG AGTTGCTGAG AGGTCCTCCA GGGCCCCCAG GGCCACCTGG CTTACCTGGG 
    ATTCCAGGAA AACCAGGAAC TGATGTTTTC ATGGGACCCC CTGGATCTCC TGGAGAGGAT 
    GGACGTGCTG GTGAACCTGG GCCCCCGGGC CCTGAGGGAC AGCCTGGAGT TGATGGAGCC 
    ACCGGCCTTC CTGGGATGAA AGGGGAGAAG GGAGCAAGAG GGCCTAATGG CTCAGTTGGT 
    GAAAAGGGTG ACCCTGGCAA CAGAGGCTTA CCTGGACCCC CGGGGAAAAA GGGACAAGCT 
    GGCCCCCCTG GGGCCATGGG ACCCCCAGGG CCTCCTGGAC CCCCTGGGCC CCCAGGCCCT 
    GGATGCACAA TGGGACTTGG ATTCGAGGAT ACCGAAGGCT CTGGAAGCAC CCAGCTATTG 
    AGTGAACCTA AACTCTCCAG ACCAACGGCT GCAATCGGTC CCAAAGGAGA GAAAGGAGAC 
    CGGGGACCCA AGGGAGAAAG GGGGACGGAT GGAGCCAGTA TTGTGGGACC CCCTGGGCCG 
    AGAGGGCCAC CTGGGCGCAT CGAGGTCTTG TCTAGTTCCT TGATCAATAT CACCCATGGA 
    TTCATGAATT TCTCGGACAT TCCTGAGCTG GTGGGGCCTC CGGGGCCGGA CGGGTTGCCT 
    GGGCTGCCAG GATTTCCGGG CCCTAGAGGA CCAAAAGGTG ACACTGGTTT GCCTGGCTTT 
    CCAGGACTAA AAGGAGAACA GGGCGAGAAG GGAGAGCCAG GTGCCATCCT GACAGGGGAC 
    ATTCCTCTGG AAAGGCTGAT GGGGAAAAAG GGTGAACCGG GAATGCATGG AGCCCCAGGA 
    CCAATGGGTC CCAAAGGACC ACCGGGACAT AAAGGAGAAT TTGGTCTCCC CGGACGACCT 
    GGTCGCCCAG GACTGAATGG CCTCAAGGGT GCCAAAGGAG ATCCAGGGGT CATTATGCAG 
    GGCCCACCTG GCTTACCTGG CCCTCCAGGC CCCCCTGGGC CACCTGGAGC TGTGATTAAC 
    ATCAAAGGAG CCATTTTCCC AATACCCATC CGACCACACT GCAAAATGCC AGTTGATACT 
    GCTCATCCCG GGAGTCCAGA GCTCATCACC TTTCACGGTG TTAAAGGAGA GAAAGGATCC 
    TGGGGCCTTC CTGGCTCAAA GGGAGAAAAA GGCGACCAGG GAGCCCAGGG ACCACCAGGT 
    CCTCCACTTG ATCTAGCTTA CCTGAGACAC TTTCTGAACA ACTTGAAGGG GGAGAATGGA 
    GACAAGGGGT TCAAAGGTGA AAAAGGAGAA AAAGGAGACA TTAACGACGG CTTCCTTATG 
    TCTGGGCCTC CAGGCCTGCC CGGAAATCCA GGCCTGGCTG GCCAGAAAGG GGAGACAGTC 
    GTTGGGCCCC AAGGACCCCC AGGTGCTCCT GGTCTGCCTG GGCCACCTGG CTTTGGAAGA 
    CCTGGTGATC CTGGGCCACC GGGACCCCCA GGGCCACCAG GACCTCCGGC TATCCTGGGA 
    GCAGCTGTGG CCCTTCCAGG TCCCCCTGGC CCTCCAGGAC AGCCAGGGCT TCCAGGATCC 
    AGAAACCTGG TCACAGCATT CAGCAACATG GATGACATGC TGCAGAAAGC GCATTTGGTT 
    ATAGAAGGAA CATTCATCTA CCTGAGGGAC AGCACTGAGT TTTTCATTCG CGTTAGAGAT 
    GGCTGGAAAA AATTACAGCT AGGAGAACTG ATCCCCATTC CTGCCGACAG CCCTCCACCC 
    CCTGCGCTTT CCAGCAACCC ACATCAGCTT CTGCCTCCAC CAAACCCCAT TTCAAGTACC 
    AATTACGAGA AGCCTGCTCT GCATTTGGCT GCTCTGAACA TGCCATTTTC TGGGGACATT 
    CGAGCTGATT TTCAGTGCTT CAAGCAGGCC AGAGCTGCAG GACTGTTGTC CACCTACCGA 
    GCATTCTTAT CTTCCCATTT GCAAGATCTG TCCACCATTG TGAGGAAAGC AGAGAGATAC 
    AGCCTTCCCA TAGTGAACCT CAAGGGCCAA GTACTTTTTA ATAATTGGGA CTCAATTTTT 
    TCTGGCCATG GAGGTCAGTT CAATATGCAT ATTCCAATAT ACTCCTTTGA TGGTCGAGAC 
    GTAATGACAG ATCCTTCATG GCCCCAGAAG GTCATTTGGC ACGGCTCCAG CCCCCATGGT 
    GTCCGCCTTG TGGATAACTA CTGTGAAGCG TGGCGAACCA CGGACACGGC GGTCACGGGA 
    CTTGCCTCCC CGCTGAGCAC GGGGAAGATT CTGGACCAGA AAGCATACAG CTGTGCTAAT 
    CGGCTAATTG TTCTGTGTAT CGAAAACAGT TTCATGACAG ACGCTAGAAA GTAA

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

    RefSeq XP_014972705.1
    CDS733..4746
    Translation

    Target ORF information:

    RefSeq Version XM_015117219.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen, type XV, alpha 1 (COL15A1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015117219.1

    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
    ATGGCACCAA GGAGGAACAA CGGGCAGTGC TGGTGTCTGC TGATGCTACT CTCGGTCTCC 
    ACGCCCCTCC CTGCAGTCAC CCAGACCCGC GCTGCGACAG AGTCTGCTTC CCAGGGTCAC 
    CTGGACCTCA CACAGCTCAT CGGTGTCCCG CTGCCCTCGT CTGTATCCTT TGTCACAGGC 
    TATGGTGGCT TCCCGGCCTA CAGCTTTGGC CCTGGTGCCA ATGTCGGCCG CCCAGCCAGG 
    ACTCTCATCC CATCCACCTT CTTCAGGGAC TTCGCCATCA GCGTCATGGT GAAGCCCAGC 
    AGCACCCACG GCGGTGTGCT CTTCGCCATC ACTGATGCCT TCCAGAAGGT CATCTACCTG 
    GGCCTGCGGC TCTCAGGTGT GGAGGATGGC CACCAGCGGG TCATCCTCTA CTACACGGAG 
    CCGGGCTCCC ACGTGTCCCA AGAGGCTGCT GCCTTCTCGG TGCCCGTGAT GACCCACAGG 
    TGGAACCGCT TCGCCGTGAT TGTCCAGGGT GAGGAAGTGG CCCTCCTCTT GGACTGTGAG 
    GAGCACAGCC GCATCCCCTT CCAGCGGTCC CCCCAGGCTT TGACCTTCGA GTCCAGCGCT 
    GGAATCTTCG TGGGCAATGC AGGAGCTACA GGACTTGAGA GATTCACTGG CTCCCTCCAG 
    CAGCTCACCG TGCACCCTGA CCCCAGGACT CCCGAGGAGC TGTGCGACCC CGAAGAGTCC 
    TCGGCATCTG GAGAGACCAG TGGGCTGCAG GAGGCAGACG GAGTAGCTGA GATCTTAGAA 
    GCCGTCACCT ACACTCAAGC CCCGCCCAAA GAAGCAAAAG TTGAACCCAT AAACACACCT 
    CCAACTCCAT CCTCCCCCTT TGAGGACATG GAACTTTCCG GTGAACCTGT ACCTGAGGGG 
    ACCCCGGAAA CCACCAACAT GAGCATCATC CAGCACAGCA GCCCCGAACA AGGGTCTGGT 
    GAGATCCTGA ATGACACACT GGAGGGGATT CATTCTGTGG ATGGTGACCC CATTACTGAC 
    AGCGGCTCAG GGTCTGGGGC CTTCCTTGAC ATAGCTGAAG AAAAGAATTT AGCAGCAACA 
    GCCGTGGGGC TGGCCGAGGC ACCCATCAGC ACTGCTAGAG AAGCAGAGGC CGGCAGTGTG 
    CCCACCAGGG GACCGACCCT CTCTGTGTCC ACCCAGAACC CAGAGGAAGG GGTCACTCCA 
    GGTCCAAGCA GTGAAGGAAG TTTAACAACA GCTGCAGCTG CAACCGAAGT GTCCCTCAGT 
    ACTTTTGAGG ATGAGGAAGC CAGTGGGGTC CCCACAGATG GCCTGGCCCC CCTCACAGCC 
    ACCATGACCC CTGAGCAGGC AGTCACTTCT GGTCCTGGTG ATGAGGAAGA CTTGGCAGCA 
    GCCACAACAG AGGAGCCCCT CATCACAGCT CGCGGTGAAG AGTCCGGCAG CCCTCCCCCC 
    GATGGGCCAC CGCTGCCCCT GCCCACACTG GCTCCTGAAA GAAGGGTCAC TCCAGCTCAG 
    AGAGAACATG TGGGAATGAA AGGACAGGCT GAGCCCAAAG GAGAAAAGGG TGATGCTGGG 
    GAGGAGATTC CTGGCCCGCC TGAACCTTCT GGGCCTGTTG GACCCACGGC GGGAGCAGAG 
    GCAGAGGGCT CTGGCCTGGG CTGGGGCTTG GACGTCAGCT CTGGCTCTGG TGACCTGGTG 
    GGCAGTGAGG AGTTGCTGAG AGGTCCTCCA GGGCCCCCAG GGCCACCTGG CTTACCTGGG 
    ATTCCAGGAA AACCAGGAAC TGATGTTTTC ATGGGACCCC CTGGATCTCC TGGAGAGGAT 
    GGACGTGCTG GTGAACCTGG GCCCCCGGGC CCTGAGGGAC AGCCTGGAGT TGATGGAGCC 
    ACCGGCCTTC CTGGGATGAA AGGGGAGAAG GGAGCAAGAG GGCCTAATGG CTCAGTTGGT 
    GAAAAGGGTG ACCCTGGCAA CAGAGGCTTA CCTGGACCCC CGGGGAAAAA GGGACAAGCT 
    GGCCCCCCTG GGGCCATGGG ACCCCCAGGG CCTCCTGGAC CCCCTGGGCC CCCAGGCCCT 
    GGATGCACAA TGGGACTTGG ATTCGAGGAT ACCGAAGGCT CTGGAAGCAC CCAGCTATTG 
    AGTGAACCTA AACTCTCCAG ACCAACGGCT GCAATCGGTC CCAAAGGAGA GAAAGGAGAC 
    CGGGGACCCA AGGGAGAAAG GGGGACGGAT GGAGCCAGTA TTGTGGGACC CCCTGGGCCG 
    AGAGGGCCAC CTGGGCGCAT CGAGGTCTTG TCTAGTTCCT TGATCAATAT CACCCATGGA 
    TTCATGAATT TCTCGGACAT TCCTGAGCTG GTGGGGCCTC CGGGGCCGGA CGGGTTGCCT 
    GGGCTGCCAG GATTTCCGGG CCCTAGAGGA CCAAAAGGTG ACACTGGTTT GCCTGGCTTT 
    CCAGGACTAA AAGGAGAACA GGGCGAGAAG GGAGAGCCAG GTGCCATCCT GACAGGGGAC 
    ATTCCTCTGG AAAGGCTGAT GGGGAAAAAG GGTGAACCGG GAATGCATGG AGCCCCAGGA 
    CCAATGGGTC CCAAAGGACC ACCGGGACAT AAAGGAGAAT TTGGTCTCCC CGGACGACCT 
    GGTCGCCCAG GACTGAATGG CCTCAAGGGT GCCAAAGGAG ATCCAGGGGT CATTATGCAG 
    GGCCCACCTG GCTTACCTGG CCCTCCAGGC CCCCCTGGGC CACCTGGAGC TGTGATTAAC 
    ATCAAAGGAG CCATTTTCCC AATACCCATC CGACCACACT GCAAAATGCC AGTTGATACT 
    GCTCATCCCG GGAGTCCAGA GCTCATCACC TTTCACGGTG TTAAAGGAGA GAAAGGATCC 
    TGGGGCCTTC CTGGCTCAAA GGGAGAAAAA GGCGACCAGG GAGCCCAGGG ACCACCAGGT 
    CCTCCACTTG ATCTAGCTTA CCTGAGACAC TTTCTGAACA ACTTGAAGGG GGAGAATGGA 
    GACAAGGGGT TCAAAGGTGA AAAAGGAGAA AAAGGAGACA TTAACGACGG CTTCCTTATG 
    TCTGGGCCTC CAGGCCTGCC CGGAAATCCA GGCCTGGCTG GCCAGAAAGG GGAGACAGTC 
    GTTGGGCCCC AAGGACCCCC AGGTGCTCCT GGTCTGCCTG GGCCACCTGG CTTTGGAAGA 
    CCTGGTGATC CTGGGCCACC GGGACCCCCA GGGCCACCAG GACCTCCGGC TATCCTGGGA 
    GCAGCTGTGG CCCTTCCAGG TCCCCCTGGC CCTCCAGGAC AGCCAGGGCT TCCAGGATCC 
    AGAAACCTGG TCACAGCATT CAGCAACATG GATGACATGC TGCAGAAAGC GCATTTGGTT 
    ATAGAAGGAA CATTCATCTA CCTGAGGGAC AGCACTGAGT TTTTCATTCG CGTTAGAGAT 
    GGCTGGAAAA AATTACAGCT AGGAGAACTG ATCCCCATTC CTGCCGACAG CCCTCCACCC 
    CCTGCGCTTT CCAGCAACCC ACATCAGCTT CTGCCTCCAC CAAACCCCAT TTCAAGTACC 
    AATTACGAGA AGCCTGCTCT GCATTTGGCT GCTCTGAACA TGCCATTTTC TGGGGACATT 
    CGAGCTGATT TTCAGTGCTT CAAGCAGGCC AGAGCTGCAG GACTGTTGTC CACCTACCGA 
    GCATTCTTAT CTTCCCATTT GCAAGATCTG TCCACCATTG TGAGGAAAGC AGAGAGATAC 
    AGCCTTCCCA TAGTGAACCT CAAGGGCCAA GTACTTTTTA ATAATTGGGA CTCAATTTTT 
    TCTGGCCATG GAGGTCAGTT CAATATGCAT ATTCCAATAT ACTCCTTTGA TGGTCGAGAC 
    GTAATGACAG ATCCTTCATG GCCCCAGAAG GTCATTTGGC ACGGCTCCAG CCCCCATGGT 
    GTCCGCCTTG TGGATAACTA CTGTGAAGCG TGGCGAACCA CGGACACGGC GGTCACGGGA 
    CTTGCCTCCC CGCTGAGCAC GGGGAAGATT CTGGACCAGA AAGCATACAG CTGTGCTAAT 
    CGGCTAATTG TTCTGTGTAT CGAAAACAGT TTCATGACAG ACGCTAGAAA GTAA

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

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