ORF » Species Summary » Xenopus tropicalis » adamts9 cDNA ORF clone

adamts9 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following adamts9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the adamts9 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
OXa23264 NM_001007896.1
Latest version!		 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 9 (adamts9), mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $510.30
$729.00
OXa26857 NM_001374796.1
Latest version!		 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 9 (adamts9), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa26857 XM_012960910.2
Latest version!		 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 9 (adamts9), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    adamts9 ( NM_001007896.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> NP_001007897.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 9 (adamts9), mRNA.
    Price & Availability↑
    CloneID OXa23264
    Clone ID Related Accession (Same CDS sequence) NM_001007896.1
    Accession Version NM_001007896.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2604bp)
    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 2018-11-10
    Organism Xenopus tropicalis(tropical clawed frog)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 9
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC080332.1. ##Evidence-Data-START## Transcript exon combination :: BC080332.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMN00862020, SAMN00862022 [ECO:0000350] ##Evidence-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
    ATGCACTTCA AGAGGACGAG GAGGAGTGTC CCTAACAGTC GTGACATTGA CCCTTGGGCC 
    GCCTCTAGGA CTCATTACAA ACTGTCAGCC TTCGGCCAGC ACTTTTTTCT CAATCTGACT 
    GCCAATTCTG GATTTATGGC ACCGGTTTTT ACCGTTAGCC TGCATGGGAA ACCCAGGGGC 
    AACCAAAGCA GCTACTACAC GGACAACACT GACTTTCAGC ACTGCTTTTT CAATGGGCAT 
    GTGAATCACA GGGCAGAGCA TACGGCAGTC ATCAGCCTTT GTTCAGGGAT GCTAGGCACA 
    TTCAAGTCTC AGGACGGGGA CTATTTCGTA GAACCGTTAC TCTCCGACGA CAGTGAATAT 
    GAAGAAGAAC ACAACAAGCC ACACGTCGTC TACAGACACA ACCCACCTCA CAGAAACATC 
    TCAAGGGAAG AGCAGACGTG CCACACCGCA GAGCCAACGC ACGCGTCAGA CTCACACGCA 
    AAGGGAGGCG CCCGACTGGA ACAAAATGAC CCCCATTCAG ATGACCAGGC CTTGAATAAG 
    GGCTTGTTAG GAACCCAGAA CCCCCTATTC AATAAAGCAG ATAACGCCAC TGGGACCCGG 
    ACCTTGCGAA GGAAAAAGCG CTTCCTGTCT TACCCTCGGT ACGTGGAAGT GATGGTGGTG 
    GCTGACAACA AGATGGTTGA ATATCACGGC GCTAATCTGC AGCATTACGT TCTGACTCTC 
    ATGTCCATAG TAGCTTCTAT TTATAAGGAT CCGAGCATTG GGAATTTAAT TAATATTGCC 
    ATAGTGAAGT TAGCAGTGGT CCATGATGAA CAGGAGGGCC CGGCCATCTC ATTCAATGCC 
    CAAAGCACTT TGAAAAACTT TTGCATATGG CAGCAATCGC AGAACAACCC GGACGACAAT 
    CATCCGTCGC ACCACGATAC CGCCGTGCTC ATCACTCGAC AGGATATTTG TAAGGCGCAA 
    GAAAAATGCG ACACTTTGGG CCTGGCCGAA CTGGGCACCG TGTGTGACCC CTACCGGAGC 
    TGCTCCATCA GTGAAGACAA CGGGCTCAGC ACGGCATTTA CTATAGCACA TGAGCTTGGA 
    CACGTATTCA ACATGCCGCA CGACGACAGC AACAAATGCA AAGAGGAAAG CGGCAAAAAC 
    CAGCAGCACG TCATGGCGCC GACCCTTAAC TTCTACACCA ACCCCTGGAT GTGGTCAAAG 
    TGCAGCCGGA AATACGTCAC GCAGTTTCTA GACACGGGTT ACGGGGAGTG CCTGCTGGAT 
    GAGCCAATCT CTAGAACATA CACACTGCCT CAGCAGCTAC CGGGGGCTTT GTACAATGTC 
    AATAAGCAAT GTGAATTGAT ATTTGGACCG GGATCCCAGG TGTGCCCGTA TATGCAAATG 
    CAGTGCCGGC GACTGTGGTG CATCAGCAGC GATGGGCAAC ACAAGGGCTG CCGGACCCAA 
    CACACGCCGT GGGCAGATGG CACCGAATGT GAGCCGGGGA AGCACTGCAG ATACGGAGTA 
    TGTATTCCTA AAGAACGGGA CGTACAGATT GCAGATGGAT CTTGGGGGTC CTGGAGTCCA 
    TTCGGAGCCT GCTCTCGGTC ATGTGGTGGT GGGATAAAAA CTTCCATCCG TGAATGCAAT 
    AGACCCGAAC CAAAAAATGG TGGTAAATAC TGTGTTGGGC GTAGAATGAA GTTTAAATCC 
    TGCAATACGG AGCTGTGCGC CAAACACAAG AGAGACTTCA GAGAGGAGCA GTGCGCGGAT 
    TTCGACGGGA AGCATTTTAA TATTAATGGT CTACCTCCAA ATGTGCGCTG GGTGCCCAAA 
    TACAGCGGCA TTTTAATGAA AGACCGCTGC AAGCTCTTCT GCCGAGTAGC GGGGAGCACG 
    GCTTATTATC AGCTCAGGGA CAGAGTGGTG GATGGGACGT CGTGTGGGCC GGACACTAAC 
    GATATCTGCG TGCAAGGACT GTGTCGGCAA GCTGGATGCG ACCATGTCCT AAACTCAAAG 
    GCCAGAAGGG ACAAGTGCGG TGTTTGTGGG GGAGACAATT CATCCTGTAA AACAATTGCT 
    GGAACATATA ATATAGTGCA TTACGGCTAC AACTCCGTGG TTCGCATTCC AGCTGGTGCT 
    ACTAACCTTG ACGTTCGACA ACACAGCTAC TCAGGGAAGC CAGAAGATGA CAATTACCTT 
    GCTTTGTCGA ACAGTCATGG AGAATTTCTT TTAAATGGAG ACTTTGTGGT CAGTATGTTC 
    AAAAGGGAAA TCAAAGTGGG AAATGCGGTG ATTGAATATA GCGGGTCGGA CAATGCCATC 
    GAAAGGATTA ACTGCACGGA TCGCATTGAG CAGGAAATCG TTCTCCAGAT CCTGTCAGTT 
    GGTAATTTAT ATAATCCAGA CGTGCGGTAT ACTTTTAATA TTCCAATTGA AGATAAACCT 
    CAGCAGTTTT ACTGGAATCC ATACGGGCCT TGGCAGCCCT GCAACAAAAT GTGCCAAGGG 
    GAACGAAAGC AGAAACCAGT ATGTATCCGG GATTCTGACC AGCTAGTTGT TTCGGATCAG 
    AGATGTGATC GGATCCCTCA GCCAGAGCCA GTAACAGAGC CATGTAACAC TGAATGTGAA 
    GTGGCACGTG GCCAGGAAGA GTGA

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

    RefSeq NP_001007897.1
    CDS420..3023
    Translation

    Target ORF information:

    RefSeq Version NM_001007896.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 9 (adamts9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001007896.1

    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
    ATGCACTTCA AGAGGACGAG GAGGAGTGTC CCTAACAGTC GTGACATTGA CCCTTGGGCC 
    GCCTCTAGGA CTCATTACAA ACTGTCAGCC TTCGGCCAGC ACTTTTTTCT CAATCTGACT 
    GCCAATTCTG GATTTATGGC ACCGGTTTTT ACCGTTAGCC TGCATGGGAA ACCCAGGGGC 
    AACCAAAGCA GCTACTACAC GGACAACACT GACTTTCAGC ACTGCTTTTT CAATGGGCAT 
    GTGAATCACA GGGCAGAGCA TACGGCAGTC ATCAGCCTTT GTTCAGGGAT GCTAGGCACA 
    TTCAAGTCTC AGGACGGGGA CTATTTCGTA GAACCGTTAC TCTCCGACGA CAGTGAATAT 
    GAAGAAGAAC ACAACAAGCC ACACGTCGTC TACAGACACA ACCCACCTCA CAGAAACATC 
    TCAAGGGAAG AGCAGACGTG CCACACCGCA GAGCCAACGC ACGCGTCAGA CTCACACGCA 
    AAGGGAGGCG CCCGACTGGA ACAAAATGAC CCCCATTCAG ATGACCAGGC CTTGAATAAG 
    GGCTTGTTAG GAACCCAGAA CCCCCTATTC AATAAAGCAG ATAACGCCAC TGGGACCCGG 
    ACCTTGCGAA GGAAAAAGCG CTTCCTGTCT TACCCTCGGT ACGTGGAAGT GATGGTGGTG 
    GCTGACAACA AGATGGTTGA ATATCACGGC GCTAATCTGC AGCATTACGT TCTGACTCTC 
    ATGTCCATAG TAGCTTCTAT TTATAAGGAT CCGAGCATTG GGAATTTAAT TAATATTGCC 
    ATAGTGAAGT TAGCAGTGGT CCATGATGAA CAGGAGGGCC CGGCCATCTC ATTCAATGCC 
    CAAAGCACTT TGAAAAACTT TTGCATATGG CAGCAATCGC AGAACAACCC GGACGACAAT 
    CATCCGTCGC ACCACGATAC CGCCGTGCTC ATCACTCGAC AGGATATTTG TAAGGCGCAA 
    GAAAAATGCG ACACTTTGGG CCTGGCCGAA CTGGGCACCG TGTGTGACCC CTACCGGAGC 
    TGCTCCATCA GTGAAGACAA CGGGCTCAGC ACGGCATTTA CTATAGCACA TGAGCTTGGA 
    CACGTATTCA ACATGCCGCA CGACGACAGC AACAAATGCA AAGAGGAAAG CGGCAAAAAC 
    CAGCAGCACG TCATGGCGCC GACCCTTAAC TTCTACACCA ACCCCTGGAT GTGGTCAAAG 
    TGCAGCCGGA AATACGTCAC GCAGTTTCTA GACACGGGTT ACGGGGAGTG CCTGCTGGAT 
    GAGCCAATCT CTAGAACATA CACACTGCCT CAGCAGCTAC CGGGGGCTTT GTACAATGTC 
    AATAAGCAAT GTGAATTGAT ATTTGGACCG GGATCCCAGG TGTGCCCGTA TATGCAAATG 
    CAGTGCCGGC GACTGTGGTG CATCAGCAGC GATGGGCAAC ACAAGGGCTG CCGGACCCAA 
    CACACGCCGT GGGCAGATGG CACCGAATGT GAGCCGGGGA AGCACTGCAG ATACGGAGTA 
    TGTATTCCTA AAGAACGGGA CGTACAGATT GCAGATGGAT CTTGGGGGTC CTGGAGTCCA 
    TTCGGAGCCT GCTCTCGGTC ATGTGGTGGT GGGATAAAAA CTTCCATCCG TGAATGCAAT 
    AGACCCGAAC CAAAAAATGG TGGTAAATAC TGTGTTGGGC GTAGAATGAA GTTTAAATCC 
    TGCAATACGG AGCTGTGCGC CAAACACAAG AGAGACTTCA GAGAGGAGCA GTGCGCGGAT 
    TTCGACGGGA AGCATTTTAA TATTAATGGT CTACCTCCAA ATGTGCGCTG GGTGCCCAAA 
    TACAGCGGCA TTTTAATGAA AGACCGCTGC AAGCTCTTCT GCCGAGTAGC GGGGAGCACG 
    GCTTATTATC AGCTCAGGGA CAGAGTGGTG GATGGGACGT CGTGTGGGCC GGACACTAAC 
    GATATCTGCG TGCAAGGACT GTGTCGGCAA GCTGGATGCG ACCATGTCCT AAACTCAAAG 
    GCCAGAAGGG ACAAGTGCGG TGTTTGTGGG GGAGACAATT CATCCTGTAA AACAATTGCT 
    GGAACATATA ATATAGTGCA TTACGGCTAC AACTCCGTGG TTCGCATTCC AGCTGGTGCT 
    ACTAACCTTG ACGTTCGACA ACACAGCTAC TCAGGGAAGC CAGAAGATGA CAATTACCTT 
    GCTTTGTCGA ACAGTCATGG AGAATTTCTT TTAAATGGAG ACTTTGTGGT CAGTATGTTC 
    AAAAGGGAAA TCAAAGTGGG AAATGCGGTG ATTGAATATA GCGGGTCGGA CAATGCCATC 
    GAAAGGATTA ACTGCACGGA TCGCATTGAG CAGGAAATCG TTCTCCAGAT CCTGTCAGTT 
    GGTAATTTAT ATAATCCAGA CGTGCGGTAT ACTTTTAATA TTCCAATTGA AGATAAACCT 
    CAGCAGTTTT ACTGGAATCC ATACGGGCCT TGGCAGCCCT GCAACAAAAT GTGCCAAGGG 
    GAACGAAAGC AGAAACCAGT ATGTATCCGG GATTCTGACC AGCTAGTTGT TTCGGATCAG 
    AGATGTGATC GGATCCCTCA GCCAGAGCCA GTAACAGAGC CATGTAACAC TGAATGTGAA 
    GTGGCACGTG GCCAGGAAGA GTGA

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

    adamts9 ( NM_001374796.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> NP_001361725.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 9 (adamts9), mRNA.
    Price & Availability↑
    CloneID OXa26857
    Clone ID Related Accession (Same CDS sequence) XM_012960910.2 , NM_001374796.1
    Accession Version NM_001374796.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5772bp)
    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 2019-10-15
    Organism Xenopus tropicalis(tropical clawed frog)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 9 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AAMC03017151.1, AAMC03017154.1, AAMC03017155.1, AAMC03017156.1, AAMC03017157.1 and AAMC03017158.1. On Oct 16, 2019 this sequence version replaced XM_012960910.2. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMN00861988, SAMN00861989 [ECO:0000350] ##Evidence-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
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGCATCTTG CCTCCCGGCT GCTGGGACTA GTGATTCTCC TGCGGGACTG CGCGTATGGA 
    GCGGCGCCAC TGAGGGCTCC CCGGCTCTAC CCAAGGCAAG CCAAGTTCCT AGAGAAGCTG 
    GGGGCTTACG AGATAGTGAC CCCCACCAGA GTGAATGAGC TTGGAGAAGC CTTTCCCAGC 
    AACATGCACT TCAAGAGGAC GAGGAGGAGT GTCCCTAACA GTCGTGACAT TGACCCTTGG 
    GCCGCCTCTA GGACTCATTA CAAACTGTCA GCCTTCGGCC AGCACTTTTT TCTCAATCTG 
    ACTGCCAATT CTGGATTTAT GGCACCGGTT TTTACCGTTA GCCTGCATGG GAAACCCAGG 
    GGCAACCAAA GCAGCTACTA CACGGACAAC ACTGACTTTC AGCACTGCTT TTTCAATGGG 
    CATGTGAATC ACAGGGCAGA GCATACGGCA GTCATCAGCC TTTGTTCAGG GATGCTAGGC 
    ACATTCAAGT CTCAGGACGG GGACTATTTC GTAGAACCGT TACTCTCCGA CGACAGTGAA 
    TATGAAGAAG AACACAACAA GCCACACGTC GTCTACAGAC ACAACCCACC TCACAGAAAC 
    ATCTCAAGGG AAGAACAGAC GTGCCACACC GCAGAGCCAA CGCATGCGTC AGACTCACAC 
    GCAAAGGGAG GCGCCCGACT GGAACAAAAT GACCCCCATT CAGATGACCA GGCCTTGAAT 
    AAGGGCTTGT TAGGAACCCA GAACCCCCTA TTCAATAAAG CAGATAACGC CACTGGGACC 
    CGGACCTTGC GAAGGAAAAA GCGCTTCCTG TCTTACCCTC GGTACGTGGA AGTGATGGTG 
    GTGGCTGACA ACAAGATGGT TGAATATCAC GGCGCTAATC TGCAGCATTA CGTTCTGACT 
    CTCATGTCCA TAGTAGCTTC TATTTATAAG GATCCGAGCA TTGGGAATTT AATTAATATT 
    GCCATAGTGA AGTTAGCAGT GGTCCATGAT GAACAGGAGG GCCCGGCCAT CTCATTCAAT 
    GCCCAAAGCA CTTTGAAAAA CTTTTGCATA TGGCAGCAAT CGCAGAACAA CCCGGACGAC 
    AATCATCCGT CGCACCACGA TACCGCCGTG CTCATCACTC GACAGGATAT TTGTAGGGCG 
    CAAGAAAAAT GCGACACTTT GGGCCTGGCC GAACTGGGCA CCGTGTGTGA CCCCTACCGG 
    AGCTGCTCCA TCAGTGAAGA CAACGGGCTC AGCACGGCAT TTACTATAGC ACATGAGCTT 
    GGACACGTAT TCAACATGCC GCACGACGAC AGCAACAAAT GCAAAGAGGA AAGCGGCAAA 
    AACCAGCAGC ACGTCATGGC GCCGACCCTT AACTTCTACA CCAACCCCTG GATGTGGTCA 
    AAGTGCAGCC GGAAATACGT CACGCAGTTT CTAGACACGG GTTACGGGGA GTGCCTGCTG 
    GATGAGCCAA TCTCTAGAAC ATACACACTG CCTCAGCAGC TACCGGGGGC TTTGTACAAT 
    GTCAATAAGC AATGTGAATT GATATTTGGA CCGGGATCCC AGGTGTGCCC GTATATGCAA 
    ATGCAGTGCC GGCGACTGTG GTGCATCAGC AGCGATGGGC AACACAAGGG CTGCCGGACC 
    CAACACACGC CGTGGGCAGA TGGCACCGAA TGTGAGCCGG GGAAGCACTG CAGATACGGA 
    GTATGTATTC CTAAAGAACG GGACGTACAG ATTGCAGATG GATCTTGGGG GTCCTGGAGT 
    CCATTCGGAG CCTGCTCTCG GTCATGTGGT GGTGGGATAA AAACTTCCAT CCGTGAATGC 
    AATAGACCCG AACCAAAAAA TGGTGGTAAA TACTGTGTTG GGCGTAGAAT GAAGTTTAAA 
    TCCTGCAATA CGGAGCTGTG CGCCAAACAC AAGAGAGACT TCAGAGAGGA GCAGTGCGCG 
    GATTTCGACG GGAAGCATTT TAATATTAAT GGTCTACCTC CAAATGTGCG CTGGGTGCCC 
    AAATACAGCG GCATTTTAAT GAAAGACCGC TGCAAGCTCT TCTGCCGAGT AGCGGGGAGC 
    ACGGCTTATT ATCAGCTCAG GGACAGAGTG GTGGATGGGA CGTCGTGTGG GCCGGACACT 
    AACGATATCT GCGTGCAAGG ACTGTGTCGG CAAGCTGGAT GCGACCATGT CCTAAACTCA 
    AAGGCCAGAA GGGACAAGTG CGGTGTTTGT GGGGGAGACA ATTCATCCTG TAAAACAATT 
    GCTGGAACAT ATAATATAGT GCATTACGGC TACAACTCCG TGGTTCGCAT TCCAGCTGGT 
    GCTACTAACC TTGACGTTCG ACAACACAGC TACTCAGGGA AGCCAGAAGA TGACAATTAC 
    CTTGCTTTGT CGAACAGTCA TGGAGAATTT CTTTTAAATG GAGACTTTGT GGTCAGTATG 
    TTCAAAAGGG AAATCAAAGT GGGAAATGCG GTGATTGAAT ATAGCGGGTC GGACAATGCC 
    ATCGAAAGGA TTAACTGCAC GGATCGCATT GAGCAGGAAA TCGTTCTCCA GATCCTGTCA 
    GTTGGTAATT TATATAATCC AGACGTGCGG TATACTTTTA ATATTCCAAT TGAAGATAAA 
    CCTCAGCAGT TTTACTGGAA TCCATACGGG CCTTGGCAGC CCTGCAACAA AATGTGCCAA 
    GGGGAACGAA AGCAGAAACC AGTATGTATC CGGGATTCTG ACCAGCTAGT TGTTTCGGAT 
    CAGAGATGTG ATCGGATCCC TCAGCCAGAG CCAGTAACAG AGCCATGTAA CACTGAATGT 
    GAAGTAAGGT GGCACGTGGC CAGGAAGAGT GAATGTACAG TGCAGTGCGG CCTGGGATAC 
    CGGACACTCG ATATTCACTG CGCCAAATAC ACCAGGGCCG ACGGCAAGAA TGAAAAAGTG 
    GACGAGAGGT ATTGCAGCCA CCTACAGAAA CCGCTCACTA AAGAGAAGTG TTCCGGAGAC 
    TGCAACACAG GAGGCTGGCG TTACTCTCCC TGGTCAGAAT GCTCCAAAAG CTGCGGGACA 
    GGGACGAGAA GACGCAGGGC CATCTGTGTG AACGCGTTGC ACGATATTCT GGATGACAGT 
    AAATGTGGGC AGCAGGAGAA GCCTACGGAG CAGCGCTGCA GCGAGTTCCC CTGCCCCCAA 
    TGGAAAACCG GCGACTGGTC CGACTGCCTG GTGACGTGTG GGAAGGGGCA CAAACATCGC 
    CAGACCTGGT GTCAGTTCGG AGACGACCGG TTACACGACA GGTTCTGCGA CACCGAGACA 
    AAGCCGGAAT CGGTCGAGGC CTGTGAGCAG CCGGAATGTG CCTCCTGGCA GGTTGGACCG 
    TGGGGGCAGT GTACGGCAGC CTGTGGCCCA GGATACCAGA TGCGAGTAGT GAAATGCGTG 
    GTGGGCGCTT ACAGAGCGGT CGTTGACGAC AGCGAGTGCA ATGCTGCAAC CCGACCAACG 
    GACACTCAGG ATTGTGAAGC GGATGCGTGC CCCGGCATTC CCGAGACCAA GCAGATCGTG 
    CACAGCAGGA CCCAGTGGCG CTTCGGATCT TGGACCCCTT GCTCAGCGAC TTGTGGGAAA 
    GGAACCAGAA TGCGATACGT CAGCTGCCGG GATGATCAAG GGTCTGTGGC GGACGAAGCG 
    GCCTGCGCTC AACTACCAAA GCCGCTAGCG ACCGAAGCGT GCTCTGTGAC CCCTTGTGGC 
    CAATGGAAGG CCCTAGAGTG GAGTTCTTGT TCTGTGACTT GTGGCCAAGG GAAGGCGACG 
    CGCCAAGTCA TTTGCGTGGA TTTTGCTGAT CAGACAGTTG ACGGGAGTGA ATGTGACCCA 
    GACGATGTAC CAGCAGTGGA ACAGGAATGC TCCATGTCCC CATGTTATTA CCTGAACCAC 
    GACTACAGCA AACCCATTCA GACCGTCCCA AACACAGATC ATCGGATACG ATCTAATCCC 
    ACTCTGGCCA TTCTAAACCG AAACACTGGC CGACCAGCCG GGTCAGGGGG CAGCCAGTGG 
    CGAACAGGCC CTTGGGGAGC ATGCTCCAGT ACCTGCGCCG GAGGATTCCA GAGACGGGTC 
    GTTGTGTGTC AGGATGAAAA TGGATATCCA GCAAGTAACT GTGATGAGAA AACCAAACCC 
    ATTGAGCAGC GGTCCTGCGA ATCGGGATCG TGCCCTCAGT GGGCATTTGG AAACTGGGGA 
    GAGTGTTCCA AAAAATGTGG CGGTGGAACG AGGACACGAC AGGTGGTTTG TCAGAGGTCC 
    AACGGGGACA TATTTAATGA TCTTAGCTGT GAAATTCTTG ATAAACCGCC GGATCGTGAG 
    CAGTGCAACA TGCACAGTTG CCCTCGGGAG ACCGGGTGGA ACAGTGGCCC CTGGAACGTG 
    TGCTCTGTTT CCTGTGGTCG TGGCGTGAAG ACGAGACCCG TGTACTGCGT GACTAAAGAA 
    GGAGTGACCG TAGAGCCGGA GAACTGCAAG CACTTGGCCA AGCCCAACAT ACAGAAAAAG 
    TGCCGAGGTG GGAAGTGCCC GAAATGGAAA GCTGGAGAAT GGGAAAAGTG CTCAGTAACA 
    TGCGGGAGAG GAATCCAGCA ACGTGCCGTT CACTGCCAAG TGGGTGCCCA GAAGATGAGC 
    CGGGAGTCGG AGTGCCCCCA GCATGCCAGG CCCCCGTCGG AGCAGTACTG CCAGGTCGCC 
    GAGTGTCCGC TTTACACTTG GAAAGCTGAG GAATGGCAAG AATGCAGCAA GACTTGCGAT 
    GAAGGCCTCC GCTACAGGAA AGCCATTTGC CTGGATGAAG ACAAGAAGGA GGTTCCCCAG 
    TCCCACTGCG AGGAGAACAA GAAGCCGCCG GAGGTGGAGA AATGCAACGT GCAGTCCTGC 
    GAGTTCCTGT GGATCACGGG AGAGTGGTCG GAGTGTTCGG TGACGTGCGG CACGGGTTAC 
    AAACAGAGAC TGGTGACCTG CAGTGAGGTC TATTCGGCCA AGGACCACTA TGAATACGGC 
    TACCAAAGCT CCGCAAACTG CCCGGGGGAA CAGCCGCCCA CCGTCCAGAA CTGCTACCAA 
    GGGGAGTGTC CAATATCCGC CTCATGGAGA GTCGGCAACT GGGGCAAATG CTCCGTCACC 
    TGCGGATCTG GGGTCACGCA ACGTTCCGTG CAGTGTCTGA CCAATGAGGA TCTGCCGAGC 
    AACATGTGCA GCGTGGATCA GAAGCCGGAA GAGAAGAGGA TCTGCTACAG CAACCACGAC 
    TGTGACCTGC CGAGGAATTG TCTAGAAGTG AAGAGGCTGA AACACGTCGG TGCGGACGGG 
    GAACACTATG TTATGATCCA AGAAAAAATT ATAAAGATAT ACTGCGCCGG GATGCAGTCG 
    GAGAGCCCAA AGGAATATAT CACTCTACTC AGCGGCGAGG CGGAAAATTA TTCGGAAGTC 
    TATGGTTACA GGTTACAGAA CCCCACGGAA TGCCCGTATA ACGGAAGCAG AAGGGAAGAC 
    TGTCAGTGTA AGAAGGACTA CACCGCCGCC GGCTTCTCCA CCTTCAGTAA AGTGAGGCTG 
    GATGTGGTGA CGCTGCAGAT AATTACCACC GATTTGCACT TTGCACGAAC GCAGGATGGG 
    AGGCCGGTAC CATTTGCCAC AGCCGGAGAC TGTTACAGCG CAGCAAAGTG CCCCCAGGGT 
    CGTTTTAGCA TCAACCTTTT AGGAACTGGC CTATCGATAT CAGAAACAGC AAAATGGATG 
    TCACAAGGGA ATTATGCAGT GACGGAAATA AAAAAATCAC CGGATGGAAC CAAAGTGACG 
    GGAAGATGTG GCGGTTACTG CGGGAAGTGT GTCCCATCCT CGGCAACTGG TCTTGGCGTT 
    CACGTGTTAT AG

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

    RefSeq NP_001361725.1
    CDS247..6018
    Translation

    Target ORF information:

    RefSeq Version NM_001374796.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 9 (adamts9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001374796.1

    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
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGCATCTTG CCTCCCGGCT GCTGGGACTA GTGATTCTCC TGCGGGACTG CGCGTATGGA 
    GCGGCGCCAC TGAGGGCTCC CCGGCTCTAC CCAAGGCAAG CCAAGTTCCT AGAGAAGCTG 
    GGGGCTTACG AGATAGTGAC CCCCACCAGA GTGAATGAGC TTGGAGAAGC CTTTCCCAGC 
    AACATGCACT TCAAGAGGAC GAGGAGGAGT GTCCCTAACA GTCGTGACAT TGACCCTTGG 
    GCCGCCTCTA GGACTCATTA CAAACTGTCA GCCTTCGGCC AGCACTTTTT TCTCAATCTG 
    ACTGCCAATT CTGGATTTAT GGCACCGGTT TTTACCGTTA GCCTGCATGG GAAACCCAGG 
    GGCAACCAAA GCAGCTACTA CACGGACAAC ACTGACTTTC AGCACTGCTT TTTCAATGGG 
    CATGTGAATC ACAGGGCAGA GCATACGGCA GTCATCAGCC TTTGTTCAGG GATGCTAGGC 
    ACATTCAAGT CTCAGGACGG GGACTATTTC GTAGAACCGT TACTCTCCGA CGACAGTGAA 
    TATGAAGAAG AACACAACAA GCCACACGTC GTCTACAGAC ACAACCCACC TCACAGAAAC 
    ATCTCAAGGG AAGAACAGAC GTGCCACACC GCAGAGCCAA CGCATGCGTC AGACTCACAC 
    GCAAAGGGAG GCGCCCGACT GGAACAAAAT GACCCCCATT CAGATGACCA GGCCTTGAAT 
    AAGGGCTTGT TAGGAACCCA GAACCCCCTA TTCAATAAAG CAGATAACGC CACTGGGACC 
    CGGACCTTGC GAAGGAAAAA GCGCTTCCTG TCTTACCCTC GGTACGTGGA AGTGATGGTG 
    GTGGCTGACA ACAAGATGGT TGAATATCAC GGCGCTAATC TGCAGCATTA CGTTCTGACT 
    CTCATGTCCA TAGTAGCTTC TATTTATAAG GATCCGAGCA TTGGGAATTT AATTAATATT 
    GCCATAGTGA AGTTAGCAGT GGTCCATGAT GAACAGGAGG GCCCGGCCAT CTCATTCAAT 
    GCCCAAAGCA CTTTGAAAAA CTTTTGCATA TGGCAGCAAT CGCAGAACAA CCCGGACGAC 
    AATCATCCGT CGCACCACGA TACCGCCGTG CTCATCACTC GACAGGATAT TTGTAGGGCG 
    CAAGAAAAAT GCGACACTTT GGGCCTGGCC GAACTGGGCA CCGTGTGTGA CCCCTACCGG 
    AGCTGCTCCA TCAGTGAAGA CAACGGGCTC AGCACGGCAT TTACTATAGC ACATGAGCTT 
    GGACACGTAT TCAACATGCC GCACGACGAC AGCAACAAAT GCAAAGAGGA AAGCGGCAAA 
    AACCAGCAGC ACGTCATGGC GCCGACCCTT AACTTCTACA CCAACCCCTG GATGTGGTCA 
    AAGTGCAGCC GGAAATACGT CACGCAGTTT CTAGACACGG GTTACGGGGA GTGCCTGCTG 
    GATGAGCCAA TCTCTAGAAC ATACACACTG CCTCAGCAGC TACCGGGGGC TTTGTACAAT 
    GTCAATAAGC AATGTGAATT GATATTTGGA CCGGGATCCC AGGTGTGCCC GTATATGCAA 
    ATGCAGTGCC GGCGACTGTG GTGCATCAGC AGCGATGGGC AACACAAGGG CTGCCGGACC 
    CAACACACGC CGTGGGCAGA TGGCACCGAA TGTGAGCCGG GGAAGCACTG CAGATACGGA 
    GTATGTATTC CTAAAGAACG GGACGTACAG ATTGCAGATG GATCTTGGGG GTCCTGGAGT 
    CCATTCGGAG CCTGCTCTCG GTCATGTGGT GGTGGGATAA AAACTTCCAT CCGTGAATGC 
    AATAGACCCG AACCAAAAAA TGGTGGTAAA TACTGTGTTG GGCGTAGAAT GAAGTTTAAA 
    TCCTGCAATA CGGAGCTGTG CGCCAAACAC AAGAGAGACT TCAGAGAGGA GCAGTGCGCG 
    GATTTCGACG GGAAGCATTT TAATATTAAT GGTCTACCTC CAAATGTGCG CTGGGTGCCC 
    AAATACAGCG GCATTTTAAT GAAAGACCGC TGCAAGCTCT TCTGCCGAGT AGCGGGGAGC 
    ACGGCTTATT ATCAGCTCAG GGACAGAGTG GTGGATGGGA CGTCGTGTGG GCCGGACACT 
    AACGATATCT GCGTGCAAGG ACTGTGTCGG CAAGCTGGAT GCGACCATGT CCTAAACTCA 
    AAGGCCAGAA GGGACAAGTG CGGTGTTTGT GGGGGAGACA ATTCATCCTG TAAAACAATT 
    GCTGGAACAT ATAATATAGT GCATTACGGC TACAACTCCG TGGTTCGCAT TCCAGCTGGT 
    GCTACTAACC TTGACGTTCG ACAACACAGC TACTCAGGGA AGCCAGAAGA TGACAATTAC 
    CTTGCTTTGT CGAACAGTCA TGGAGAATTT CTTTTAAATG GAGACTTTGT GGTCAGTATG 
    TTCAAAAGGG AAATCAAAGT GGGAAATGCG GTGATTGAAT ATAGCGGGTC GGACAATGCC 
    ATCGAAAGGA TTAACTGCAC GGATCGCATT GAGCAGGAAA TCGTTCTCCA GATCCTGTCA 
    GTTGGTAATT TATATAATCC AGACGTGCGG TATACTTTTA ATATTCCAAT TGAAGATAAA 
    CCTCAGCAGT TTTACTGGAA TCCATACGGG CCTTGGCAGC CCTGCAACAA AATGTGCCAA 
    GGGGAACGAA AGCAGAAACC AGTATGTATC CGGGATTCTG ACCAGCTAGT TGTTTCGGAT 
    CAGAGATGTG ATCGGATCCC TCAGCCAGAG CCAGTAACAG AGCCATGTAA CACTGAATGT 
    GAAGTAAGGT GGCACGTGGC CAGGAAGAGT GAATGTACAG TGCAGTGCGG CCTGGGATAC 
    CGGACACTCG ATATTCACTG CGCCAAATAC ACCAGGGCCG ACGGCAAGAA TGAAAAAGTG 
    GACGAGAGGT ATTGCAGCCA CCTACAGAAA CCGCTCACTA AAGAGAAGTG TTCCGGAGAC 
    TGCAACACAG GAGGCTGGCG TTACTCTCCC TGGTCAGAAT GCTCCAAAAG CTGCGGGACA 
    GGGACGAGAA GACGCAGGGC CATCTGTGTG AACGCGTTGC ACGATATTCT GGATGACAGT 
    AAATGTGGGC AGCAGGAGAA GCCTACGGAG CAGCGCTGCA GCGAGTTCCC CTGCCCCCAA 
    TGGAAAACCG GCGACTGGTC CGACTGCCTG GTGACGTGTG GGAAGGGGCA CAAACATCGC 
    CAGACCTGGT GTCAGTTCGG AGACGACCGG TTACACGACA GGTTCTGCGA CACCGAGACA 
    AAGCCGGAAT CGGTCGAGGC CTGTGAGCAG CCGGAATGTG CCTCCTGGCA GGTTGGACCG 
    TGGGGGCAGT GTACGGCAGC CTGTGGCCCA GGATACCAGA TGCGAGTAGT GAAATGCGTG 
    GTGGGCGCTT ACAGAGCGGT CGTTGACGAC AGCGAGTGCA ATGCTGCAAC CCGACCAACG 
    GACACTCAGG ATTGTGAAGC GGATGCGTGC CCCGGCATTC CCGAGACCAA GCAGATCGTG 
    CACAGCAGGA CCCAGTGGCG CTTCGGATCT TGGACCCCTT GCTCAGCGAC TTGTGGGAAA 
    GGAACCAGAA TGCGATACGT CAGCTGCCGG GATGATCAAG GGTCTGTGGC GGACGAAGCG 
    GCCTGCGCTC AACTACCAAA GCCGCTAGCG ACCGAAGCGT GCTCTGTGAC CCCTTGTGGC 
    CAATGGAAGG CCCTAGAGTG GAGTTCTTGT TCTGTGACTT GTGGCCAAGG GAAGGCGACG 
    CGCCAAGTCA TTTGCGTGGA TTTTGCTGAT CAGACAGTTG ACGGGAGTGA ATGTGACCCA 
    GACGATGTAC CAGCAGTGGA ACAGGAATGC TCCATGTCCC CATGTTATTA CCTGAACCAC 
    GACTACAGCA AACCCATTCA GACCGTCCCA AACACAGATC ATCGGATACG ATCTAATCCC 
    ACTCTGGCCA TTCTAAACCG AAACACTGGC CGACCAGCCG GGTCAGGGGG CAGCCAGTGG 
    CGAACAGGCC CTTGGGGAGC ATGCTCCAGT ACCTGCGCCG GAGGATTCCA GAGACGGGTC 
    GTTGTGTGTC AGGATGAAAA TGGATATCCA GCAAGTAACT GTGATGAGAA AACCAAACCC 
    ATTGAGCAGC GGTCCTGCGA ATCGGGATCG TGCCCTCAGT GGGCATTTGG AAACTGGGGA 
    GAGTGTTCCA AAAAATGTGG CGGTGGAACG AGGACACGAC AGGTGGTTTG TCAGAGGTCC 
    AACGGGGACA TATTTAATGA TCTTAGCTGT GAAATTCTTG ATAAACCGCC GGATCGTGAG 
    CAGTGCAACA TGCACAGTTG CCCTCGGGAG ACCGGGTGGA ACAGTGGCCC CTGGAACGTG 
    TGCTCTGTTT CCTGTGGTCG TGGCGTGAAG ACGAGACCCG TGTACTGCGT GACTAAAGAA 
    GGAGTGACCG TAGAGCCGGA GAACTGCAAG CACTTGGCCA AGCCCAACAT ACAGAAAAAG 
    TGCCGAGGTG GGAAGTGCCC GAAATGGAAA GCTGGAGAAT GGGAAAAGTG CTCAGTAACA 
    TGCGGGAGAG GAATCCAGCA ACGTGCCGTT CACTGCCAAG TGGGTGCCCA GAAGATGAGC 
    CGGGAGTCGG AGTGCCCCCA GCATGCCAGG CCCCCGTCGG AGCAGTACTG CCAGGTCGCC 
    GAGTGTCCGC TTTACACTTG GAAAGCTGAG GAATGGCAAG AATGCAGCAA GACTTGCGAT 
    GAAGGCCTCC GCTACAGGAA AGCCATTTGC CTGGATGAAG ACAAGAAGGA GGTTCCCCAG 
    TCCCACTGCG AGGAGAACAA GAAGCCGCCG GAGGTGGAGA AATGCAACGT GCAGTCCTGC 
    GAGTTCCTGT GGATCACGGG AGAGTGGTCG GAGTGTTCGG TGACGTGCGG CACGGGTTAC 
    AAACAGAGAC TGGTGACCTG CAGTGAGGTC TATTCGGCCA AGGACCACTA TGAATACGGC 
    TACCAAAGCT CCGCAAACTG CCCGGGGGAA CAGCCGCCCA CCGTCCAGAA CTGCTACCAA 
    GGGGAGTGTC CAATATCCGC CTCATGGAGA GTCGGCAACT GGGGCAAATG CTCCGTCACC 
    TGCGGATCTG GGGTCACGCA ACGTTCCGTG CAGTGTCTGA CCAATGAGGA TCTGCCGAGC 
    AACATGTGCA GCGTGGATCA GAAGCCGGAA GAGAAGAGGA TCTGCTACAG CAACCACGAC 
    TGTGACCTGC CGAGGAATTG TCTAGAAGTG AAGAGGCTGA AACACGTCGG TGCGGACGGG 
    GAACACTATG TTATGATCCA AGAAAAAATT ATAAAGATAT ACTGCGCCGG GATGCAGTCG 
    GAGAGCCCAA AGGAATATAT CACTCTACTC AGCGGCGAGG CGGAAAATTA TTCGGAAGTC 
    TATGGTTACA GGTTACAGAA CCCCACGGAA TGCCCGTATA ACGGAAGCAG AAGGGAAGAC 
    TGTCAGTGTA AGAAGGACTA CACCGCCGCC GGCTTCTCCA CCTTCAGTAA AGTGAGGCTG 
    GATGTGGTGA CGCTGCAGAT AATTACCACC GATTTGCACT TTGCACGAAC GCAGGATGGG 
    AGGCCGGTAC CATTTGCCAC AGCCGGAGAC TGTTACAGCG CAGCAAAGTG CCCCCAGGGT 
    CGTTTTAGCA TCAACCTTTT AGGAACTGGC CTATCGATAT CAGAAACAGC AAAATGGATG 
    TCACAAGGGA ATTATGCAGT GACGGAAATA AAAAAATCAC CGGATGGAAC CAAAGTGACG 
    GGAAGATGTG GCGGTTACTG CGGGAAGTGT GTCCCATCCT CGGCAACTGG TCTTGGCGTT 
    CACGTGTTAT AG

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

    adamts9 ( XM_012960910.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012816364.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 9 (adamts9), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa26857
    Clone ID Related Accession (Same CDS sequence) XM_012960910.2 , NM_001374796.1
    Accession Version XM_012960910.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5772bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012960910.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGCATCTTG CCTCCCGGCT GCTGGGACTA GTGATTCTCC TGCGGGACTG CGCGTATGGA 
    GCGGCGCCAC TGAGGGCTCC CCGGCTCTAC CCAAGGCAAG CCAAGTTCCT AGAGAAGCTG 
    GGGGCTTACG AGATAGTGAC CCCCACCAGA GTGAATGAGC TTGGAGAAGC CTTTCCCAGC 
    AACATGCACT TCAAGAGGAC GAGGAGGAGT GTCCCTAACA GTCGTGACAT TGACCCTTGG 
    GCCGCCTCTA GGACTCATTA CAAACTGTCA GCCTTCGGCC AGCACTTTTT TCTCAATCTG 
    ACTGCCAATT CTGGATTTAT GGCACCGGTT TTTACCGTTA GCCTGCATGG GAAACCCAGG 
    GGCAACCAAA GCAGCTACTA CACGGACAAC ACTGACTTTC AGCACTGCTT TTTCAATGGG 
    CATGTGAATC ACAGGGCAGA GCATACGGCA GTCATCAGCC TTTGTTCAGG GATGCTAGGC 
    ACATTCAAGT CTCAGGACGG GGACTATTTC GTAGAACCGT TACTCTCCGA CGACAGTGAA 
    TATGAAGAAG AACACAACAA GCCACACGTC GTCTACAGAC ACAACCCACC TCACAGAAAC 
    ATCTCAAGGG AAGAACAGAC GTGCCACACC GCAGAGCCAA CGCATGCGTC AGACTCACAC 
    GCAAAGGGAG GCGCCCGACT GGAACAAAAT GACCCCCATT CAGATGACCA GGCCTTGAAT 
    AAGGGCTTGT TAGGAACCCA GAACCCCCTA TTCAATAAAG CAGATAACGC CACTGGGACC 
    CGGACCTTGC GAAGGAAAAA GCGCTTCCTG TCTTACCCTC GGTACGTGGA AGTGATGGTG 
    GTGGCTGACA ACAAGATGGT TGAATATCAC GGCGCTAATC TGCAGCATTA CGTTCTGACT 
    CTCATGTCCA TAGTAGCTTC TATTTATAAG GATCCGAGCA TTGGGAATTT AATTAATATT 
    GCCATAGTGA AGTTAGCAGT GGTCCATGAT GAACAGGAGG GCCCGGCCAT CTCATTCAAT 
    GCCCAAAGCA CTTTGAAAAA CTTTTGCATA TGGCAGCAAT CGCAGAACAA CCCGGACGAC 
    AATCATCCGT CGCACCACGA TACCGCCGTG CTCATCACTC GACAGGATAT TTGTAGGGCG 
    CAAGAAAAAT GCGACACTTT GGGCCTGGCC GAACTGGGCA CCGTGTGTGA CCCCTACCGG 
    AGCTGCTCCA TCAGTGAAGA CAACGGGCTC AGCACGGCAT TTACTATAGC ACATGAGCTT 
    GGACACGTAT TCAACATGCC GCACGACGAC AGCAACAAAT GCAAAGAGGA AAGCGGCAAA 
    AACCAGCAGC ACGTCATGGC GCCGACCCTT AACTTCTACA CCAACCCCTG GATGTGGTCA 
    AAGTGCAGCC GGAAATACGT CACGCAGTTT CTAGACACGG GTTACGGGGA GTGCCTGCTG 
    GATGAGCCAA TCTCTAGAAC ATACACACTG CCTCAGCAGC TACCGGGGGC TTTGTACAAT 
    GTCAATAAGC AATGTGAATT GATATTTGGA CCGGGATCCC AGGTGTGCCC GTATATGCAA 
    ATGCAGTGCC GGCGACTGTG GTGCATCAGC AGCGATGGGC AACACAAGGG CTGCCGGACC 
    CAACACACGC CGTGGGCAGA TGGCACCGAA TGTGAGCCGG GGAAGCACTG CAGATACGGA 
    GTATGTATTC CTAAAGAACG GGACGTACAG ATTGCAGATG GATCTTGGGG GTCCTGGAGT 
    CCATTCGGAG CCTGCTCTCG GTCATGTGGT GGTGGGATAA AAACTTCCAT CCGTGAATGC 
    AATAGACCCG AACCAAAAAA TGGTGGTAAA TACTGTGTTG GGCGTAGAAT GAAGTTTAAA 
    TCCTGCAATA CGGAGCTGTG CGCCAAACAC AAGAGAGACT TCAGAGAGGA GCAGTGCGCG 
    GATTTCGACG GGAAGCATTT TAATATTAAT GGTCTACCTC CAAATGTGCG CTGGGTGCCC 
    AAATACAGCG GCATTTTAAT GAAAGACCGC TGCAAGCTCT TCTGCCGAGT AGCGGGGAGC 
    ACGGCTTATT ATCAGCTCAG GGACAGAGTG GTGGATGGGA CGTCGTGTGG GCCGGACACT 
    AACGATATCT GCGTGCAAGG ACTGTGTCGG CAAGCTGGAT GCGACCATGT CCTAAACTCA 
    AAGGCCAGAA GGGACAAGTG CGGTGTTTGT GGGGGAGACA ATTCATCCTG TAAAACAATT 
    GCTGGAACAT ATAATATAGT GCATTACGGC TACAACTCCG TGGTTCGCAT TCCAGCTGGT 
    GCTACTAACC TTGACGTTCG ACAACACAGC TACTCAGGGA AGCCAGAAGA TGACAATTAC 
    CTTGCTTTGT CGAACAGTCA TGGAGAATTT CTTTTAAATG GAGACTTTGT GGTCAGTATG 
    TTCAAAAGGG AAATCAAAGT GGGAAATGCG GTGATTGAAT ATAGCGGGTC GGACAATGCC 
    ATCGAAAGGA TTAACTGCAC GGATCGCATT GAGCAGGAAA TCGTTCTCCA GATCCTGTCA 
    GTTGGTAATT TATATAATCC AGACGTGCGG TATACTTTTA ATATTCCAAT TGAAGATAAA 
    CCTCAGCAGT TTTACTGGAA TCCATACGGG CCTTGGCAGC CCTGCAACAA AATGTGCCAA 
    GGGGAACGAA AGCAGAAACC AGTATGTATC CGGGATTCTG ACCAGCTAGT TGTTTCGGAT 
    CAGAGATGTG ATCGGATCCC TCAGCCAGAG CCAGTAACAG AGCCATGTAA CACTGAATGT 
    GAAGTAAGGT GGCACGTGGC CAGGAAGAGT GAATGTACAG TGCAGTGCGG CCTGGGATAC 
    CGGACACTCG ATATTCACTG CGCCAAATAC ACCAGGGCCG ACGGCAAGAA TGAAAAAGTG 
    GACGAGAGGT ATTGCAGCCA CCTACAGAAA CCGCTCACTA AAGAGAAGTG TTCCGGAGAC 
    TGCAACACAG GAGGCTGGCG TTACTCTCCC TGGTCAGAAT GCTCCAAAAG CTGCGGGACA 
    GGGACGAGAA GACGCAGGGC CATCTGTGTG AACGCGTTGC ACGATATTCT GGATGACAGT 
    AAATGTGGGC AGCAGGAGAA GCCTACGGAG CAGCGCTGCA GCGAGTTCCC CTGCCCCCAA 
    TGGAAAACCG GCGACTGGTC CGACTGCCTG GTGACGTGTG GGAAGGGGCA CAAACATCGC 
    CAGACCTGGT GTCAGTTCGG AGACGACCGG TTACACGACA GGTTCTGCGA CACCGAGACA 
    AAGCCGGAAT CGGTCGAGGC CTGTGAGCAG CCGGAATGTG CCTCCTGGCA GGTTGGACCG 
    TGGGGGCAGT GTACGGCAGC CTGTGGCCCA GGATACCAGA TGCGAGTAGT GAAATGCGTG 
    GTGGGCGCTT ACAGAGCGGT CGTTGACGAC AGCGAGTGCA ATGCTGCAAC CCGACCAACG 
    GACACTCAGG ATTGTGAAGC GGATGCGTGC CCCGGCATTC CCGAGACCAA GCAGATCGTG 
    CACAGCAGGA CCCAGTGGCG CTTCGGATCT TGGACCCCTT GCTCAGCGAC TTGTGGGAAA 
    GGAACCAGAA TGCGATACGT CAGCTGCCGG GATGATCAAG GGTCTGTGGC GGACGAAGCG 
    GCCTGCGCTC AACTACCAAA GCCGCTAGCG ACCGAAGCGT GCTCTGTGAC CCCTTGTGGC 
    CAATGGAAGG CCCTAGAGTG GAGTTCTTGT TCTGTGACTT GTGGCCAAGG GAAGGCGACG 
    CGCCAAGTCA TTTGCGTGGA TTTTGCTGAT CAGACAGTTG ACGGGAGTGA ATGTGACCCA 
    GACGATGTAC CAGCAGTGGA ACAGGAATGC TCCATGTCCC CATGTTATTA CCTGAACCAC 
    GACTACAGCA AACCCATTCA GACCGTCCCA AACACAGATC ATCGGATACG ATCTAATCCC 
    ACTCTGGCCA TTCTAAACCG AAACACTGGC CGACCAGCCG GGTCAGGGGG CAGCCAGTGG 
    CGAACAGGCC CTTGGGGAGC ATGCTCCAGT ACCTGCGCCG GAGGATTCCA GAGACGGGTC 
    GTTGTGTGTC AGGATGAAAA TGGATATCCA GCAAGTAACT GTGATGAGAA AACCAAACCC 
    ATTGAGCAGC GGTCCTGCGA ATCGGGATCG TGCCCTCAGT GGGCATTTGG AAACTGGGGA 
    GAGTGTTCCA AAAAATGTGG CGGTGGAACG AGGACACGAC AGGTGGTTTG TCAGAGGTCC 
    AACGGGGACA TATTTAATGA TCTTAGCTGT GAAATTCTTG ATAAACCGCC GGATCGTGAG 
    CAGTGCAACA TGCACAGTTG CCCTCGGGAG ACCGGGTGGA ACAGTGGCCC CTGGAACGTG 
    TGCTCTGTTT CCTGTGGTCG TGGCGTGAAG ACGAGACCCG TGTACTGCGT GACTAAAGAA 
    GGAGTGACCG TAGAGCCGGA GAACTGCAAG CACTTGGCCA AGCCCAACAT ACAGAAAAAG 
    TGCCGAGGTG GGAAGTGCCC GAAATGGAAA GCTGGAGAAT GGGAAAAGTG CTCAGTAACA 
    TGCGGGAGAG GAATCCAGCA ACGTGCCGTT CACTGCCAAG TGGGTGCCCA GAAGATGAGC 
    CGGGAGTCGG AGTGCCCCCA GCATGCCAGG CCCCCGTCGG AGCAGTACTG CCAGGTCGCC 
    GAGTGTCCGC TTTACACTTG GAAAGCTGAG GAATGGCAAG AATGCAGCAA GACTTGCGAT 
    GAAGGCCTCC GCTACAGGAA AGCCATTTGC CTGGATGAAG ACAAGAAGGA GGTTCCCCAG 
    TCCCACTGCG AGGAGAACAA GAAGCCGCCG GAGGTGGAGA AATGCAACGT GCAGTCCTGC 
    GAGTTCCTGT GGATCACGGG AGAGTGGTCG GAGTGTTCGG TGACGTGCGG CACGGGTTAC 
    AAACAGAGAC TGGTGACCTG CAGTGAGGTC TATTCGGCCA AGGACCACTA TGAATACGGC 
    TACCAAAGCT CCGCAAACTG CCCGGGGGAA CAGCCGCCCA CCGTCCAGAA CTGCTACCAA 
    GGGGAGTGTC CAATATCCGC CTCATGGAGA GTCGGCAACT GGGGCAAATG CTCCGTCACC 
    TGCGGATCTG GGGTCACGCA ACGTTCCGTG CAGTGTCTGA CCAATGAGGA TCTGCCGAGC 
    AACATGTGCA GCGTGGATCA GAAGCCGGAA GAGAAGAGGA TCTGCTACAG CAACCACGAC 
    TGTGACCTGC CGAGGAATTG TCTAGAAGTG AAGAGGCTGA AACACGTCGG TGCGGACGGG 
    GAACACTATG TTATGATCCA AGAAAAAATT ATAAAGATAT ACTGCGCCGG GATGCAGTCG 
    GAGAGCCCAA AGGAATATAT CACTCTACTC AGCGGCGAGG CGGAAAATTA TTCGGAAGTC 
    TATGGTTACA GGTTACAGAA CCCCACGGAA TGCCCGTATA ACGGAAGCAG AAGGGAAGAC 
    TGTCAGTGTA AGAAGGACTA CACCGCCGCC GGCTTCTCCA CCTTCAGTAA AGTGAGGCTG 
    GATGTGGTGA CGCTGCAGAT AATTACCACC GATTTGCACT TTGCACGAAC GCAGGATGGG 
    AGGCCGGTAC CATTTGCCAC AGCCGGAGAC TGTTACAGCG CAGCAAAGTG CCCCCAGGGT 
    CGTTTTAGCA TCAACCTTTT AGGAACTGGC CTATCGATAT CAGAAACAGC AAAATGGATG 
    TCACAAGGGA ATTATGCAGT GACGGAAATA AAAAAATCAC CGGATGGAAC CAAAGTGACG 
    GGAAGATGTG GCGGTTACTG CGGGAAGTGT GTCCCATCCT CGGCAACTGG TCTTGGCGTT 
    CACGTGTTAT AG

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

    RefSeq XP_012816364.1
    CDS247..6018
    Translation

    Target ORF information:

    RefSeq Version XM_012960910.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 9 (adamts9), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012960910.2

    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
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGCATCTTG CCTCCCGGCT GCTGGGACTA GTGATTCTCC TGCGGGACTG CGCGTATGGA 
    GCGGCGCCAC TGAGGGCTCC CCGGCTCTAC CCAAGGCAAG CCAAGTTCCT AGAGAAGCTG 
    GGGGCTTACG AGATAGTGAC CCCCACCAGA GTGAATGAGC TTGGAGAAGC CTTTCCCAGC 
    AACATGCACT TCAAGAGGAC GAGGAGGAGT GTCCCTAACA GTCGTGACAT TGACCCTTGG 
    GCCGCCTCTA GGACTCATTA CAAACTGTCA GCCTTCGGCC AGCACTTTTT TCTCAATCTG 
    ACTGCCAATT CTGGATTTAT GGCACCGGTT TTTACCGTTA GCCTGCATGG GAAACCCAGG 
    GGCAACCAAA GCAGCTACTA CACGGACAAC ACTGACTTTC AGCACTGCTT TTTCAATGGG 
    CATGTGAATC ACAGGGCAGA GCATACGGCA GTCATCAGCC TTTGTTCAGG GATGCTAGGC 
    ACATTCAAGT CTCAGGACGG GGACTATTTC GTAGAACCGT TACTCTCCGA CGACAGTGAA 
    TATGAAGAAG AACACAACAA GCCACACGTC GTCTACAGAC ACAACCCACC TCACAGAAAC 
    ATCTCAAGGG AAGAACAGAC GTGCCACACC GCAGAGCCAA CGCATGCGTC AGACTCACAC 
    GCAAAGGGAG GCGCCCGACT GGAACAAAAT GACCCCCATT CAGATGACCA GGCCTTGAAT 
    AAGGGCTTGT TAGGAACCCA GAACCCCCTA TTCAATAAAG CAGATAACGC CACTGGGACC 
    CGGACCTTGC GAAGGAAAAA GCGCTTCCTG TCTTACCCTC GGTACGTGGA AGTGATGGTG 
    GTGGCTGACA ACAAGATGGT TGAATATCAC GGCGCTAATC TGCAGCATTA CGTTCTGACT 
    CTCATGTCCA TAGTAGCTTC TATTTATAAG GATCCGAGCA TTGGGAATTT AATTAATATT 
    GCCATAGTGA AGTTAGCAGT GGTCCATGAT GAACAGGAGG GCCCGGCCAT CTCATTCAAT 
    GCCCAAAGCA CTTTGAAAAA CTTTTGCATA TGGCAGCAAT CGCAGAACAA CCCGGACGAC 
    AATCATCCGT CGCACCACGA TACCGCCGTG CTCATCACTC GACAGGATAT TTGTAGGGCG 
    CAAGAAAAAT GCGACACTTT GGGCCTGGCC GAACTGGGCA CCGTGTGTGA CCCCTACCGG 
    AGCTGCTCCA TCAGTGAAGA CAACGGGCTC AGCACGGCAT TTACTATAGC ACATGAGCTT 
    GGACACGTAT TCAACATGCC GCACGACGAC AGCAACAAAT GCAAAGAGGA AAGCGGCAAA 
    AACCAGCAGC ACGTCATGGC GCCGACCCTT AACTTCTACA CCAACCCCTG GATGTGGTCA 
    AAGTGCAGCC GGAAATACGT CACGCAGTTT CTAGACACGG GTTACGGGGA GTGCCTGCTG 
    GATGAGCCAA TCTCTAGAAC ATACACACTG CCTCAGCAGC TACCGGGGGC TTTGTACAAT 
    GTCAATAAGC AATGTGAATT GATATTTGGA CCGGGATCCC AGGTGTGCCC GTATATGCAA 
    ATGCAGTGCC GGCGACTGTG GTGCATCAGC AGCGATGGGC AACACAAGGG CTGCCGGACC 
    CAACACACGC CGTGGGCAGA TGGCACCGAA TGTGAGCCGG GGAAGCACTG CAGATACGGA 
    GTATGTATTC CTAAAGAACG GGACGTACAG ATTGCAGATG GATCTTGGGG GTCCTGGAGT 
    CCATTCGGAG CCTGCTCTCG GTCATGTGGT GGTGGGATAA AAACTTCCAT CCGTGAATGC 
    AATAGACCCG AACCAAAAAA TGGTGGTAAA TACTGTGTTG GGCGTAGAAT GAAGTTTAAA 
    TCCTGCAATA CGGAGCTGTG CGCCAAACAC AAGAGAGACT TCAGAGAGGA GCAGTGCGCG 
    GATTTCGACG GGAAGCATTT TAATATTAAT GGTCTACCTC CAAATGTGCG CTGGGTGCCC 
    AAATACAGCG GCATTTTAAT GAAAGACCGC TGCAAGCTCT TCTGCCGAGT AGCGGGGAGC 
    ACGGCTTATT ATCAGCTCAG GGACAGAGTG GTGGATGGGA CGTCGTGTGG GCCGGACACT 
    AACGATATCT GCGTGCAAGG ACTGTGTCGG CAAGCTGGAT GCGACCATGT CCTAAACTCA 
    AAGGCCAGAA GGGACAAGTG CGGTGTTTGT GGGGGAGACA ATTCATCCTG TAAAACAATT 
    GCTGGAACAT ATAATATAGT GCATTACGGC TACAACTCCG TGGTTCGCAT TCCAGCTGGT 
    GCTACTAACC TTGACGTTCG ACAACACAGC TACTCAGGGA AGCCAGAAGA TGACAATTAC 
    CTTGCTTTGT CGAACAGTCA TGGAGAATTT CTTTTAAATG GAGACTTTGT GGTCAGTATG 
    TTCAAAAGGG AAATCAAAGT GGGAAATGCG GTGATTGAAT ATAGCGGGTC GGACAATGCC 
    ATCGAAAGGA TTAACTGCAC GGATCGCATT GAGCAGGAAA TCGTTCTCCA GATCCTGTCA 
    GTTGGTAATT TATATAATCC AGACGTGCGG TATACTTTTA ATATTCCAAT TGAAGATAAA 
    CCTCAGCAGT TTTACTGGAA TCCATACGGG CCTTGGCAGC CCTGCAACAA AATGTGCCAA 
    GGGGAACGAA AGCAGAAACC AGTATGTATC CGGGATTCTG ACCAGCTAGT TGTTTCGGAT 
    CAGAGATGTG ATCGGATCCC TCAGCCAGAG CCAGTAACAG AGCCATGTAA CACTGAATGT 
    GAAGTAAGGT GGCACGTGGC CAGGAAGAGT GAATGTACAG TGCAGTGCGG CCTGGGATAC 
    CGGACACTCG ATATTCACTG CGCCAAATAC ACCAGGGCCG ACGGCAAGAA TGAAAAAGTG 
    GACGAGAGGT ATTGCAGCCA CCTACAGAAA CCGCTCACTA AAGAGAAGTG TTCCGGAGAC 
    TGCAACACAG GAGGCTGGCG TTACTCTCCC TGGTCAGAAT GCTCCAAAAG CTGCGGGACA 
    GGGACGAGAA GACGCAGGGC CATCTGTGTG AACGCGTTGC ACGATATTCT GGATGACAGT 
    AAATGTGGGC AGCAGGAGAA GCCTACGGAG CAGCGCTGCA GCGAGTTCCC CTGCCCCCAA 
    TGGAAAACCG GCGACTGGTC CGACTGCCTG GTGACGTGTG GGAAGGGGCA CAAACATCGC 
    CAGACCTGGT GTCAGTTCGG AGACGACCGG TTACACGACA GGTTCTGCGA CACCGAGACA 
    AAGCCGGAAT CGGTCGAGGC CTGTGAGCAG CCGGAATGTG CCTCCTGGCA GGTTGGACCG 
    TGGGGGCAGT GTACGGCAGC CTGTGGCCCA GGATACCAGA TGCGAGTAGT GAAATGCGTG 
    GTGGGCGCTT ACAGAGCGGT CGTTGACGAC AGCGAGTGCA ATGCTGCAAC CCGACCAACG 
    GACACTCAGG ATTGTGAAGC GGATGCGTGC CCCGGCATTC CCGAGACCAA GCAGATCGTG 
    CACAGCAGGA CCCAGTGGCG CTTCGGATCT TGGACCCCTT GCTCAGCGAC TTGTGGGAAA 
    GGAACCAGAA TGCGATACGT CAGCTGCCGG GATGATCAAG GGTCTGTGGC GGACGAAGCG 
    GCCTGCGCTC AACTACCAAA GCCGCTAGCG ACCGAAGCGT GCTCTGTGAC CCCTTGTGGC 
    CAATGGAAGG CCCTAGAGTG GAGTTCTTGT TCTGTGACTT GTGGCCAAGG GAAGGCGACG 
    CGCCAAGTCA TTTGCGTGGA TTTTGCTGAT CAGACAGTTG ACGGGAGTGA ATGTGACCCA 
    GACGATGTAC CAGCAGTGGA ACAGGAATGC TCCATGTCCC CATGTTATTA CCTGAACCAC 
    GACTACAGCA AACCCATTCA GACCGTCCCA AACACAGATC ATCGGATACG ATCTAATCCC 
    ACTCTGGCCA TTCTAAACCG AAACACTGGC CGACCAGCCG GGTCAGGGGG CAGCCAGTGG 
    CGAACAGGCC CTTGGGGAGC ATGCTCCAGT ACCTGCGCCG GAGGATTCCA GAGACGGGTC 
    GTTGTGTGTC AGGATGAAAA TGGATATCCA GCAAGTAACT GTGATGAGAA AACCAAACCC 
    ATTGAGCAGC GGTCCTGCGA ATCGGGATCG TGCCCTCAGT GGGCATTTGG AAACTGGGGA 
    GAGTGTTCCA AAAAATGTGG CGGTGGAACG AGGACACGAC AGGTGGTTTG TCAGAGGTCC 
    AACGGGGACA TATTTAATGA TCTTAGCTGT GAAATTCTTG ATAAACCGCC GGATCGTGAG 
    CAGTGCAACA TGCACAGTTG CCCTCGGGAG ACCGGGTGGA ACAGTGGCCC CTGGAACGTG 
    TGCTCTGTTT CCTGTGGTCG TGGCGTGAAG ACGAGACCCG TGTACTGCGT GACTAAAGAA 
    GGAGTGACCG TAGAGCCGGA GAACTGCAAG CACTTGGCCA AGCCCAACAT ACAGAAAAAG 
    TGCCGAGGTG GGAAGTGCCC GAAATGGAAA GCTGGAGAAT GGGAAAAGTG CTCAGTAACA 
    TGCGGGAGAG GAATCCAGCA ACGTGCCGTT CACTGCCAAG TGGGTGCCCA GAAGATGAGC 
    CGGGAGTCGG AGTGCCCCCA GCATGCCAGG CCCCCGTCGG AGCAGTACTG CCAGGTCGCC 
    GAGTGTCCGC TTTACACTTG GAAAGCTGAG GAATGGCAAG AATGCAGCAA GACTTGCGAT 
    GAAGGCCTCC GCTACAGGAA AGCCATTTGC CTGGATGAAG ACAAGAAGGA GGTTCCCCAG 
    TCCCACTGCG AGGAGAACAA GAAGCCGCCG GAGGTGGAGA AATGCAACGT GCAGTCCTGC 
    GAGTTCCTGT GGATCACGGG AGAGTGGTCG GAGTGTTCGG TGACGTGCGG CACGGGTTAC 
    AAACAGAGAC TGGTGACCTG CAGTGAGGTC TATTCGGCCA AGGACCACTA TGAATACGGC 
    TACCAAAGCT CCGCAAACTG CCCGGGGGAA CAGCCGCCCA CCGTCCAGAA CTGCTACCAA 
    GGGGAGTGTC CAATATCCGC CTCATGGAGA GTCGGCAACT GGGGCAAATG CTCCGTCACC 
    TGCGGATCTG GGGTCACGCA ACGTTCCGTG CAGTGTCTGA CCAATGAGGA TCTGCCGAGC 
    AACATGTGCA GCGTGGATCA GAAGCCGGAA GAGAAGAGGA TCTGCTACAG CAACCACGAC 
    TGTGACCTGC CGAGGAATTG TCTAGAAGTG AAGAGGCTGA AACACGTCGG TGCGGACGGG 
    GAACACTATG TTATGATCCA AGAAAAAATT ATAAAGATAT ACTGCGCCGG GATGCAGTCG 
    GAGAGCCCAA AGGAATATAT CACTCTACTC AGCGGCGAGG CGGAAAATTA TTCGGAAGTC 
    TATGGTTACA GGTTACAGAA CCCCACGGAA TGCCCGTATA ACGGAAGCAG AAGGGAAGAC 
    TGTCAGTGTA AGAAGGACTA CACCGCCGCC GGCTTCTCCA CCTTCAGTAA AGTGAGGCTG 
    GATGTGGTGA CGCTGCAGAT AATTACCACC GATTTGCACT TTGCACGAAC GCAGGATGGG 
    AGGCCGGTAC CATTTGCCAC AGCCGGAGAC TGTTACAGCG CAGCAAAGTG CCCCCAGGGT 
    CGTTTTAGCA TCAACCTTTT AGGAACTGGC CTATCGATAT CAGAAACAGC AAAATGGATG 
    TCACAAGGGA ATTATGCAGT GACGGAAATA AAAAAATCAC CGGATGGAAC CAAAGTGACG 
    GGAAGATGTG GCGGTTACTG CGGGAAGTGT GTCCCATCCT CGGCAACTGG TCTTGGCGTT 
    CACGTGTTAT AG

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

見積依頼

Eメール

japanmarket@genscript.com

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文