ORF » Species Summary » Macaca mulatta » ADAMTS12 cDNA ORF clone

ADAMTS12 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following ADAMTS12 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS12 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
OMb34496 XM_015139809.1
Latest version!		 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb34496 XM_015139810.1
Latest version!		 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb87140 XM_015139810.2
Latest version!		 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb87140 XM_015139809.2
Latest version!		 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb34495 XM_015139808.1
Latest version!		 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMb87139 XM_015139808.2
Latest version!		 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    ADAMTS12 ( XM_015139810.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014995296.1 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMb34496
    Clone ID Related Accession (Same CDS sequence) XM_015139810.1 , XM_015139809.1
    Accession Version XM_015139810.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    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 A disintegrin and metalloproteinase with thrombospondin motifs 12 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804927.1) 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
    ATGACTGGGA GACGTGCCTA CTCCAGGAGC TTGGAATCTT GGGAGCCATC TTGGAAGTCG 
    ACTGGATTTT TCCAACTACC ACATGGAGAC TTTTTCATTG AACCCGTGAA GAAGCACCCA 
    TTGGTTGAGG GAGGGTACCA CCCGCACATC GTTTACAGGA GGCAGAAAGT TCCAGAAACC 
    AAGGAGCCAA CCTGTGGATT AAACGATAGC GTTAACATCT CCCAGAAGCA AGAGCTATGG 
    CGGGAGAAGT GGGAGAGGCA CAACTTGCCA AGCAGAAGCC GCTCTCGGCG TTCCATCAGC 
    AAGGAGAGAT GGGTGGAGAC ACTGGTGGTG GCCGACACAA AGATGATTGA ATACCATGGG 
    AGTGAGAATG TGGAGTCCTA CATCCTCACC ATCATGAACA TGGTCACCGG GTTGTTCCAT 
    AACCCAAGCA TTGGCAATGC AATTCACATC GTTGTGGTTC GGCTCATTCT ACTTGAAGAA 
    GAAGAGCAAG GACTTAAAAT AGTTCATCAT GCGGAGAAGA CACTGTCTAG CTTCTGCAAG 
    TGGCAGAAGA GTATCAATCC CAAGAGTGAC CTCAATCCTG TTCATCATGA TGTGGCTGTC 
    CTTCTCACCA GAAAGGACAT CTGTGCTGGT TTCAATCGCC CCTGCGAGAC CCTGGGCCTG 
    TCTCACCTTT CAGGAATGTG TCAGCCTCAC CGCAGTTGTA ACATCAATGA AGATTCGGGA 
    CTGCCCCTGG CTTTCACAAT TGCCCATGAG CTAGGACACA GCTTTGGCAT CCAGCATGAT 
    GGGAAAGAAA ATGACTGTGA ACCCGTGGGC AGACACCCGT ACATCATGTC CCGCCAGCTC 
    CAGTACGATC CCACCCCACT GACATGGTCC AAGTGCAGCG AGGAGTACAT CACCCGCTTC 
    TTGGACCGAG GCTGGGGGTT CTGCCTTGAT GACATACCTA AAAAGAAGGG CTTGAAGTCC 
    AAGGTCATTG CCCCCGGAGT GATCTATGAT GTTCACCACC AATGCCAGCT ACAGTATGGA 
    CCCAATGCTA CCTTCTGTCA GGAAGTAGAA AACGTCTGCC AGACACTGTG GTGCTCCGTG 
    AAGGGCTTTT GTCGTTCTAA GCTGGATGCT GCTGCAGATG GAACTCAATG TGGTGAGAAG 
    AAGTGGTGTA TGGCAGGCAA GTGCATCACC GTGGGGAAGA AACCAGAGAG CATCCCTGGA 
    GGCTGGGGCC GCTGGTCACC CTGGTCCCAC TGTTCCAGGA CCTGTGGGGC TGGAGTCCAG 
    AGTGCAGAGA GGCTCTGCAA CAACCCTGAG CCAAAGTTTG GAGGAAAATA TTGCACTGGA 
    GAAAGAAAAC GCTATCGCTT GTGCAACGTC CACCCCTGTC GCTCAGAGGC ACCAACATTT 
    CGGCAGATGC AGTGCAGTGA ATTTGACACT GTTCCCTACA AGAATGAACT CTACCACTGG 
    TTTCCCATTT TTAACCCAGC ACATCCTTGT GAGCTCTACT GCCGACCCAT AGATGGCCAG 
    TTTTCTGAGA AAATGCTGGA TGCTGTCATT GATGGTACCC CTTGCTTTGA AGGCGGCAAC 
    AGCAGAAATG TCTGTATTAA TGGCATATGT AAGATGGTTG GCTGTGACTA TGAGATCGAT 
    TCCAATGCCA CAGAGGATCG CTGCGGTGTG TGCCTGGGAG ATGGCTCTTC CTGCCAGACC 
    GTGAGAAAGA TGTTTAAGCA GAAGGAAGGA TCTGGTTATG TTGACATTGG GCTCATTCCG 
    AAAGGAGCAA GGGACATAAG AGTAATGGAA ATTGAGGGAG CTGGAAACTT CCTGGCCATC 
    AGGAGTGAAG ACCCTGAAAA ATATTACCTG AATGGAGGGT TTATTATCCA GTGGAACGGG 
    AACTATAAGC TGGCAGGGAC CGTCTTTCAG TATGACAGGA AAGGAGACCT GGAAAAGCTG 
    ATGGCCACAG GTCCCACCAA TGAGTCTGTG TGGATCCAGC TTCTATTCCA GGTGACTAAC 
    CCTGGCATCA AGTATGAGTA CACAATCCAG AAAGATGGCC TCGACAATGA TGTTGAGCAG 
    CAGATGTACT TCTGGCAGTA TGGCCGCTGG ACAGAGTGCA GTGTGACCTG CGGGACAGGT 
    ATCCGCCGCC AGACTGCCCA TTGCATAAAG AAGGGCCGTG GGATGGTGAA AGCTACATTC 
    TGTGACCCAG AAACACAGCC CAATGGGAGA CAGAAGAAGT GCCATGAAAA GGCTTGTCCA 
    CCCAGGTGGT GGGCAGGGGA GTGGGAAGCA TGCTCCGCGA CATGCGGGCC CCACGGGGAG 
    AAGAAGCGAA CCGTGCTGTG CATCCAGACC ATGGGCTCTG ACGAGCAGGC TCTCCCGCCC 
    ACAGACTGCC AGCACCTGCT GAAGCCCAAG ACCCTCCTTT CCTGCAACAG AGACATCCTG 
    TGCCCCTCGG ACTGGACAGT GGGCAACTGG AGTGAGTGTT CTGTTTCCTG TGGTGGTGGA 
    GTGCGGATTC GCAGTGTCAC ATGTGCCAAG AACCATGATG AACCTTGCGA TGTGACAAGG 
    AAACCCAACA GCCGGGCTCT GTGTGGCCTC CAGCAATGCC CATCTAGCCG GAGAGGTCTG 
    AAACCCAACA AAGGCACTAT TTCCAATGGA AAAAACCCAC CAACACCTGA GCAGGACCCC 
    GTAAAGCCCG TCCCTCTACC TACATCCAGG CCCAGAATGC TGACCACACC CATAGGGCCT 
    GAGTCTATGA GCACAAGCCC TGCAGCAATC AGCAGCCCTC ATCCTACCAC AGCCTCCAAA 
    GAAGGAGACA TGGGTGGGAC ACAGTGGCAA GATAGCTCAA CCCAACCTGA GCTGAGCTCT 
    CGCTATCTCA TTCCCACTGG AAGCACTTCT CAGCCCATCC TCACTTCCCG ATCCGTGAGC 
    ATTCAGCCAA GTGAGGAAAA TGTTTCCAGT TCAGATGCTG GTCCTACCTG GGAGGGAGGC 
    CTTGTAGCTA CAACAAGTGG TTCTGACTTG TCATCTTCCC GCAACCCTAT GACTTGGCCT 
    GTGACTCCAT TTTACAATAC CTTGACCAAA GGTCCAGAAA TGGAGATTCA CAGTGGCTCA 
    GGGGAAGACA GGGAACAGCC TGAGGGCAAA GATGAAAGCA ACCCTGTAAT ATGGACCAAG 
    ATCAGAGTAC CTGGAAATGA CGCTCCAGTG GAAAGTACAG AAATGCCACT TGCACCTCCA 
    CTGACACCGG ATCTCGGTGG GGAGTCCCCG TGGCCAACCT TCAGCACAGT GATAGAAGGA 
    CTGCTCCCCA GCCAAAGGCC CAGTACTCCC AAAACTGGCA CACCCAGAGT TGAGGGGATG 
    GTTACTGAAA AGCCAGCTGA CACTCTACTC CCTCTGGGAA GAGACCACCA GCCAGAACCC 
    TCAGGAAAGA CAGCAAACCA TAGCCATCTG AAACTTCCAA ACGACATGAA TCAAACAGAA 
    AGTACTGAAC CAGTCCTGAC TGAGGAGGAT GCAACAAGTC TGATTGCCGA GGGCTTTTTG 
    CTGAATGCCT CCAATTACAA GCAGCTCACA AACGACCACG GCTCTGCACA CTGGATCGTC 
    GGAAACTGGA GCGAGTGCTC CACCACATGT GGTCTGGGGG CCTACTGGAG AAGGGTGGAG 
    TGCAGCACCC AGATGGATTC CGACTGCGCG GCCATCCAGA GACCTGACCC TGCAAAGCGA 
    TGCCACCTCC GTCCCTGTGC TGGCTGGAAA GTGGGAAACT GGAGCAAGTG CTCCAGAAAC 
    TGCAGTGGGG GCTTCAAGAT ACGCGAGATT CAGTGCGTGG ACAGCCGGGA CCACCGGAAC 
    CTGAGGCCAT TTCACTGCCA GTTCCTGGCC GGCATTCCTC CCCCATTGAG CATGAGCTGT 
    AACCCCGAGC CCTGTGGGGT GTGGCAGGTG GAGCCTTGGA GCCAGTGCTC CAGGTCCTGT 
    GGAGGCGGAG TTCAGGAGAG AGAAGTGTTC TGTCCAGGAG GCCTCTGTGA CTGGACAAAA 
    AGACCCACAT CCACCATGTC TTGCAATGAG CACCTTTGCT GTCACTGGGC CACTGGGAAC 
    TGGGAGCTGT GTTCCACTTC CTGTGGAGGT GGCTTTCAGA AGAGGACTGT CCATTGTGTG 
    CCCTCAGAGA ACAATAAAAC TGAAGACCAA GACCAATGCC TGTGTGATCA CGAACCCAGA 
    CCTCCAGAAT TCAAAAAATG CAACCAGCAG GCCTGCAAGA AAAGTGCCGA TTTACTTTGC 
    ACCAAGGACA AGCTGTCAGC CAGTTTCTGC CAGACACTGA AAGCCATGAA GAAATGTTCT 
    GTGCCCACCG TGAGGGCTCA GTGCTGCTTC TCGTGTCCCC AGACACACAT CACCCACAGC 
    CAAAGGCAAA GAAGGCAACG GTTGCCCCAA AAACCCAAAG CACTCTAA

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

    RefSeq XP_014995296.1
    CDS559..4926
    Translation

    Target ORF information:

    RefSeq Version XM_015139810.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015139810.1

    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
    ATGACTGGGA GACGTGCCTA CTCCAGGAGC TTGGAATCTT GGGAGCCATC TTGGAAGTCG 
    ACTGGATTTT TCCAACTACC ACATGGAGAC TTTTTCATTG AACCCGTGAA GAAGCACCCA 
    TTGGTTGAGG GAGGGTACCA CCCGCACATC GTTTACAGGA GGCAGAAAGT TCCAGAAACC 
    AAGGAGCCAA CCTGTGGATT AAACGATAGC GTTAACATCT CCCAGAAGCA AGAGCTATGG 
    CGGGAGAAGT GGGAGAGGCA CAACTTGCCA AGCAGAAGCC GCTCTCGGCG TTCCATCAGC 
    AAGGAGAGAT GGGTGGAGAC ACTGGTGGTG GCCGACACAA AGATGATTGA ATACCATGGG 
    AGTGAGAATG TGGAGTCCTA CATCCTCACC ATCATGAACA TGGTCACCGG GTTGTTCCAT 
    AACCCAAGCA TTGGCAATGC AATTCACATC GTTGTGGTTC GGCTCATTCT ACTTGAAGAA 
    GAAGAGCAAG GACTTAAAAT AGTTCATCAT GCGGAGAAGA CACTGTCTAG CTTCTGCAAG 
    TGGCAGAAGA GTATCAATCC CAAGAGTGAC CTCAATCCTG TTCATCATGA TGTGGCTGTC 
    CTTCTCACCA GAAAGGACAT CTGTGCTGGT TTCAATCGCC CCTGCGAGAC CCTGGGCCTG 
    TCTCACCTTT CAGGAATGTG TCAGCCTCAC CGCAGTTGTA ACATCAATGA AGATTCGGGA 
    CTGCCCCTGG CTTTCACAAT TGCCCATGAG CTAGGACACA GCTTTGGCAT CCAGCATGAT 
    GGGAAAGAAA ATGACTGTGA ACCCGTGGGC AGACACCCGT ACATCATGTC CCGCCAGCTC 
    CAGTACGATC CCACCCCACT GACATGGTCC AAGTGCAGCG AGGAGTACAT CACCCGCTTC 
    TTGGACCGAG GCTGGGGGTT CTGCCTTGAT GACATACCTA AAAAGAAGGG CTTGAAGTCC 
    AAGGTCATTG CCCCCGGAGT GATCTATGAT GTTCACCACC AATGCCAGCT ACAGTATGGA 
    CCCAATGCTA CCTTCTGTCA GGAAGTAGAA AACGTCTGCC AGACACTGTG GTGCTCCGTG 
    AAGGGCTTTT GTCGTTCTAA GCTGGATGCT GCTGCAGATG GAACTCAATG TGGTGAGAAG 
    AAGTGGTGTA TGGCAGGCAA GTGCATCACC GTGGGGAAGA AACCAGAGAG CATCCCTGGA 
    GGCTGGGGCC GCTGGTCACC CTGGTCCCAC TGTTCCAGGA CCTGTGGGGC TGGAGTCCAG 
    AGTGCAGAGA GGCTCTGCAA CAACCCTGAG CCAAAGTTTG GAGGAAAATA TTGCACTGGA 
    GAAAGAAAAC GCTATCGCTT GTGCAACGTC CACCCCTGTC GCTCAGAGGC ACCAACATTT 
    CGGCAGATGC AGTGCAGTGA ATTTGACACT GTTCCCTACA AGAATGAACT CTACCACTGG 
    TTTCCCATTT TTAACCCAGC ACATCCTTGT GAGCTCTACT GCCGACCCAT AGATGGCCAG 
    TTTTCTGAGA AAATGCTGGA TGCTGTCATT GATGGTACCC CTTGCTTTGA AGGCGGCAAC 
    AGCAGAAATG TCTGTATTAA TGGCATATGT AAGATGGTTG GCTGTGACTA TGAGATCGAT 
    TCCAATGCCA CAGAGGATCG CTGCGGTGTG TGCCTGGGAG ATGGCTCTTC CTGCCAGACC 
    GTGAGAAAGA TGTTTAAGCA GAAGGAAGGA TCTGGTTATG TTGACATTGG GCTCATTCCG 
    AAAGGAGCAA GGGACATAAG AGTAATGGAA ATTGAGGGAG CTGGAAACTT CCTGGCCATC 
    AGGAGTGAAG ACCCTGAAAA ATATTACCTG AATGGAGGGT TTATTATCCA GTGGAACGGG 
    AACTATAAGC TGGCAGGGAC CGTCTTTCAG TATGACAGGA AAGGAGACCT GGAAAAGCTG 
    ATGGCCACAG GTCCCACCAA TGAGTCTGTG TGGATCCAGC TTCTATTCCA GGTGACTAAC 
    CCTGGCATCA AGTATGAGTA CACAATCCAG AAAGATGGCC TCGACAATGA TGTTGAGCAG 
    CAGATGTACT TCTGGCAGTA TGGCCGCTGG ACAGAGTGCA GTGTGACCTG CGGGACAGGT 
    ATCCGCCGCC AGACTGCCCA TTGCATAAAG AAGGGCCGTG GGATGGTGAA AGCTACATTC 
    TGTGACCCAG AAACACAGCC CAATGGGAGA CAGAAGAAGT GCCATGAAAA GGCTTGTCCA 
    CCCAGGTGGT GGGCAGGGGA GTGGGAAGCA TGCTCCGCGA CATGCGGGCC CCACGGGGAG 
    AAGAAGCGAA CCGTGCTGTG CATCCAGACC ATGGGCTCTG ACGAGCAGGC TCTCCCGCCC 
    ACAGACTGCC AGCACCTGCT GAAGCCCAAG ACCCTCCTTT CCTGCAACAG AGACATCCTG 
    TGCCCCTCGG ACTGGACAGT GGGCAACTGG AGTGAGTGTT CTGTTTCCTG TGGTGGTGGA 
    GTGCGGATTC GCAGTGTCAC ATGTGCCAAG AACCATGATG AACCTTGCGA TGTGACAAGG 
    AAACCCAACA GCCGGGCTCT GTGTGGCCTC CAGCAATGCC CATCTAGCCG GAGAGGTCTG 
    AAACCCAACA AAGGCACTAT TTCCAATGGA AAAAACCCAC CAACACCTGA GCAGGACCCC 
    GTAAAGCCCG TCCCTCTACC TACATCCAGG CCCAGAATGC TGACCACACC CATAGGGCCT 
    GAGTCTATGA GCACAAGCCC TGCAGCAATC AGCAGCCCTC ATCCTACCAC AGCCTCCAAA 
    GAAGGAGACA TGGGTGGGAC ACAGTGGCAA GATAGCTCAA CCCAACCTGA GCTGAGCTCT 
    CGCTATCTCA TTCCCACTGG AAGCACTTCT CAGCCCATCC TCACTTCCCG ATCCGTGAGC 
    ATTCAGCCAA GTGAGGAAAA TGTTTCCAGT TCAGATGCTG GTCCTACCTG GGAGGGAGGC 
    CTTGTAGCTA CAACAAGTGG TTCTGACTTG TCATCTTCCC GCAACCCTAT GACTTGGCCT 
    GTGACTCCAT TTTACAATAC CTTGACCAAA GGTCCAGAAA TGGAGATTCA CAGTGGCTCA 
    GGGGAAGACA GGGAACAGCC TGAGGGCAAA GATGAAAGCA ACCCTGTAAT ATGGACCAAG 
    ATCAGAGTAC CTGGAAATGA CGCTCCAGTG GAAAGTACAG AAATGCCACT TGCACCTCCA 
    CTGACACCGG ATCTCGGTGG GGAGTCCCCG TGGCCAACCT TCAGCACAGT GATAGAAGGA 
    CTGCTCCCCA GCCAAAGGCC CAGTACTCCC AAAACTGGCA CACCCAGAGT TGAGGGGATG 
    GTTACTGAAA AGCCAGCTGA CACTCTACTC CCTCTGGGAA GAGACCACCA GCCAGAACCC 
    TCAGGAAAGA CAGCAAACCA TAGCCATCTG AAACTTCCAA ACGACATGAA TCAAACAGAA 
    AGTACTGAAC CAGTCCTGAC TGAGGAGGAT GCAACAAGTC TGATTGCCGA GGGCTTTTTG 
    CTGAATGCCT CCAATTACAA GCAGCTCACA AACGACCACG GCTCTGCACA CTGGATCGTC 
    GGAAACTGGA GCGAGTGCTC CACCACATGT GGTCTGGGGG CCTACTGGAG AAGGGTGGAG 
    TGCAGCACCC AGATGGATTC CGACTGCGCG GCCATCCAGA GACCTGACCC TGCAAAGCGA 
    TGCCACCTCC GTCCCTGTGC TGGCTGGAAA GTGGGAAACT GGAGCAAGTG CTCCAGAAAC 
    TGCAGTGGGG GCTTCAAGAT ACGCGAGATT CAGTGCGTGG ACAGCCGGGA CCACCGGAAC 
    CTGAGGCCAT TTCACTGCCA GTTCCTGGCC GGCATTCCTC CCCCATTGAG CATGAGCTGT 
    AACCCCGAGC CCTGTGGGGT GTGGCAGGTG GAGCCTTGGA GCCAGTGCTC CAGGTCCTGT 
    GGAGGCGGAG TTCAGGAGAG AGAAGTGTTC TGTCCAGGAG GCCTCTGTGA CTGGACAAAA 
    AGACCCACAT CCACCATGTC TTGCAATGAG CACCTTTGCT GTCACTGGGC CACTGGGAAC 
    TGGGAGCTGT GTTCCACTTC CTGTGGAGGT GGCTTTCAGA AGAGGACTGT CCATTGTGTG 
    CCCTCAGAGA ACAATAAAAC TGAAGACCAA GACCAATGCC TGTGTGATCA CGAACCCAGA 
    CCTCCAGAAT TCAAAAAATG CAACCAGCAG GCCTGCAAGA AAAGTGCCGA TTTACTTTGC 
    ACCAAGGACA AGCTGTCAGC CAGTTTCTGC CAGACACTGA AAGCCATGAA GAAATGTTCT 
    GTGCCCACCG TGAGGGCTCA GTGCTGCTTC TCGTGTCCCC AGACACACAT CACCCACAGC 
    CAAAGGCAAA GAAGGCAACG GTTGCCCCAA AAACCCAAAG CACTCTAA

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

    ADAMTS12 ( XM_015139809.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014995295.1 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMb34496
    Clone ID Related Accession (Same CDS sequence) XM_015139810.1 , XM_015139809.1
    Accession Version XM_015139809.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    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 A disintegrin and metalloproteinase with thrombospondin motifs 12 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804927.1) 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
    ATGACTGGGA GACGTGCCTA CTCCAGGAGC TTGGAATCTT GGGAGCCATC TTGGAAGTCG 
    ACTGGATTTT TCCAACTACC ACATGGAGAC TTTTTCATTG AACCCGTGAA GAAGCACCCA 
    TTGGTTGAGG GAGGGTACCA CCCGCACATC GTTTACAGGA GGCAGAAAGT TCCAGAAACC 
    AAGGAGCCAA CCTGTGGATT AAACGATAGC GTTAACATCT CCCAGAAGCA AGAGCTATGG 
    CGGGAGAAGT GGGAGAGGCA CAACTTGCCA AGCAGAAGCC GCTCTCGGCG TTCCATCAGC 
    AAGGAGAGAT GGGTGGAGAC ACTGGTGGTG GCCGACACAA AGATGATTGA ATACCATGGG 
    AGTGAGAATG TGGAGTCCTA CATCCTCACC ATCATGAACA TGGTCACCGG GTTGTTCCAT 
    AACCCAAGCA TTGGCAATGC AATTCACATC GTTGTGGTTC GGCTCATTCT ACTTGAAGAA 
    GAAGAGCAAG GACTTAAAAT AGTTCATCAT GCGGAGAAGA CACTGTCTAG CTTCTGCAAG 
    TGGCAGAAGA GTATCAATCC CAAGAGTGAC CTCAATCCTG TTCATCATGA TGTGGCTGTC 
    CTTCTCACCA GAAAGGACAT CTGTGCTGGT TTCAATCGCC CCTGCGAGAC CCTGGGCCTG 
    TCTCACCTTT CAGGAATGTG TCAGCCTCAC CGCAGTTGTA ACATCAATGA AGATTCGGGA 
    CTGCCCCTGG CTTTCACAAT TGCCCATGAG CTAGGACACA GCTTTGGCAT CCAGCATGAT 
    GGGAAAGAAA ATGACTGTGA ACCCGTGGGC AGACACCCGT ACATCATGTC CCGCCAGCTC 
    CAGTACGATC CCACCCCACT GACATGGTCC AAGTGCAGCG AGGAGTACAT CACCCGCTTC 
    TTGGACCGAG GCTGGGGGTT CTGCCTTGAT GACATACCTA AAAAGAAGGG CTTGAAGTCC 
    AAGGTCATTG CCCCCGGAGT GATCTATGAT GTTCACCACC AATGCCAGCT ACAGTATGGA 
    CCCAATGCTA CCTTCTGTCA GGAAGTAGAA AACGTCTGCC AGACACTGTG GTGCTCCGTG 
    AAGGGCTTTT GTCGTTCTAA GCTGGATGCT GCTGCAGATG GAACTCAATG TGGTGAGAAG 
    AAGTGGTGTA TGGCAGGCAA GTGCATCACC GTGGGGAAGA AACCAGAGAG CATCCCTGGA 
    GGCTGGGGCC GCTGGTCACC CTGGTCCCAC TGTTCCAGGA CCTGTGGGGC TGGAGTCCAG 
    AGTGCAGAGA GGCTCTGCAA CAACCCTGAG CCAAAGTTTG GAGGAAAATA TTGCACTGGA 
    GAAAGAAAAC GCTATCGCTT GTGCAACGTC CACCCCTGTC GCTCAGAGGC ACCAACATTT 
    CGGCAGATGC AGTGCAGTGA ATTTGACACT GTTCCCTACA AGAATGAACT CTACCACTGG 
    TTTCCCATTT TTAACCCAGC ACATCCTTGT GAGCTCTACT GCCGACCCAT AGATGGCCAG 
    TTTTCTGAGA AAATGCTGGA TGCTGTCATT GATGGTACCC CTTGCTTTGA AGGCGGCAAC 
    AGCAGAAATG TCTGTATTAA TGGCATATGT AAGATGGTTG GCTGTGACTA TGAGATCGAT 
    TCCAATGCCA CAGAGGATCG CTGCGGTGTG TGCCTGGGAG ATGGCTCTTC CTGCCAGACC 
    GTGAGAAAGA TGTTTAAGCA GAAGGAAGGA TCTGGTTATG TTGACATTGG GCTCATTCCG 
    AAAGGAGCAA GGGACATAAG AGTAATGGAA ATTGAGGGAG CTGGAAACTT CCTGGCCATC 
    AGGAGTGAAG ACCCTGAAAA ATATTACCTG AATGGAGGGT TTATTATCCA GTGGAACGGG 
    AACTATAAGC TGGCAGGGAC CGTCTTTCAG TATGACAGGA AAGGAGACCT GGAAAAGCTG 
    ATGGCCACAG GTCCCACCAA TGAGTCTGTG TGGATCCAGC TTCTATTCCA GGTGACTAAC 
    CCTGGCATCA AGTATGAGTA CACAATCCAG AAAGATGGCC TCGACAATGA TGTTGAGCAG 
    CAGATGTACT TCTGGCAGTA TGGCCGCTGG ACAGAGTGCA GTGTGACCTG CGGGACAGGT 
    ATCCGCCGCC AGACTGCCCA TTGCATAAAG AAGGGCCGTG GGATGGTGAA AGCTACATTC 
    TGTGACCCAG AAACACAGCC CAATGGGAGA CAGAAGAAGT GCCATGAAAA GGCTTGTCCA 
    CCCAGGTGGT GGGCAGGGGA GTGGGAAGCA TGCTCCGCGA CATGCGGGCC CCACGGGGAG 
    AAGAAGCGAA CCGTGCTGTG CATCCAGACC ATGGGCTCTG ACGAGCAGGC TCTCCCGCCC 
    ACAGACTGCC AGCACCTGCT GAAGCCCAAG ACCCTCCTTT CCTGCAACAG AGACATCCTG 
    TGCCCCTCGG ACTGGACAGT GGGCAACTGG AGTGAGTGTT CTGTTTCCTG TGGTGGTGGA 
    GTGCGGATTC GCAGTGTCAC ATGTGCCAAG AACCATGATG AACCTTGCGA TGTGACAAGG 
    AAACCCAACA GCCGGGCTCT GTGTGGCCTC CAGCAATGCC CATCTAGCCG GAGAGGTCTG 
    AAACCCAACA AAGGCACTAT TTCCAATGGA AAAAACCCAC CAACACCTGA GCAGGACCCC 
    GTAAAGCCCG TCCCTCTACC TACATCCAGG CCCAGAATGC TGACCACACC CATAGGGCCT 
    GAGTCTATGA GCACAAGCCC TGCAGCAATC AGCAGCCCTC ATCCTACCAC AGCCTCCAAA 
    GAAGGAGACA TGGGTGGGAC ACAGTGGCAA GATAGCTCAA CCCAACCTGA GCTGAGCTCT 
    CGCTATCTCA TTCCCACTGG AAGCACTTCT CAGCCCATCC TCACTTCCCG ATCCGTGAGC 
    ATTCAGCCAA GTGAGGAAAA TGTTTCCAGT TCAGATGCTG GTCCTACCTG GGAGGGAGGC 
    CTTGTAGCTA CAACAAGTGG TTCTGACTTG TCATCTTCCC GCAACCCTAT GACTTGGCCT 
    GTGACTCCAT TTTACAATAC CTTGACCAAA GGTCCAGAAA TGGAGATTCA CAGTGGCTCA 
    GGGGAAGACA GGGAACAGCC TGAGGGCAAA GATGAAAGCA ACCCTGTAAT ATGGACCAAG 
    ATCAGAGTAC CTGGAAATGA CGCTCCAGTG GAAAGTACAG AAATGCCACT TGCACCTCCA 
    CTGACACCGG ATCTCGGTGG GGAGTCCCCG TGGCCAACCT TCAGCACAGT GATAGAAGGA 
    CTGCTCCCCA GCCAAAGGCC CAGTACTCCC AAAACTGGCA CACCCAGAGT TGAGGGGATG 
    GTTACTGAAA AGCCAGCTGA CACTCTACTC CCTCTGGGAA GAGACCACCA GCCAGAACCC 
    TCAGGAAAGA CAGCAAACCA TAGCCATCTG AAACTTCCAA ACGACATGAA TCAAACAGAA 
    AGTACTGAAC CAGTCCTGAC TGAGGAGGAT GCAACAAGTC TGATTGCCGA GGGCTTTTTG 
    CTGAATGCCT CCAATTACAA GCAGCTCACA AACGACCACG GCTCTGCACA CTGGATCGTC 
    GGAAACTGGA GCGAGTGCTC CACCACATGT GGTCTGGGGG CCTACTGGAG AAGGGTGGAG 
    TGCAGCACCC AGATGGATTC CGACTGCGCG GCCATCCAGA GACCTGACCC TGCAAAGCGA 
    TGCCACCTCC GTCCCTGTGC TGGCTGGAAA GTGGGAAACT GGAGCAAGTG CTCCAGAAAC 
    TGCAGTGGGG GCTTCAAGAT ACGCGAGATT CAGTGCGTGG ACAGCCGGGA CCACCGGAAC 
    CTGAGGCCAT TTCACTGCCA GTTCCTGGCC GGCATTCCTC CCCCATTGAG CATGAGCTGT 
    AACCCCGAGC CCTGTGGGGT GTGGCAGGTG GAGCCTTGGA GCCAGTGCTC CAGGTCCTGT 
    GGAGGCGGAG TTCAGGAGAG AGAAGTGTTC TGTCCAGGAG GCCTCTGTGA CTGGACAAAA 
    AGACCCACAT CCACCATGTC TTGCAATGAG CACCTTTGCT GTCACTGGGC CACTGGGAAC 
    TGGGAGCTGT GTTCCACTTC CTGTGGAGGT GGCTTTCAGA AGAGGACTGT CCATTGTGTG 
    CCCTCAGAGA ACAATAAAAC TGAAGACCAA GACCAATGCC TGTGTGATCA CGAACCCAGA 
    CCTCCAGAAT TCAAAAAATG CAACCAGCAG GCCTGCAAGA AAAGTGCCGA TTTACTTTGC 
    ACCAAGGACA AGCTGTCAGC CAGTTTCTGC CAGACACTGA AAGCCATGAA GAAATGTTCT 
    GTGCCCACCG TGAGGGCTCA GTGCTGCTTC TCGTGTCCCC AGACACACAT CACCCACAGC 
    CAAAGGCAAA GAAGGCAACG GTTGCCCCAA AAACCCAAAG CACTCTAA

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

    RefSeq XP_014995295.1
    CDS556..4923
    Translation

    Target ORF information:

    RefSeq Version XM_015139809.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015139809.1

    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
    ATGACTGGGA GACGTGCCTA CTCCAGGAGC TTGGAATCTT GGGAGCCATC TTGGAAGTCG 
    ACTGGATTTT TCCAACTACC ACATGGAGAC TTTTTCATTG AACCCGTGAA GAAGCACCCA 
    TTGGTTGAGG GAGGGTACCA CCCGCACATC GTTTACAGGA GGCAGAAAGT TCCAGAAACC 
    AAGGAGCCAA CCTGTGGATT AAACGATAGC GTTAACATCT CCCAGAAGCA AGAGCTATGG 
    CGGGAGAAGT GGGAGAGGCA CAACTTGCCA AGCAGAAGCC GCTCTCGGCG TTCCATCAGC 
    AAGGAGAGAT GGGTGGAGAC ACTGGTGGTG GCCGACACAA AGATGATTGA ATACCATGGG 
    AGTGAGAATG TGGAGTCCTA CATCCTCACC ATCATGAACA TGGTCACCGG GTTGTTCCAT 
    AACCCAAGCA TTGGCAATGC AATTCACATC GTTGTGGTTC GGCTCATTCT ACTTGAAGAA 
    GAAGAGCAAG GACTTAAAAT AGTTCATCAT GCGGAGAAGA CACTGTCTAG CTTCTGCAAG 
    TGGCAGAAGA GTATCAATCC CAAGAGTGAC CTCAATCCTG TTCATCATGA TGTGGCTGTC 
    CTTCTCACCA GAAAGGACAT CTGTGCTGGT TTCAATCGCC CCTGCGAGAC CCTGGGCCTG 
    TCTCACCTTT CAGGAATGTG TCAGCCTCAC CGCAGTTGTA ACATCAATGA AGATTCGGGA 
    CTGCCCCTGG CTTTCACAAT TGCCCATGAG CTAGGACACA GCTTTGGCAT CCAGCATGAT 
    GGGAAAGAAA ATGACTGTGA ACCCGTGGGC AGACACCCGT ACATCATGTC CCGCCAGCTC 
    CAGTACGATC CCACCCCACT GACATGGTCC AAGTGCAGCG AGGAGTACAT CACCCGCTTC 
    TTGGACCGAG GCTGGGGGTT CTGCCTTGAT GACATACCTA AAAAGAAGGG CTTGAAGTCC 
    AAGGTCATTG CCCCCGGAGT GATCTATGAT GTTCACCACC AATGCCAGCT ACAGTATGGA 
    CCCAATGCTA CCTTCTGTCA GGAAGTAGAA AACGTCTGCC AGACACTGTG GTGCTCCGTG 
    AAGGGCTTTT GTCGTTCTAA GCTGGATGCT GCTGCAGATG GAACTCAATG TGGTGAGAAG 
    AAGTGGTGTA TGGCAGGCAA GTGCATCACC GTGGGGAAGA AACCAGAGAG CATCCCTGGA 
    GGCTGGGGCC GCTGGTCACC CTGGTCCCAC TGTTCCAGGA CCTGTGGGGC TGGAGTCCAG 
    AGTGCAGAGA GGCTCTGCAA CAACCCTGAG CCAAAGTTTG GAGGAAAATA TTGCACTGGA 
    GAAAGAAAAC GCTATCGCTT GTGCAACGTC CACCCCTGTC GCTCAGAGGC ACCAACATTT 
    CGGCAGATGC AGTGCAGTGA ATTTGACACT GTTCCCTACA AGAATGAACT CTACCACTGG 
    TTTCCCATTT TTAACCCAGC ACATCCTTGT GAGCTCTACT GCCGACCCAT AGATGGCCAG 
    TTTTCTGAGA AAATGCTGGA TGCTGTCATT GATGGTACCC CTTGCTTTGA AGGCGGCAAC 
    AGCAGAAATG TCTGTATTAA TGGCATATGT AAGATGGTTG GCTGTGACTA TGAGATCGAT 
    TCCAATGCCA CAGAGGATCG CTGCGGTGTG TGCCTGGGAG ATGGCTCTTC CTGCCAGACC 
    GTGAGAAAGA TGTTTAAGCA GAAGGAAGGA TCTGGTTATG TTGACATTGG GCTCATTCCG 
    AAAGGAGCAA GGGACATAAG AGTAATGGAA ATTGAGGGAG CTGGAAACTT CCTGGCCATC 
    AGGAGTGAAG ACCCTGAAAA ATATTACCTG AATGGAGGGT TTATTATCCA GTGGAACGGG 
    AACTATAAGC TGGCAGGGAC CGTCTTTCAG TATGACAGGA AAGGAGACCT GGAAAAGCTG 
    ATGGCCACAG GTCCCACCAA TGAGTCTGTG TGGATCCAGC TTCTATTCCA GGTGACTAAC 
    CCTGGCATCA AGTATGAGTA CACAATCCAG AAAGATGGCC TCGACAATGA TGTTGAGCAG 
    CAGATGTACT TCTGGCAGTA TGGCCGCTGG ACAGAGTGCA GTGTGACCTG CGGGACAGGT 
    ATCCGCCGCC AGACTGCCCA TTGCATAAAG AAGGGCCGTG GGATGGTGAA AGCTACATTC 
    TGTGACCCAG AAACACAGCC CAATGGGAGA CAGAAGAAGT GCCATGAAAA GGCTTGTCCA 
    CCCAGGTGGT GGGCAGGGGA GTGGGAAGCA TGCTCCGCGA CATGCGGGCC CCACGGGGAG 
    AAGAAGCGAA CCGTGCTGTG CATCCAGACC ATGGGCTCTG ACGAGCAGGC TCTCCCGCCC 
    ACAGACTGCC AGCACCTGCT GAAGCCCAAG ACCCTCCTTT CCTGCAACAG AGACATCCTG 
    TGCCCCTCGG ACTGGACAGT GGGCAACTGG AGTGAGTGTT CTGTTTCCTG TGGTGGTGGA 
    GTGCGGATTC GCAGTGTCAC ATGTGCCAAG AACCATGATG AACCTTGCGA TGTGACAAGG 
    AAACCCAACA GCCGGGCTCT GTGTGGCCTC CAGCAATGCC CATCTAGCCG GAGAGGTCTG 
    AAACCCAACA AAGGCACTAT TTCCAATGGA AAAAACCCAC CAACACCTGA GCAGGACCCC 
    GTAAAGCCCG TCCCTCTACC TACATCCAGG CCCAGAATGC TGACCACACC CATAGGGCCT 
    GAGTCTATGA GCACAAGCCC TGCAGCAATC AGCAGCCCTC ATCCTACCAC AGCCTCCAAA 
    GAAGGAGACA TGGGTGGGAC ACAGTGGCAA GATAGCTCAA CCCAACCTGA GCTGAGCTCT 
    CGCTATCTCA TTCCCACTGG AAGCACTTCT CAGCCCATCC TCACTTCCCG ATCCGTGAGC 
    ATTCAGCCAA GTGAGGAAAA TGTTTCCAGT TCAGATGCTG GTCCTACCTG GGAGGGAGGC 
    CTTGTAGCTA CAACAAGTGG TTCTGACTTG TCATCTTCCC GCAACCCTAT GACTTGGCCT 
    GTGACTCCAT TTTACAATAC CTTGACCAAA GGTCCAGAAA TGGAGATTCA CAGTGGCTCA 
    GGGGAAGACA GGGAACAGCC TGAGGGCAAA GATGAAAGCA ACCCTGTAAT ATGGACCAAG 
    ATCAGAGTAC CTGGAAATGA CGCTCCAGTG GAAAGTACAG AAATGCCACT TGCACCTCCA 
    CTGACACCGG ATCTCGGTGG GGAGTCCCCG TGGCCAACCT TCAGCACAGT GATAGAAGGA 
    CTGCTCCCCA GCCAAAGGCC CAGTACTCCC AAAACTGGCA CACCCAGAGT TGAGGGGATG 
    GTTACTGAAA AGCCAGCTGA CACTCTACTC CCTCTGGGAA GAGACCACCA GCCAGAACCC 
    TCAGGAAAGA CAGCAAACCA TAGCCATCTG AAACTTCCAA ACGACATGAA TCAAACAGAA 
    AGTACTGAAC CAGTCCTGAC TGAGGAGGAT GCAACAAGTC TGATTGCCGA GGGCTTTTTG 
    CTGAATGCCT CCAATTACAA GCAGCTCACA AACGACCACG GCTCTGCACA CTGGATCGTC 
    GGAAACTGGA GCGAGTGCTC CACCACATGT GGTCTGGGGG CCTACTGGAG AAGGGTGGAG 
    TGCAGCACCC AGATGGATTC CGACTGCGCG GCCATCCAGA GACCTGACCC TGCAAAGCGA 
    TGCCACCTCC GTCCCTGTGC TGGCTGGAAA GTGGGAAACT GGAGCAAGTG CTCCAGAAAC 
    TGCAGTGGGG GCTTCAAGAT ACGCGAGATT CAGTGCGTGG ACAGCCGGGA CCACCGGAAC 
    CTGAGGCCAT TTCACTGCCA GTTCCTGGCC GGCATTCCTC CCCCATTGAG CATGAGCTGT 
    AACCCCGAGC CCTGTGGGGT GTGGCAGGTG GAGCCTTGGA GCCAGTGCTC CAGGTCCTGT 
    GGAGGCGGAG TTCAGGAGAG AGAAGTGTTC TGTCCAGGAG GCCTCTGTGA CTGGACAAAA 
    AGACCCACAT CCACCATGTC TTGCAATGAG CACCTTTGCT GTCACTGGGC CACTGGGAAC 
    TGGGAGCTGT GTTCCACTTC CTGTGGAGGT GGCTTTCAGA AGAGGACTGT CCATTGTGTG 
    CCCTCAGAGA ACAATAAAAC TGAAGACCAA GACCAATGCC TGTGTGATCA CGAACCCAGA 
    CCTCCAGAAT TCAAAAAATG CAACCAGCAG GCCTGCAAGA AAAGTGCCGA TTTACTTTGC 
    ACCAAGGACA AGCTGTCAGC CAGTTTCTGC CAGACACTGA AAGCCATGAA GAAATGTTCT 
    GTGCCCACCG TGAGGGCTCA GTGCTGCTTC TCGTGTCCCC AGACACACAT CACCCACAGC 
    CAAAGGCAAA GAAGGCAACG GTTGCCCCAA AAACCCAAAG CACTCTAA

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

    ADAMTS12 ( XM_015139809.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014995295.2 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMb87140
    Clone ID Related Accession (Same CDS sequence) XM_015139809.2 , XM_015139810.2
    Accession Version XM_015139809.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    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 A disintegrin and metalloproteinase with thrombospondin motifs 12 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041759.1) 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_015139809.1. ##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
    ATGACTGGGA GACGTGCCTA CTCCAGGAGC TTGGAATCTT GGGAGCCATC TTGGAAGTCG 
    ACTGGATTTT TCCAACTACC ACATGGAGAC TTTTTCATTG AACCCGTGAA GAAGCACCCA 
    TTGGTTGAGG GAGGGTACCA CCCGCACATC GTTTACAGGA GGCAGAAAGT TCCAGAAACC 
    AAGGAGCCAA CCTGTGGATT AAACGATAGC GTTAACATCT CCCAGAAGCA AGAGCTATGG 
    CGGGAGAAGT GGGAGAGGCA CAACTTGCCA AGCAGAAGCC GCTCTCGGCG TTCCATCAGC 
    AAGGAGAGAT GGGTGGAGAC ACTGGTGGTG GCCGACACAA AGATGATTGA ATACCATGGG 
    AGTGAGAATG TGGAGTCCTA CATCCTCACC ATCATGAACA TGGTCACCGG GTTGTTCCAT 
    AACCCAAGCA TTGGCAATGC AATTCACATC GTTGTGGTTC GGCTCATTCT ACTTGAAGAA 
    GAAGAGCAAG GACTTAAAAT AGTTCATCAT GCGGAGAAGA CACTGTCTAG CTTCTGCAAG 
    TGGCAGAAGA GTATCAATCC CAAGAGTGAC CTCAATCCTG TTCATCACGA TGTGGCTGTC 
    CTTCTCACCA GAAAGGACAT CTGTGCTGGT TTCAATCGCC CCTGCGAGAC CCTGGGCCTG 
    TCTCACCTTT CAGGAATGTG TCAGCCTCAC CGCAGTTGTA ACATCAATGA AGATTCGGGA 
    CTGCCTCTGG CTTTCACAAT TGCCCATGAG CTAGGACACA GCTTTGGCAT CCAGCATGAT 
    GGGAAAGAAA ATGACTGTGA ACCCGTGGGC AGACACCCGT ACATCATGTC CCGCCAGCTC 
    CAGTACGATC CCACCCCACT GACATGGTCC AAGTGCAGCG AGGAGTACAT CACCCGCTTC 
    TTGGACCGAG GCTGGGGGTT CTGCCTTGAT GACATACCTA AAAAGAAGGG CTTGAAGTCC 
    AAGGTCATTG CCCCCGGAGT GATCTATGAT GTTCACCACC AATGCCAGCT ACAGTATGGA 
    CCCAATGCTA CCTTCTGTCA GGAAGTAGAA AACGTCTGCC AGACACTGTG GTGCTCCGTG 
    AAGGGCTTTT GTCGTTCTAA GCTGGATGCT GCTGCAGATG GAACTCAATG TGGTGAGAAG 
    AAGTGGTGTA TGGCAGGCAA GTGCATCACC GTGGGGAAGA AACCAGAGAG CATCCCTGGA 
    GGCTGGGGCC GCTGGTCACC CTGGTCCCAC TGTTCCAGGA CCTGTGGGGC TGGAGTCCAG 
    AGTGCAGAGA GGCTCTGCAA CAACCCTGAG CCAAAGTTTG GAGGAAAATA TTGCACTGGA 
    GAAAGAAAAC GCTATCGCTT GTGCAACGTC CACCCCTGTC GCTCAGAGGC ACCAACATTT 
    CGGCAGATGC AGTGCAGTGA ATTTGACACT GTTCCCTACA AGAATGAACT CTACCACTGG 
    TTTCCCATTT TTAACCCAGC ACATCCTTGT GAGCTCTACT GCCGACCCAT AGATGGCCAG 
    TTTTCTGAGA AAATGCTGGA TGCTGTCATT GATGGTACCC CTTGCTTTGA AGGCGGCAAC 
    AGCAGAAATG TCTGTATTAA TGGCATATGT AAGATGGTTG GCTGTGACTA TGAGATCGAT 
    TCCAATGCCA CAGAGGATCG CTGCGGTGTG TGCCTGGGAG ATGGCTCTTC CTGCCAGACC 
    GTGAGAAAGA TGTTTAAGCA GAAGGAAGGA TCTGGTTATG TTGACATTGG GCTCATTCCG 
    AAAGGAGCAA GGGACATAAG AGTAATGGAA ATTGAGGGAG CTGGAAACTT CCTGGCCATC 
    AGGAGTGAAG ACCCTGAAAA ATATTACCTG AATGGAGGGT TTATTATCCA GTGGAACGGG 
    AACTATAAGC TGGCAGGGAC CGTCTTTCAG TATGACAGGA AAGGAGACCT GGAAAAGCTG 
    ATGGCCACAG GTCCCACCAA TGAGTCTGTG TGGATCCAGC TTCTATTCCA GGTGACTAAC 
    CCTGGCATCA AGTATGAGTA CACAATCCAG AAAGATGGCC TCGACAATGA TGTTGAGCAG 
    CAGATGTACT TCTGGCAGTA TGGCCGCTGG ACAGAGTGCA GTGTGACCTG CGGGACAGGT 
    ATCCGCCGCC AGACTGCCCA TTGCATAAAG AAGGGCCGTG GGATGGTGAA AGCTACATTC 
    TGTGACCCAG AAACACAGCC CAATGGGAGA CAGAAGAAGT GCCATGAAAA GGCTTGTCCA 
    CCCAGGTGGT GGGCAGGGGA GTGGGAAGCA TGCTCCGCGA CATGCGGGCC CCACGGGGAG 
    AAGAAGCGAA CCGTGCTGTG CATCCAGACC ATGGGCTCTG ACGAGCAGGC TCTCCCGCCC 
    ACAGACTGCC AGCACCTGCT GAAGCCCAAG ACCCTCCTTT CCTGCAACAG AGACATCCTG 
    TGCCCCTCGG ACTGGACAGT GGGCAACTGG AGTGAGTGTT CTGTTTCCTG TGGTGGTGGA 
    GTGCGGATTC GCAGTGTCAC ATGTGCCAAG AACCATGATG AACCTTGCGA TGTGACAAGG 
    AAACCCAACA GCCGGGCTCT GTGTGGCCTC CAGCAATGCC CATCTAGCCG GAGAGGTCTG 
    AAACCCAACA AAGGCACTAT TTCCAATGGA AAAAACCCAC CAACACCTGA GCAGGACCCC 
    GTAAAGCCCG TCCCTCTACC TACATCCAGG CCCAGAATGC TGACCACACC CATAGGGCCT 
    GAGTCTATGA GCACAAGCCC TGCAGCAATC AGCAGCCCTC ATCCTACCAC AGCCTCCAAA 
    GAAGGAGACA TGGGTGGGAC ACAGTGGCAA GATAGCTCAA CCCAACCTGA GCTGAGCTCT 
    CGCTATCTCA TTCCCACTGG AAGCACTTCT CAGCCCATCC TCACTTCCCG ATCCGTGAGC 
    ATTCAGCCAA GTGAGGAAAA TGTTTCCAGT TCAGATGCTG GTCCTACCTG GGAGGGAGGC 
    CTTGTAGCTA CAACAAGTGG TTCTGACTTG TCATCTTCCC GCAACCCTAT GACTTGGCCT 
    GTGACTCCAT TTTACAATAC CTTGACCAAA GGTCCAGAAA TGGAGATTCA CAGTGGCTCA 
    GGGGAAGACA GGGAACAGCC TGAGGGCAAA GATGAAAGCA ACCCTGTAAT ATGGACCAAG 
    ATCAGAGTAC CTGGAAATGA CGCTCCAGTG GAAAGTACAG AAATGCCACT TGCACCTCCA 
    CTGACACCGG ATCTCGGTGG GGAGTCCCCG TGGCCAACCT TCAGCACAGT GATAGAAGGA 
    CTGCTCCCCA GACAAAGGCC CAGTACTCCC AAAACTGGCA CACCCAGAGT TGAGGGGATG 
    GTTACTGAAA AGCCAGCTGA CACTCTACTC CCTCTGGGAA GAGACCACCA GCCAGAACCC 
    TCAGGAAAGA CAGCAAACCA TAGCCATCTG AAACTTCCAA ACGACATGAA TCAAACAGAA 
    AGTACTGAAC CAGTCCTGAC TGAGGAGGAT GCAACAAGTC TGATTGCCGA GGGCTTTTTG 
    CTGAATGCCT CCAATTACAA GCAGCTCACA AACGACCACG GCTCTGCACA CTGGATCGTC 
    GGAAACTGGA GCGAGTGCTC CACCACATGT GGTCTGGGGG CCTACTGGAG AAGGGTGGAG 
    TGCAGCACCC AGATGGATTC CGACTGCGCG GCCATCCAGA GACCTGACCC TGCAAAGCGA 
    TGCCACCTCC GTCCCTGTGC TGGCTGGAAA GTGGGAAACT GGAGCAAGTG CTCCAGAAAC 
    TGCAGTGGGG GCTTCAAGAT ACGCGAGATT CAGTGCGTGG ACAGCCGGGA CCACCGGAAC 
    CTGAGGCCAT TTCACTGCCA GTTCCTGGCC GGCATTCCTC CCCCATTGAG CATGAGCTGT 
    AACCCCGAGC CCTGTGGGGT GTGGCAGGTG GAGCCTTGGA GCCAGTGCTC CAGGTCCTGT 
    GGAGGCGGAG TTCAGGAGAG AGAAGTGTTC TGTCCAGGAG GCCTCTGTGA CTGGACAAAA 
    AGACCCACAT CCACCATGTC TTGCAATGAG CACCTTTGCT GTCACTGGGC CACTGGGAAC 
    TGGGAGCTGT GTTCCACTTC CTGTGGAGGT GGCTTTCAGA AGAGGACTGT CCATTGTGTG 
    CCCTCAGAGA ACAATAAAAC TGAAGACCAA GACCAATGCC TGTGTGATCA CGAACCCAGA 
    CCTCCAGAAT TCAAAAAATG CAACCAGCAG GCCTGCAAGA AAAGTGCCGA TTTACTTTGC 
    ACCAAGGACA AGCTGTCAGC CAGTTTCTGC CAGACACTGA AAGCCATGAA GAAATGTTCT 
    GTGCCCACCG TGAGGGCTCA GTGCTGCTTC TCGTGTCCCC AGACACACAT CACCCACAGC 
    CAAAGGCAAA GAAGGCAACG GTTGCCCCAA AAACCCAAAG CACTCTAA

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

    RefSeq XP_014995295.2
    CDS497..4864
    Translation

    Target ORF information:

    RefSeq Version XM_015139809.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015139809.2

    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
    ATGACTGGGA GACGTGCCTA CTCCAGGAGC TTGGAATCTT GGGAGCCATC TTGGAAGTCG 
    ACTGGATTTT TCCAACTACC ACATGGAGAC TTTTTCATTG AACCCGTGAA GAAGCACCCA 
    TTGGTTGAGG GAGGGTACCA CCCGCACATC GTTTACAGGA GGCAGAAAGT TCCAGAAACC 
    AAGGAGCCAA CCTGTGGATT AAACGATAGC GTTAACATCT CCCAGAAGCA AGAGCTATGG 
    CGGGAGAAGT GGGAGAGGCA CAACTTGCCA AGCAGAAGCC GCTCTCGGCG TTCCATCAGC 
    AAGGAGAGAT GGGTGGAGAC ACTGGTGGTG GCCGACACAA AGATGATTGA ATACCATGGG 
    AGTGAGAATG TGGAGTCCTA CATCCTCACC ATCATGAACA TGGTCACCGG GTTGTTCCAT 
    AACCCAAGCA TTGGCAATGC AATTCACATC GTTGTGGTTC GGCTCATTCT ACTTGAAGAA 
    GAAGAGCAAG GACTTAAAAT AGTTCATCAT GCGGAGAAGA CACTGTCTAG CTTCTGCAAG 
    TGGCAGAAGA GTATCAATCC CAAGAGTGAC CTCAATCCTG TTCATCACGA TGTGGCTGTC 
    CTTCTCACCA GAAAGGACAT CTGTGCTGGT TTCAATCGCC CCTGCGAGAC CCTGGGCCTG 
    TCTCACCTTT CAGGAATGTG TCAGCCTCAC CGCAGTTGTA ACATCAATGA AGATTCGGGA 
    CTGCCTCTGG CTTTCACAAT TGCCCATGAG CTAGGACACA GCTTTGGCAT CCAGCATGAT 
    GGGAAAGAAA ATGACTGTGA ACCCGTGGGC AGACACCCGT ACATCATGTC CCGCCAGCTC 
    CAGTACGATC CCACCCCACT GACATGGTCC AAGTGCAGCG AGGAGTACAT CACCCGCTTC 
    TTGGACCGAG GCTGGGGGTT CTGCCTTGAT GACATACCTA AAAAGAAGGG CTTGAAGTCC 
    AAGGTCATTG CCCCCGGAGT GATCTATGAT GTTCACCACC AATGCCAGCT ACAGTATGGA 
    CCCAATGCTA CCTTCTGTCA GGAAGTAGAA AACGTCTGCC AGACACTGTG GTGCTCCGTG 
    AAGGGCTTTT GTCGTTCTAA GCTGGATGCT GCTGCAGATG GAACTCAATG TGGTGAGAAG 
    AAGTGGTGTA TGGCAGGCAA GTGCATCACC GTGGGGAAGA AACCAGAGAG CATCCCTGGA 
    GGCTGGGGCC GCTGGTCACC CTGGTCCCAC TGTTCCAGGA CCTGTGGGGC TGGAGTCCAG 
    AGTGCAGAGA GGCTCTGCAA CAACCCTGAG CCAAAGTTTG GAGGAAAATA TTGCACTGGA 
    GAAAGAAAAC GCTATCGCTT GTGCAACGTC CACCCCTGTC GCTCAGAGGC ACCAACATTT 
    CGGCAGATGC AGTGCAGTGA ATTTGACACT GTTCCCTACA AGAATGAACT CTACCACTGG 
    TTTCCCATTT TTAACCCAGC ACATCCTTGT GAGCTCTACT GCCGACCCAT AGATGGCCAG 
    TTTTCTGAGA AAATGCTGGA TGCTGTCATT GATGGTACCC CTTGCTTTGA AGGCGGCAAC 
    AGCAGAAATG TCTGTATTAA TGGCATATGT AAGATGGTTG GCTGTGACTA TGAGATCGAT 
    TCCAATGCCA CAGAGGATCG CTGCGGTGTG TGCCTGGGAG ATGGCTCTTC CTGCCAGACC 
    GTGAGAAAGA TGTTTAAGCA GAAGGAAGGA TCTGGTTATG TTGACATTGG GCTCATTCCG 
    AAAGGAGCAA GGGACATAAG AGTAATGGAA ATTGAGGGAG CTGGAAACTT CCTGGCCATC 
    AGGAGTGAAG ACCCTGAAAA ATATTACCTG AATGGAGGGT TTATTATCCA GTGGAACGGG 
    AACTATAAGC TGGCAGGGAC CGTCTTTCAG TATGACAGGA AAGGAGACCT GGAAAAGCTG 
    ATGGCCACAG GTCCCACCAA TGAGTCTGTG TGGATCCAGC TTCTATTCCA GGTGACTAAC 
    CCTGGCATCA AGTATGAGTA CACAATCCAG AAAGATGGCC TCGACAATGA TGTTGAGCAG 
    CAGATGTACT TCTGGCAGTA TGGCCGCTGG ACAGAGTGCA GTGTGACCTG CGGGACAGGT 
    ATCCGCCGCC AGACTGCCCA TTGCATAAAG AAGGGCCGTG GGATGGTGAA AGCTACATTC 
    TGTGACCCAG AAACACAGCC CAATGGGAGA CAGAAGAAGT GCCATGAAAA GGCTTGTCCA 
    CCCAGGTGGT GGGCAGGGGA GTGGGAAGCA TGCTCCGCGA CATGCGGGCC CCACGGGGAG 
    AAGAAGCGAA CCGTGCTGTG CATCCAGACC ATGGGCTCTG ACGAGCAGGC TCTCCCGCCC 
    ACAGACTGCC AGCACCTGCT GAAGCCCAAG ACCCTCCTTT CCTGCAACAG AGACATCCTG 
    TGCCCCTCGG ACTGGACAGT GGGCAACTGG AGTGAGTGTT CTGTTTCCTG TGGTGGTGGA 
    GTGCGGATTC GCAGTGTCAC ATGTGCCAAG AACCATGATG AACCTTGCGA TGTGACAAGG 
    AAACCCAACA GCCGGGCTCT GTGTGGCCTC CAGCAATGCC CATCTAGCCG GAGAGGTCTG 
    AAACCCAACA AAGGCACTAT TTCCAATGGA AAAAACCCAC CAACACCTGA GCAGGACCCC 
    GTAAAGCCCG TCCCTCTACC TACATCCAGG CCCAGAATGC TGACCACACC CATAGGGCCT 
    GAGTCTATGA GCACAAGCCC TGCAGCAATC AGCAGCCCTC ATCCTACCAC AGCCTCCAAA 
    GAAGGAGACA TGGGTGGGAC ACAGTGGCAA GATAGCTCAA CCCAACCTGA GCTGAGCTCT 
    CGCTATCTCA TTCCCACTGG AAGCACTTCT CAGCCCATCC TCACTTCCCG ATCCGTGAGC 
    ATTCAGCCAA GTGAGGAAAA TGTTTCCAGT TCAGATGCTG GTCCTACCTG GGAGGGAGGC 
    CTTGTAGCTA CAACAAGTGG TTCTGACTTG TCATCTTCCC GCAACCCTAT GACTTGGCCT 
    GTGACTCCAT TTTACAATAC CTTGACCAAA GGTCCAGAAA TGGAGATTCA CAGTGGCTCA 
    GGGGAAGACA GGGAACAGCC TGAGGGCAAA GATGAAAGCA ACCCTGTAAT ATGGACCAAG 
    ATCAGAGTAC CTGGAAATGA CGCTCCAGTG GAAAGTACAG AAATGCCACT TGCACCTCCA 
    CTGACACCGG ATCTCGGTGG GGAGTCCCCG TGGCCAACCT TCAGCACAGT GATAGAAGGA 
    CTGCTCCCCA GACAAAGGCC CAGTACTCCC AAAACTGGCA CACCCAGAGT TGAGGGGATG 
    GTTACTGAAA AGCCAGCTGA CACTCTACTC CCTCTGGGAA GAGACCACCA GCCAGAACCC 
    TCAGGAAAGA CAGCAAACCA TAGCCATCTG AAACTTCCAA ACGACATGAA TCAAACAGAA 
    AGTACTGAAC CAGTCCTGAC TGAGGAGGAT GCAACAAGTC TGATTGCCGA GGGCTTTTTG 
    CTGAATGCCT CCAATTACAA GCAGCTCACA AACGACCACG GCTCTGCACA CTGGATCGTC 
    GGAAACTGGA GCGAGTGCTC CACCACATGT GGTCTGGGGG CCTACTGGAG AAGGGTGGAG 
    TGCAGCACCC AGATGGATTC CGACTGCGCG GCCATCCAGA GACCTGACCC TGCAAAGCGA 
    TGCCACCTCC GTCCCTGTGC TGGCTGGAAA GTGGGAAACT GGAGCAAGTG CTCCAGAAAC 
    TGCAGTGGGG GCTTCAAGAT ACGCGAGATT CAGTGCGTGG ACAGCCGGGA CCACCGGAAC 
    CTGAGGCCAT TTCACTGCCA GTTCCTGGCC GGCATTCCTC CCCCATTGAG CATGAGCTGT 
    AACCCCGAGC CCTGTGGGGT GTGGCAGGTG GAGCCTTGGA GCCAGTGCTC CAGGTCCTGT 
    GGAGGCGGAG TTCAGGAGAG AGAAGTGTTC TGTCCAGGAG GCCTCTGTGA CTGGACAAAA 
    AGACCCACAT CCACCATGTC TTGCAATGAG CACCTTTGCT GTCACTGGGC CACTGGGAAC 
    TGGGAGCTGT GTTCCACTTC CTGTGGAGGT GGCTTTCAGA AGAGGACTGT CCATTGTGTG 
    CCCTCAGAGA ACAATAAAAC TGAAGACCAA GACCAATGCC TGTGTGATCA CGAACCCAGA 
    CCTCCAGAAT TCAAAAAATG CAACCAGCAG GCCTGCAAGA AAAGTGCCGA TTTACTTTGC 
    ACCAAGGACA AGCTGTCAGC CAGTTTCTGC CAGACACTGA AAGCCATGAA GAAATGTTCT 
    GTGCCCACCG TGAGGGCTCA GTGCTGCTTC TCGTGTCCCC AGACACACAT CACCCACAGC 
    CAAAGGCAAA GAAGGCAACG GTTGCCCCAA AAACCCAAAG CACTCTAA

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

    ADAMTS12 ( XM_015139810.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014995296.2 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMb87140
    Clone ID Related Accession (Same CDS sequence) XM_015139809.2 , XM_015139810.2
    Accession Version XM_015139810.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    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 A disintegrin and metalloproteinase with thrombospondin motifs 12 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041759.1) 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_015139810.1. ##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
    ATGACTGGGA GACGTGCCTA CTCCAGGAGC TTGGAATCTT GGGAGCCATC TTGGAAGTCG 
    ACTGGATTTT TCCAACTACC ACATGGAGAC TTTTTCATTG AACCCGTGAA GAAGCACCCA 
    TTGGTTGAGG GAGGGTACCA CCCGCACATC GTTTACAGGA GGCAGAAAGT TCCAGAAACC 
    AAGGAGCCAA CCTGTGGATT AAACGATAGC GTTAACATCT CCCAGAAGCA AGAGCTATGG 
    CGGGAGAAGT GGGAGAGGCA CAACTTGCCA AGCAGAAGCC GCTCTCGGCG TTCCATCAGC 
    AAGGAGAGAT GGGTGGAGAC ACTGGTGGTG GCCGACACAA AGATGATTGA ATACCATGGG 
    AGTGAGAATG TGGAGTCCTA CATCCTCACC ATCATGAACA TGGTCACCGG GTTGTTCCAT 
    AACCCAAGCA TTGGCAATGC AATTCACATC GTTGTGGTTC GGCTCATTCT ACTTGAAGAA 
    GAAGAGCAAG GACTTAAAAT AGTTCATCAT GCGGAGAAGA CACTGTCTAG CTTCTGCAAG 
    TGGCAGAAGA GTATCAATCC CAAGAGTGAC CTCAATCCTG TTCATCACGA TGTGGCTGTC 
    CTTCTCACCA GAAAGGACAT CTGTGCTGGT TTCAATCGCC CCTGCGAGAC CCTGGGCCTG 
    TCTCACCTTT CAGGAATGTG TCAGCCTCAC CGCAGTTGTA ACATCAATGA AGATTCGGGA 
    CTGCCTCTGG CTTTCACAAT TGCCCATGAG CTAGGACACA GCTTTGGCAT CCAGCATGAT 
    GGGAAAGAAA ATGACTGTGA ACCCGTGGGC AGACACCCGT ACATCATGTC CCGCCAGCTC 
    CAGTACGATC CCACCCCACT GACATGGTCC AAGTGCAGCG AGGAGTACAT CACCCGCTTC 
    TTGGACCGAG GCTGGGGGTT CTGCCTTGAT GACATACCTA AAAAGAAGGG CTTGAAGTCC 
    AAGGTCATTG CCCCCGGAGT GATCTATGAT GTTCACCACC AATGCCAGCT ACAGTATGGA 
    CCCAATGCTA CCTTCTGTCA GGAAGTAGAA AACGTCTGCC AGACACTGTG GTGCTCCGTG 
    AAGGGCTTTT GTCGTTCTAA GCTGGATGCT GCTGCAGATG GAACTCAATG TGGTGAGAAG 
    AAGTGGTGTA TGGCAGGCAA GTGCATCACC GTGGGGAAGA AACCAGAGAG CATCCCTGGA 
    GGCTGGGGCC GCTGGTCACC CTGGTCCCAC TGTTCCAGGA CCTGTGGGGC TGGAGTCCAG 
    AGTGCAGAGA GGCTCTGCAA CAACCCTGAG CCAAAGTTTG GAGGAAAATA TTGCACTGGA 
    GAAAGAAAAC GCTATCGCTT GTGCAACGTC CACCCCTGTC GCTCAGAGGC ACCAACATTT 
    CGGCAGATGC AGTGCAGTGA ATTTGACACT GTTCCCTACA AGAATGAACT CTACCACTGG 
    TTTCCCATTT TTAACCCAGC ACATCCTTGT GAGCTCTACT GCCGACCCAT AGATGGCCAG 
    TTTTCTGAGA AAATGCTGGA TGCTGTCATT GATGGTACCC CTTGCTTTGA AGGCGGCAAC 
    AGCAGAAATG TCTGTATTAA TGGCATATGT AAGATGGTTG GCTGTGACTA TGAGATCGAT 
    TCCAATGCCA CAGAGGATCG CTGCGGTGTG TGCCTGGGAG ATGGCTCTTC CTGCCAGACC 
    GTGAGAAAGA TGTTTAAGCA GAAGGAAGGA TCTGGTTATG TTGACATTGG GCTCATTCCG 
    AAAGGAGCAA GGGACATAAG AGTAATGGAA ATTGAGGGAG CTGGAAACTT CCTGGCCATC 
    AGGAGTGAAG ACCCTGAAAA ATATTACCTG AATGGAGGGT TTATTATCCA GTGGAACGGG 
    AACTATAAGC TGGCAGGGAC CGTCTTTCAG TATGACAGGA AAGGAGACCT GGAAAAGCTG 
    ATGGCCACAG GTCCCACCAA TGAGTCTGTG TGGATCCAGC TTCTATTCCA GGTGACTAAC 
    CCTGGCATCA AGTATGAGTA CACAATCCAG AAAGATGGCC TCGACAATGA TGTTGAGCAG 
    CAGATGTACT TCTGGCAGTA TGGCCGCTGG ACAGAGTGCA GTGTGACCTG CGGGACAGGT 
    ATCCGCCGCC AGACTGCCCA TTGCATAAAG AAGGGCCGTG GGATGGTGAA AGCTACATTC 
    TGTGACCCAG AAACACAGCC CAATGGGAGA CAGAAGAAGT GCCATGAAAA GGCTTGTCCA 
    CCCAGGTGGT GGGCAGGGGA GTGGGAAGCA TGCTCCGCGA CATGCGGGCC CCACGGGGAG 
    AAGAAGCGAA CCGTGCTGTG CATCCAGACC ATGGGCTCTG ACGAGCAGGC TCTCCCGCCC 
    ACAGACTGCC AGCACCTGCT GAAGCCCAAG ACCCTCCTTT CCTGCAACAG AGACATCCTG 
    TGCCCCTCGG ACTGGACAGT GGGCAACTGG AGTGAGTGTT CTGTTTCCTG TGGTGGTGGA 
    GTGCGGATTC GCAGTGTCAC ATGTGCCAAG AACCATGATG AACCTTGCGA TGTGACAAGG 
    AAACCCAACA GCCGGGCTCT GTGTGGCCTC CAGCAATGCC CATCTAGCCG GAGAGGTCTG 
    AAACCCAACA AAGGCACTAT TTCCAATGGA AAAAACCCAC CAACACCTGA GCAGGACCCC 
    GTAAAGCCCG TCCCTCTACC TACATCCAGG CCCAGAATGC TGACCACACC CATAGGGCCT 
    GAGTCTATGA GCACAAGCCC TGCAGCAATC AGCAGCCCTC ATCCTACCAC AGCCTCCAAA 
    GAAGGAGACA TGGGTGGGAC ACAGTGGCAA GATAGCTCAA CCCAACCTGA GCTGAGCTCT 
    CGCTATCTCA TTCCCACTGG AAGCACTTCT CAGCCCATCC TCACTTCCCG ATCCGTGAGC 
    ATTCAGCCAA GTGAGGAAAA TGTTTCCAGT TCAGATGCTG GTCCTACCTG GGAGGGAGGC 
    CTTGTAGCTA CAACAAGTGG TTCTGACTTG TCATCTTCCC GCAACCCTAT GACTTGGCCT 
    GTGACTCCAT TTTACAATAC CTTGACCAAA GGTCCAGAAA TGGAGATTCA CAGTGGCTCA 
    GGGGAAGACA GGGAACAGCC TGAGGGCAAA GATGAAAGCA ACCCTGTAAT ATGGACCAAG 
    ATCAGAGTAC CTGGAAATGA CGCTCCAGTG GAAAGTACAG AAATGCCACT TGCACCTCCA 
    CTGACACCGG ATCTCGGTGG GGAGTCCCCG TGGCCAACCT TCAGCACAGT GATAGAAGGA 
    CTGCTCCCCA GACAAAGGCC CAGTACTCCC AAAACTGGCA CACCCAGAGT TGAGGGGATG 
    GTTACTGAAA AGCCAGCTGA CACTCTACTC CCTCTGGGAA GAGACCACCA GCCAGAACCC 
    TCAGGAAAGA CAGCAAACCA TAGCCATCTG AAACTTCCAA ACGACATGAA TCAAACAGAA 
    AGTACTGAAC CAGTCCTGAC TGAGGAGGAT GCAACAAGTC TGATTGCCGA GGGCTTTTTG 
    CTGAATGCCT CCAATTACAA GCAGCTCACA AACGACCACG GCTCTGCACA CTGGATCGTC 
    GGAAACTGGA GCGAGTGCTC CACCACATGT GGTCTGGGGG CCTACTGGAG AAGGGTGGAG 
    TGCAGCACCC AGATGGATTC CGACTGCGCG GCCATCCAGA GACCTGACCC TGCAAAGCGA 
    TGCCACCTCC GTCCCTGTGC TGGCTGGAAA GTGGGAAACT GGAGCAAGTG CTCCAGAAAC 
    TGCAGTGGGG GCTTCAAGAT ACGCGAGATT CAGTGCGTGG ACAGCCGGGA CCACCGGAAC 
    CTGAGGCCAT TTCACTGCCA GTTCCTGGCC GGCATTCCTC CCCCATTGAG CATGAGCTGT 
    AACCCCGAGC CCTGTGGGGT GTGGCAGGTG GAGCCTTGGA GCCAGTGCTC CAGGTCCTGT 
    GGAGGCGGAG TTCAGGAGAG AGAAGTGTTC TGTCCAGGAG GCCTCTGTGA CTGGACAAAA 
    AGACCCACAT CCACCATGTC TTGCAATGAG CACCTTTGCT GTCACTGGGC CACTGGGAAC 
    TGGGAGCTGT GTTCCACTTC CTGTGGAGGT GGCTTTCAGA AGAGGACTGT CCATTGTGTG 
    CCCTCAGAGA ACAATAAAAC TGAAGACCAA GACCAATGCC TGTGTGATCA CGAACCCAGA 
    CCTCCAGAAT TCAAAAAATG CAACCAGCAG GCCTGCAAGA AAAGTGCCGA TTTACTTTGC 
    ACCAAGGACA AGCTGTCAGC CAGTTTCTGC CAGACACTGA AAGCCATGAA GAAATGTTCT 
    GTGCCCACCG TGAGGGCTCA GTGCTGCTTC TCGTGTCCCC AGACACACAT CACCCACAGC 
    CAAAGGCAAA GAAGGCAACG GTTGCCCCAA AAACCCAAAG CACTCTAA

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

    RefSeq XP_014995296.2
    CDS500..4867
    Translation

    Target ORF information:

    RefSeq Version XM_015139810.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015139810.2

    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
    ATGACTGGGA GACGTGCCTA CTCCAGGAGC TTGGAATCTT GGGAGCCATC TTGGAAGTCG 
    ACTGGATTTT TCCAACTACC ACATGGAGAC TTTTTCATTG AACCCGTGAA GAAGCACCCA 
    TTGGTTGAGG GAGGGTACCA CCCGCACATC GTTTACAGGA GGCAGAAAGT TCCAGAAACC 
    AAGGAGCCAA CCTGTGGATT AAACGATAGC GTTAACATCT CCCAGAAGCA AGAGCTATGG 
    CGGGAGAAGT GGGAGAGGCA CAACTTGCCA AGCAGAAGCC GCTCTCGGCG TTCCATCAGC 
    AAGGAGAGAT GGGTGGAGAC ACTGGTGGTG GCCGACACAA AGATGATTGA ATACCATGGG 
    AGTGAGAATG TGGAGTCCTA CATCCTCACC ATCATGAACA TGGTCACCGG GTTGTTCCAT 
    AACCCAAGCA TTGGCAATGC AATTCACATC GTTGTGGTTC GGCTCATTCT ACTTGAAGAA 
    GAAGAGCAAG GACTTAAAAT AGTTCATCAT GCGGAGAAGA CACTGTCTAG CTTCTGCAAG 
    TGGCAGAAGA GTATCAATCC CAAGAGTGAC CTCAATCCTG TTCATCACGA TGTGGCTGTC 
    CTTCTCACCA GAAAGGACAT CTGTGCTGGT TTCAATCGCC CCTGCGAGAC CCTGGGCCTG 
    TCTCACCTTT CAGGAATGTG TCAGCCTCAC CGCAGTTGTA ACATCAATGA AGATTCGGGA 
    CTGCCTCTGG CTTTCACAAT TGCCCATGAG CTAGGACACA GCTTTGGCAT CCAGCATGAT 
    GGGAAAGAAA ATGACTGTGA ACCCGTGGGC AGACACCCGT ACATCATGTC CCGCCAGCTC 
    CAGTACGATC CCACCCCACT GACATGGTCC AAGTGCAGCG AGGAGTACAT CACCCGCTTC 
    TTGGACCGAG GCTGGGGGTT CTGCCTTGAT GACATACCTA AAAAGAAGGG CTTGAAGTCC 
    AAGGTCATTG CCCCCGGAGT GATCTATGAT GTTCACCACC AATGCCAGCT ACAGTATGGA 
    CCCAATGCTA CCTTCTGTCA GGAAGTAGAA AACGTCTGCC AGACACTGTG GTGCTCCGTG 
    AAGGGCTTTT GTCGTTCTAA GCTGGATGCT GCTGCAGATG GAACTCAATG TGGTGAGAAG 
    AAGTGGTGTA TGGCAGGCAA GTGCATCACC GTGGGGAAGA AACCAGAGAG CATCCCTGGA 
    GGCTGGGGCC GCTGGTCACC CTGGTCCCAC TGTTCCAGGA CCTGTGGGGC TGGAGTCCAG 
    AGTGCAGAGA GGCTCTGCAA CAACCCTGAG CCAAAGTTTG GAGGAAAATA TTGCACTGGA 
    GAAAGAAAAC GCTATCGCTT GTGCAACGTC CACCCCTGTC GCTCAGAGGC ACCAACATTT 
    CGGCAGATGC AGTGCAGTGA ATTTGACACT GTTCCCTACA AGAATGAACT CTACCACTGG 
    TTTCCCATTT TTAACCCAGC ACATCCTTGT GAGCTCTACT GCCGACCCAT AGATGGCCAG 
    TTTTCTGAGA AAATGCTGGA TGCTGTCATT GATGGTACCC CTTGCTTTGA AGGCGGCAAC 
    AGCAGAAATG TCTGTATTAA TGGCATATGT AAGATGGTTG GCTGTGACTA TGAGATCGAT 
    TCCAATGCCA CAGAGGATCG CTGCGGTGTG TGCCTGGGAG ATGGCTCTTC CTGCCAGACC 
    GTGAGAAAGA TGTTTAAGCA GAAGGAAGGA TCTGGTTATG TTGACATTGG GCTCATTCCG 
    AAAGGAGCAA GGGACATAAG AGTAATGGAA ATTGAGGGAG CTGGAAACTT CCTGGCCATC 
    AGGAGTGAAG ACCCTGAAAA ATATTACCTG AATGGAGGGT TTATTATCCA GTGGAACGGG 
    AACTATAAGC TGGCAGGGAC CGTCTTTCAG TATGACAGGA AAGGAGACCT GGAAAAGCTG 
    ATGGCCACAG GTCCCACCAA TGAGTCTGTG TGGATCCAGC TTCTATTCCA GGTGACTAAC 
    CCTGGCATCA AGTATGAGTA CACAATCCAG AAAGATGGCC TCGACAATGA TGTTGAGCAG 
    CAGATGTACT TCTGGCAGTA TGGCCGCTGG ACAGAGTGCA GTGTGACCTG CGGGACAGGT 
    ATCCGCCGCC AGACTGCCCA TTGCATAAAG AAGGGCCGTG GGATGGTGAA AGCTACATTC 
    TGTGACCCAG AAACACAGCC CAATGGGAGA CAGAAGAAGT GCCATGAAAA GGCTTGTCCA 
    CCCAGGTGGT GGGCAGGGGA GTGGGAAGCA TGCTCCGCGA CATGCGGGCC CCACGGGGAG 
    AAGAAGCGAA CCGTGCTGTG CATCCAGACC ATGGGCTCTG ACGAGCAGGC TCTCCCGCCC 
    ACAGACTGCC AGCACCTGCT GAAGCCCAAG ACCCTCCTTT CCTGCAACAG AGACATCCTG 
    TGCCCCTCGG ACTGGACAGT GGGCAACTGG AGTGAGTGTT CTGTTTCCTG TGGTGGTGGA 
    GTGCGGATTC GCAGTGTCAC ATGTGCCAAG AACCATGATG AACCTTGCGA TGTGACAAGG 
    AAACCCAACA GCCGGGCTCT GTGTGGCCTC CAGCAATGCC CATCTAGCCG GAGAGGTCTG 
    AAACCCAACA AAGGCACTAT TTCCAATGGA AAAAACCCAC CAACACCTGA GCAGGACCCC 
    GTAAAGCCCG TCCCTCTACC TACATCCAGG CCCAGAATGC TGACCACACC CATAGGGCCT 
    GAGTCTATGA GCACAAGCCC TGCAGCAATC AGCAGCCCTC ATCCTACCAC AGCCTCCAAA 
    GAAGGAGACA TGGGTGGGAC ACAGTGGCAA GATAGCTCAA CCCAACCTGA GCTGAGCTCT 
    CGCTATCTCA TTCCCACTGG AAGCACTTCT CAGCCCATCC TCACTTCCCG ATCCGTGAGC 
    ATTCAGCCAA GTGAGGAAAA TGTTTCCAGT TCAGATGCTG GTCCTACCTG GGAGGGAGGC 
    CTTGTAGCTA CAACAAGTGG TTCTGACTTG TCATCTTCCC GCAACCCTAT GACTTGGCCT 
    GTGACTCCAT TTTACAATAC CTTGACCAAA GGTCCAGAAA TGGAGATTCA CAGTGGCTCA 
    GGGGAAGACA GGGAACAGCC TGAGGGCAAA GATGAAAGCA ACCCTGTAAT ATGGACCAAG 
    ATCAGAGTAC CTGGAAATGA CGCTCCAGTG GAAAGTACAG AAATGCCACT TGCACCTCCA 
    CTGACACCGG ATCTCGGTGG GGAGTCCCCG TGGCCAACCT TCAGCACAGT GATAGAAGGA 
    CTGCTCCCCA GACAAAGGCC CAGTACTCCC AAAACTGGCA CACCCAGAGT TGAGGGGATG 
    GTTACTGAAA AGCCAGCTGA CACTCTACTC CCTCTGGGAA GAGACCACCA GCCAGAACCC 
    TCAGGAAAGA CAGCAAACCA TAGCCATCTG AAACTTCCAA ACGACATGAA TCAAACAGAA 
    AGTACTGAAC CAGTCCTGAC TGAGGAGGAT GCAACAAGTC TGATTGCCGA GGGCTTTTTG 
    CTGAATGCCT CCAATTACAA GCAGCTCACA AACGACCACG GCTCTGCACA CTGGATCGTC 
    GGAAACTGGA GCGAGTGCTC CACCACATGT GGTCTGGGGG CCTACTGGAG AAGGGTGGAG 
    TGCAGCACCC AGATGGATTC CGACTGCGCG GCCATCCAGA GACCTGACCC TGCAAAGCGA 
    TGCCACCTCC GTCCCTGTGC TGGCTGGAAA GTGGGAAACT GGAGCAAGTG CTCCAGAAAC 
    TGCAGTGGGG GCTTCAAGAT ACGCGAGATT CAGTGCGTGG ACAGCCGGGA CCACCGGAAC 
    CTGAGGCCAT TTCACTGCCA GTTCCTGGCC GGCATTCCTC CCCCATTGAG CATGAGCTGT 
    AACCCCGAGC CCTGTGGGGT GTGGCAGGTG GAGCCTTGGA GCCAGTGCTC CAGGTCCTGT 
    GGAGGCGGAG TTCAGGAGAG AGAAGTGTTC TGTCCAGGAG GCCTCTGTGA CTGGACAAAA 
    AGACCCACAT CCACCATGTC TTGCAATGAG CACCTTTGCT GTCACTGGGC CACTGGGAAC 
    TGGGAGCTGT GTTCCACTTC CTGTGGAGGT GGCTTTCAGA AGAGGACTGT CCATTGTGTG 
    CCCTCAGAGA ACAATAAAAC TGAAGACCAA GACCAATGCC TGTGTGATCA CGAACCCAGA 
    CCTCCAGAAT TCAAAAAATG CAACCAGCAG GCCTGCAAGA AAAGTGCCGA TTTACTTTGC 
    ACCAAGGACA AGCTGTCAGC CAGTTTCTGC CAGACACTGA AAGCCATGAA GAAATGTTCT 
    GTGCCCACCG TGAGGGCTCA GTGCTGCTTC TCGTGTCCCC AGACACACAT CACCCACAGC 
    CAAAGGCAAA GAAGGCAACG GTTGCCCCAA AAACCCAAAG CACTCTAA

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

    ADAMTS12 ( XM_015139808.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014995294.1 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMb34495
    Clone ID Related Accession (Same CDS sequence) XM_015139808.1
    Accession Version XM_015139808.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4797bp)
    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 A disintegrin and metalloproteinase with thrombospondin motifs 12 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804927.1) 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
    ATGCCATGTG CCCAGAGGAG CTGGCTTGCA AACCTTTCCG TGGTGGCCCA GCTCCTTAAC 
    TTTGGGGCGC TTTGCTATGG GAGACAGCCT CAGCCAGGCC CGGTTCGCTT CCCGGACAGG 
    AGGCAAGAGC ATTTTGTCAA GGGTCTGCCA GAATACCACG TGGTGGGTCC AGTCCGAGTA 
    GATGCCAGTG GGCATTTTTT GTCATATGGC TTGCACTATC CCATCACGAG CAGCAGGAGG 
    AGGAGAGATT TGGATGGCTC AGAGGACTGG GTGTACTACA GAATTTCTCA CGAGGAGAAG 
    GACCTGTTTT TTAACTTGAC GGTCAATCGA GGATTTCTTT CCAATAGCTA CATCATGGAG 
    AAGAGATATG GGAACCTCTC CCGAATTAAG ATGATGGCTT CCTCTGCCCC GCTCTGCCAT 
    CTCAGTGGCA CGGTTCTGCA GCAGGGCACC AGAGTTGGGA CGGCAGCCCT CAGTGCCTGC 
    CATGGACTGA CTGGATTTTT CCAACTACCA CATGGAGACT TTTTCATTGA ACCCGTGAAG 
    AAGCACCCAT TGGTTGAGGG AGGGTACCAC CCGCACATCG TTTACAGGAG GCAGAAAGTT 
    CCAGAAACCA AGGAGCCAAC CTGTGGATTA AACGATAGCG TTAACATCTC CCAGAAGCAA 
    GAGCTATGGC GGGAGAAGTG GGAGAGGCAC AACTTGCCAA GCAGAAGCCG CTCTCGGCGT 
    TCCATCAGCA AGGAGAGATG GGTGGAGACA CTGGTGGTGG CCGACACAAA GATGATTGAA 
    TACCATGGGA GTGAGAATGT GGAGTCCTAC ATCCTCACCA TCATGAACAT GGTCACCGGG 
    TTGTTCCATA ACCCAAGCAT TGGCAATGCA ATTCACATCG TTGTGGTTCG GCTCATTCTA 
    CTTGAAGAAG AAGAGCAAGG ACTTAAAATA GTTCATCATG CGGAGAAGAC ACTGTCTAGC 
    TTCTGCAAGT GGCAGAAGAG TATCAATCCC AAGAGTGACC TCAATCCTGT TCATCATGAT 
    GTGGCTGTCC TTCTCACCAG AAAGGACATC TGTGCTGGTT TCAATCGCCC CTGCGAGACC 
    CTGGGCCTGT CTCACCTTTC AGGAATGTGT CAGCCTCACC GCAGTTGTAA CATCAATGAA 
    GATTCGGGAC TGCCCCTGGC TTTCACAATT GCCCATGAGC TAGGACACAG CTTTGGCATC 
    CAGCATGATG GGAAAGAAAA TGACTGTGAA CCCGTGGGCA GACACCCGTA CATCATGTCC 
    CGCCAGCTCC AGTACGATCC CACCCCACTG ACATGGTCCA AGTGCAGCGA GGAGTACATC 
    ACCCGCTTCT TGGACCGAGG CTGGGGGTTC TGCCTTGATG ACATACCTAA AAAGAAGGGC 
    TTGAAGTCCA AGGTCATTGC CCCCGGAGTG ATCTATGATG TTCACCACCA ATGCCAGCTA 
    CAGTATGGAC CCAATGCTAC CTTCTGTCAG GAAGTAGAAA ACGTCTGCCA GACACTGTGG 
    TGCTCCGTGA AGGGCTTTTG TCGTTCTAAG CTGGATGCTG CTGCAGATGG AACTCAATGT 
    GGTGAGAAGA AGTGGTGTAT GGCAGGCAAG TGCATCACCG TGGGGAAGAA ACCAGAGAGC 
    ATCCCTGGAG GCTGGGGCCG CTGGTCACCC TGGTCCCACT GTTCCAGGAC CTGTGGGGCT 
    GGAGTCCAGA GTGCAGAGAG GCTCTGCAAC AACCCTGAGC CAAAGTTTGG AGGAAAATAT 
    TGCACTGGAG AAAGAAAACG CTATCGCTTG TGCAACGTCC ACCCCTGTCG CTCAGAGGCA 
    CCAACATTTC GGCAGATGCA GTGCAGTGAA TTTGACACTG TTCCCTACAA GAATGAACTC 
    TACCACTGGT TTCCCATTTT TAACCCAGCA CATCCTTGTG AGCTCTACTG CCGACCCATA 
    GATGGCCAGT TTTCTGAGAA AATGCTGGAT GCTGTCATTG ATGGTACCCC TTGCTTTGAA 
    GGCGGCAACA GCAGAAATGT CTGTATTAAT GGCATATGTA AGATGGTTGG CTGTGACTAT 
    GAGATCGATT CCAATGCCAC AGAGGATCGC TGCGGTGTGT GCCTGGGAGA TGGCTCTTCC 
    TGCCAGACCG TGAGAAAGAT GTTTAAGCAG AAGGAAGGAT CTGGTTATGT TGACATTGGG 
    CTCATTCCGA AAGGAGCAAG GGACATAAGA GTAATGGAAA TTGAGGGAGC TGGAAACTTC 
    CTGGCCATCA GGAGTGAAGA CCCTGAAAAA TATTACCTGA ATGGAGGGTT TATTATCCAG 
    TGGAACGGGA ACTATAAGCT GGCAGGGACC GTCTTTCAGT ATGACAGGAA AGGAGACCTG 
    GAAAAGCTGA TGGCCACAGG TCCCACCAAT GAGTCTGTGT GGATCCAGCT TCTATTCCAG 
    GTGACTAACC CTGGCATCAA GTATGAGTAC ACAATCCAGA AAGATGGCCT CGACAATGAT 
    GTTGAGCAGC AGATGTACTT CTGGCAGTAT GGCCGCTGGA CAGAGTGCAG TGTGACCTGC 
    GGGACAGGTA TCCGCCGCCA GACTGCCCAT TGCATAAAGA AGGGCCGTGG GATGGTGAAA 
    GCTACATTCT GTGACCCAGA AACACAGCCC AATGGGAGAC AGAAGAAGTG CCATGAAAAG 
    GCTTGTCCAC CCAGGTGGTG GGCAGGGGAG TGGGAAGCAT GCTCCGCGAC ATGCGGGCCC 
    CACGGGGAGA AGAAGCGAAC CGTGCTGTGC ATCCAGACCA TGGGCTCTGA CGAGCAGGCT 
    CTCCCGCCCA CAGACTGCCA GCACCTGCTG AAGCCCAAGA CCCTCCTTTC CTGCAACAGA 
    GACATCCTGT GCCCCTCGGA CTGGACAGTG GGCAACTGGA GTGAGTGTTC TGTTTCCTGT 
    GGTGGTGGAG TGCGGATTCG CAGTGTCACA TGTGCCAAGA ACCATGATGA ACCTTGCGAT 
    GTGACAAGGA AACCCAACAG CCGGGCTCTG TGTGGCCTCC AGCAATGCCC ATCTAGCCGG 
    AGAGGTCTGA AACCCAACAA AGGCACTATT TCCAATGGAA AAAACCCACC AACACCTGAG 
    CAGGACCCCG TAAAGCCCGT CCCTCTACCT ACATCCAGGC CCAGAATGCT GACCACACCC 
    ATAGGGCCTG AGTCTATGAG CACAAGCCCT GCAGCAATCA GCAGCCCTCA TCCTACCACA 
    GCCTCCAAAG AAGGAGACAT GGGTGGGACA CAGTGGCAAG ATAGCTCAAC CCAACCTGAG 
    CTGAGCTCTC GCTATCTCAT TCCCACTGGA AGCACTTCTC AGCCCATCCT CACTTCCCGA 
    TCCGTGAGCA TTCAGCCAAG TGAGGAAAAT GTTTCCAGTT CAGATGCTGG TCCTACCTGG 
    GAGGGAGGCC TTGTAGCTAC AACAAGTGGT TCTGACTTGT CATCTTCCCG CAACCCTATG 
    ACTTGGCCTG TGACTCCATT TTACAATACC TTGACCAAAG GTCCAGAAAT GGAGATTCAC 
    AGTGGCTCAG GGGAAGACAG GGAACAGCCT GAGGGCAAAG ATGAAAGCAA CCCTGTAATA 
    TGGACCAAGA TCAGAGTACC TGGAAATGAC GCTCCAGTGG AAAGTACAGA AATGCCACTT 
    GCACCTCCAC TGACACCGGA TCTCGGTGGG GAGTCCCCGT GGCCAACCTT CAGCACAGTG 
    ATAGAAGGAC TGCTCCCCAG CCAAAGGCCC AGTACTCCCA AAACTGGCAC ACCCAGAGTT 
    GAGGGGATGG TTACTGAAAA GCCAGCTGAC ACTCTACTCC CTCTGGGAAG AGACCACCAG 
    CCAGAACCCT CAGGAAAGAC AGCAAACCAT AGCCATCTGA AACTTCCAAA CGACATGAAT 
    CAAACAGAAA GTACTGAACC AGTCCTGACT GAGGAGGATG CAACAAGTCT GATTGCCGAG 
    GGCTTTTTGC TGAATGCCTC CAATTACAAG CAGCTCACAA ACGACCACGG CTCTGCACAC 
    TGGATCGTCG GAAACTGGAG CGAGTGCTCC ACCACATGTG GTCTGGGGGC CTACTGGAGA 
    AGGGTGGAGT GCAGCACCCA GATGGATTCC GACTGCGCGG CCATCCAGAG ACCTGACCCT 
    GCAAAGCGAT GCCACCTCCG TCCCTGTGCT GGCTGGAAAG TGGGAAACTG GAGCAAGTGC 
    TCCAGAAACT GCAGTGGGGG CTTCAAGATA CGCGAGATTC AGTGCGTGGA CAGCCGGGAC 
    CACCGGAACC TGAGGCCATT TCACTGCCAG TTCCTGGCCG GCATTCCTCC CCCATTGAGC 
    ATGAGCTGTA ACCCCGAGCC CTGTGGGGTG TGGCAGGTGG AGCCTTGGAG CCAGTGCTCC 
    AGGTCCTGTG GAGGCGGAGT TCAGGAGAGA GAAGTGTTCT GTCCAGGAGG CCTCTGTGAC 
    TGGACAAAAA GACCCACATC CACCATGTCT TGCAATGAGC ACCTTTGCTG TCACTGGGCC 
    ACTGGGAACT GGGAGCTGTG TTCCACTTCC TGTGGAGGTG GCTTTCAGAA GAGGACTGTC 
    CATTGTGTGC CCTCAGAGAA CAATAAAACT GAAGACCAAG ACCAATGCCT GTGTGATCAC 
    GAACCCAGAC CTCCAGAATT CAAAAAATGC AACCAGCAGG CCTGCAAGAA AAGTGCCGAT 
    TTACTTTGCA CCAAGGACAA GCTGTCAGCC AGTTTCTGCC AGACACTGAA AGCCATGAAG 
    AAATGTTCTG TGCCCACCGT GAGGGCTCAG TGCTGCTTCT CGTGTCCCCA GACACACATC 
    ACCCACAGCC AAAGGCAAAG AAGGCAACGG TTGCCCCAAA AACCCAAAGC ACTCTAA

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

    RefSeq XP_014995294.1
    CDS331..5127
    Translation

    Target ORF information:

    RefSeq Version XM_015139808.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015139808.1

    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
    ATGCCATGTG CCCAGAGGAG CTGGCTTGCA AACCTTTCCG TGGTGGCCCA GCTCCTTAAC 
    TTTGGGGCGC TTTGCTATGG GAGACAGCCT CAGCCAGGCC CGGTTCGCTT CCCGGACAGG 
    AGGCAAGAGC ATTTTGTCAA GGGTCTGCCA GAATACCACG TGGTGGGTCC AGTCCGAGTA 
    GATGCCAGTG GGCATTTTTT GTCATATGGC TTGCACTATC CCATCACGAG CAGCAGGAGG 
    AGGAGAGATT TGGATGGCTC AGAGGACTGG GTGTACTACA GAATTTCTCA CGAGGAGAAG 
    GACCTGTTTT TTAACTTGAC GGTCAATCGA GGATTTCTTT CCAATAGCTA CATCATGGAG 
    AAGAGATATG GGAACCTCTC CCGAATTAAG ATGATGGCTT CCTCTGCCCC GCTCTGCCAT 
    CTCAGTGGCA CGGTTCTGCA GCAGGGCACC AGAGTTGGGA CGGCAGCCCT CAGTGCCTGC 
    CATGGACTGA CTGGATTTTT CCAACTACCA CATGGAGACT TTTTCATTGA ACCCGTGAAG 
    AAGCACCCAT TGGTTGAGGG AGGGTACCAC CCGCACATCG TTTACAGGAG GCAGAAAGTT 
    CCAGAAACCA AGGAGCCAAC CTGTGGATTA AACGATAGCG TTAACATCTC CCAGAAGCAA 
    GAGCTATGGC GGGAGAAGTG GGAGAGGCAC AACTTGCCAA GCAGAAGCCG CTCTCGGCGT 
    TCCATCAGCA AGGAGAGATG GGTGGAGACA CTGGTGGTGG CCGACACAAA GATGATTGAA 
    TACCATGGGA GTGAGAATGT GGAGTCCTAC ATCCTCACCA TCATGAACAT GGTCACCGGG 
    TTGTTCCATA ACCCAAGCAT TGGCAATGCA ATTCACATCG TTGTGGTTCG GCTCATTCTA 
    CTTGAAGAAG AAGAGCAAGG ACTTAAAATA GTTCATCATG CGGAGAAGAC ACTGTCTAGC 
    TTCTGCAAGT GGCAGAAGAG TATCAATCCC AAGAGTGACC TCAATCCTGT TCATCATGAT 
    GTGGCTGTCC TTCTCACCAG AAAGGACATC TGTGCTGGTT TCAATCGCCC CTGCGAGACC 
    CTGGGCCTGT CTCACCTTTC AGGAATGTGT CAGCCTCACC GCAGTTGTAA CATCAATGAA 
    GATTCGGGAC TGCCCCTGGC TTTCACAATT GCCCATGAGC TAGGACACAG CTTTGGCATC 
    CAGCATGATG GGAAAGAAAA TGACTGTGAA CCCGTGGGCA GACACCCGTA CATCATGTCC 
    CGCCAGCTCC AGTACGATCC CACCCCACTG ACATGGTCCA AGTGCAGCGA GGAGTACATC 
    ACCCGCTTCT TGGACCGAGG CTGGGGGTTC TGCCTTGATG ACATACCTAA AAAGAAGGGC 
    TTGAAGTCCA AGGTCATTGC CCCCGGAGTG ATCTATGATG TTCACCACCA ATGCCAGCTA 
    CAGTATGGAC CCAATGCTAC CTTCTGTCAG GAAGTAGAAA ACGTCTGCCA GACACTGTGG 
    TGCTCCGTGA AGGGCTTTTG TCGTTCTAAG CTGGATGCTG CTGCAGATGG AACTCAATGT 
    GGTGAGAAGA AGTGGTGTAT GGCAGGCAAG TGCATCACCG TGGGGAAGAA ACCAGAGAGC 
    ATCCCTGGAG GCTGGGGCCG CTGGTCACCC TGGTCCCACT GTTCCAGGAC CTGTGGGGCT 
    GGAGTCCAGA GTGCAGAGAG GCTCTGCAAC AACCCTGAGC CAAAGTTTGG AGGAAAATAT 
    TGCACTGGAG AAAGAAAACG CTATCGCTTG TGCAACGTCC ACCCCTGTCG CTCAGAGGCA 
    CCAACATTTC GGCAGATGCA GTGCAGTGAA TTTGACACTG TTCCCTACAA GAATGAACTC 
    TACCACTGGT TTCCCATTTT TAACCCAGCA CATCCTTGTG AGCTCTACTG CCGACCCATA 
    GATGGCCAGT TTTCTGAGAA AATGCTGGAT GCTGTCATTG ATGGTACCCC TTGCTTTGAA 
    GGCGGCAACA GCAGAAATGT CTGTATTAAT GGCATATGTA AGATGGTTGG CTGTGACTAT 
    GAGATCGATT CCAATGCCAC AGAGGATCGC TGCGGTGTGT GCCTGGGAGA TGGCTCTTCC 
    TGCCAGACCG TGAGAAAGAT GTTTAAGCAG AAGGAAGGAT CTGGTTATGT TGACATTGGG 
    CTCATTCCGA AAGGAGCAAG GGACATAAGA GTAATGGAAA TTGAGGGAGC TGGAAACTTC 
    CTGGCCATCA GGAGTGAAGA CCCTGAAAAA TATTACCTGA ATGGAGGGTT TATTATCCAG 
    TGGAACGGGA ACTATAAGCT GGCAGGGACC GTCTTTCAGT ATGACAGGAA AGGAGACCTG 
    GAAAAGCTGA TGGCCACAGG TCCCACCAAT GAGTCTGTGT GGATCCAGCT TCTATTCCAG 
    GTGACTAACC CTGGCATCAA GTATGAGTAC ACAATCCAGA AAGATGGCCT CGACAATGAT 
    GTTGAGCAGC AGATGTACTT CTGGCAGTAT GGCCGCTGGA CAGAGTGCAG TGTGACCTGC 
    GGGACAGGTA TCCGCCGCCA GACTGCCCAT TGCATAAAGA AGGGCCGTGG GATGGTGAAA 
    GCTACATTCT GTGACCCAGA AACACAGCCC AATGGGAGAC AGAAGAAGTG CCATGAAAAG 
    GCTTGTCCAC CCAGGTGGTG GGCAGGGGAG TGGGAAGCAT GCTCCGCGAC ATGCGGGCCC 
    CACGGGGAGA AGAAGCGAAC CGTGCTGTGC ATCCAGACCA TGGGCTCTGA CGAGCAGGCT 
    CTCCCGCCCA CAGACTGCCA GCACCTGCTG AAGCCCAAGA CCCTCCTTTC CTGCAACAGA 
    GACATCCTGT GCCCCTCGGA CTGGACAGTG GGCAACTGGA GTGAGTGTTC TGTTTCCTGT 
    GGTGGTGGAG TGCGGATTCG CAGTGTCACA TGTGCCAAGA ACCATGATGA ACCTTGCGAT 
    GTGACAAGGA AACCCAACAG CCGGGCTCTG TGTGGCCTCC AGCAATGCCC ATCTAGCCGG 
    AGAGGTCTGA AACCCAACAA AGGCACTATT TCCAATGGAA AAAACCCACC AACACCTGAG 
    CAGGACCCCG TAAAGCCCGT CCCTCTACCT ACATCCAGGC CCAGAATGCT GACCACACCC 
    ATAGGGCCTG AGTCTATGAG CACAAGCCCT GCAGCAATCA GCAGCCCTCA TCCTACCACA 
    GCCTCCAAAG AAGGAGACAT GGGTGGGACA CAGTGGCAAG ATAGCTCAAC CCAACCTGAG 
    CTGAGCTCTC GCTATCTCAT TCCCACTGGA AGCACTTCTC AGCCCATCCT CACTTCCCGA 
    TCCGTGAGCA TTCAGCCAAG TGAGGAAAAT GTTTCCAGTT CAGATGCTGG TCCTACCTGG 
    GAGGGAGGCC TTGTAGCTAC AACAAGTGGT TCTGACTTGT CATCTTCCCG CAACCCTATG 
    ACTTGGCCTG TGACTCCATT TTACAATACC TTGACCAAAG GTCCAGAAAT GGAGATTCAC 
    AGTGGCTCAG GGGAAGACAG GGAACAGCCT GAGGGCAAAG ATGAAAGCAA CCCTGTAATA 
    TGGACCAAGA TCAGAGTACC TGGAAATGAC GCTCCAGTGG AAAGTACAGA AATGCCACTT 
    GCACCTCCAC TGACACCGGA TCTCGGTGGG GAGTCCCCGT GGCCAACCTT CAGCACAGTG 
    ATAGAAGGAC TGCTCCCCAG CCAAAGGCCC AGTACTCCCA AAACTGGCAC ACCCAGAGTT 
    GAGGGGATGG TTACTGAAAA GCCAGCTGAC ACTCTACTCC CTCTGGGAAG AGACCACCAG 
    CCAGAACCCT CAGGAAAGAC AGCAAACCAT AGCCATCTGA AACTTCCAAA CGACATGAAT 
    CAAACAGAAA GTACTGAACC AGTCCTGACT GAGGAGGATG CAACAAGTCT GATTGCCGAG 
    GGCTTTTTGC TGAATGCCTC CAATTACAAG CAGCTCACAA ACGACCACGG CTCTGCACAC 
    TGGATCGTCG GAAACTGGAG CGAGTGCTCC ACCACATGTG GTCTGGGGGC CTACTGGAGA 
    AGGGTGGAGT GCAGCACCCA GATGGATTCC GACTGCGCGG CCATCCAGAG ACCTGACCCT 
    GCAAAGCGAT GCCACCTCCG TCCCTGTGCT GGCTGGAAAG TGGGAAACTG GAGCAAGTGC 
    TCCAGAAACT GCAGTGGGGG CTTCAAGATA CGCGAGATTC AGTGCGTGGA CAGCCGGGAC 
    CACCGGAACC TGAGGCCATT TCACTGCCAG TTCCTGGCCG GCATTCCTCC CCCATTGAGC 
    ATGAGCTGTA ACCCCGAGCC CTGTGGGGTG TGGCAGGTGG AGCCTTGGAG CCAGTGCTCC 
    AGGTCCTGTG GAGGCGGAGT TCAGGAGAGA GAAGTGTTCT GTCCAGGAGG CCTCTGTGAC 
    TGGACAAAAA GACCCACATC CACCATGTCT TGCAATGAGC ACCTTTGCTG TCACTGGGCC 
    ACTGGGAACT GGGAGCTGTG TTCCACTTCC TGTGGAGGTG GCTTTCAGAA GAGGACTGTC 
    CATTGTGTGC CCTCAGAGAA CAATAAAACT GAAGACCAAG ACCAATGCCT GTGTGATCAC 
    GAACCCAGAC CTCCAGAATT CAAAAAATGC AACCAGCAGG CCTGCAAGAA AAGTGCCGAT 
    TTACTTTGCA CCAAGGACAA GCTGTCAGCC AGTTTCTGCC AGACACTGAA AGCCATGAAG 
    AAATGTTCTG TGCCCACCGT GAGGGCTCAG TGCTGCTTCT CGTGTCCCCA GACACACATC 
    ACCCACAGCC AAAGGCAAAG AAGGCAACGG TTGCCCCAAA AACCCAAAGC ACTCTAA

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

    ADAMTS12 ( XM_015139808.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014995294.2 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMb87139
    Clone ID Related Accession (Same CDS sequence) XM_015139808.2
    Accession Version XM_015139808.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4797bp)
    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 A disintegrin and metalloproteinase with thrombospondin motifs 12 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041759.1) 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_015139808.1. ##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
    ATGCCATGTG CCCAGAGGAG CTGGCTTGCA AACCTTTCCG TGGTGGCCCA GCTCCTTAAC 
    TTTGGGGCGC TTTGCTATGG GAGACAGCCT CAGCCAGGCC CGGTTCGCTT CCCAGACAGG 
    AGGCAAGAGC ATTTTGTCAA GGGTCTGCCA GAATACCACG TGGTGGGTCC AGTCCGAGTA 
    GACGCCAGCG GGCATTTTTT GTCGTATGGC TTGCACTATC CCATCACCAG CAGCAGGAGG 
    AGGAGAGATT TGGATGGCTC AGAGGACTGG GTGTACTACA GAATTTCTCA CGAGGAGAAG 
    GACCTGTTTT TTAACTTGAC GGTCAATCGA GGATTTCTTT CCAATAGCTA CATCATGGAG 
    AAGAGATATG GGAACCTCTC CCGAGTTAAG ATGATGGCTT CCTCTGCCCC GCTCTGCCAT 
    CTCAGTGGCA CGGTTCTGCA GCAGGGCACC AGAGTTGGGA CGGCAGCCCT CAGTGCCTGC 
    CATGGACTGA CTGGATTTTT CCAACTACCA CATGGAGACT TTTTCATTGA ACCCGTGAAG 
    AAGCACCCAT TGGTTGAGGG AGGGTACCAC CCGCACATCG TTTACAGGAG GCAGAAAGTT 
    CCAGAAACCA AGGAGCCAAC CTGTGGATTA AACGATAGCG TTAACATCTC CCAGAAGCAA 
    GAGCTATGGC GGGAGAAGTG GGAGAGGCAC AACTTGCCAA GCAGAAGCCG CTCTCGGCGT 
    TCCATCAGCA AGGAGAGATG GGTGGAGACA CTGGTGGTGG CCGACACAAA GATGATTGAA 
    TACCATGGGA GTGAGAATGT GGAGTCCTAC ATCCTCACCA TCATGAACAT GGTCACCGGG 
    TTGTTCCATA ACCCAAGCAT TGGCAATGCA ATTCACATCG TTGTGGTTCG GCTCATTCTA 
    CTTGAAGAAG AAGAGCAAGG ACTTAAAATA GTTCATCATG CGGAGAAGAC ACTGTCTAGC 
    TTCTGCAAGT GGCAGAAGAG TATCAATCCC AAGAGTGACC TCAATCCTGT TCATCACGAT 
    GTGGCTGTCC TTCTCACCAG AAAGGACATC TGTGCTGGTT TCAATCGCCC CTGCGAGACC 
    CTGGGCCTGT CTCACCTTTC AGGAATGTGT CAGCCTCACC GCAGTTGTAA CATCAATGAA 
    GATTCGGGAC TGCCTCTGGC TTTCACAATT GCCCATGAGC TAGGACACAG CTTTGGCATC 
    CAGCATGATG GGAAAGAAAA TGACTGTGAA CCCGTGGGCA GACACCCGTA CATCATGTCC 
    CGCCAGCTCC AGTACGATCC CACCCCACTG ACATGGTCCA AGTGCAGCGA GGAGTACATC 
    ACCCGCTTCT TGGACCGAGG CTGGGGGTTC TGCCTTGATG ACATACCTAA AAAGAAGGGC 
    TTGAAGTCCA AGGTCATTGC CCCCGGAGTG ATCTATGATG TTCACCACCA ATGCCAGCTA 
    CAGTATGGAC CCAATGCTAC CTTCTGTCAG GAAGTAGAAA ACGTCTGCCA GACACTGTGG 
    TGCTCCGTGA AGGGCTTTTG TCGTTCTAAG CTGGATGCTG CTGCAGATGG AACTCAATGT 
    GGTGAGAAGA AGTGGTGTAT GGCAGGCAAG TGCATCACCG TGGGGAAGAA ACCAGAGAGC 
    ATCCCTGGAG GCTGGGGCCG CTGGTCACCC TGGTCCCACT GTTCCAGGAC CTGTGGGGCT 
    GGAGTCCAGA GTGCAGAGAG GCTCTGCAAC AACCCTGAGC CAAAGTTTGG AGGAAAATAT 
    TGCACTGGAG AAAGAAAACG CTATCGCTTG TGCAACGTCC ACCCCTGTCG CTCAGAGGCA 
    CCAACATTTC GGCAGATGCA GTGCAGTGAA TTTGACACTG TTCCCTACAA GAATGAACTC 
    TACCACTGGT TTCCCATTTT TAACCCAGCA CATCCTTGTG AGCTCTACTG CCGACCCATA 
    GATGGCCAGT TTTCTGAGAA AATGCTGGAT GCTGTCATTG ATGGTACCCC TTGCTTTGAA 
    GGCGGCAACA GCAGAAATGT CTGTATTAAT GGCATATGTA AGATGGTTGG CTGTGACTAT 
    GAGATCGATT CCAATGCCAC AGAGGATCGC TGCGGTGTGT GCCTGGGAGA TGGCTCTTCC 
    TGCCAGACCG TGAGAAAGAT GTTTAAGCAG AAGGAAGGAT CTGGTTATGT TGACATTGGG 
    CTCATTCCGA AAGGAGCAAG GGACATAAGA GTAATGGAAA TTGAGGGAGC TGGAAACTTC 
    CTGGCCATCA GGAGTGAAGA CCCTGAAAAA TATTACCTGA ATGGAGGGTT TATTATCCAG 
    TGGAACGGGA ACTATAAGCT GGCAGGGACC GTCTTTCAGT ATGACAGGAA AGGAGACCTG 
    GAAAAGCTGA TGGCCACAGG TCCCACCAAT GAGTCTGTGT GGATCCAGCT TCTATTCCAG 
    GTGACTAACC CTGGCATCAA GTATGAGTAC ACAATCCAGA AAGATGGCCT CGACAATGAT 
    GTTGAGCAGC AGATGTACTT CTGGCAGTAT GGCCGCTGGA CAGAGTGCAG TGTGACCTGC 
    GGGACAGGTA TCCGCCGCCA GACTGCCCAT TGCATAAAGA AGGGCCGTGG GATGGTGAAA 
    GCTACATTCT GTGACCCAGA AACACAGCCC AATGGGAGAC AGAAGAAGTG CCATGAAAAG 
    GCTTGTCCAC CCAGGTGGTG GGCAGGGGAG TGGGAAGCAT GCTCCGCGAC ATGCGGGCCC 
    CACGGGGAGA AGAAGCGAAC CGTGCTGTGC ATCCAGACCA TGGGCTCTGA CGAGCAGGCT 
    CTCCCGCCCA CAGACTGCCA GCACCTGCTG AAGCCCAAGA CCCTCCTTTC CTGCAACAGA 
    GACATCCTGT GCCCCTCGGA CTGGACAGTG GGCAACTGGA GTGAGTGTTC TGTTTCCTGT 
    GGTGGTGGAG TGCGGATTCG CAGTGTCACA TGTGCCAAGA ACCATGATGA ACCTTGCGAT 
    GTGACAAGGA AACCCAACAG CCGGGCTCTG TGTGGCCTCC AGCAATGCCC ATCTAGCCGG 
    AGAGGTCTGA AACCCAACAA AGGCACTATT TCCAATGGAA AAAACCCACC AACACCTGAG 
    CAGGACCCCG TAAAGCCCGT CCCTCTACCT ACATCCAGGC CCAGAATGCT GACCACACCC 
    ATAGGGCCTG AGTCTATGAG CACAAGCCCT GCAGCAATCA GCAGCCCTCA TCCTACCACA 
    GCCTCCAAAG AAGGAGACAT GGGTGGGACA CAGTGGCAAG ATAGCTCAAC CCAACCTGAG 
    CTGAGCTCTC GCTATCTCAT TCCCACTGGA AGCACTTCTC AGCCCATCCT CACTTCCCGA 
    TCCGTGAGCA TTCAGCCAAG TGAGGAAAAT GTTTCCAGTT CAGATGCTGG TCCTACCTGG 
    GAGGGAGGCC TTGTAGCTAC AACAAGTGGT TCTGACTTGT CATCTTCCCG CAACCCTATG 
    ACTTGGCCTG TGACTCCATT TTACAATACC TTGACCAAAG GTCCAGAAAT GGAGATTCAC 
    AGTGGCTCAG GGGAAGACAG GGAACAGCCT GAGGGCAAAG ATGAAAGCAA CCCTGTAATA 
    TGGACCAAGA TCAGAGTACC TGGAAATGAC GCTCCAGTGG AAAGTACAGA AATGCCACTT 
    GCACCTCCAC TGACACCGGA TCTCGGTGGG GAGTCCCCGT GGCCAACCTT CAGCACAGTG 
    ATAGAAGGAC TGCTCCCCAG ACAAAGGCCC AGTACTCCCA AAACTGGCAC ACCCAGAGTT 
    GAGGGGATGG TTACTGAAAA GCCAGCTGAC ACTCTACTCC CTCTGGGAAG AGACCACCAG 
    CCAGAACCCT CAGGAAAGAC AGCAAACCAT AGCCATCTGA AACTTCCAAA CGACATGAAT 
    CAAACAGAAA GTACTGAACC AGTCCTGACT GAGGAGGATG CAACAAGTCT GATTGCCGAG 
    GGCTTTTTGC TGAATGCCTC CAATTACAAG CAGCTCACAA ACGACCACGG CTCTGCACAC 
    TGGATCGTCG GAAACTGGAG CGAGTGCTCC ACCACATGTG GTCTGGGGGC CTACTGGAGA 
    AGGGTGGAGT GCAGCACCCA GATGGATTCC GACTGCGCGG CCATCCAGAG ACCTGACCCT 
    GCAAAGCGAT GCCACCTCCG TCCCTGTGCT GGCTGGAAAG TGGGAAACTG GAGCAAGTGC 
    TCCAGAAACT GCAGTGGGGG CTTCAAGATA CGCGAGATTC AGTGCGTGGA CAGCCGGGAC 
    CACCGGAACC TGAGGCCATT TCACTGCCAG TTCCTGGCCG GCATTCCTCC CCCATTGAGC 
    ATGAGCTGTA ACCCCGAGCC CTGTGGGGTG TGGCAGGTGG AGCCTTGGAG CCAGTGCTCC 
    AGGTCCTGTG GAGGCGGAGT TCAGGAGAGA GAAGTGTTCT GTCCAGGAGG CCTCTGTGAC 
    TGGACAAAAA GACCCACATC CACCATGTCT TGCAATGAGC ACCTTTGCTG TCACTGGGCC 
    ACTGGGAACT GGGAGCTGTG TTCCACTTCC TGTGGAGGTG GCTTTCAGAA GAGGACTGTC 
    CATTGTGTGC CCTCAGAGAA CAATAAAACT GAAGACCAAG ACCAATGCCT GTGTGATCAC 
    GAACCCAGAC CTCCAGAATT CAAAAAATGC AACCAGCAGG CCTGCAAGAA AAGTGCCGAT 
    TTACTTTGCA CCAAGGACAA GCTGTCAGCC AGTTTCTGCC AGACACTGAA AGCCATGAAG 
    AAATGTTCTG TGCCCACCGT GAGGGCTCAG TGCTGCTTCT CGTGTCCCCA GACACACATC 
    ACCCACAGCC AAAGGCAAAG AAGGCAACGG TTGCCCCAAA AACCCAAAGC ACTCTAA

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

    RefSeq XP_014995294.2
    CDS332..5128
    Translation

    Target ORF information:

    RefSeq Version XM_015139808.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 12 (ADAMTS12), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015139808.2

    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
    ATGCCATGTG CCCAGAGGAG CTGGCTTGCA AACCTTTCCG TGGTGGCCCA GCTCCTTAAC 
    TTTGGGGCGC TTTGCTATGG GAGACAGCCT CAGCCAGGCC CGGTTCGCTT CCCAGACAGG 
    AGGCAAGAGC ATTTTGTCAA GGGTCTGCCA GAATACCACG TGGTGGGTCC AGTCCGAGTA 
    GACGCCAGCG GGCATTTTTT GTCGTATGGC TTGCACTATC CCATCACCAG CAGCAGGAGG 
    AGGAGAGATT TGGATGGCTC AGAGGACTGG GTGTACTACA GAATTTCTCA CGAGGAGAAG 
    GACCTGTTTT TTAACTTGAC GGTCAATCGA GGATTTCTTT CCAATAGCTA CATCATGGAG 
    AAGAGATATG GGAACCTCTC CCGAGTTAAG ATGATGGCTT CCTCTGCCCC GCTCTGCCAT 
    CTCAGTGGCA CGGTTCTGCA GCAGGGCACC AGAGTTGGGA CGGCAGCCCT CAGTGCCTGC 
    CATGGACTGA CTGGATTTTT CCAACTACCA CATGGAGACT TTTTCATTGA ACCCGTGAAG 
    AAGCACCCAT TGGTTGAGGG AGGGTACCAC CCGCACATCG TTTACAGGAG GCAGAAAGTT 
    CCAGAAACCA AGGAGCCAAC CTGTGGATTA AACGATAGCG TTAACATCTC CCAGAAGCAA 
    GAGCTATGGC GGGAGAAGTG GGAGAGGCAC AACTTGCCAA GCAGAAGCCG CTCTCGGCGT 
    TCCATCAGCA AGGAGAGATG GGTGGAGACA CTGGTGGTGG CCGACACAAA GATGATTGAA 
    TACCATGGGA GTGAGAATGT GGAGTCCTAC ATCCTCACCA TCATGAACAT GGTCACCGGG 
    TTGTTCCATA ACCCAAGCAT TGGCAATGCA ATTCACATCG TTGTGGTTCG GCTCATTCTA 
    CTTGAAGAAG AAGAGCAAGG ACTTAAAATA GTTCATCATG CGGAGAAGAC ACTGTCTAGC 
    TTCTGCAAGT GGCAGAAGAG TATCAATCCC AAGAGTGACC TCAATCCTGT TCATCACGAT 
    GTGGCTGTCC TTCTCACCAG AAAGGACATC TGTGCTGGTT TCAATCGCCC CTGCGAGACC 
    CTGGGCCTGT CTCACCTTTC AGGAATGTGT CAGCCTCACC GCAGTTGTAA CATCAATGAA 
    GATTCGGGAC TGCCTCTGGC TTTCACAATT GCCCATGAGC TAGGACACAG CTTTGGCATC 
    CAGCATGATG GGAAAGAAAA TGACTGTGAA CCCGTGGGCA GACACCCGTA CATCATGTCC 
    CGCCAGCTCC AGTACGATCC CACCCCACTG ACATGGTCCA AGTGCAGCGA GGAGTACATC 
    ACCCGCTTCT TGGACCGAGG CTGGGGGTTC TGCCTTGATG ACATACCTAA AAAGAAGGGC 
    TTGAAGTCCA AGGTCATTGC CCCCGGAGTG ATCTATGATG TTCACCACCA ATGCCAGCTA 
    CAGTATGGAC CCAATGCTAC CTTCTGTCAG GAAGTAGAAA ACGTCTGCCA GACACTGTGG 
    TGCTCCGTGA AGGGCTTTTG TCGTTCTAAG CTGGATGCTG CTGCAGATGG AACTCAATGT 
    GGTGAGAAGA AGTGGTGTAT GGCAGGCAAG TGCATCACCG TGGGGAAGAA ACCAGAGAGC 
    ATCCCTGGAG GCTGGGGCCG CTGGTCACCC TGGTCCCACT GTTCCAGGAC CTGTGGGGCT 
    GGAGTCCAGA GTGCAGAGAG GCTCTGCAAC AACCCTGAGC CAAAGTTTGG AGGAAAATAT 
    TGCACTGGAG AAAGAAAACG CTATCGCTTG TGCAACGTCC ACCCCTGTCG CTCAGAGGCA 
    CCAACATTTC GGCAGATGCA GTGCAGTGAA TTTGACACTG TTCCCTACAA GAATGAACTC 
    TACCACTGGT TTCCCATTTT TAACCCAGCA CATCCTTGTG AGCTCTACTG CCGACCCATA 
    GATGGCCAGT TTTCTGAGAA AATGCTGGAT GCTGTCATTG ATGGTACCCC TTGCTTTGAA 
    GGCGGCAACA GCAGAAATGT CTGTATTAAT GGCATATGTA AGATGGTTGG CTGTGACTAT 
    GAGATCGATT CCAATGCCAC AGAGGATCGC TGCGGTGTGT GCCTGGGAGA TGGCTCTTCC 
    TGCCAGACCG TGAGAAAGAT GTTTAAGCAG AAGGAAGGAT CTGGTTATGT TGACATTGGG 
    CTCATTCCGA AAGGAGCAAG GGACATAAGA GTAATGGAAA TTGAGGGAGC TGGAAACTTC 
    CTGGCCATCA GGAGTGAAGA CCCTGAAAAA TATTACCTGA ATGGAGGGTT TATTATCCAG 
    TGGAACGGGA ACTATAAGCT GGCAGGGACC GTCTTTCAGT ATGACAGGAA AGGAGACCTG 
    GAAAAGCTGA TGGCCACAGG TCCCACCAAT GAGTCTGTGT GGATCCAGCT TCTATTCCAG 
    GTGACTAACC CTGGCATCAA GTATGAGTAC ACAATCCAGA AAGATGGCCT CGACAATGAT 
    GTTGAGCAGC AGATGTACTT CTGGCAGTAT GGCCGCTGGA CAGAGTGCAG TGTGACCTGC 
    GGGACAGGTA TCCGCCGCCA GACTGCCCAT TGCATAAAGA AGGGCCGTGG GATGGTGAAA 
    GCTACATTCT GTGACCCAGA AACACAGCCC AATGGGAGAC AGAAGAAGTG CCATGAAAAG 
    GCTTGTCCAC CCAGGTGGTG GGCAGGGGAG TGGGAAGCAT GCTCCGCGAC ATGCGGGCCC 
    CACGGGGAGA AGAAGCGAAC CGTGCTGTGC ATCCAGACCA TGGGCTCTGA CGAGCAGGCT 
    CTCCCGCCCA CAGACTGCCA GCACCTGCTG AAGCCCAAGA CCCTCCTTTC CTGCAACAGA 
    GACATCCTGT GCCCCTCGGA CTGGACAGTG GGCAACTGGA GTGAGTGTTC TGTTTCCTGT 
    GGTGGTGGAG TGCGGATTCG CAGTGTCACA TGTGCCAAGA ACCATGATGA ACCTTGCGAT 
    GTGACAAGGA AACCCAACAG CCGGGCTCTG TGTGGCCTCC AGCAATGCCC ATCTAGCCGG 
    AGAGGTCTGA AACCCAACAA AGGCACTATT TCCAATGGAA AAAACCCACC AACACCTGAG 
    CAGGACCCCG TAAAGCCCGT CCCTCTACCT ACATCCAGGC CCAGAATGCT GACCACACCC 
    ATAGGGCCTG AGTCTATGAG CACAAGCCCT GCAGCAATCA GCAGCCCTCA TCCTACCACA 
    GCCTCCAAAG AAGGAGACAT GGGTGGGACA CAGTGGCAAG ATAGCTCAAC CCAACCTGAG 
    CTGAGCTCTC GCTATCTCAT TCCCACTGGA AGCACTTCTC AGCCCATCCT CACTTCCCGA 
    TCCGTGAGCA TTCAGCCAAG TGAGGAAAAT GTTTCCAGTT CAGATGCTGG TCCTACCTGG 
    GAGGGAGGCC TTGTAGCTAC AACAAGTGGT TCTGACTTGT CATCTTCCCG CAACCCTATG 
    ACTTGGCCTG TGACTCCATT TTACAATACC TTGACCAAAG GTCCAGAAAT GGAGATTCAC 
    AGTGGCTCAG GGGAAGACAG GGAACAGCCT GAGGGCAAAG ATGAAAGCAA CCCTGTAATA 
    TGGACCAAGA TCAGAGTACC TGGAAATGAC GCTCCAGTGG AAAGTACAGA AATGCCACTT 
    GCACCTCCAC TGACACCGGA TCTCGGTGGG GAGTCCCCGT GGCCAACCTT CAGCACAGTG 
    ATAGAAGGAC TGCTCCCCAG ACAAAGGCCC AGTACTCCCA AAACTGGCAC ACCCAGAGTT 
    GAGGGGATGG TTACTGAAAA GCCAGCTGAC ACTCTACTCC CTCTGGGAAG AGACCACCAG 
    CCAGAACCCT CAGGAAAGAC AGCAAACCAT AGCCATCTGA AACTTCCAAA CGACATGAAT 
    CAAACAGAAA GTACTGAACC AGTCCTGACT GAGGAGGATG CAACAAGTCT GATTGCCGAG 
    GGCTTTTTGC TGAATGCCTC CAATTACAAG CAGCTCACAA ACGACCACGG CTCTGCACAC 
    TGGATCGTCG GAAACTGGAG CGAGTGCTCC ACCACATGTG GTCTGGGGGC CTACTGGAGA 
    AGGGTGGAGT GCAGCACCCA GATGGATTCC GACTGCGCGG CCATCCAGAG ACCTGACCCT 
    GCAAAGCGAT GCCACCTCCG TCCCTGTGCT GGCTGGAAAG TGGGAAACTG GAGCAAGTGC 
    TCCAGAAACT GCAGTGGGGG CTTCAAGATA CGCGAGATTC AGTGCGTGGA CAGCCGGGAC 
    CACCGGAACC TGAGGCCATT TCACTGCCAG TTCCTGGCCG GCATTCCTCC CCCATTGAGC 
    ATGAGCTGTA ACCCCGAGCC CTGTGGGGTG TGGCAGGTGG AGCCTTGGAG CCAGTGCTCC 
    AGGTCCTGTG GAGGCGGAGT TCAGGAGAGA GAAGTGTTCT GTCCAGGAGG CCTCTGTGAC 
    TGGACAAAAA GACCCACATC CACCATGTCT TGCAATGAGC ACCTTTGCTG TCACTGGGCC 
    ACTGGGAACT GGGAGCTGTG TTCCACTTCC TGTGGAGGTG GCTTTCAGAA GAGGACTGTC 
    CATTGTGTGC CCTCAGAGAA CAATAAAACT GAAGACCAAG ACCAATGCCT GTGTGATCAC 
    GAACCCAGAC CTCCAGAATT CAAAAAATGC AACCAGCAGG CCTGCAAGAA AAGTGCCGAT 
    TTACTTTGCA CCAAGGACAA GCTGTCAGCC AGTTTCTGCC AGACACTGAA AGCCATGAAG 
    AAATGTTCTG TGCCCACCGT GAGGGCTCAG TGCTGCTTCT CGTGTCCCCA GACACACATC 
    ACCCACAGCC AAAGGCAAAG AAGGCAACGG TTGCCCCAAA AACCCAAAGC ACTCTAA

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

見積依頼

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03-6811-6573
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