COL14A1 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following COL14A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL14A1 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
OMb38641 XM_015145924.1
Latest version!
Macaca mulatta collagen, type XIV, alpha 1 (COL14A1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMb38642 XM_015145925.1
Latest version!
Macaca mulatta collagen, type XIV, alpha 1 (COL14A1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMb38643 XM_015145926.1
Latest version!
Macaca mulatta collagen, type XIV, alpha 1 (COL14A1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMb91521 XM_015145924.2
Latest version!
Macaca mulatta collagen type XIV alpha 1 chain (COL14A1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMb91522 XM_015145925.2
Latest version!
Macaca mulatta collagen type XIV alpha 1 chain (COL14A1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMb91523 XM_015145926.2
Latest version!
Macaca mulatta collagen type XIV alpha 1 chain (COL14A1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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 OMb38641
    Clone ID Related Accession (Same CDS sequence) XM_015145924.1
    Accession Version XM_015145924.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5391bp)
    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(XIV) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805118.1) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTC TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    GTAGGAACGA TTATGGTGCC TGGAAGCCAG AACAATCTCC TTCTGAAGCC TCTGCTTCCT
    GATACTGAAT ACAAAGTCAC AGTGACTCCC ATCTACACAG ATGGAGAAGG CGTCAGTGTC
    TCTGCTCCTG GAAAAACCTT GCCGTCCTCA GCGCCCCAGA ACTTGCGGGT GTCCGAGGAA
    TGGTATAACC GGTTGCGCAT TACGTGGGAC CCCCCGTCTT CCCCAGTGAA AGGCTATAGA
    ATTGTCTACA AACCTGTCAG TGTTCCTGGT CCAACACTGG AAACATTTGT GGGAGCTGAC
    ATTAACACCA TTCTTATCAC AAACCTCCTC AGTGGAATGG ATTACAATGT GAAGATATTT
    GCCTCCCAGG CCTCAGGCTT CAGCGACGCC CTGACAGGCA TGGTGAAAAC ATTGTTCTTG
    GGTGTTACAA ATCTCCAAGC CATACACGTT GAAATGACCA GCTTGTGTGC CCACTGGCAG
    GTACATCGCC ATGCCACAGC CTATAGGGTT GTTATAGAAT CCCTCCAGGA TACAAAAAAG
    CAAGAATCAA CTGTGGGTGG AGGTACAACC AGGCATTGCT TCTATGGACT TCAGCCTGAT
    TCTGAATATA AAATCAGTGT TTATACAAAG CTCCAGGAGA TTGAAGGACC TAGTGTGAGC
    ATAATGGAAA AAACACAATC ACTTCCTACA CAACCACCAA CTTTTCCACC AACCATTCCA
    CCAGCAAAAG AAGTATGTAA GGCGGCCAAG GCTGACCTGG TATTTATGGT GGATGGATCC
    TGGAGCATTG GAGATGACAA TTTCAATAAG ATCATCAGCT TTCTGTATAG CACTGTTGGA
    GCCCTGAACA AGATTGGCAC AGATGGAACC CAAGTTGCAA TGGTTCAGTT CACTGATGAC
    CCCAGAACAG AATTTAAACT AAATGCTTAC AAAACCAAAG AGACTCTTCT GGATGCAATT
    AAACACATTT CATACAAAGG AGGAAATACA AAAACAGGAA AAGCAATTAA GTATGTTCGA
    GATTCCTTGT TCACAGCAGA GTCAGGTACA AGAAGGGGCA TCCCAAAGGT TATTGTGGTT
    ATAACTGATG GAAGATCACA AGATGATGTG AACAAAATCT CCAGGGAGAT GCAATTAGAT
    GGCTATAGCA TTTTTGCAAT TGGTGTGGCC GATGCAGATT ACTCGGAGTT GGTTAGCATT
    GGCAGTAAGC CCAGCGCACG CCATGTCTTC TTTGTGGATG ACTTTGACGC CTTTAAGAAA
    ATCGAAGACG AGTTAATTAC TTTTGTCTGC GAAACCGCAT CAGCAACCTG TCCAATGGTA
    CACAAGGATG GCATTGATCT TGCAGGATTT AAAATGATGG AAATGTTTGG TTTGGTTGAA
    AAAGATTTTT CATCAGTGAA AGGGGTTTCT ATGGAGCCTG GTACTTTCAA TGTGTTTCCA
    TGTTACCAAC TCCATAAAGA TGCCCTGGTT TCCCAGCCAA CCAGGTACAT GCATCCGGAA
    GGATTGCCCT CCGACTACAC AATCAGTTTT CTATTCCGGA TTCTTCCTGA CACTCCACAG
    GAGCCCTTTG CTCTTTGGGA GATTTTAAAT AAAAATTCTG ACCCATTGGT TGGGGTTATT
    TTAGACAATG GTGGGAAAAC TCTAACATAT TTCAACTATG ACCAGAGTGG GGATTTTCAG
    ACTGTTACTT TCGAAGGACC TGAAATTAGG AAAATTTTTT ATGGAAGCTT TCACAAGCTA
    CACATTGTTG TCAGTGACAC TTTGGTCAAA TTGGTTATTG ACTGCAAGCA AGTGGGTGAG
    AAGGCAATAA ATGCATCAGC TAATATCACA TCAGATGGTG TAGAAGTACT AGGGAAAATG
    GTTCGATCAA GAGGACCAGA TGGAAACTCT GCACCGTTCC AGTTACAGAT GTTTGATATT
    GTTTGTTCCA CATCATGGGC CAATACAGAC AAATGCTGTG AACTTCCAGG CCTGAGAGAT
    GATGAGTCTT GCCCAGACCT TCCTCATTCT TGCTCCTGTA CTGAAACCAA TGAAGTGGCT
    CTGGGACCAG CAGGCCCACC AGGTGGTCCG GGACTCCGAG GACCAAAGGG CCAGCAAGGT
    GAACCAGGTC CAAAGGGACC AGATGGCCCT CGGGGTGAAG TTGGTCTACC AGGACCTCAG
    GGTCCACCTG GACCCCAAGG ACCAAGTGGT CTGTCCATTC AAGGAATGCC CGGAATGCCA
    GGAGAAAAAG GAGAGAAAGG AGATACTGGC CTTCCAGGTC CACAGGGTAT CCCAGGAGGC
    GTTGGTTCAC CAGGACGTGA TGGCTCACCA GGCCAGAGGG GCCTTCCAGG AAAGGATGGA
    TCCTCGGGAC CTCCAGGACC ACCAGGGCCA ATAGGCATCC CTGGGGCCCC TGGAGTCCCA
    GGAATCACAG GAAGCATGGG ACCGCAAGGC GCCCTGGGAC CACCCGGTGT CCCTGGGGCA
    AAGGGGGAAC GAGGAGAGCG GGGTGACCTG CAGTCTCAAG CCATGGTGAG ATCAGTGGCA
    CGTCAAGTAT GCGAACAGCT CATCCAGAGT CACATGGCCA GGTACACTGC CATCCTCAAC
    CAGATTCCCA GCCACTCCTC ATCCATCCGG ACTGTCCAAG GGCCTCCTGG GGAGCCTGGG
    AGACCAGGCT CACCTGGAGC CCCTGGTGAA CAAGGACCCC CAGGCACACC AGGCTTCCCC
    GGAAATGCAG GCGTGCCAGG GACCCCAGGA GAACGAGGTC TAACTGGTGT CAAGGGAGAA
    AAAGGAAATC CAGGCGTTGG AACCCAAGGT CCAAGAGGCC CCCCGGGACC AGCAGGACCT
    TCAGGAGAGA GTCGGCCTGG CAGCCCTGGG CCCCCTGGCT CTCCTGGACC AAGAGGCCCC
    CCAGGTCATC TGGGGGTTCC TGGACCACAA GGTCCTTCTG GCCAGCCTGG ATATTGTGAC
    CCCTCATCAT GTTCTGCCTA TGGTGTGAGA GCTCCCCATC CAGATCAGCC AGAGTTCACC
    CCTGTCCAAG ACGAGCTGGA AGCCATGGAA CTGTGGGGCC CTGGAGTCTG A

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

    RefSeq XP_015001410.1
    CDS277..5667
    Translation

    Target ORF information:

    RefSeq Version XM_015145924.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen, type XIV, alpha 1 (COL14A1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015145924.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTC TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    GTAGGAACGA TTATGGTGCC TGGAAGCCAG AACAATCTCC TTCTGAAGCC TCTGCTTCCT
    GATACTGAAT ACAAAGTCAC AGTGACTCCC ATCTACACAG ATGGAGAAGG CGTCAGTGTC
    TCTGCTCCTG GAAAAACCTT GCCGTCCTCA GCGCCCCAGA ACTTGCGGGT GTCCGAGGAA
    TGGTATAACC GGTTGCGCAT TACGTGGGAC CCCCCGTCTT CCCCAGTGAA AGGCTATAGA
    ATTGTCTACA AACCTGTCAG TGTTCCTGGT CCAACACTGG AAACATTTGT GGGAGCTGAC
    ATTAACACCA TTCTTATCAC AAACCTCCTC AGTGGAATGG ATTACAATGT GAAGATATTT
    GCCTCCCAGG CCTCAGGCTT CAGCGACGCC CTGACAGGCA TGGTGAAAAC ATTGTTCTTG
    GGTGTTACAA ATCTCCAAGC CATACACGTT GAAATGACCA GCTTGTGTGC CCACTGGCAG
    GTACATCGCC ATGCCACAGC CTATAGGGTT GTTATAGAAT CCCTCCAGGA TACAAAAAAG
    CAAGAATCAA CTGTGGGTGG AGGTACAACC AGGCATTGCT TCTATGGACT TCAGCCTGAT
    TCTGAATATA AAATCAGTGT TTATACAAAG CTCCAGGAGA TTGAAGGACC TAGTGTGAGC
    ATAATGGAAA AAACACAATC ACTTCCTACA CAACCACCAA CTTTTCCACC AACCATTCCA
    CCAGCAAAAG AAGTATGTAA GGCGGCCAAG GCTGACCTGG TATTTATGGT GGATGGATCC
    TGGAGCATTG GAGATGACAA TTTCAATAAG ATCATCAGCT TTCTGTATAG CACTGTTGGA
    GCCCTGAACA AGATTGGCAC AGATGGAACC CAAGTTGCAA TGGTTCAGTT CACTGATGAC
    CCCAGAACAG AATTTAAACT AAATGCTTAC AAAACCAAAG AGACTCTTCT GGATGCAATT
    AAACACATTT CATACAAAGG AGGAAATACA AAAACAGGAA AAGCAATTAA GTATGTTCGA
    GATTCCTTGT TCACAGCAGA GTCAGGTACA AGAAGGGGCA TCCCAAAGGT TATTGTGGTT
    ATAACTGATG GAAGATCACA AGATGATGTG AACAAAATCT CCAGGGAGAT GCAATTAGAT
    GGCTATAGCA TTTTTGCAAT TGGTGTGGCC GATGCAGATT ACTCGGAGTT GGTTAGCATT
    GGCAGTAAGC CCAGCGCACG CCATGTCTTC TTTGTGGATG ACTTTGACGC CTTTAAGAAA
    ATCGAAGACG AGTTAATTAC TTTTGTCTGC GAAACCGCAT CAGCAACCTG TCCAATGGTA
    CACAAGGATG GCATTGATCT TGCAGGATTT AAAATGATGG AAATGTTTGG TTTGGTTGAA
    AAAGATTTTT CATCAGTGAA AGGGGTTTCT ATGGAGCCTG GTACTTTCAA TGTGTTTCCA
    TGTTACCAAC TCCATAAAGA TGCCCTGGTT TCCCAGCCAA CCAGGTACAT GCATCCGGAA
    GGATTGCCCT CCGACTACAC AATCAGTTTT CTATTCCGGA TTCTTCCTGA CACTCCACAG
    GAGCCCTTTG CTCTTTGGGA GATTTTAAAT AAAAATTCTG ACCCATTGGT TGGGGTTATT
    TTAGACAATG GTGGGAAAAC TCTAACATAT TTCAACTATG ACCAGAGTGG GGATTTTCAG
    ACTGTTACTT TCGAAGGACC TGAAATTAGG AAAATTTTTT ATGGAAGCTT TCACAAGCTA
    CACATTGTTG TCAGTGACAC TTTGGTCAAA TTGGTTATTG ACTGCAAGCA AGTGGGTGAG
    AAGGCAATAA ATGCATCAGC TAATATCACA TCAGATGGTG TAGAAGTACT AGGGAAAATG
    GTTCGATCAA GAGGACCAGA TGGAAACTCT GCACCGTTCC AGTTACAGAT GTTTGATATT
    GTTTGTTCCA CATCATGGGC CAATACAGAC AAATGCTGTG AACTTCCAGG CCTGAGAGAT
    GATGAGTCTT GCCCAGACCT TCCTCATTCT TGCTCCTGTA CTGAAACCAA TGAAGTGGCT
    CTGGGACCAG CAGGCCCACC AGGTGGTCCG GGACTCCGAG GACCAAAGGG CCAGCAAGGT
    GAACCAGGTC CAAAGGGACC AGATGGCCCT CGGGGTGAAG TTGGTCTACC AGGACCTCAG
    GGTCCACCTG GACCCCAAGG ACCAAGTGGT CTGTCCATTC AAGGAATGCC CGGAATGCCA
    GGAGAAAAAG GAGAGAAAGG AGATACTGGC CTTCCAGGTC CACAGGGTAT CCCAGGAGGC
    GTTGGTTCAC CAGGACGTGA TGGCTCACCA GGCCAGAGGG GCCTTCCAGG AAAGGATGGA
    TCCTCGGGAC CTCCAGGACC ACCAGGGCCA ATAGGCATCC CTGGGGCCCC TGGAGTCCCA
    GGAATCACAG GAAGCATGGG ACCGCAAGGC GCCCTGGGAC CACCCGGTGT CCCTGGGGCA
    AAGGGGGAAC GAGGAGAGCG GGGTGACCTG CAGTCTCAAG CCATGGTGAG ATCAGTGGCA
    CGTCAAGTAT GCGAACAGCT CATCCAGAGT CACATGGCCA GGTACACTGC CATCCTCAAC
    CAGATTCCCA GCCACTCCTC ATCCATCCGG ACTGTCCAAG GGCCTCCTGG GGAGCCTGGG
    AGACCAGGCT CACCTGGAGC CCCTGGTGAA CAAGGACCCC CAGGCACACC AGGCTTCCCC
    GGAAATGCAG GCGTGCCAGG GACCCCAGGA GAACGAGGTC TAACTGGTGT CAAGGGAGAA
    AAAGGAAATC CAGGCGTTGG AACCCAAGGT CCAAGAGGCC CCCCGGGACC AGCAGGACCT
    TCAGGAGAGA GTCGGCCTGG CAGCCCTGGG CCCCCTGGCT CTCCTGGACC AAGAGGCCCC
    CCAGGTCATC TGGGGGTTCC TGGACCACAA GGTCCTTCTG GCCAGCCTGG ATATTGTGAC
    CCCTCATCAT GTTCTGCCTA TGGTGTGAGA GCTCCCCATC CAGATCAGCC AGAGTTCACC
    CCTGTCCAAG ACGAGCTGGA AGCCATGGAA CTGTGGGGCC CTGGAGTCTG A

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

    CloneID OMb38642
    Clone ID Related Accession (Same CDS sequence) XM_015145925.1
    Accession Version XM_015145925.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5382bp)
    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(XIV) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805118.1) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTC TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    ATTATGGTGC CTGGAAGCCA GAACAATCTC CTTCTGAAGC CTCTGCTTCC TGATACTGAA
    TACAAAGTCA CAGTGACTCC CATCTACACA GATGGAGAAG GCGTCAGTGT CTCTGCTCCT
    GGAAAAACCT TGCCGTCCTC AGCGCCCCAG AACTTGCGGG TGTCCGAGGA ATGGTATAAC
    CGGTTGCGCA TTACGTGGGA CCCCCCGTCT TCCCCAGTGA AAGGCTATAG AATTGTCTAC
    AAACCTGTCA GTGTTCCTGG TCCAACACTG GAAACATTTG TGGGAGCTGA CATTAACACC
    ATTCTTATCA CAAACCTCCT CAGTGGAATG GATTACAATG TGAAGATATT TGCCTCCCAG
    GCCTCAGGCT TCAGCGACGC CCTGACAGGC ATGGTGAAAA CATTGTTCTT GGGTGTTACA
    AATCTCCAAG CCATACACGT TGAAATGACC AGCTTGTGTG CCCACTGGCA GGTACATCGC
    CATGCCACAG CCTATAGGGT TGTTATAGAA TCCCTCCAGG ATACAAAAAA GCAAGAATCA
    ACTGTGGGTG GAGGTACAAC CAGGCATTGC TTCTATGGAC TTCAGCCTGA TTCTGAATAT
    AAAATCAGTG TTTATACAAA GCTCCAGGAG ATTGAAGGAC CTAGTGTGAG CATAATGGAA
    AAAACACAAT CACTTCCTAC ACAACCACCA ACTTTTCCAC CAACCATTCC ACCAGCAAAA
    GAAGTATGTA AGGCGGCCAA GGCTGACCTG GTATTTATGG TGGATGGATC CTGGAGCATT
    GGAGATGACA ATTTCAATAA GATCATCAGC TTTCTGTATA GCACTGTTGG AGCCCTGAAC
    AAGATTGGCA CAGATGGAAC CCAAGTTGCA ATGGTTCAGT TCACTGATGA CCCCAGAACA
    GAATTTAAAC TAAATGCTTA CAAAACCAAA GAGACTCTTC TGGATGCAAT TAAACACATT
    TCATACAAAG GAGGAAATAC AAAAACAGGA AAAGCAATTA AGTATGTTCG AGATTCCTTG
    TTCACAGCAG AGTCAGGTAC AAGAAGGGGC ATCCCAAAGG TTATTGTGGT TATAACTGAT
    GGAAGATCAC AAGATGATGT GAACAAAATC TCCAGGGAGA TGCAATTAGA TGGCTATAGC
    ATTTTTGCAA TTGGTGTGGC CGATGCAGAT TACTCGGAGT TGGTTAGCAT TGGCAGTAAG
    CCCAGCGCAC GCCATGTCTT CTTTGTGGAT GACTTTGACG CCTTTAAGAA AATCGAAGAC
    GAGTTAATTA CTTTTGTCTG CGAAACCGCA TCAGCAACCT GTCCAATGGT ACACAAGGAT
    GGCATTGATC TTGCAGGATT TAAAATGATG GAAATGTTTG GTTTGGTTGA AAAAGATTTT
    TCATCAGTGA AAGGGGTTTC TATGGAGCCT GGTACTTTCA ATGTGTTTCC ATGTTACCAA
    CTCCATAAAG ATGCCCTGGT TTCCCAGCCA ACCAGGTACA TGCATCCGGA AGGATTGCCC
    TCCGACTACA CAATCAGTTT TCTATTCCGG ATTCTTCCTG ACACTCCACA GGAGCCCTTT
    GCTCTTTGGG AGATTTTAAA TAAAAATTCT GACCCATTGG TTGGGGTTAT TTTAGACAAT
    GGTGGGAAAA CTCTAACATA TTTCAACTAT GACCAGAGTG GGGATTTTCA GACTGTTACT
    TTCGAAGGAC CTGAAATTAG GAAAATTTTT TATGGAAGCT TTCACAAGCT ACACATTGTT
    GTCAGTGACA CTTTGGTCAA ATTGGTTATT GACTGCAAGC AAGTGGGTGA GAAGGCAATA
    AATGCATCAG CTAATATCAC ATCAGATGGT GTAGAAGTAC TAGGGAAAAT GGTTCGATCA
    AGAGGACCAG ATGGAAACTC TGCACCGTTC CAGTTACAGA TGTTTGATAT TGTTTGTTCC
    ACATCATGGG CCAATACAGA CAAATGCTGT GAACTTCCAG GCCTGAGAGA TGATGAGTCT
    TGCCCAGACC TTCCTCATTC TTGCTCCTGT ACTGAAACCA ATGAAGTGGC TCTGGGACCA
    GCAGGCCCAC CAGGTGGTCC GGGACTCCGA GGACCAAAGG GCCAGCAAGG TGAACCAGGT
    CCAAAGGGAC CAGATGGCCC TCGGGGTGAA GTTGGTCTAC CAGGACCTCA GGGTCCACCT
    GGACCCCAAG GACCAAGTGG TCTGTCCATT CAAGGAATGC CCGGAATGCC AGGAGAAAAA
    GGAGAGAAAG GAGATACTGG CCTTCCAGGT CCACAGGGTA TCCCAGGAGG CGTTGGTTCA
    CCAGGACGTG ATGGCTCACC AGGCCAGAGG GGCCTTCCAG GAAAGGATGG ATCCTCGGGA
    CCTCCAGGAC CACCAGGGCC AATAGGCATC CCTGGGGCCC CTGGAGTCCC AGGAATCACA
    GGAAGCATGG GACCGCAAGG CGCCCTGGGA CCACCCGGTG TCCCTGGGGC AAAGGGGGAA
    CGAGGAGAGC GGGGTGACCT GCAGTCTCAA GCCATGGTGA GATCAGTGGC ACGTCAAGTA
    TGCGAACAGC TCATCCAGAG TCACATGGCC AGGTACACTG CCATCCTCAA CCAGATTCCC
    AGCCACTCCT CATCCATCCG GACTGTCCAA GGGCCTCCTG GGGAGCCTGG GAGACCAGGC
    TCACCTGGAG CCCCTGGTGA ACAAGGACCC CCAGGCACAC CAGGCTTCCC CGGAAATGCA
    GGCGTGCCAG GGACCCCAGG AGAACGAGGT CTAACTGGTG TCAAGGGAGA AAAAGGAAAT
    CCAGGCGTTG GAACCCAAGG TCCAAGAGGC CCCCCGGGAC CAGCAGGACC TTCAGGAGAG
    AGTCGGCCTG GCAGCCCTGG GCCCCCTGGC TCTCCTGGAC CAAGAGGCCC CCCAGGTCAT
    CTGGGGGTTC CTGGACCACA AGGTCCTTCT GGCCAGCCTG GATATTGTGA CCCCTCATCA
    TGTTCTGCCT ATGGTGTGAG AGCTCCCCAT CCAGATCAGC CAGAGTTCAC CCCTGTCCAA
    GACGAGCTGG AAGCCATGGA ACTGTGGGGC CCTGGAGTCT GA

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

    RefSeq XP_015001411.1
    CDS277..5658
    Translation

    Target ORF information:

    RefSeq Version XM_015145925.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen, type XIV, alpha 1 (COL14A1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015145925.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTC TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    ATTATGGTGC CTGGAAGCCA GAACAATCTC CTTCTGAAGC CTCTGCTTCC TGATACTGAA
    TACAAAGTCA CAGTGACTCC CATCTACACA GATGGAGAAG GCGTCAGTGT CTCTGCTCCT
    GGAAAAACCT TGCCGTCCTC AGCGCCCCAG AACTTGCGGG TGTCCGAGGA ATGGTATAAC
    CGGTTGCGCA TTACGTGGGA CCCCCCGTCT TCCCCAGTGA AAGGCTATAG AATTGTCTAC
    AAACCTGTCA GTGTTCCTGG TCCAACACTG GAAACATTTG TGGGAGCTGA CATTAACACC
    ATTCTTATCA CAAACCTCCT CAGTGGAATG GATTACAATG TGAAGATATT TGCCTCCCAG
    GCCTCAGGCT TCAGCGACGC CCTGACAGGC ATGGTGAAAA CATTGTTCTT GGGTGTTACA
    AATCTCCAAG CCATACACGT TGAAATGACC AGCTTGTGTG CCCACTGGCA GGTACATCGC
    CATGCCACAG CCTATAGGGT TGTTATAGAA TCCCTCCAGG ATACAAAAAA GCAAGAATCA
    ACTGTGGGTG GAGGTACAAC CAGGCATTGC TTCTATGGAC TTCAGCCTGA TTCTGAATAT
    AAAATCAGTG TTTATACAAA GCTCCAGGAG ATTGAAGGAC CTAGTGTGAG CATAATGGAA
    AAAACACAAT CACTTCCTAC ACAACCACCA ACTTTTCCAC CAACCATTCC ACCAGCAAAA
    GAAGTATGTA AGGCGGCCAA GGCTGACCTG GTATTTATGG TGGATGGATC CTGGAGCATT
    GGAGATGACA ATTTCAATAA GATCATCAGC TTTCTGTATA GCACTGTTGG AGCCCTGAAC
    AAGATTGGCA CAGATGGAAC CCAAGTTGCA ATGGTTCAGT TCACTGATGA CCCCAGAACA
    GAATTTAAAC TAAATGCTTA CAAAACCAAA GAGACTCTTC TGGATGCAAT TAAACACATT
    TCATACAAAG GAGGAAATAC AAAAACAGGA AAAGCAATTA AGTATGTTCG AGATTCCTTG
    TTCACAGCAG AGTCAGGTAC AAGAAGGGGC ATCCCAAAGG TTATTGTGGT TATAACTGAT
    GGAAGATCAC AAGATGATGT GAACAAAATC TCCAGGGAGA TGCAATTAGA TGGCTATAGC
    ATTTTTGCAA TTGGTGTGGC CGATGCAGAT TACTCGGAGT TGGTTAGCAT TGGCAGTAAG
    CCCAGCGCAC GCCATGTCTT CTTTGTGGAT GACTTTGACG CCTTTAAGAA AATCGAAGAC
    GAGTTAATTA CTTTTGTCTG CGAAACCGCA TCAGCAACCT GTCCAATGGT ACACAAGGAT
    GGCATTGATC TTGCAGGATT TAAAATGATG GAAATGTTTG GTTTGGTTGA AAAAGATTTT
    TCATCAGTGA AAGGGGTTTC TATGGAGCCT GGTACTTTCA ATGTGTTTCC ATGTTACCAA
    CTCCATAAAG ATGCCCTGGT TTCCCAGCCA ACCAGGTACA TGCATCCGGA AGGATTGCCC
    TCCGACTACA CAATCAGTTT TCTATTCCGG ATTCTTCCTG ACACTCCACA GGAGCCCTTT
    GCTCTTTGGG AGATTTTAAA TAAAAATTCT GACCCATTGG TTGGGGTTAT TTTAGACAAT
    GGTGGGAAAA CTCTAACATA TTTCAACTAT GACCAGAGTG GGGATTTTCA GACTGTTACT
    TTCGAAGGAC CTGAAATTAG GAAAATTTTT TATGGAAGCT TTCACAAGCT ACACATTGTT
    GTCAGTGACA CTTTGGTCAA ATTGGTTATT GACTGCAAGC AAGTGGGTGA GAAGGCAATA
    AATGCATCAG CTAATATCAC ATCAGATGGT GTAGAAGTAC TAGGGAAAAT GGTTCGATCA
    AGAGGACCAG ATGGAAACTC TGCACCGTTC CAGTTACAGA TGTTTGATAT TGTTTGTTCC
    ACATCATGGG CCAATACAGA CAAATGCTGT GAACTTCCAG GCCTGAGAGA TGATGAGTCT
    TGCCCAGACC TTCCTCATTC TTGCTCCTGT ACTGAAACCA ATGAAGTGGC TCTGGGACCA
    GCAGGCCCAC CAGGTGGTCC GGGACTCCGA GGACCAAAGG GCCAGCAAGG TGAACCAGGT
    CCAAAGGGAC CAGATGGCCC TCGGGGTGAA GTTGGTCTAC CAGGACCTCA GGGTCCACCT
    GGACCCCAAG GACCAAGTGG TCTGTCCATT CAAGGAATGC CCGGAATGCC AGGAGAAAAA
    GGAGAGAAAG GAGATACTGG CCTTCCAGGT CCACAGGGTA TCCCAGGAGG CGTTGGTTCA
    CCAGGACGTG ATGGCTCACC AGGCCAGAGG GGCCTTCCAG GAAAGGATGG ATCCTCGGGA
    CCTCCAGGAC CACCAGGGCC AATAGGCATC CCTGGGGCCC CTGGAGTCCC AGGAATCACA
    GGAAGCATGG GACCGCAAGG CGCCCTGGGA CCACCCGGTG TCCCTGGGGC AAAGGGGGAA
    CGAGGAGAGC GGGGTGACCT GCAGTCTCAA GCCATGGTGA GATCAGTGGC ACGTCAAGTA
    TGCGAACAGC TCATCCAGAG TCACATGGCC AGGTACACTG CCATCCTCAA CCAGATTCCC
    AGCCACTCCT CATCCATCCG GACTGTCCAA GGGCCTCCTG GGGAGCCTGG GAGACCAGGC
    TCACCTGGAG CCCCTGGTGA ACAAGGACCC CCAGGCACAC CAGGCTTCCC CGGAAATGCA
    GGCGTGCCAG GGACCCCAGG AGAACGAGGT CTAACTGGTG TCAAGGGAGA AAAAGGAAAT
    CCAGGCGTTG GAACCCAAGG TCCAAGAGGC CCCCCGGGAC CAGCAGGACC TTCAGGAGAG
    AGTCGGCCTG GCAGCCCTGG GCCCCCTGGC TCTCCTGGAC CAAGAGGCCC CCCAGGTCAT
    CTGGGGGTTC CTGGACCACA AGGTCCTTCT GGCCAGCCTG GATATTGTGA CCCCTCATCA
    TGTTCTGCCT ATGGTGTGAG AGCTCCCCAT CCAGATCAGC CAGAGTTCAC CCCTGTCCAA
    GACGAGCTGG AAGCCATGGA ACTGTGGGGC CCTGGAGTCT GA

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

    CloneID OMb38643
    Clone ID Related Accession (Same CDS sequence) XM_015145926.1
    Accession Version XM_015145926.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5343bp)
    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(XIV) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805118.1) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTC TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    GTAGGAACGA TTATGGTGCC TGGAAGCCAG AACAATCTCC TTCTGAAGCC TCTGCTTCCT
    GATACTGAAT ACAAAGTCAC AGTGACTCCC ATCTACACAG ATGGAGAAGG CGTCAGTGTC
    TCTGCTCCTG GAAAAACCTT GCCGTCCTCA GCGCCCCAGA ACTTGCGGGT GTCCGAGGAA
    TGGTATAACC GGTTGCGCAT TACGTGGGAC CCCCCGTCTT CCCCAGTGAA AGGCTATAGA
    ATTGTCTACA AACCTGTCAG TGTTCCTGGT CCAACACTGG AAACATTTGT GGGAGCTGAC
    ATTAACACCA TTCTTATCAC AAACCTCCTC AGTGGAATGG ATTACAATGT GAAGATATTT
    GCCTCCCAGG CCTCAGGCTT CAGCGACGCC CTGACAGGCA TGGTGAAAAC ATTGTTCTTG
    GGTGTTACAA ATCTCCAAGC CATACACGTT GAAATGACCA GCTTGTGTGC CCACTGGCAG
    GTACATCGCC ATGCCACAGC CTATAGGGTT GTTATAGAAT CCCTCCAGGA TACAAAAAAG
    CAAGAATCAA CTGTGGGTGG AGGTACAACC AGGCATTGCT TCTATGGACT TCAGCCTGAT
    TCTGAATATA AAATCAGTGT TTATACAAAG CTCCAGGAGA TTGAAGGACC TAGTGTGAGC
    ATAATGGAAA AAACACAATC ACTTCCTACA CAACCACCAA CTTTTCCACC AACCATTCCA
    CCAGCAAAAG AAGTATGTAA GGCGGCCAAG GCTGACCTGG TATTTATGGT GGATGGATCC
    TGGAGCATTG GAGATGACAA TTTCAATAAG ATCATCAGCT TTCTGTATAG CACTGTTGGA
    GCCCTGAACA AGATTGGCAC AGATGGAACC CAAGTTGCAA TGGTTCAGTT CACTGATGAC
    CCCAGAACAG AATTTAAACT AAATGCTTAC AAAACCAAAG AGACTCTTCT GGATGCAATT
    AAACACATTT CATACAAAGG AGGAAATACA AAAACAGGAA AAGCAATTAA GTATGTTCGA
    GATTCCTTGT TCACAGCAGA GTCAGGTACA AGAAGGGGCA TCCCAAAGGT TATTGTGGTT
    ATAACTGATG GAAGATCACA AGATGATGTG AACAAAATCT CCAGGGAGAT GCAATTAGAT
    GGCTATAGCA TTTTTGCAAT TGGTGTGGCC GATGCAGATT ACTCGGAGTT GGTTAGCATT
    GGCAGTAAGC CCAGCGCACG CCATGTCTTC TTTGTGGATG ACTTTGACGC CTTTAAGAAA
    ATCGAAGACG AGTTAATTAC TTTTGTCTGC GAAACCGCAT CAGCAACCTG TCCAATGGTA
    CACAAGGATG GCATTGATCT TGCAGGATTT AAAATGATGG AAATGTTTGG TTTGGTTGAA
    AAAGATTTTT CATCAGTGAA AGGGGTTTCT ATGGAGCCTG GTACTTTCAA TGTGTTTCCA
    TGTTACCAAC TCCATAAAGA TGCCCTGGTT TCCCAGCCAA CCAGGTACAT GCATCCGGAA
    GGATTGCCCT CCGACTACAC AATCAGTTTT CTATTCCGGA TTCTTCCTGA CACTCCACAG
    GAGCCCTTTG CTCTTTGGGA GATTTTAAAT AAAAATTCTG ACCCATTGGT TGGGGTTATT
    TTAGACAATG GTGGGAAAAC TCTAACATAT TTCAACTATG ACCAGAGTGG GGATTTTCAG
    ACTGTTACTT TCGAAGGACC TGAAATTAGG AAAATTTTTT ATGGAAGCTT TCACAAGCTA
    CACATTGTTG TCAGTGACAC TTTGGTCAAA TTGGTTATTG ACTGCAAGCA AGTGGGTGAG
    AAGGCAATAA ATGCATCAGC TAATATCACA TCAGATGGTG TAGAAGTACT AGGGAAAATG
    GTTCGATCAA GAGGACCAGA TGGAAACTCT GCACCGTTCC AGTTACAGAT GTTTGATATT
    GTTTGTTCCA CATCATGGGC CAATACAGAC AAATGCTGTG AACTTCCAGG CCTGAGAGAT
    GATGAGTCTT GCCCAGACCT TCCTCATTCT TGCTCCTGTA CTGAAACCAA TGAAGTGGCT
    CTGGGACCAG CAGGCCCACC AGGTGGTCCG GGACTCCGAG GACCAAAGGG CCAGCAAGGT
    GAACCAGGTC CAAAGGGACC AGATGGCCCT CGGGGTGAAG TTGGTCTACC AGGACCTCAG
    GGTCCACCTG GACCCCAAGG ACCAAGTGGT CTGTCCATTC AAGGAATGCC CGGAATGCCA
    GGAGAAAAAG GAGAGAAAGG AGATACTGGC CTTCCAGGTC CACAGGGTAT CCCAGGAGGC
    GTTGGTTCAC CAGGACGTGA TGGCTCACCA GGCCAGAGGG GCCTTCCAGG AAAGGATGGA
    TCCTCGGGAC CTCCAGGACC ACCAGGGCCA ATAGGCATCC CTGGGGCCCC TGGAGTCCCA
    GGAATCACAG GAAGCATGGG ACCGCAAGGC GCCCTGGGAC CACCCGGTGT CCCTGGGGCA
    AAGGGGGAAC GAGGAGAGCG GGGTGACCTG CAGTCTCAAG CCATGGTGAG ATCAGTGGCA
    CGTCAAGTAT GCGAACAGCT CATCCAGAGT CACATGGCCA GGTACACTGC CATCCTCAAC
    CAGATTCCCA GCCACTCCTC ATCCATCCGG ACTGTCCAAG GGCCTCCTGG GGAGCCTGGG
    AGACCAGGCT CACCTGGAGC CCCTGGTGAA CAAGGACCCC CAGGCACACC AGGCTTCCCC
    GGAAATGCAG GCGTGCCAGG GACCCCAGGA GAACGAGGTC TAACTGGTGT CAAGGGAGAA
    AAAGGAAATC CAGGCGTTGG AACCCAAGGT CCAAGAGGCC CCCCGGGACC AGCAGGACCT
    TCAGGAGAGA GTCGGCCTGG CAGCCCTGGG CCCCCTGGCT CTCCTGGACC AAGAGGCCCC
    CCAGGTCATC TGGGGGTTCC TGGACCACAA GGTCCTTCTG GCCAGCCTGG ATATTGTGAC
    CCCTCATCAT GTTCTGCCTA TGGTGTGAGA GATCTGATCC CCTACAATGA TTACCAGCAC
    TGA

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

    RefSeq XP_015001412.1
    CDS277..5619
    Translation

    Target ORF information:

    RefSeq Version XM_015145926.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen, type XIV, alpha 1 (COL14A1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015145926.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTC TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    GTAGGAACGA TTATGGTGCC TGGAAGCCAG AACAATCTCC TTCTGAAGCC TCTGCTTCCT
    GATACTGAAT ACAAAGTCAC AGTGACTCCC ATCTACACAG ATGGAGAAGG CGTCAGTGTC
    TCTGCTCCTG GAAAAACCTT GCCGTCCTCA GCGCCCCAGA ACTTGCGGGT GTCCGAGGAA
    TGGTATAACC GGTTGCGCAT TACGTGGGAC CCCCCGTCTT CCCCAGTGAA AGGCTATAGA
    ATTGTCTACA AACCTGTCAG TGTTCCTGGT CCAACACTGG AAACATTTGT GGGAGCTGAC
    ATTAACACCA TTCTTATCAC AAACCTCCTC AGTGGAATGG ATTACAATGT GAAGATATTT
    GCCTCCCAGG CCTCAGGCTT CAGCGACGCC CTGACAGGCA TGGTGAAAAC ATTGTTCTTG
    GGTGTTACAA ATCTCCAAGC CATACACGTT GAAATGACCA GCTTGTGTGC CCACTGGCAG
    GTACATCGCC ATGCCACAGC CTATAGGGTT GTTATAGAAT CCCTCCAGGA TACAAAAAAG
    CAAGAATCAA CTGTGGGTGG AGGTACAACC AGGCATTGCT TCTATGGACT TCAGCCTGAT
    TCTGAATATA AAATCAGTGT TTATACAAAG CTCCAGGAGA TTGAAGGACC TAGTGTGAGC
    ATAATGGAAA AAACACAATC ACTTCCTACA CAACCACCAA CTTTTCCACC AACCATTCCA
    CCAGCAAAAG AAGTATGTAA GGCGGCCAAG GCTGACCTGG TATTTATGGT GGATGGATCC
    TGGAGCATTG GAGATGACAA TTTCAATAAG ATCATCAGCT TTCTGTATAG CACTGTTGGA
    GCCCTGAACA AGATTGGCAC AGATGGAACC CAAGTTGCAA TGGTTCAGTT CACTGATGAC
    CCCAGAACAG AATTTAAACT AAATGCTTAC AAAACCAAAG AGACTCTTCT GGATGCAATT
    AAACACATTT CATACAAAGG AGGAAATACA AAAACAGGAA AAGCAATTAA GTATGTTCGA
    GATTCCTTGT TCACAGCAGA GTCAGGTACA AGAAGGGGCA TCCCAAAGGT TATTGTGGTT
    ATAACTGATG GAAGATCACA AGATGATGTG AACAAAATCT CCAGGGAGAT GCAATTAGAT
    GGCTATAGCA TTTTTGCAAT TGGTGTGGCC GATGCAGATT ACTCGGAGTT GGTTAGCATT
    GGCAGTAAGC CCAGCGCACG CCATGTCTTC TTTGTGGATG ACTTTGACGC CTTTAAGAAA
    ATCGAAGACG AGTTAATTAC TTTTGTCTGC GAAACCGCAT CAGCAACCTG TCCAATGGTA
    CACAAGGATG GCATTGATCT TGCAGGATTT AAAATGATGG AAATGTTTGG TTTGGTTGAA
    AAAGATTTTT CATCAGTGAA AGGGGTTTCT ATGGAGCCTG GTACTTTCAA TGTGTTTCCA
    TGTTACCAAC TCCATAAAGA TGCCCTGGTT TCCCAGCCAA CCAGGTACAT GCATCCGGAA
    GGATTGCCCT CCGACTACAC AATCAGTTTT CTATTCCGGA TTCTTCCTGA CACTCCACAG
    GAGCCCTTTG CTCTTTGGGA GATTTTAAAT AAAAATTCTG ACCCATTGGT TGGGGTTATT
    TTAGACAATG GTGGGAAAAC TCTAACATAT TTCAACTATG ACCAGAGTGG GGATTTTCAG
    ACTGTTACTT TCGAAGGACC TGAAATTAGG AAAATTTTTT ATGGAAGCTT TCACAAGCTA
    CACATTGTTG TCAGTGACAC TTTGGTCAAA TTGGTTATTG ACTGCAAGCA AGTGGGTGAG
    AAGGCAATAA ATGCATCAGC TAATATCACA TCAGATGGTG TAGAAGTACT AGGGAAAATG
    GTTCGATCAA GAGGACCAGA TGGAAACTCT GCACCGTTCC AGTTACAGAT GTTTGATATT
    GTTTGTTCCA CATCATGGGC CAATACAGAC AAATGCTGTG AACTTCCAGG CCTGAGAGAT
    GATGAGTCTT GCCCAGACCT TCCTCATTCT TGCTCCTGTA CTGAAACCAA TGAAGTGGCT
    CTGGGACCAG CAGGCCCACC AGGTGGTCCG GGACTCCGAG GACCAAAGGG CCAGCAAGGT
    GAACCAGGTC CAAAGGGACC AGATGGCCCT CGGGGTGAAG TTGGTCTACC AGGACCTCAG
    GGTCCACCTG GACCCCAAGG ACCAAGTGGT CTGTCCATTC AAGGAATGCC CGGAATGCCA
    GGAGAAAAAG GAGAGAAAGG AGATACTGGC CTTCCAGGTC CACAGGGTAT CCCAGGAGGC
    GTTGGTTCAC CAGGACGTGA TGGCTCACCA GGCCAGAGGG GCCTTCCAGG AAAGGATGGA
    TCCTCGGGAC CTCCAGGACC ACCAGGGCCA ATAGGCATCC CTGGGGCCCC TGGAGTCCCA
    GGAATCACAG GAAGCATGGG ACCGCAAGGC GCCCTGGGAC CACCCGGTGT CCCTGGGGCA
    AAGGGGGAAC GAGGAGAGCG GGGTGACCTG CAGTCTCAAG CCATGGTGAG ATCAGTGGCA
    CGTCAAGTAT GCGAACAGCT CATCCAGAGT CACATGGCCA GGTACACTGC CATCCTCAAC
    CAGATTCCCA GCCACTCCTC ATCCATCCGG ACTGTCCAAG GGCCTCCTGG GGAGCCTGGG
    AGACCAGGCT CACCTGGAGC CCCTGGTGAA CAAGGACCCC CAGGCACACC AGGCTTCCCC
    GGAAATGCAG GCGTGCCAGG GACCCCAGGA GAACGAGGTC TAACTGGTGT CAAGGGAGAA
    AAAGGAAATC CAGGCGTTGG AACCCAAGGT CCAAGAGGCC CCCCGGGACC AGCAGGACCT
    TCAGGAGAGA GTCGGCCTGG CAGCCCTGGG CCCCCTGGCT CTCCTGGACC AAGAGGCCCC
    CCAGGTCATC TGGGGGTTCC TGGACCACAA GGTCCTTCTG GCCAGCCTGG ATATTGTGAC
    CCCTCATCAT GTTCTGCCTA TGGTGTGAGA GATCTGATCC CCTACAATGA TTACCAGCAC
    TGA

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

    CloneID OMb91521
    Clone ID Related Accession (Same CDS sequence) XM_015145924.2
    Accession Version XM_015145924.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5391bp)
    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(XIV) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041761.1) 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_015145924.1. ##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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTT TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    GTAGGAACGA TTATGGTGCC TGGAAGCCAG AACAATCTCC TTCTGAAGCC TCTGCTTCCT
    GATACTGAAT ACAAAGTCAC AGTGACTCCC ATCTACACAG ATGGAGAAGG CGTCAGTGTC
    TCTGCTCCTG GAAAAACCTT GCCGTCCTCA GCGCCCCAGA ACTTGCGGGT GTCCGAGGAA
    TGGTATAACC GGTTGCGCAT TACGTGGGAC CCCCCGTCTT CCCCAGTGAA AGGCTATAGA
    ATTGTCTACA AACCTGTCAG TGTTCCTGGT CCAACACTGG AAACATTTGT GGGAGCTGAC
    ATTAACACCA TTCTTATCAC AAACCTCCTC AGTGGAATGG ATTACAATGT GAAGATATTT
    GCCTCCCAGG CCTCAGGCTT CAGCGACGCC CTGACAGGCA TGGTGAAAAC ATTGTTCTTG
    GGTGTTACAA ATCTCCAAGC CATACACGTT GAAATGACCA GCTTGTGTGC CCACTGGCAG
    GTACATCGCC ATGCCACAGC CTATAGGGTT GTTATAGAAT CCCTCCAGGA TACAAAAAAG
    CAAGAATCAA CTGTGGGTGG AGGTACAACC AGGCATTGCT TCTATGGACT TCAGCCTGAT
    TCTGAATATA AAATCAGTGT TTATACAAAG CTCCAGGAGA TTGAAGGACC TAGTGTGAGC
    ATAATGGAAA AAACACAATC ACTTCCTACA CAACCACCAA CTTTTCCACC AACCATTCCA
    CCAGCAAAAG AAGTATGTAA GGCGGCCAAG GCTGACCTGG TATTTATGGT GGATGGATCC
    TGGAGCATTG GAGATGACAA TTTCAATAAG ATCATCAGCT TTCTGTATAG CACTGTTGGA
    GCTCTGAACA AGATTGGCAC AGATGGAACC CAAGTTGCAA TGGTTCAGTT CACTGATGAC
    CCCAGAACAG AATTTAAACT AAATGCTTAC AAAACCAAAG AGACTCTTCT GGATGCAATT
    AAACACATTT CATACAAAGG AGGAAATACA AAAACAGGAA AAGCAATTAA GTATGTTCGA
    GATTCCTTGT TCACAGCAGA GTCAGGTACA AGAAGGGGCA TCCCAAAGGT TATTGTGGTT
    ATAACTGATG GAAGATCACA AGATGATGTG AACAAAATCT CCAGGGAGAT GCAATTAGAT
    GGCTATAGCA TTTTTGCAAT TGGTGTGGCC GATGCAGATT ACTCGGAGTT GGTTAGCATT
    GGCAGTAAGC CCAGCGCACG CCATGTCTTC TTTGTGGATG ACTTTGACGC CTTTAAGAAA
    ATCGAAGACG AGTTAATTAC TTTTGTCTGC GAAACCGCAT CAGCAACCTG TCCAATGGTA
    CACAAGGATG GCATTGATCT TGCAGGATTT AAAATGATGG AAATGTTTGG TTTGGTTGAA
    AAAGATTTTT CATCAGTGAA AGGGGTTTCT ATGGAGCCTG GTACTTTCAA TGTGTTTCCA
    TGTTACCAAC TCCATAAAGA TGCCCTGGTT TCCCAGCCAA CCAGGTACAT GCATCCGGAA
    GGACTGCCCT CCGACTACAC AATCAGTTTT CTATTCCGGA TTCTTCCTGA CACTCCACAG
    GAGCCCTTTG CTCTTTGGGA GATTTTAAAT AAAAATTCTG ACCCATTGGT TGGGGTTATT
    TTAGACAATG GTGGGAAAAC TCTAACATAT TTCAACTATG ACCAGAGTGG GGATTTTCAG
    ACTGTTACTT TCGAAGGACC TGAAATTAGG AAAATTTTTT ATGGAAGCTT TCACAAGCTA
    CACATTGTTG TCAGTGACAC TTTGGTCAAA TTGGTTATTG ACTGCAAGCA AGTGGGTGAG
    AAGGCAATAA ATGCATCAGC TAATATCACA TCAGATGGTG TAGAAGTACT AGGGAAAATG
    GTTCGATCAA GAGGACCAGA TGGAAACTCT GCACCGTTCC AGTTACAGAT GTTTGATATT
    GTTTGTTCCA CATCATGGGC CAATACAGAC AAATGCTGTG AACTTCCAGG CCTGAGAGAT
    GATGAGTCTT GCCCAGACCT TCCTCATTCT TGCTCCTGTA CTGAAACCAA TGAAGTGGCT
    CTGGGACCAG CGGGGCCACC AGGTGGTCCG GGACTCCGAG GACCAAAGGG CCAGCAAGGT
    GAACCAGGTC CAAAGGGACC AGATGGCCCT CGGGGTGAAG TTGGTCTACC AGGACCTCAG
    GGTCCACCTG GACCCCAAGG ACCAAGTGGT CTGTCCATTC AAGGAATGCC CGGAATGCCA
    GGAGAAAAAG GAGAGAAAGG AGATACTGGC CTTCCAGGTC CACAGGGTAT CCCAGGAGGC
    GTTGGTTCAC CAGGACGTGA TGGCTCACCA GGCCAGAGGG GCCTTCCAGG AAAGGATGGA
    TCCTCGGGAC CTCCAGGACC ACCAGGGCCA ATAGGCATCC CTGGGGCCCC TGGAGTCCCA
    GGAATCACAG GAAGCATGGG ACCGCAAGGC GCCCTGGGAC CACCCGGTGT CCCTGGGGCA
    AAGGGGGAAC GAGGAGAGCG GGGTGACCTG CAGTCTCAAG CCATGGTGAG ATCAGTGGCA
    CGTCAAGTAT GCGAACAGCT CATCCAGAGT CACATGGCCA GGTACACTGC CATCCTCAAC
    CAGATTCCCA GCCACTCCTC ATCCATCCGG ACTGTCCAAG GGCCTCCTGG GGAGCCTGGG
    AGACCAGGCT CACCTGGAGC CCCTGGTGAA CAAGGACCCC CAGGCACACC AGGCTTCCCC
    GGAAATGCAG GCGTGCCAGG GACCCCAGGA GAACGAGGTC TAACTGGTGT CAAGGGAGAA
    AAAGGAAATC CAGGCGTTGG AACCCAAGGT CCAAGAGGCC CCCCGGGACC AGCAGGACCT
    TCAGGAGAGA GTCGGCCTGG CAGCCCTGGG CCCCCTGGCT CTCCTGGACC AAGAGGCCCC
    CCAGGTCATC TGGGGGTTCC TGGACCACAA GGTCCTTCTG GCCAGCCTGG ATATTGTGAC
    CCCTCATCAT GTTCTGCCTA TGGTGTGAGA GCTCCCCATC CAGATCAGCC AGAGTTCACC
    CCTGTCCAAG ACGAGCTGGA AGCCATGGAA CTGTGGGGCC CTGGAGTCTG A

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

    RefSeq XP_015001410.2
    CDS272..5662
    Translation

    Target ORF information:

    RefSeq Version XM_015145924.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen type XIV alpha 1 chain (COL14A1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015145924.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTT TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    GTAGGAACGA TTATGGTGCC TGGAAGCCAG AACAATCTCC TTCTGAAGCC TCTGCTTCCT
    GATACTGAAT ACAAAGTCAC AGTGACTCCC ATCTACACAG ATGGAGAAGG CGTCAGTGTC
    TCTGCTCCTG GAAAAACCTT GCCGTCCTCA GCGCCCCAGA ACTTGCGGGT GTCCGAGGAA
    TGGTATAACC GGTTGCGCAT TACGTGGGAC CCCCCGTCTT CCCCAGTGAA AGGCTATAGA
    ATTGTCTACA AACCTGTCAG TGTTCCTGGT CCAACACTGG AAACATTTGT GGGAGCTGAC
    ATTAACACCA TTCTTATCAC AAACCTCCTC AGTGGAATGG ATTACAATGT GAAGATATTT
    GCCTCCCAGG CCTCAGGCTT CAGCGACGCC CTGACAGGCA TGGTGAAAAC ATTGTTCTTG
    GGTGTTACAA ATCTCCAAGC CATACACGTT GAAATGACCA GCTTGTGTGC CCACTGGCAG
    GTACATCGCC ATGCCACAGC CTATAGGGTT GTTATAGAAT CCCTCCAGGA TACAAAAAAG
    CAAGAATCAA CTGTGGGTGG AGGTACAACC AGGCATTGCT TCTATGGACT TCAGCCTGAT
    TCTGAATATA AAATCAGTGT TTATACAAAG CTCCAGGAGA TTGAAGGACC TAGTGTGAGC
    ATAATGGAAA AAACACAATC ACTTCCTACA CAACCACCAA CTTTTCCACC AACCATTCCA
    CCAGCAAAAG AAGTATGTAA GGCGGCCAAG GCTGACCTGG TATTTATGGT GGATGGATCC
    TGGAGCATTG GAGATGACAA TTTCAATAAG ATCATCAGCT TTCTGTATAG CACTGTTGGA
    GCTCTGAACA AGATTGGCAC AGATGGAACC CAAGTTGCAA TGGTTCAGTT CACTGATGAC
    CCCAGAACAG AATTTAAACT AAATGCTTAC AAAACCAAAG AGACTCTTCT GGATGCAATT
    AAACACATTT CATACAAAGG AGGAAATACA AAAACAGGAA AAGCAATTAA GTATGTTCGA
    GATTCCTTGT TCACAGCAGA GTCAGGTACA AGAAGGGGCA TCCCAAAGGT TATTGTGGTT
    ATAACTGATG GAAGATCACA AGATGATGTG AACAAAATCT CCAGGGAGAT GCAATTAGAT
    GGCTATAGCA TTTTTGCAAT TGGTGTGGCC GATGCAGATT ACTCGGAGTT GGTTAGCATT
    GGCAGTAAGC CCAGCGCACG CCATGTCTTC TTTGTGGATG ACTTTGACGC CTTTAAGAAA
    ATCGAAGACG AGTTAATTAC TTTTGTCTGC GAAACCGCAT CAGCAACCTG TCCAATGGTA
    CACAAGGATG GCATTGATCT TGCAGGATTT AAAATGATGG AAATGTTTGG TTTGGTTGAA
    AAAGATTTTT CATCAGTGAA AGGGGTTTCT ATGGAGCCTG GTACTTTCAA TGTGTTTCCA
    TGTTACCAAC TCCATAAAGA TGCCCTGGTT TCCCAGCCAA CCAGGTACAT GCATCCGGAA
    GGACTGCCCT CCGACTACAC AATCAGTTTT CTATTCCGGA TTCTTCCTGA CACTCCACAG
    GAGCCCTTTG CTCTTTGGGA GATTTTAAAT AAAAATTCTG ACCCATTGGT TGGGGTTATT
    TTAGACAATG GTGGGAAAAC TCTAACATAT TTCAACTATG ACCAGAGTGG GGATTTTCAG
    ACTGTTACTT TCGAAGGACC TGAAATTAGG AAAATTTTTT ATGGAAGCTT TCACAAGCTA
    CACATTGTTG TCAGTGACAC TTTGGTCAAA TTGGTTATTG ACTGCAAGCA AGTGGGTGAG
    AAGGCAATAA ATGCATCAGC TAATATCACA TCAGATGGTG TAGAAGTACT AGGGAAAATG
    GTTCGATCAA GAGGACCAGA TGGAAACTCT GCACCGTTCC AGTTACAGAT GTTTGATATT
    GTTTGTTCCA CATCATGGGC CAATACAGAC AAATGCTGTG AACTTCCAGG CCTGAGAGAT
    GATGAGTCTT GCCCAGACCT TCCTCATTCT TGCTCCTGTA CTGAAACCAA TGAAGTGGCT
    CTGGGACCAG CGGGGCCACC AGGTGGTCCG GGACTCCGAG GACCAAAGGG CCAGCAAGGT
    GAACCAGGTC CAAAGGGACC AGATGGCCCT CGGGGTGAAG TTGGTCTACC AGGACCTCAG
    GGTCCACCTG GACCCCAAGG ACCAAGTGGT CTGTCCATTC AAGGAATGCC CGGAATGCCA
    GGAGAAAAAG GAGAGAAAGG AGATACTGGC CTTCCAGGTC CACAGGGTAT CCCAGGAGGC
    GTTGGTTCAC CAGGACGTGA TGGCTCACCA GGCCAGAGGG GCCTTCCAGG AAAGGATGGA
    TCCTCGGGAC CTCCAGGACC ACCAGGGCCA ATAGGCATCC CTGGGGCCCC TGGAGTCCCA
    GGAATCACAG GAAGCATGGG ACCGCAAGGC GCCCTGGGAC CACCCGGTGT CCCTGGGGCA
    AAGGGGGAAC GAGGAGAGCG GGGTGACCTG CAGTCTCAAG CCATGGTGAG ATCAGTGGCA
    CGTCAAGTAT GCGAACAGCT CATCCAGAGT CACATGGCCA GGTACACTGC CATCCTCAAC
    CAGATTCCCA GCCACTCCTC ATCCATCCGG ACTGTCCAAG GGCCTCCTGG GGAGCCTGGG
    AGACCAGGCT CACCTGGAGC CCCTGGTGAA CAAGGACCCC CAGGCACACC AGGCTTCCCC
    GGAAATGCAG GCGTGCCAGG GACCCCAGGA GAACGAGGTC TAACTGGTGT CAAGGGAGAA
    AAAGGAAATC CAGGCGTTGG AACCCAAGGT CCAAGAGGCC CCCCGGGACC AGCAGGACCT
    TCAGGAGAGA GTCGGCCTGG CAGCCCTGGG CCCCCTGGCT CTCCTGGACC AAGAGGCCCC
    CCAGGTCATC TGGGGGTTCC TGGACCACAA GGTCCTTCTG GCCAGCCTGG ATATTGTGAC
    CCCTCATCAT GTTCTGCCTA TGGTGTGAGA GCTCCCCATC CAGATCAGCC AGAGTTCACC
    CCTGTCCAAG ACGAGCTGGA AGCCATGGAA CTGTGGGGCC CTGGAGTCTG A

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

    CloneID OMb91522
    Clone ID Related Accession (Same CDS sequence) XM_015145925.2
    Accession Version XM_015145925.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5382bp)
    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(XIV) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041761.1) 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_015145925.1. ##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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTT TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    ATTATGGTGC CTGGAAGCCA GAACAATCTC CTTCTGAAGC CTCTGCTTCC TGATACTGAA
    TACAAAGTCA CAGTGACTCC CATCTACACA GATGGAGAAG GCGTCAGTGT CTCTGCTCCT
    GGAAAAACCT TGCCGTCCTC AGCGCCCCAG AACTTGCGGG TGTCCGAGGA ATGGTATAAC
    CGGTTGCGCA TTACGTGGGA CCCCCCGTCT TCCCCAGTGA AAGGCTATAG AATTGTCTAC
    AAACCTGTCA GTGTTCCTGG TCCAACACTG GAAACATTTG TGGGAGCTGA CATTAACACC
    ATTCTTATCA CAAACCTCCT CAGTGGAATG GATTACAATG TGAAGATATT TGCCTCCCAG
    GCCTCAGGCT TCAGCGACGC CCTGACAGGC ATGGTGAAAA CATTGTTCTT GGGTGTTACA
    AATCTCCAAG CCATACACGT TGAAATGACC AGCTTGTGTG CCCACTGGCA GGTACATCGC
    CATGCCACAG CCTATAGGGT TGTTATAGAA TCCCTCCAGG ATACAAAAAA GCAAGAATCA
    ACTGTGGGTG GAGGTACAAC CAGGCATTGC TTCTATGGAC TTCAGCCTGA TTCTGAATAT
    AAAATCAGTG TTTATACAAA GCTCCAGGAG ATTGAAGGAC CTAGTGTGAG CATAATGGAA
    AAAACACAAT CACTTCCTAC ACAACCACCA ACTTTTCCAC CAACCATTCC ACCAGCAAAA
    GAAGTATGTA AGGCGGCCAA GGCTGACCTG GTATTTATGG TGGATGGATC CTGGAGCATT
    GGAGATGACA ATTTCAATAA GATCATCAGC TTTCTGTATA GCACTGTTGG AGCTCTGAAC
    AAGATTGGCA CAGATGGAAC CCAAGTTGCA ATGGTTCAGT TCACTGATGA CCCCAGAACA
    GAATTTAAAC TAAATGCTTA CAAAACCAAA GAGACTCTTC TGGATGCAAT TAAACACATT
    TCATACAAAG GAGGAAATAC AAAAACAGGA AAAGCAATTA AGTATGTTCG AGATTCCTTG
    TTCACAGCAG AGTCAGGTAC AAGAAGGGGC ATCCCAAAGG TTATTGTGGT TATAACTGAT
    GGAAGATCAC AAGATGATGT GAACAAAATC TCCAGGGAGA TGCAATTAGA TGGCTATAGC
    ATTTTTGCAA TTGGTGTGGC CGATGCAGAT TACTCGGAGT TGGTTAGCAT TGGCAGTAAG
    CCCAGCGCAC GCCATGTCTT CTTTGTGGAT GACTTTGACG CCTTTAAGAA AATCGAAGAC
    GAGTTAATTA CTTTTGTCTG CGAAACCGCA TCAGCAACCT GTCCAATGGT ACACAAGGAT
    GGCATTGATC TTGCAGGATT TAAAATGATG GAAATGTTTG GTTTGGTTGA AAAAGATTTT
    TCATCAGTGA AAGGGGTTTC TATGGAGCCT GGTACTTTCA ATGTGTTTCC ATGTTACCAA
    CTCCATAAAG ATGCCCTGGT TTCCCAGCCA ACCAGGTACA TGCATCCGGA AGGACTGCCC
    TCCGACTACA CAATCAGTTT TCTATTCCGG ATTCTTCCTG ACACTCCACA GGAGCCCTTT
    GCTCTTTGGG AGATTTTAAA TAAAAATTCT GACCCATTGG TTGGGGTTAT TTTAGACAAT
    GGTGGGAAAA CTCTAACATA TTTCAACTAT GACCAGAGTG GGGATTTTCA GACTGTTACT
    TTCGAAGGAC CTGAAATTAG GAAAATTTTT TATGGAAGCT TTCACAAGCT ACACATTGTT
    GTCAGTGACA CTTTGGTCAA ATTGGTTATT GACTGCAAGC AAGTGGGTGA GAAGGCAATA
    AATGCATCAG CTAATATCAC ATCAGATGGT GTAGAAGTAC TAGGGAAAAT GGTTCGATCA
    AGAGGACCAG ATGGAAACTC TGCACCGTTC CAGTTACAGA TGTTTGATAT TGTTTGTTCC
    ACATCATGGG CCAATACAGA CAAATGCTGT GAACTTCCAG GCCTGAGAGA TGATGAGTCT
    TGCCCAGACC TTCCTCATTC TTGCTCCTGT ACTGAAACCA ATGAAGTGGC TCTGGGACCA
    GCGGGGCCAC CAGGTGGTCC GGGACTCCGA GGACCAAAGG GCCAGCAAGG TGAACCAGGT
    CCAAAGGGAC CAGATGGCCC TCGGGGTGAA GTTGGTCTAC CAGGACCTCA GGGTCCACCT
    GGACCCCAAG GACCAAGTGG TCTGTCCATT CAAGGAATGC CCGGAATGCC AGGAGAAAAA
    GGAGAGAAAG GAGATACTGG CCTTCCAGGT CCACAGGGTA TCCCAGGAGG CGTTGGTTCA
    CCAGGACGTG ATGGCTCACC AGGCCAGAGG GGCCTTCCAG GAAAGGATGG ATCCTCGGGA
    CCTCCAGGAC CACCAGGGCC AATAGGCATC CCTGGGGCCC CTGGAGTCCC AGGAATCACA
    GGAAGCATGG GACCGCAAGG CGCCCTGGGA CCACCCGGTG TCCCTGGGGC AAAGGGGGAA
    CGAGGAGAGC GGGGTGACCT GCAGTCTCAA GCCATGGTGA GATCAGTGGC ACGTCAAGTA
    TGCGAACAGC TCATCCAGAG TCACATGGCC AGGTACACTG CCATCCTCAA CCAGATTCCC
    AGCCACTCCT CATCCATCCG GACTGTCCAA GGGCCTCCTG GGGAGCCTGG GAGACCAGGC
    TCACCTGGAG CCCCTGGTGA ACAAGGACCC CCAGGCACAC CAGGCTTCCC CGGAAATGCA
    GGCGTGCCAG GGACCCCAGG AGAACGAGGT CTAACTGGTG TCAAGGGAGA AAAAGGAAAT
    CCAGGCGTTG GAACCCAAGG TCCAAGAGGC CCCCCGGGAC CAGCAGGACC TTCAGGAGAG
    AGTCGGCCTG GCAGCCCTGG GCCCCCTGGC TCTCCTGGAC CAAGAGGCCC CCCAGGTCAT
    CTGGGGGTTC CTGGACCACA AGGTCCTTCT GGCCAGCCTG GATATTGTGA CCCCTCATCA
    TGTTCTGCCT ATGGTGTGAG AGCTCCCCAT CCAGATCAGC CAGAGTTCAC CCCTGTCCAA
    GACGAGCTGG AAGCCATGGA ACTGTGGGGC CCTGGAGTCT GA

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

    RefSeq XP_015001411.2
    CDS272..5653
    Translation

    Target ORF information:

    RefSeq Version XM_015145925.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen type XIV alpha 1 chain (COL14A1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015145925.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTT TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    ATTATGGTGC CTGGAAGCCA GAACAATCTC CTTCTGAAGC CTCTGCTTCC TGATACTGAA
    TACAAAGTCA CAGTGACTCC CATCTACACA GATGGAGAAG GCGTCAGTGT CTCTGCTCCT
    GGAAAAACCT TGCCGTCCTC AGCGCCCCAG AACTTGCGGG TGTCCGAGGA ATGGTATAAC
    CGGTTGCGCA TTACGTGGGA CCCCCCGTCT TCCCCAGTGA AAGGCTATAG AATTGTCTAC
    AAACCTGTCA GTGTTCCTGG TCCAACACTG GAAACATTTG TGGGAGCTGA CATTAACACC
    ATTCTTATCA CAAACCTCCT CAGTGGAATG GATTACAATG TGAAGATATT TGCCTCCCAG
    GCCTCAGGCT TCAGCGACGC CCTGACAGGC ATGGTGAAAA CATTGTTCTT GGGTGTTACA
    AATCTCCAAG CCATACACGT TGAAATGACC AGCTTGTGTG CCCACTGGCA GGTACATCGC
    CATGCCACAG CCTATAGGGT TGTTATAGAA TCCCTCCAGG ATACAAAAAA GCAAGAATCA
    ACTGTGGGTG GAGGTACAAC CAGGCATTGC TTCTATGGAC TTCAGCCTGA TTCTGAATAT
    AAAATCAGTG TTTATACAAA GCTCCAGGAG ATTGAAGGAC CTAGTGTGAG CATAATGGAA
    AAAACACAAT CACTTCCTAC ACAACCACCA ACTTTTCCAC CAACCATTCC ACCAGCAAAA
    GAAGTATGTA AGGCGGCCAA GGCTGACCTG GTATTTATGG TGGATGGATC CTGGAGCATT
    GGAGATGACA ATTTCAATAA GATCATCAGC TTTCTGTATA GCACTGTTGG AGCTCTGAAC
    AAGATTGGCA CAGATGGAAC CCAAGTTGCA ATGGTTCAGT TCACTGATGA CCCCAGAACA
    GAATTTAAAC TAAATGCTTA CAAAACCAAA GAGACTCTTC TGGATGCAAT TAAACACATT
    TCATACAAAG GAGGAAATAC AAAAACAGGA AAAGCAATTA AGTATGTTCG AGATTCCTTG
    TTCACAGCAG AGTCAGGTAC AAGAAGGGGC ATCCCAAAGG TTATTGTGGT TATAACTGAT
    GGAAGATCAC AAGATGATGT GAACAAAATC TCCAGGGAGA TGCAATTAGA TGGCTATAGC
    ATTTTTGCAA TTGGTGTGGC CGATGCAGAT TACTCGGAGT TGGTTAGCAT TGGCAGTAAG
    CCCAGCGCAC GCCATGTCTT CTTTGTGGAT GACTTTGACG CCTTTAAGAA AATCGAAGAC
    GAGTTAATTA CTTTTGTCTG CGAAACCGCA TCAGCAACCT GTCCAATGGT ACACAAGGAT
    GGCATTGATC TTGCAGGATT TAAAATGATG GAAATGTTTG GTTTGGTTGA AAAAGATTTT
    TCATCAGTGA AAGGGGTTTC TATGGAGCCT GGTACTTTCA ATGTGTTTCC ATGTTACCAA
    CTCCATAAAG ATGCCCTGGT TTCCCAGCCA ACCAGGTACA TGCATCCGGA AGGACTGCCC
    TCCGACTACA CAATCAGTTT TCTATTCCGG ATTCTTCCTG ACACTCCACA GGAGCCCTTT
    GCTCTTTGGG AGATTTTAAA TAAAAATTCT GACCCATTGG TTGGGGTTAT TTTAGACAAT
    GGTGGGAAAA CTCTAACATA TTTCAACTAT GACCAGAGTG GGGATTTTCA GACTGTTACT
    TTCGAAGGAC CTGAAATTAG GAAAATTTTT TATGGAAGCT TTCACAAGCT ACACATTGTT
    GTCAGTGACA CTTTGGTCAA ATTGGTTATT GACTGCAAGC AAGTGGGTGA GAAGGCAATA
    AATGCATCAG CTAATATCAC ATCAGATGGT GTAGAAGTAC TAGGGAAAAT GGTTCGATCA
    AGAGGACCAG ATGGAAACTC TGCACCGTTC CAGTTACAGA TGTTTGATAT TGTTTGTTCC
    ACATCATGGG CCAATACAGA CAAATGCTGT GAACTTCCAG GCCTGAGAGA TGATGAGTCT
    TGCCCAGACC TTCCTCATTC TTGCTCCTGT ACTGAAACCA ATGAAGTGGC TCTGGGACCA
    GCGGGGCCAC CAGGTGGTCC GGGACTCCGA GGACCAAAGG GCCAGCAAGG TGAACCAGGT
    CCAAAGGGAC CAGATGGCCC TCGGGGTGAA GTTGGTCTAC CAGGACCTCA GGGTCCACCT
    GGACCCCAAG GACCAAGTGG TCTGTCCATT CAAGGAATGC CCGGAATGCC AGGAGAAAAA
    GGAGAGAAAG GAGATACTGG CCTTCCAGGT CCACAGGGTA TCCCAGGAGG CGTTGGTTCA
    CCAGGACGTG ATGGCTCACC AGGCCAGAGG GGCCTTCCAG GAAAGGATGG ATCCTCGGGA
    CCTCCAGGAC CACCAGGGCC AATAGGCATC CCTGGGGCCC CTGGAGTCCC AGGAATCACA
    GGAAGCATGG GACCGCAAGG CGCCCTGGGA CCACCCGGTG TCCCTGGGGC AAAGGGGGAA
    CGAGGAGAGC GGGGTGACCT GCAGTCTCAA GCCATGGTGA GATCAGTGGC ACGTCAAGTA
    TGCGAACAGC TCATCCAGAG TCACATGGCC AGGTACACTG CCATCCTCAA CCAGATTCCC
    AGCCACTCCT CATCCATCCG GACTGTCCAA GGGCCTCCTG GGGAGCCTGG GAGACCAGGC
    TCACCTGGAG CCCCTGGTGA ACAAGGACCC CCAGGCACAC CAGGCTTCCC CGGAAATGCA
    GGCGTGCCAG GGACCCCAGG AGAACGAGGT CTAACTGGTG TCAAGGGAGA AAAAGGAAAT
    CCAGGCGTTG GAACCCAAGG TCCAAGAGGC CCCCCGGGAC CAGCAGGACC TTCAGGAGAG
    AGTCGGCCTG GCAGCCCTGG GCCCCCTGGC TCTCCTGGAC CAAGAGGCCC CCCAGGTCAT
    CTGGGGGTTC CTGGACCACA AGGTCCTTCT GGCCAGCCTG GATATTGTGA CCCCTCATCA
    TGTTCTGCCT ATGGTGTGAG AGCTCCCCAT CCAGATCAGC CAGAGTTCAC CCCTGTCCAA
    GACGAGCTGG AAGCCATGGA ACTGTGGGGC CCTGGAGTCT GA

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

    CloneID OMb91523
    Clone ID Related Accession (Same CDS sequence) XM_015145926.2
    Accession Version XM_015145926.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5343bp)
    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(XIV) chain isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041761.1) 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_015145926.1. ##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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTT TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    GTAGGAACGA TTATGGTGCC TGGAAGCCAG AACAATCTCC TTCTGAAGCC TCTGCTTCCT
    GATACTGAAT ACAAAGTCAC AGTGACTCCC ATCTACACAG ATGGAGAAGG CGTCAGTGTC
    TCTGCTCCTG GAAAAACCTT GCCGTCCTCA GCGCCCCAGA ACTTGCGGGT GTCCGAGGAA
    TGGTATAACC GGTTGCGCAT TACGTGGGAC CCCCCGTCTT CCCCAGTGAA AGGCTATAGA
    ATTGTCTACA AACCTGTCAG TGTTCCTGGT CCAACACTGG AAACATTTGT GGGAGCTGAC
    ATTAACACCA TTCTTATCAC AAACCTCCTC AGTGGAATGG ATTACAATGT GAAGATATTT
    GCCTCCCAGG CCTCAGGCTT CAGCGACGCC CTGACAGGCA TGGTGAAAAC ATTGTTCTTG
    GGTGTTACAA ATCTCCAAGC CATACACGTT GAAATGACCA GCTTGTGTGC CCACTGGCAG
    GTACATCGCC ATGCCACAGC CTATAGGGTT GTTATAGAAT CCCTCCAGGA TACAAAAAAG
    CAAGAATCAA CTGTGGGTGG AGGTACAACC AGGCATTGCT TCTATGGACT TCAGCCTGAT
    TCTGAATATA AAATCAGTGT TTATACAAAG CTCCAGGAGA TTGAAGGACC TAGTGTGAGC
    ATAATGGAAA AAACACAATC ACTTCCTACA CAACCACCAA CTTTTCCACC AACCATTCCA
    CCAGCAAAAG AAGTATGTAA GGCGGCCAAG GCTGACCTGG TATTTATGGT GGATGGATCC
    TGGAGCATTG GAGATGACAA TTTCAATAAG ATCATCAGCT TTCTGTATAG CACTGTTGGA
    GCTCTGAACA AGATTGGCAC AGATGGAACC CAAGTTGCAA TGGTTCAGTT CACTGATGAC
    CCCAGAACAG AATTTAAACT AAATGCTTAC AAAACCAAAG AGACTCTTCT GGATGCAATT
    AAACACATTT CATACAAAGG AGGAAATACA AAAACAGGAA AAGCAATTAA GTATGTTCGA
    GATTCCTTGT TCACAGCAGA GTCAGGTACA AGAAGGGGCA TCCCAAAGGT TATTGTGGTT
    ATAACTGATG GAAGATCACA AGATGATGTG AACAAAATCT CCAGGGAGAT GCAATTAGAT
    GGCTATAGCA TTTTTGCAAT TGGTGTGGCC GATGCAGATT ACTCGGAGTT GGTTAGCATT
    GGCAGTAAGC CCAGCGCACG CCATGTCTTC TTTGTGGATG ACTTTGACGC CTTTAAGAAA
    ATCGAAGACG AGTTAATTAC TTTTGTCTGC GAAACCGCAT CAGCAACCTG TCCAATGGTA
    CACAAGGATG GCATTGATCT TGCAGGATTT AAAATGATGG AAATGTTTGG TTTGGTTGAA
    AAAGATTTTT CATCAGTGAA AGGGGTTTCT ATGGAGCCTG GTACTTTCAA TGTGTTTCCA
    TGTTACCAAC TCCATAAAGA TGCCCTGGTT TCCCAGCCAA CCAGGTACAT GCATCCGGAA
    GGACTGCCCT CCGACTACAC AATCAGTTTT CTATTCCGGA TTCTTCCTGA CACTCCACAG
    GAGCCCTTTG CTCTTTGGGA GATTTTAAAT AAAAATTCTG ACCCATTGGT TGGGGTTATT
    TTAGACAATG GTGGGAAAAC TCTAACATAT TTCAACTATG ACCAGAGTGG GGATTTTCAG
    ACTGTTACTT TCGAAGGACC TGAAATTAGG AAAATTTTTT ATGGAAGCTT TCACAAGCTA
    CACATTGTTG TCAGTGACAC TTTGGTCAAA TTGGTTATTG ACTGCAAGCA AGTGGGTGAG
    AAGGCAATAA ATGCATCAGC TAATATCACA TCAGATGGTG TAGAAGTACT AGGGAAAATG
    GTTCGATCAA GAGGACCAGA TGGAAACTCT GCACCGTTCC AGTTACAGAT GTTTGATATT
    GTTTGTTCCA CATCATGGGC CAATACAGAC AAATGCTGTG AACTTCCAGG CCTGAGAGAT
    GATGAGTCTT GCCCAGACCT TCCTCATTCT TGCTCCTGTA CTGAAACCAA TGAAGTGGCT
    CTGGGACCAG CGGGGCCACC AGGTGGTCCG GGACTCCGAG GACCAAAGGG CCAGCAAGGT
    GAACCAGGTC CAAAGGGACC AGATGGCCCT CGGGGTGAAG TTGGTCTACC AGGACCTCAG
    GGTCCACCTG GACCCCAAGG ACCAAGTGGT CTGTCCATTC AAGGAATGCC CGGAATGCCA
    GGAGAAAAAG GAGAGAAAGG AGATACTGGC CTTCCAGGTC CACAGGGTAT CCCAGGAGGC
    GTTGGTTCAC CAGGACGTGA TGGCTCACCA GGCCAGAGGG GCCTTCCAGG AAAGGATGGA
    TCCTCGGGAC CTCCAGGACC ACCAGGGCCA ATAGGCATCC CTGGGGCCCC TGGAGTCCCA
    GGAATCACAG GAAGCATGGG ACCGCAAGGC GCCCTGGGAC CACCCGGTGT CCCTGGGGCA
    AAGGGGGAAC GAGGAGAGCG GGGTGACCTG CAGTCTCAAG CCATGGTGAG ATCAGTGGCA
    CGTCAAGTAT GCGAACAGCT CATCCAGAGT CACATGGCCA GGTACACTGC CATCCTCAAC
    CAGATTCCCA GCCACTCCTC ATCCATCCGG ACTGTCCAAG GGCCTCCTGG GGAGCCTGGG
    AGACCAGGCT CACCTGGAGC CCCTGGTGAA CAAGGACCCC CAGGCACACC AGGCTTCCCC
    GGAAATGCAG GCGTGCCAGG GACCCCAGGA GAACGAGGTC TAACTGGTGT CAAGGGAGAA
    AAAGGAAATC CAGGCGTTGG AACCCAAGGT CCAAGAGGCC CCCCGGGACC AGCAGGACCT
    TCAGGAGAGA GTCGGCCTGG CAGCCCTGGG CCCCCTGGCT CTCCTGGACC AAGAGGCCCC
    CCAGGTCATC TGGGGGTTCC TGGACCACAA GGTCCTTCTG GCCAGCCTGG ATATTGTGAC
    CCCTCATCAT GTTCTGCCTA TGGTGTGAGA GATCTGATCC CCTACAATGA TTACCAGCAC
    TGA

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

    RefSeq XP_015001412.2
    CDS272..5614
    Translation

    Target ORF information:

    RefSeq Version XM_015145926.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen type XIV alpha 1 chain (COL14A1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015145926.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGAAGATTT TTCAGTGCAA GATGCGGTAC TGGTTGCTTC CACCTTTTTT GGCAATTGTT 
    TATTTCTGCA CCATCGTCCA AGGTCAAGTG GCTCCACCCA CAAGGTTACG ATATAATGTA
    ATATCTCATG ACAGTATACA GATTTCATGG AAGGCTCCAA GAGGGAAATT TGGTGGTTAC
    AAACTTCTTG TGACTCCAGC TTCAGGTGGA AAAACTAACC AGCTGAATCT CCAGAACACT
    GCAACTAAAG CAATTATTCA AGGCCTTATG CCAGACCAGA ATTACACAGT CCAAATTATT
    GCATACAATA AAGATAAAGA AAGCAAGCCA GTTCAAGGCC AATTCAGAAT TAAAGATTTA
    GAAAAAAGAA AGGATCCAAA GCCCAGAGTC AAAGTTGTGG ACAGAGGAAA TGGGAGTAGA
    CCATCTTCAC CAGAAGAAGT GAAATTTGTC TGTCAAACTC CAGCGATTGC TGACATTGTA
    ATCCTGGTCG ATGGTTCATG GAGTATTGGA AGATTCAACT TCAGACTGGT TCGGCTTTTC
    TTGGAAAACC TGGTTACAGC ATTCGATGTG GGCTCAGAGA AGACACGAAT TGGTCTTGCA
    CAGTATAGTG GCGACCCCAG AATAGAATGG CACTTGAATG CATTTAGCAC AAAAGATGAG
    GTGATTGAAG CTGTCCGAAA CCTCCCATAT AAAGGAGGAA ATACACTAAC AGGTCTTGCT
    TTGAACTACA TTTTTGAAAA TAGCTTCAAA CCTGAAGCAG GATCAAGGAC TGGAGTATCC
    AAAATCGGTA TTTTAATCAC AGATGGAAAA TCCCAGGATG ACATTATTCC ACCATCTAGA
    AACCTTCGTG AGTCTGGTGT AGAACTGTTT GCCATAGGGG TGAAAAACGC GGATGTGAAT
    GAGCTGCAGG AGATCGCCTC TGAACCGGAC AGCACTCATG TGTACAATGT TGCCGAATTC
    GACCTGATGC ACACAGTTGT GGAGAGTCTG ACCAGGACTG TCTGCTCTAG AGTGGAAGAA
    CAGGACAGAG AAATTAAAGC CTCAGCCCAT GCCATCACTG GGCCGCCTAC GGAGTTGATT
    ACTTCTGAAG TCACTGCCAG AAGCTTTATG GTTAACTGGA CTCATGCCCC AGGAAATGTG
    GAAAAATACA GAGTTGTGTA TTATCCTACC AGGGGTGGAA AACCAGACGA GGTGGTGGTA
    GATGGAAGTG TATCTTCCAC AGTGTTGAAA AACTTGATGT CTTTAACTGA ATATCAGATA
    GCAGTCTTTG CAATCTATGC CCACACTGCT AGTGAAGGCC TACGGGGAAC TGAAACTACA
    CTTGCTTTAC CCATGGCTTC TGACCTTCTA CTGTATGATG TGACTGAGAA CAGCATGCGA
    GTCAAATGGG ATGCAGTACC TGGGGCCTCA GGTTACCTGA TCCTTTATGC TCCCCTAACA
    GAGGACCTGG CTGGGGATGA AAAAGAGATG AAAATTGGAG AGACCCACAC GGATATTGAA
    TTGAGTGGGT TGTTGCCCAA TACAGAATAC ACAGTCACAG TTTATGCCAT GTTTGGAGAA
    GAGGCCAGCG ATCCTGTTAC GGGACAGGAA ACAACATTGG CTTTAAGTCC ACCAAGAAAT
    CTGAGAATCT CCAATATTGG CTCTAACAGT GCTCGATTAA CCTGGGACCC AACTTCAAGA
    CAGATCAATG GTTATCGAAT TGTGTATAAC AATGCAGATG GGACTGAAAT CAATGAGGTT
    GAAGTTGATC CTATTACTAC CTTCCCTCTG AAGGGCTTGA CACCTCTCAC AGAGTATACT
    GTTGCTATTT TCTCCATCTA TGATGAAGGA CAGTCAGAGC CTCTAACTGG GGTTTTTACC
    ACCGAGGAAG TTCCAGCCCA GCAATACTTA GAAATTGATG AGGTGACGAC AGACAGTTTT
    AGGGTGACCT GGCATCCCCT CTCAGCTGAT GAAGGGCTAC ACAAATTGAT GTGGATTCCA
    GTCTATGGGG GGAAGACCGA GGAGGTTGTC CTGAGAGAAG AACAGGACTC ACATGTTATT
    GAAGGCTTGG AGCCCGGTAC GGAGTATGAA GTTTCACTAT TGGCCGTACT TGATGATGGA
    AGCGAGAGTG AGGTGGTGAC TGCTGTGGGG ACCACACTTG ACAGTTTTTG GACAGAACCA
    GCTACAACCA TGGTGCCTAC CACGCCTGTG ACGTCAGTTT TCCAGACGGG AATCAGAAAC
    CTGGTTGTAG GTGATGAAAC CACTTCTAGC CTGCGGGTAA AATGGGACAT TTCTGACAGC
    GATGTGCAGC AGTTTAGGGT GACCTACCTG ACAGTTCAAG GGGACCCCGA GGAAGAAGTG
    GTAGGAACGA TTATGGTGCC TGGAAGCCAG AACAATCTCC TTCTGAAGCC TCTGCTTCCT
    GATACTGAAT ACAAAGTCAC AGTGACTCCC ATCTACACAG ATGGAGAAGG CGTCAGTGTC
    TCTGCTCCTG GAAAAACCTT GCCGTCCTCA GCGCCCCAGA ACTTGCGGGT GTCCGAGGAA
    TGGTATAACC GGTTGCGCAT TACGTGGGAC CCCCCGTCTT CCCCAGTGAA AGGCTATAGA
    ATTGTCTACA AACCTGTCAG TGTTCCTGGT CCAACACTGG AAACATTTGT GGGAGCTGAC
    ATTAACACCA TTCTTATCAC AAACCTCCTC AGTGGAATGG ATTACAATGT GAAGATATTT
    GCCTCCCAGG CCTCAGGCTT CAGCGACGCC CTGACAGGCA TGGTGAAAAC ATTGTTCTTG
    GGTGTTACAA ATCTCCAAGC CATACACGTT GAAATGACCA GCTTGTGTGC CCACTGGCAG
    GTACATCGCC ATGCCACAGC CTATAGGGTT GTTATAGAAT CCCTCCAGGA TACAAAAAAG
    CAAGAATCAA CTGTGGGTGG AGGTACAACC AGGCATTGCT TCTATGGACT TCAGCCTGAT
    TCTGAATATA AAATCAGTGT TTATACAAAG CTCCAGGAGA TTGAAGGACC TAGTGTGAGC
    ATAATGGAAA AAACACAATC ACTTCCTACA CAACCACCAA CTTTTCCACC AACCATTCCA
    CCAGCAAAAG AAGTATGTAA GGCGGCCAAG GCTGACCTGG TATTTATGGT GGATGGATCC
    TGGAGCATTG GAGATGACAA TTTCAATAAG ATCATCAGCT TTCTGTATAG CACTGTTGGA
    GCTCTGAACA AGATTGGCAC AGATGGAACC CAAGTTGCAA TGGTTCAGTT CACTGATGAC
    CCCAGAACAG AATTTAAACT AAATGCTTAC AAAACCAAAG AGACTCTTCT GGATGCAATT
    AAACACATTT CATACAAAGG AGGAAATACA AAAACAGGAA AAGCAATTAA GTATGTTCGA
    GATTCCTTGT TCACAGCAGA GTCAGGTACA AGAAGGGGCA TCCCAAAGGT TATTGTGGTT
    ATAACTGATG GAAGATCACA AGATGATGTG AACAAAATCT CCAGGGAGAT GCAATTAGAT
    GGCTATAGCA TTTTTGCAAT TGGTGTGGCC GATGCAGATT ACTCGGAGTT GGTTAGCATT
    GGCAGTAAGC CCAGCGCACG CCATGTCTTC TTTGTGGATG ACTTTGACGC CTTTAAGAAA
    ATCGAAGACG AGTTAATTAC TTTTGTCTGC GAAACCGCAT CAGCAACCTG TCCAATGGTA
    CACAAGGATG GCATTGATCT TGCAGGATTT AAAATGATGG AAATGTTTGG TTTGGTTGAA
    AAAGATTTTT CATCAGTGAA AGGGGTTTCT ATGGAGCCTG GTACTTTCAA TGTGTTTCCA
    TGTTACCAAC TCCATAAAGA TGCCCTGGTT TCCCAGCCAA CCAGGTACAT GCATCCGGAA
    GGACTGCCCT CCGACTACAC AATCAGTTTT CTATTCCGGA TTCTTCCTGA CACTCCACAG
    GAGCCCTTTG CTCTTTGGGA GATTTTAAAT AAAAATTCTG ACCCATTGGT TGGGGTTATT
    TTAGACAATG GTGGGAAAAC TCTAACATAT TTCAACTATG ACCAGAGTGG GGATTTTCAG
    ACTGTTACTT TCGAAGGACC TGAAATTAGG AAAATTTTTT ATGGAAGCTT TCACAAGCTA
    CACATTGTTG TCAGTGACAC TTTGGTCAAA TTGGTTATTG ACTGCAAGCA AGTGGGTGAG
    AAGGCAATAA ATGCATCAGC TAATATCACA TCAGATGGTG TAGAAGTACT AGGGAAAATG
    GTTCGATCAA GAGGACCAGA TGGAAACTCT GCACCGTTCC AGTTACAGAT GTTTGATATT
    GTTTGTTCCA CATCATGGGC CAATACAGAC AAATGCTGTG AACTTCCAGG CCTGAGAGAT
    GATGAGTCTT GCCCAGACCT TCCTCATTCT TGCTCCTGTA CTGAAACCAA TGAAGTGGCT
    CTGGGACCAG CGGGGCCACC AGGTGGTCCG GGACTCCGAG GACCAAAGGG CCAGCAAGGT
    GAACCAGGTC CAAAGGGACC AGATGGCCCT CGGGGTGAAG TTGGTCTACC AGGACCTCAG
    GGTCCACCTG GACCCCAAGG ACCAAGTGGT CTGTCCATTC AAGGAATGCC CGGAATGCCA
    GGAGAAAAAG GAGAGAAAGG AGATACTGGC CTTCCAGGTC CACAGGGTAT CCCAGGAGGC
    GTTGGTTCAC CAGGACGTGA TGGCTCACCA GGCCAGAGGG GCCTTCCAGG AAAGGATGGA
    TCCTCGGGAC CTCCAGGACC ACCAGGGCCA ATAGGCATCC CTGGGGCCCC TGGAGTCCCA
    GGAATCACAG GAAGCATGGG ACCGCAAGGC GCCCTGGGAC CACCCGGTGT CCCTGGGGCA
    AAGGGGGAAC GAGGAGAGCG GGGTGACCTG CAGTCTCAAG CCATGGTGAG ATCAGTGGCA
    CGTCAAGTAT GCGAACAGCT CATCCAGAGT CACATGGCCA GGTACACTGC CATCCTCAAC
    CAGATTCCCA GCCACTCCTC ATCCATCCGG ACTGTCCAAG GGCCTCCTGG GGAGCCTGGG
    AGACCAGGCT CACCTGGAGC CCCTGGTGAA CAAGGACCCC CAGGCACACC AGGCTTCCCC
    GGAAATGCAG GCGTGCCAGG GACCCCAGGA GAACGAGGTC TAACTGGTGT CAAGGGAGAA
    AAAGGAAATC CAGGCGTTGG AACCCAAGGT CCAAGAGGCC CCCCGGGACC AGCAGGACCT
    TCAGGAGAGA GTCGGCCTGG CAGCCCTGGG CCCCCTGGCT CTCCTGGACC AAGAGGCCCC
    CCAGGTCATC TGGGGGTTCC TGGACCACAA GGTCCTTCTG GCCAGCCTGG ATATTGTGAC
    CCCTCATCAT GTTCTGCCTA TGGTGTGAGA GATCTGATCC CCTACAATGA TTACCAGCAC
    TGA

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