ORF » Species Summary » Xenopus tropicalis » adamts13 cDNA ORF clone

adamts13 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

  • Gene

  • Clones

  • gRNAs

The following adamts13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the adamts13 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
OXa41171 XM_018090100.1
Latest version!		 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OXa64884 XM_031891562.1
Latest version!		 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa64885 XM_031891563.1
Latest version!		 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa64886 XM_031891564.1
Latest version!		 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), transcript variant X3, 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)
    adamts13 ( XM_018090100.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017945589.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), mRNA.
    Price & Availability↑
    CloneID OXa41171
    Clone ID Related Accession (Same CDS sequence) XM_018090100.1
    Accession Version XM_018090100.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5550bp)
    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 13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016683569.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##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## ##RefSeq-Attributes-START## ab initio :: 9% of CDS bases ##RefSeq-Attributes-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
    ATGGAAGACG CCCCTTGGAA GCTACAGGAT AACAGAAGGA AGGACATCAT CCGGATCTTG 
    GGGATTGTCC ACCATCAAGA AGTGAAGGAA CTCTACTGTT ACTTCTGCTG TAATTCCAAC 
    ACCAACGTGT ACCCAACCAG GGCAGGAATT GATATCCATC AGGACCGGTT TGGGTTCCCT 
    TATGGGCTGG CCGATATCAT CTGCACAGAA CCTCCGGACT GTAGAGCGGA ATTTGTGTCG 
    GTTCATTGGT CTCCTTCTGA AGTCGTCCAC AATCTCACCA GCTTCAGAAT CAGAAATAGG 
    GATCCCGGCC AATTTACTGC CAACTTCACC GTCTGCATCT CCACCATGTT TGGGAATTAC 
    AGCAACGTCC TGCAGTTCAT CCAGACCATT GAAATGTATA AGATACTGGG TGCCAAAAAA 
    GTCATGGTCT GCCTGAACAA CTGTAGCCGA CAGATGGAGG AGGTCCTTCA GTACTACATC 
    AGGACGATTA AAAATGGATT AAACAAGAGT CAAAGATATA AAAGGTTGAT ATTCTCCATT 
    TTTTGTTTTC CAAAGAAGTT CTTGCACCAT CTAGAACCTG AAGAACTATA TGGATACTTC 
    GGTGCAACAT CTGTCCTAGA ATCCAATGTG GTGGACCTGG CTGAGCTGAC CTGCTCCTGT 
    GAGTCCCCTG AGTTGCCACC CCTATGTTTA GCTTTGCGTT GCATCCTTCA GGGGACAGAG 
    GGGACATTTG TCTTCAGGTT CCCTGTTGGT TCCGGACCCA TCATTACGGA ACGTGTTGTC 
    AACACATCTC TGCAAAGGCT CAAACATTTC CCAGAGGGCT GCGGGGTTCC GGGTTTCATT 
    CTATATCCAG ACGAAACCAA AGCAGTGATC AGCTACTGTG AAGGAGAACT TCGTGGATTC 
    ATCGTCTCTG ATGGACACTT GCTCTCCATA CAACCGTTGA AGAAGAGGCA TGAGCAAGAC 
    CACAAATCCC GAAGTTCTCA TATTATCTCC AGAGTAGGGA AATCACCCCC TGCCAGTGGT 
    GGACCAAGGC CTGCCCCTTT GCCCAACCGA ATTAGCAAAC GAGCAGTTGG TGGTGTGAAG 
    CATTTGGAGC TCCTAGTGGT AGTGGGTCAT GACGTCTACC AGTTCCACCA AGAGGACACT 
    GAGCGATACG TCCTGACCAA CCTTAACATT GGGGTTGAGT TGCTGAGAGA TGTCTCACTT 
    GGAACCGCAT TCCGTGTCCA TCTTGTGAAG CTAATTATCC TGACCGAACC GGAGGCAGAT 
    ATCCAAATTA CCACCAACCT CACCTCCTCG TTGATCAGCC TTTGCAAATG GAGCCACAAG 
    GTGAACCCTC CAGATGACTC CGACCCTCAA CATGCAGACC TTGTTCTCTA TGTGACCAGA 
    TTTGATCTTG AATTACCAGA TGGCAACAAA CAGGTGCGAG GAGTCACCCA GCTGGGCGGG 
    GCCTGCTCGT CTGTTTGGAG TTGCGTCATT ACTGAGGACA CCGGCTTTGA TCTGGGAGTC 
    ACCATGGCAC ATGAGATTGG ACACAGTTTT GGAATCAACC ACGACGGAAC GGGGAACAGC 
    TGCAGCAAAA GTGGGAACAT CATGGCATCG GAGGGGTACC ACAATAACGT CCACCTCACC 
    TGGTCTGAAT GCAGCCGGGA ACAGTTCCTC AGATTCCTCA GCAGCGGCAT GGCAAGCTGT 
    GTTGATGACT TGCCAGCAAT GGACAGTAGT ATTCCCGGCT GGAAGCCCGG TCTGTATTAT 
    GGAGCAGATG AGCAGTGTCA GATTGCCTTC GGCAGCTCTG CCCTGGCATG CACTTTCTCC 
    AGAAATGACC TGGATTCCTG CAGTGTCCTC TCATGCCACA TAAACCAACA CGATCGTACG 
    AGTTGCAACA GACTTCTGGT CCCCCTTCTA GATGGCACAG AGTGTGGGGA GAACAAGTGG 
    TGCCACAAGG GCCGTTGCAG TTCACTCGAA GAGCTGAATC CGGTTTCCGT AGTGCACGGA 
    GGATGGTCCA GTTGGGGGTC TTTCTCCTCA TGTTCCCGCA GCTGTGGTGG GGGAGTCGTG 
    ATGAGGAAAA GGCAGTGTAA CAACCCTAGA CCTGCATTTG GTGGACGCGC CTGTGAGGGA 
    TCCAATCTAC AGGCTGAAAT GTGTAACACT CAGGTCTGTA GCAGCACCCA GATCGGTTTC 
    ATGAATGAGC AATGTTCTGA TACAGACACC AAACCTCTCT ATCTCAGCCC AGGAATTCCA 
    AGTTTTTACA AGTGGACCTC AGCCGTTGGC TTTGTCGATG GGAAAGCGCT GTGTCAATAC 
    ATGTGTCGAG CCCAGGGGAA GAGTTTCATC GTAGCACGAG GGAAGAGTTT TTTGGATGGG 
    ACCCGGTGTG AGACAAATAA GGAGGCCAAT GCTAAGTTGG GTCTCTGTGT AGCTGGCAGT 
    TGCAGGGTCT TTGGCTGTGA TGGAGTGATG GGATCTGGGA TGGTGAAGGA TCAATGTGGT 
    GTGTGTGGAG GAGATAACAG CACGTGCAAT AGAATCCATG GCTCTTTCTC TGAAGGGAAA 
    GCCGGAGAGT ATGTCTCCTT CTTGACTCTT CCACCAGGCT CCACATCTTT AAAAGTGACA 
    AATCAAAAGC CCGTTTTTAC GCATTTGGGG ATTAAGGTGA ACGATGAGTA CTTGGTAGCG 
    GGAAAGGGAA GTATTTCTCT CAATGTAACC TACCCATCAG TCCTAGAGGA CCAGACAATA 
    GAATACCGGT TGTTTCTGAA TGCAGACAAG CTTCCACATC TGGAGCAAAT CCATATAGAG 
    GGTCCCACCA CAAAAGAACT TGAGATACAG GTTTACAGGA AATATGGCCA GGAATATGGA 
    GATGCTACAA ACCCCGACAT CATTTATAGT TACCATATAC CCAAGAAGGA CATAGAATAT 
    AAATGGTTCC CTGTGCCAGG ACCCTGTTCA GCAAGCTGTG ATGGGGGTTT TCACTTGGTG 
    TCTTACGAAT GTTCCGAACA TGATCTGAAC CAGTTGGTCC AATCCAGCCT CTGCAATGAT 
    TCTGCACGCC CGTCTTCATT CCATGAACCA TGTGGCATAG ATCCATGTCC TCCTAGGTGG 
    GATGTGAAGG AAAGTTCCCC ATGCACAGTG TCCTGTGGTG GTGGGGTGGT TCTAAGAACT 
    CTACATTGTG TTCAAATGCA ACAAGGCATT GAGACCATTC TATTTGATGC CTACTGCGAC 
    CACTCAACCC GTCCAGAAGC CTTTGTTGCC TGTGGCTTAG AACCCTGTCC TGCCAGATGG 
    GAAGCGTCGG AGGCTGGTCT CTGCCCGGTG GTGTGTGGCT CAGGTCTGGC TTTGAGAAAT 
    GTCTCCTGTG TTCAGTCTCA TGCTGGATTG GAAGTTGCGG TGGAAGAATC AAACTGTTTA 
    GGTCAAGAAA AGCCAACGAC TCAGGTGGAA TGCGTAGTCA GTGTGTGTCC TGTCGGCTGG 
    GACATGCAGA TGGACTCTTC ATTGAGGTTG AGTGAACGTT CCTCTCGTGA AGAAACTGCT 
    GAGAAACATA CAGAAGTCTA CGTGTGGAGC CCACGGGTCG GACCATGCTC AGTGAGCTGT 
    GGAACAGGAA TATCTGAGCT TAGCTACATC TGTGTGGATT TCTACACCAA GACTGAAACC 
    GCGGAGGAGA ACTGCAACCA AACTCTGAAG CCAGAACCAC GGCCAAACGT CTGCAACCTT 
    GGAACGTGCC CACCGCTGTG GGAAGTGAAG GAGCTCGGTC CATGTCCCGT GACCTGTGGA 
    GGAGCAACGA TTCCACTCGC TGTGATCTGT GTTAGGAGAG ATGGAAATAT CTCCTATTCC 
    CTTCCTCACT CCAAGTGCAG CCGAATCCCT CGTCCCCGTG CCAGCAAACC TTGTGGGATG 
    GAACCCTGCC CAGTCCGGTG GCGCTATAAA ACAGGATCTT GCAGTGTGAG CTGCGGCGGG 
    GGCATCTTGC AGAGAGTCCT CTACTGCTCC AGGTATCCCC AAAAAGGAGA GAGTGAGGAG 
    CAGATTGTAT CCGATCTAGA ATGCCAACAC TTGCCTCATC CAGAAGGACA GGAACCCTGC 
    AACCAGCAGC TTTGCCCACC CAGGTGGAAG GTAGCAGAGG CAACTCCATG CTCAGCAGCC 
    TGTGGATATG GCATCTCCAA GCAGAGAGTA GTGTGTGTGC AGACAGTAGA AGGGGCAGAG 
    AAGGAGATGG ACCTGGACTC TTGTGTCCTT CAAGAGAAGC CACCATCTCT CATCCCTTGC 
    ATTGTCAATA ACTGCTTCTA CTCATGGGAA GTCAGCGCCT GGACTCAGTG CTCGGTCACC 
    TGTGGGAACG GTATCCAAAG CCGTCAAGAT GTTTGCACCA ACCTAAAAAC CCGACAGCCG 
    GTGAGCCCCA CCTTCTGTGG GAATGCCCCC AAACCCATCA CTATTCGCGG ATGCTCAGCC 
    CAGACATGTA GGCCTGAAAC GACCACTCCG CAGGCTGCCT TGGCAAGTAC AGCTCTGGTC 
    ACCCAGCTGC CGCCCAGCGA CGCCATCTTG AGGCCACAGT GGAGATCTGC TGTAACCCCT 
    CGGGAACACA ACCTTGAGTA CAATCGACGT AGAGAACCAG GCAAAGCTGA GGAAGAAGAT 
    GGTATCTGCG GGCAGCTGTT CCTCAACGCT ACAGGAGTGC TGAGTACCAC GGGGCTCAAT 
    GAGAGAGACT GTATGTTCAC CATTGGGCGC CCCCTGGGGG AGGTGATTAT AGTCCGAGTG 
    TTGTCCAGCA CTCTCAACTG CACAGCCGGG GAGCTGCTGC TGTTCTTCGG GCGGGTCATG 
    TGGCGCAAGA CGTGCGCTCG CCTCTCGGGG GTGACCCTGC TGTCTCGGTC GAACACTCTC 
    TCTGTGAGAC AGCGCCAGGC TATAGACGGC AATGGGGTGG TACTGGAGTA CTGGAGCAAA 
    CCGGCCGCCC AAAACTACTC CCAAGCATGC GATATCCAGC TTTATGGAAT GGGGGGAGAA 
    ATCCGGAATC CCGTGCAGCC CTGGATGGAG GGGGGATCCC CAGCTTGTAG AGTCTTCATT 
    GACGTGGCCC CCCAGTATTA CATTGCTATT CATGCTTTGT ACATGGACCT GGAACCCATG 
    AGCAACCATA CGCACCCAAG TTCTATTCTG GTGGGTGATC GGGGGGCTGA TTCACTGCCG 
    GCCCAGACCC TGGGCCCTGC ATCTCCCATA ACAATAACAA TCTCTAACCC CCCCTGTGTT 
    TGTGTTCCCC CAGCGTGTGC GGTGGCCGGA CTGTGGAGCT GTGTCACAAT CAACCCCCTC 
    AATATCGCAG CCGGGGTGCT AATGATGCTC AACGCGTTCA TCCTGTTCCT GTGTGAGGCT 
    CCCTTTTGCT GCCAGTTTGT CGAGTTCGCC AATACGGTTT CTGAGAAGGC TGACAGGCTG 
    AAAAGCTGGC AGAAAGCGGC GTTTTATTGT GGGATGGCGC TGCTTCCCAT CTTCATCAGC 
    TTCACGTTTA CCACCTTGTT CGGCAATGCT ATCGCCTTTG CGTCGGGGGT TCTGTACGGT 
    CTCTCCGCCT TGGGCAAGAA GGGGGACGCC ATTTCCTACG CGAAGCTACA GAAGCAGCAG 
    CCGGACGAGG AGAAGCTGAC GGACCTATAG

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

    RefSeq XP_017945589.1
    CDS1..5550
    Translation

    Target ORF information:

    RefSeq Version XM_018090100.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018090100.1

    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
    ATGGAAGACG CCCCTTGGAA GCTACAGGAT AACAGAAGGA AGGACATCAT CCGGATCTTG 
    GGGATTGTCC ACCATCAAGA AGTGAAGGAA CTCTACTGTT ACTTCTGCTG TAATTCCAAC 
    ACCAACGTGT ACCCAACCAG GGCAGGAATT GATATCCATC AGGACCGGTT TGGGTTCCCT 
    TATGGGCTGG CCGATATCAT CTGCACAGAA CCTCCGGACT GTAGAGCGGA ATTTGTGTCG 
    GTTCATTGGT CTCCTTCTGA AGTCGTCCAC AATCTCACCA GCTTCAGAAT CAGAAATAGG 
    GATCCCGGCC AATTTACTGC CAACTTCACC GTCTGCATCT CCACCATGTT TGGGAATTAC 
    AGCAACGTCC TGCAGTTCAT CCAGACCATT GAAATGTATA AGATACTGGG TGCCAAAAAA 
    GTCATGGTCT GCCTGAACAA CTGTAGCCGA CAGATGGAGG AGGTCCTTCA GTACTACATC 
    AGGACGATTA AAAATGGATT AAACAAGAGT CAAAGATATA AAAGGTTGAT ATTCTCCATT 
    TTTTGTTTTC CAAAGAAGTT CTTGCACCAT CTAGAACCTG AAGAACTATA TGGATACTTC 
    GGTGCAACAT CTGTCCTAGA ATCCAATGTG GTGGACCTGG CTGAGCTGAC CTGCTCCTGT 
    GAGTCCCCTG AGTTGCCACC CCTATGTTTA GCTTTGCGTT GCATCCTTCA GGGGACAGAG 
    GGGACATTTG TCTTCAGGTT CCCTGTTGGT TCCGGACCCA TCATTACGGA ACGTGTTGTC 
    AACACATCTC TGCAAAGGCT CAAACATTTC CCAGAGGGCT GCGGGGTTCC GGGTTTCATT 
    CTATATCCAG ACGAAACCAA AGCAGTGATC AGCTACTGTG AAGGAGAACT TCGTGGATTC 
    ATCGTCTCTG ATGGACACTT GCTCTCCATA CAACCGTTGA AGAAGAGGCA TGAGCAAGAC 
    CACAAATCCC GAAGTTCTCA TATTATCTCC AGAGTAGGGA AATCACCCCC TGCCAGTGGT 
    GGACCAAGGC CTGCCCCTTT GCCCAACCGA ATTAGCAAAC GAGCAGTTGG TGGTGTGAAG 
    CATTTGGAGC TCCTAGTGGT AGTGGGTCAT GACGTCTACC AGTTCCACCA AGAGGACACT 
    GAGCGATACG TCCTGACCAA CCTTAACATT GGGGTTGAGT TGCTGAGAGA TGTCTCACTT 
    GGAACCGCAT TCCGTGTCCA TCTTGTGAAG CTAATTATCC TGACCGAACC GGAGGCAGAT 
    ATCCAAATTA CCACCAACCT CACCTCCTCG TTGATCAGCC TTTGCAAATG GAGCCACAAG 
    GTGAACCCTC CAGATGACTC CGACCCTCAA CATGCAGACC TTGTTCTCTA TGTGACCAGA 
    TTTGATCTTG AATTACCAGA TGGCAACAAA CAGGTGCGAG GAGTCACCCA GCTGGGCGGG 
    GCCTGCTCGT CTGTTTGGAG TTGCGTCATT ACTGAGGACA CCGGCTTTGA TCTGGGAGTC 
    ACCATGGCAC ATGAGATTGG ACACAGTTTT GGAATCAACC ACGACGGAAC GGGGAACAGC 
    TGCAGCAAAA GTGGGAACAT CATGGCATCG GAGGGGTACC ACAATAACGT CCACCTCACC 
    TGGTCTGAAT GCAGCCGGGA ACAGTTCCTC AGATTCCTCA GCAGCGGCAT GGCAAGCTGT 
    GTTGATGACT TGCCAGCAAT GGACAGTAGT ATTCCCGGCT GGAAGCCCGG TCTGTATTAT 
    GGAGCAGATG AGCAGTGTCA GATTGCCTTC GGCAGCTCTG CCCTGGCATG CACTTTCTCC 
    AGAAATGACC TGGATTCCTG CAGTGTCCTC TCATGCCACA TAAACCAACA CGATCGTACG 
    AGTTGCAACA GACTTCTGGT CCCCCTTCTA GATGGCACAG AGTGTGGGGA GAACAAGTGG 
    TGCCACAAGG GCCGTTGCAG TTCACTCGAA GAGCTGAATC CGGTTTCCGT AGTGCACGGA 
    GGATGGTCCA GTTGGGGGTC TTTCTCCTCA TGTTCCCGCA GCTGTGGTGG GGGAGTCGTG 
    ATGAGGAAAA GGCAGTGTAA CAACCCTAGA CCTGCATTTG GTGGACGCGC CTGTGAGGGA 
    TCCAATCTAC AGGCTGAAAT GTGTAACACT CAGGTCTGTA GCAGCACCCA GATCGGTTTC 
    ATGAATGAGC AATGTTCTGA TACAGACACC AAACCTCTCT ATCTCAGCCC AGGAATTCCA 
    AGTTTTTACA AGTGGACCTC AGCCGTTGGC TTTGTCGATG GGAAAGCGCT GTGTCAATAC 
    ATGTGTCGAG CCCAGGGGAA GAGTTTCATC GTAGCACGAG GGAAGAGTTT TTTGGATGGG 
    ACCCGGTGTG AGACAAATAA GGAGGCCAAT GCTAAGTTGG GTCTCTGTGT AGCTGGCAGT 
    TGCAGGGTCT TTGGCTGTGA TGGAGTGATG GGATCTGGGA TGGTGAAGGA TCAATGTGGT 
    GTGTGTGGAG GAGATAACAG CACGTGCAAT AGAATCCATG GCTCTTTCTC TGAAGGGAAA 
    GCCGGAGAGT ATGTCTCCTT CTTGACTCTT CCACCAGGCT CCACATCTTT AAAAGTGACA 
    AATCAAAAGC CCGTTTTTAC GCATTTGGGG ATTAAGGTGA ACGATGAGTA CTTGGTAGCG 
    GGAAAGGGAA GTATTTCTCT CAATGTAACC TACCCATCAG TCCTAGAGGA CCAGACAATA 
    GAATACCGGT TGTTTCTGAA TGCAGACAAG CTTCCACATC TGGAGCAAAT CCATATAGAG 
    GGTCCCACCA CAAAAGAACT TGAGATACAG GTTTACAGGA AATATGGCCA GGAATATGGA 
    GATGCTACAA ACCCCGACAT CATTTATAGT TACCATATAC CCAAGAAGGA CATAGAATAT 
    AAATGGTTCC CTGTGCCAGG ACCCTGTTCA GCAAGCTGTG ATGGGGGTTT TCACTTGGTG 
    TCTTACGAAT GTTCCGAACA TGATCTGAAC CAGTTGGTCC AATCCAGCCT CTGCAATGAT 
    TCTGCACGCC CGTCTTCATT CCATGAACCA TGTGGCATAG ATCCATGTCC TCCTAGGTGG 
    GATGTGAAGG AAAGTTCCCC ATGCACAGTG TCCTGTGGTG GTGGGGTGGT TCTAAGAACT 
    CTACATTGTG TTCAAATGCA ACAAGGCATT GAGACCATTC TATTTGATGC CTACTGCGAC 
    CACTCAACCC GTCCAGAAGC CTTTGTTGCC TGTGGCTTAG AACCCTGTCC TGCCAGATGG 
    GAAGCGTCGG AGGCTGGTCT CTGCCCGGTG GTGTGTGGCT CAGGTCTGGC TTTGAGAAAT 
    GTCTCCTGTG TTCAGTCTCA TGCTGGATTG GAAGTTGCGG TGGAAGAATC AAACTGTTTA 
    GGTCAAGAAA AGCCAACGAC TCAGGTGGAA TGCGTAGTCA GTGTGTGTCC TGTCGGCTGG 
    GACATGCAGA TGGACTCTTC ATTGAGGTTG AGTGAACGTT CCTCTCGTGA AGAAACTGCT 
    GAGAAACATA CAGAAGTCTA CGTGTGGAGC CCACGGGTCG GACCATGCTC AGTGAGCTGT 
    GGAACAGGAA TATCTGAGCT TAGCTACATC TGTGTGGATT TCTACACCAA GACTGAAACC 
    GCGGAGGAGA ACTGCAACCA AACTCTGAAG CCAGAACCAC GGCCAAACGT CTGCAACCTT 
    GGAACGTGCC CACCGCTGTG GGAAGTGAAG GAGCTCGGTC CATGTCCCGT GACCTGTGGA 
    GGAGCAACGA TTCCACTCGC TGTGATCTGT GTTAGGAGAG ATGGAAATAT CTCCTATTCC 
    CTTCCTCACT CCAAGTGCAG CCGAATCCCT CGTCCCCGTG CCAGCAAACC TTGTGGGATG 
    GAACCCTGCC CAGTCCGGTG GCGCTATAAA ACAGGATCTT GCAGTGTGAG CTGCGGCGGG 
    GGCATCTTGC AGAGAGTCCT CTACTGCTCC AGGTATCCCC AAAAAGGAGA GAGTGAGGAG 
    CAGATTGTAT CCGATCTAGA ATGCCAACAC TTGCCTCATC CAGAAGGACA GGAACCCTGC 
    AACCAGCAGC TTTGCCCACC CAGGTGGAAG GTAGCAGAGG CAACTCCATG CTCAGCAGCC 
    TGTGGATATG GCATCTCCAA GCAGAGAGTA GTGTGTGTGC AGACAGTAGA AGGGGCAGAG 
    AAGGAGATGG ACCTGGACTC TTGTGTCCTT CAAGAGAAGC CACCATCTCT CATCCCTTGC 
    ATTGTCAATA ACTGCTTCTA CTCATGGGAA GTCAGCGCCT GGACTCAGTG CTCGGTCACC 
    TGTGGGAACG GTATCCAAAG CCGTCAAGAT GTTTGCACCA ACCTAAAAAC CCGACAGCCG 
    GTGAGCCCCA CCTTCTGTGG GAATGCCCCC AAACCCATCA CTATTCGCGG ATGCTCAGCC 
    CAGACATGTA GGCCTGAAAC GACCACTCCG CAGGCTGCCT TGGCAAGTAC AGCTCTGGTC 
    ACCCAGCTGC CGCCCAGCGA CGCCATCTTG AGGCCACAGT GGAGATCTGC TGTAACCCCT 
    CGGGAACACA ACCTTGAGTA CAATCGACGT AGAGAACCAG GCAAAGCTGA GGAAGAAGAT 
    GGTATCTGCG GGCAGCTGTT CCTCAACGCT ACAGGAGTGC TGAGTACCAC GGGGCTCAAT 
    GAGAGAGACT GTATGTTCAC CATTGGGCGC CCCCTGGGGG AGGTGATTAT AGTCCGAGTG 
    TTGTCCAGCA CTCTCAACTG CACAGCCGGG GAGCTGCTGC TGTTCTTCGG GCGGGTCATG 
    TGGCGCAAGA CGTGCGCTCG CCTCTCGGGG GTGACCCTGC TGTCTCGGTC GAACACTCTC 
    TCTGTGAGAC AGCGCCAGGC TATAGACGGC AATGGGGTGG TACTGGAGTA CTGGAGCAAA 
    CCGGCCGCCC AAAACTACTC CCAAGCATGC GATATCCAGC TTTATGGAAT GGGGGGAGAA 
    ATCCGGAATC CCGTGCAGCC CTGGATGGAG GGGGGATCCC CAGCTTGTAG AGTCTTCATT 
    GACGTGGCCC CCCAGTATTA CATTGCTATT CATGCTTTGT ACATGGACCT GGAACCCATG 
    AGCAACCATA CGCACCCAAG TTCTATTCTG GTGGGTGATC GGGGGGCTGA TTCACTGCCG 
    GCCCAGACCC TGGGCCCTGC ATCTCCCATA ACAATAACAA TCTCTAACCC CCCCTGTGTT 
    TGTGTTCCCC CAGCGTGTGC GGTGGCCGGA CTGTGGAGCT GTGTCACAAT CAACCCCCTC 
    AATATCGCAG CCGGGGTGCT AATGATGCTC AACGCGTTCA TCCTGTTCCT GTGTGAGGCT 
    CCCTTTTGCT GCCAGTTTGT CGAGTTCGCC AATACGGTTT CTGAGAAGGC TGACAGGCTG 
    AAAAGCTGGC AGAAAGCGGC GTTTTATTGT GGGATGGCGC TGCTTCCCAT CTTCATCAGC 
    TTCACGTTTA CCACCTTGTT CGGCAATGCT ATCGCCTTTG CGTCGGGGGT TCTGTACGGT 
    CTCTCCGCCT TGGGCAAGAA GGGGGACGCC ATTTCCTACG CGAAGCTACA GAAGCAGCAG 
    CCGGACGAGG AGAAGCTGAC GGACCTATAG

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

    adamts13 ( XM_031891562.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031747422.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa64884
    Clone ID Related Accession (Same CDS sequence) XM_031891562.1
    Accession Version XM_031891562.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4782bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGACCCGGC CGGTCCGTCT GTGGGTAGCC CTTGGCTTGC TCCTTTCTCC TGTACTGTGT 
    GCGACAAAGA AGTTCTTGCA CCATCTAGAA CCTGAAGAAC TATATGGATA CTTCGGTGCA 
    ACATCTGTCC TAGAATCCAA TGTGGTGGAC CTGGCTGAGC TGACCTGCTC CTGTGAGTCC 
    CCTGAGTTGC CACCCCTATG TTTAGCTTTG CGTTGCATCC TTCAGGGGAC AGAGGGGACA 
    TTTGTCTTCA GGTTCCCTGT TGGTTCCGGA CCCATCATTA CGGAACGTGT TGTCAACACA 
    TCTCTGCAAA GGCTCAAACA TTTCCCAGAG GGCTGCGGGG TTCCGGGTTT CATTCTATAT 
    CCAGACGAAA CCAAAGCAGT GATCAGCTAC TGTGAAGGAG AACTTCGTGG ATTCATCGTC 
    TCTGATGGAC ACTTGCTCTC CATACAACCG TTGAAGAAGA GGCATGAGCA AGACCACAAA 
    TCCCGAAGTT CTCATATTAT CTCCAGAGTA GGGAAATCAC CCCCTGCCAG TGGTGGACCA 
    AGGCCTGCCC CTTTGCCCAA CCGAATTAGC AAACGAGCAG TTGGTGGTGT GAAGCATTTG 
    GAGCTCCTAG TGGTAGTGGG TCATGACGTC TACCAGTTCC ACCAAGAGGA CACTGAGCGA 
    TACGTCCTGA CCAACCTTAA CATTGGGGTT GAGTTGCTGA GAGATGTCTC ACTTGGAACC 
    GCATTCCGTG TCCATCTTGT GAAGCTAATT ATCCTGACCG AACCGGAGGC AGATATCCAA 
    ATTACCACCA ACCTCACCTC CTCGTTGATC AGCCTTTGCA AATGGAGCCA CAAGGTGAAC 
    CCTCCAGATG ACTCCGACCC TCAACATGCA GACCTTGTTC TCTATGTGAC CAGATTTGAT 
    CTTGAATTAC CAGATGGCAA CAAACAGGTG CGAGGAGTCA CCCAGCTGGG CGGGGCCTGC 
    TCGTCTGTTT GGAGTTGCGT CATTACTGAG GACACCGGCT TTGATCTGGG AGTCACCATG 
    GCACATGAGA TTGGACACAG TTTTGGAATC AACCACGACG GAACGGGGAA CAGCTGCAGC 
    AAAAGTGGGA ACATCATGGC ATCGGAGGGG TACCACAATA ACGTCCACCT CACCTGGTCT 
    GAATGCAGCC GGGAACAGTT CCTCAGATTC CTCAGCAGCG GCATGGCAAG CTGTGTTGAT 
    GACTTGCCAG CAATGGACAG TAGTATTCCC GGCTGGAAGC CCGGTCTGTA TTATGGAGCA 
    GATGAGCAGT GTCAGATTGC CTTCGGCAGC TCTGCCCTGG CATGCACTTT CTCCAGAAAT 
    GACCTGGATT CCTGCAGTGT CCTCTCATGC CACATAAACC AACACGATCG TACGAGTTGC 
    AACAGACTTC TGGTCCCCCT TCTAGATGGC ACAGAGTGTG GGGAGAACAA GTGGTGCCAC 
    AAGGGCCGTT GCAGTTCACT CGAAGAGCTG AATCCGGTTT CCGTAGTGCA CGGAGGATGG 
    TCCAGTTGGG GGTCTTTCTC CTCATGTTCC CGCAGCTGTG GTGGGGGAGT CGTGATGAGG 
    AAAAGGCAGT GTAACAACCC TAGACCTGCA TTTGGTGGAC GCGCCTGTGA GGGATCCAAT 
    CTACAGGCTG AAATGTGTAA CACTCAGGTC TGTAGCAGCA CCCAGATCGG TTTCATGAAT 
    GAGCAATGTT CTGATACAGA CACCAAACCT CTCTATCTCA GCCCAGGAAT TCCAAGTTTT 
    TACAAGTGGA CCTCAGCCGT TGGCTTTGTC GATGGGAAAG CGCTGTGTCA ATACATGTGT 
    CGAGCCCAGG GGAAGAGTTT CATCGTAGCA CGAGGGAAGA GTTTTTTGGA TGGGACCCGG 
    TGTGAGACAA ATAAGGAGGC CAATGCTAAG TTGGGTCTCT GTGTAGCTGG CAGTTGCAGG 
    GTCTTTGGCT GTGATGGAGT GATGGGATCT GGGATGGTGA AGGATCAATG TGGTGTGTGT 
    GGAGGAGATA ACAGCACGTG CAATAGAATC CATGGCTCTT TCTCTGAAGG GAAAGCCGGA 
    GAGTATGTCT CCTTCTTGAC TCTTCCACCA GGCTCCACAT CTTTAAAAGT GACAAATCAA 
    AAGCCCGTTT TTACGCATTT GGGGATTAAG GTGAACGATG AGTACTTGGT AGCGGGAAAG 
    GGAAGTATTT CTCTCAATGT AACCTACCCA TCAGTCCTAG AGGACCAGAC AATAGAATAC 
    CGGTTGTTTC TGAATGCAGA CAAGCTTCCA CATCTGGAGC AAATCCATAT AGAGGGTCCC 
    ACCACAAAAG AACTTGAGAT ACAGGTTTAC AGGAAATATG GCCAGGAATA TGGAGATGCT 
    ACAAACCCCG ACATCATTTA TAGTTACCAT ATACCCAAGA AGGACATAGA ATATAAATGG 
    TTCCCTGTGC CAGGACCCTG TTCAGCAAGC TGTGATGGGG GTTTTCACTT GGTGTCTTAC 
    GAATGTTCCG AACATGATCT GAACCAGTTG GTCCAATCCA GCCTCTGCAA TGATTCTGCA 
    CGCCCGTCTT CATTCCATGA ACCATGTGGC ATAGATCCAT GTCCTCCTAG GTGGGATGTG 
    AAGGAAAGTT CCCCATGCAC AGTGTCCTGT GGTGGTGGGG TGGTTCTAAG AACTCTACAT 
    TGTGTTCAAA TGCAACAAGG CATTGAGACC ATTCTATTTG ATGCCTACTG CGACCACTCA 
    ACCCGTCCAG AAGCCTTTGT TGCCTGTGGC TTAGAACCCT GTCCTGCCAG ATGGGAAGCG 
    TCGGAGGCTG GTCTCTGCCC GGTGGTGTGT GGCTCAGGTC TGGCTTTGAG AAATGTCTCC 
    TGTGTTCAGT CTCATGCTGG ATTGGAAGTT GCGGTGGAAG AATCAAACTG TTTAGGTCAA 
    GAAAAGCCAA CGACTCAGGT GGAATGCGTA GTCAGTGTGT GTCCTGTCGG CTGGGACATG 
    CAGATGGACT CTTCATTGAG GTTGAGTGAA CGTTCCTCTC GTGAAGAAAC TGCTGAGAAA 
    CATACAGAAG TCTACGTGTG GAGCCCACGG GTCGGACCAT GCTCAGTGAG CTGTGGAACA 
    GGAATATCTG AGCTTAGCTA CATCTGTGTG GATTTCTACA CCAAGACTGA AACCGCGGAG 
    GAGAACTGCA ACCAAACTCT GAAGCCAGAA CCACGGCCAA ACGTCTGCAA CCTTGGAACG 
    TGCCCACCGC TGTGGGAAGT GAAGGAGCTC GGTCCATGTC CCGTGACCTG TGGAGGAGCA 
    ACGATTCCAC TCGCTGTGAT CTGTGTTAGG AGAGATGGAA ATATCTCCTA TTCCCTTCCT 
    CACTCCAAGT GCAGCCGAAT CCCTCGTCCC CGTGCCAGCA AACCTTGTGG GATGGAACCC 
    TGCCCAGTCC GGTGGCGCTA TAAAACAGGA TCTTGCAGTG TGAGCTGCGG CGGGGGCATC 
    TTGCAGAGAG TCCTCTACTG CTCCAGGTAT CCCCAAAAAG GAGAGAGTGA GGAGCAGATT 
    GTATCCGATC TAGAATGCCA ACACTTGCCT CATCCAGAAG GACAGGAACC CTGCAACCAG 
    CAGCTTTGCC CACCCAGGTG GAAGGTAGCA GAGGCAACTC CATGCTCAGC AGCCTGTGGA 
    TATGGCATCT CCAAGCAGAG AGTAGTGTGT GTGCAGACAG TAGAAGGGGC AGAGAAGGAG 
    ATGGACCTGG ACTCTTGTGT CCTTCAAGAG AAGCCACCAT CTCTCATCCC TTGCATTGTC 
    AATAACTGCT TCTACTCATG GGAAGTCAGC GCCTGGACTC AGTGCTCGGT CACCTGTGGG 
    AACGGTATCC AAAGCCGTCA AGATGTTTGC ACCAACCTAA AAACCCGACA GCCGGTGAGC 
    CCCACCTTCT GTGGGAATGC CCCCAAACCC ATCACTATTC GCGGATGCTC AGCCCAGACA 
    TGTAGGCCTG AAACGACCAC TCCGCAGGCT GCCTTGGCAA GTACAGCTCT GGTCACCCAG 
    CTGCCGCCCA GCGACGCCAT CTTGAGGCCA CAGTGGAGAT CTGCTGTAAC CCCTCGGGAA 
    CACAACCTTG AGTACAATCG ACGTAGAGAA CCAGGCAAAG CTGAGGAAGA AGATGGTAGT 
    ACCAGTATCT GCGGGCAGCT GTTCCTCAAC GCTACAGGAG TGCTGAGTAC CACGGGGCTC 
    AATGAGAGAG ACTGTATGTT CACCATTGGG CGCCCCCTGG GGGAGGTGAT TATAGTCCGA 
    GTGTTGTCCA GCACTCTCAA CTGCACAGCC GGGGAGCTGC TGCTGTTCTT CGGGCGGGTC 
    ATGTGGCGCA AGACGTGCGC TCGCCTCTCG GGGGTGACCC TGCTGTCTCG GTCGAACACT 
    CTCTCTGTGA GACAGCGCCA GGCTATAGAC GGCAATGGGG TGGTACTGGA GTACTGGAGC 
    AAACCGGCCG CCCAAAACTA CTCCCAAGCA TGCGATATCC AGCTTTATGG AATGGGGGGA 
    GAAATCCGGA ATCCCGTGCA GCCCTGGATG GAGGGGGGAT CCCCAGCTTG TAGAGTCTTC 
    ATTGACGTGG CCCCCCAGTA TTACATTGCT ATTCATGCTT TGTACATGGA CCTGGAACCC 
    ATGAGCAACC ATACGCACCC AAGTTCTATT CTGATTCGGG ACATGAAATC GCTCAAATCC 
    ACGGGATTCC ATGGGAACCA CTTGTTCTAC TGGGAGTCGG CGGGGAGTCG GGCGGAAATA 
    GAATTTCATG GCGATTTCTC TAAGGACCGA GTCAGTTTCC GGGCGCAGTA CTGGGCGCGG 
    GCACCGAGGC TACAGGGCAG GGGGCGCCCC CCGGTGGAAT GA

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

    RefSeq XP_031747422.1
    CDS104..4885
    Translation

    Target ORF information:

    RefSeq Version XM_031891562.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031891562.1

    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
    ATGACCCGGC CGGTCCGTCT GTGGGTAGCC CTTGGCTTGC TCCTTTCTCC TGTACTGTGT 
    GCGACAAAGA AGTTCTTGCA CCATCTAGAA CCTGAAGAAC TATATGGATA CTTCGGTGCA 
    ACATCTGTCC TAGAATCCAA TGTGGTGGAC CTGGCTGAGC TGACCTGCTC CTGTGAGTCC 
    CCTGAGTTGC CACCCCTATG TTTAGCTTTG CGTTGCATCC TTCAGGGGAC AGAGGGGACA 
    TTTGTCTTCA GGTTCCCTGT TGGTTCCGGA CCCATCATTA CGGAACGTGT TGTCAACACA 
    TCTCTGCAAA GGCTCAAACA TTTCCCAGAG GGCTGCGGGG TTCCGGGTTT CATTCTATAT 
    CCAGACGAAA CCAAAGCAGT GATCAGCTAC TGTGAAGGAG AACTTCGTGG ATTCATCGTC 
    TCTGATGGAC ACTTGCTCTC CATACAACCG TTGAAGAAGA GGCATGAGCA AGACCACAAA 
    TCCCGAAGTT CTCATATTAT CTCCAGAGTA GGGAAATCAC CCCCTGCCAG TGGTGGACCA 
    AGGCCTGCCC CTTTGCCCAA CCGAATTAGC AAACGAGCAG TTGGTGGTGT GAAGCATTTG 
    GAGCTCCTAG TGGTAGTGGG TCATGACGTC TACCAGTTCC ACCAAGAGGA CACTGAGCGA 
    TACGTCCTGA CCAACCTTAA CATTGGGGTT GAGTTGCTGA GAGATGTCTC ACTTGGAACC 
    GCATTCCGTG TCCATCTTGT GAAGCTAATT ATCCTGACCG AACCGGAGGC AGATATCCAA 
    ATTACCACCA ACCTCACCTC CTCGTTGATC AGCCTTTGCA AATGGAGCCA CAAGGTGAAC 
    CCTCCAGATG ACTCCGACCC TCAACATGCA GACCTTGTTC TCTATGTGAC CAGATTTGAT 
    CTTGAATTAC CAGATGGCAA CAAACAGGTG CGAGGAGTCA CCCAGCTGGG CGGGGCCTGC 
    TCGTCTGTTT GGAGTTGCGT CATTACTGAG GACACCGGCT TTGATCTGGG AGTCACCATG 
    GCACATGAGA TTGGACACAG TTTTGGAATC AACCACGACG GAACGGGGAA CAGCTGCAGC 
    AAAAGTGGGA ACATCATGGC ATCGGAGGGG TACCACAATA ACGTCCACCT CACCTGGTCT 
    GAATGCAGCC GGGAACAGTT CCTCAGATTC CTCAGCAGCG GCATGGCAAG CTGTGTTGAT 
    GACTTGCCAG CAATGGACAG TAGTATTCCC GGCTGGAAGC CCGGTCTGTA TTATGGAGCA 
    GATGAGCAGT GTCAGATTGC CTTCGGCAGC TCTGCCCTGG CATGCACTTT CTCCAGAAAT 
    GACCTGGATT CCTGCAGTGT CCTCTCATGC CACATAAACC AACACGATCG TACGAGTTGC 
    AACAGACTTC TGGTCCCCCT TCTAGATGGC ACAGAGTGTG GGGAGAACAA GTGGTGCCAC 
    AAGGGCCGTT GCAGTTCACT CGAAGAGCTG AATCCGGTTT CCGTAGTGCA CGGAGGATGG 
    TCCAGTTGGG GGTCTTTCTC CTCATGTTCC CGCAGCTGTG GTGGGGGAGT CGTGATGAGG 
    AAAAGGCAGT GTAACAACCC TAGACCTGCA TTTGGTGGAC GCGCCTGTGA GGGATCCAAT 
    CTACAGGCTG AAATGTGTAA CACTCAGGTC TGTAGCAGCA CCCAGATCGG TTTCATGAAT 
    GAGCAATGTT CTGATACAGA CACCAAACCT CTCTATCTCA GCCCAGGAAT TCCAAGTTTT 
    TACAAGTGGA CCTCAGCCGT TGGCTTTGTC GATGGGAAAG CGCTGTGTCA ATACATGTGT 
    CGAGCCCAGG GGAAGAGTTT CATCGTAGCA CGAGGGAAGA GTTTTTTGGA TGGGACCCGG 
    TGTGAGACAA ATAAGGAGGC CAATGCTAAG TTGGGTCTCT GTGTAGCTGG CAGTTGCAGG 
    GTCTTTGGCT GTGATGGAGT GATGGGATCT GGGATGGTGA AGGATCAATG TGGTGTGTGT 
    GGAGGAGATA ACAGCACGTG CAATAGAATC CATGGCTCTT TCTCTGAAGG GAAAGCCGGA 
    GAGTATGTCT CCTTCTTGAC TCTTCCACCA GGCTCCACAT CTTTAAAAGT GACAAATCAA 
    AAGCCCGTTT TTACGCATTT GGGGATTAAG GTGAACGATG AGTACTTGGT AGCGGGAAAG 
    GGAAGTATTT CTCTCAATGT AACCTACCCA TCAGTCCTAG AGGACCAGAC AATAGAATAC 
    CGGTTGTTTC TGAATGCAGA CAAGCTTCCA CATCTGGAGC AAATCCATAT AGAGGGTCCC 
    ACCACAAAAG AACTTGAGAT ACAGGTTTAC AGGAAATATG GCCAGGAATA TGGAGATGCT 
    ACAAACCCCG ACATCATTTA TAGTTACCAT ATACCCAAGA AGGACATAGA ATATAAATGG 
    TTCCCTGTGC CAGGACCCTG TTCAGCAAGC TGTGATGGGG GTTTTCACTT GGTGTCTTAC 
    GAATGTTCCG AACATGATCT GAACCAGTTG GTCCAATCCA GCCTCTGCAA TGATTCTGCA 
    CGCCCGTCTT CATTCCATGA ACCATGTGGC ATAGATCCAT GTCCTCCTAG GTGGGATGTG 
    AAGGAAAGTT CCCCATGCAC AGTGTCCTGT GGTGGTGGGG TGGTTCTAAG AACTCTACAT 
    TGTGTTCAAA TGCAACAAGG CATTGAGACC ATTCTATTTG ATGCCTACTG CGACCACTCA 
    ACCCGTCCAG AAGCCTTTGT TGCCTGTGGC TTAGAACCCT GTCCTGCCAG ATGGGAAGCG 
    TCGGAGGCTG GTCTCTGCCC GGTGGTGTGT GGCTCAGGTC TGGCTTTGAG AAATGTCTCC 
    TGTGTTCAGT CTCATGCTGG ATTGGAAGTT GCGGTGGAAG AATCAAACTG TTTAGGTCAA 
    GAAAAGCCAA CGACTCAGGT GGAATGCGTA GTCAGTGTGT GTCCTGTCGG CTGGGACATG 
    CAGATGGACT CTTCATTGAG GTTGAGTGAA CGTTCCTCTC GTGAAGAAAC TGCTGAGAAA 
    CATACAGAAG TCTACGTGTG GAGCCCACGG GTCGGACCAT GCTCAGTGAG CTGTGGAACA 
    GGAATATCTG AGCTTAGCTA CATCTGTGTG GATTTCTACA CCAAGACTGA AACCGCGGAG 
    GAGAACTGCA ACCAAACTCT GAAGCCAGAA CCACGGCCAA ACGTCTGCAA CCTTGGAACG 
    TGCCCACCGC TGTGGGAAGT GAAGGAGCTC GGTCCATGTC CCGTGACCTG TGGAGGAGCA 
    ACGATTCCAC TCGCTGTGAT CTGTGTTAGG AGAGATGGAA ATATCTCCTA TTCCCTTCCT 
    CACTCCAAGT GCAGCCGAAT CCCTCGTCCC CGTGCCAGCA AACCTTGTGG GATGGAACCC 
    TGCCCAGTCC GGTGGCGCTA TAAAACAGGA TCTTGCAGTG TGAGCTGCGG CGGGGGCATC 
    TTGCAGAGAG TCCTCTACTG CTCCAGGTAT CCCCAAAAAG GAGAGAGTGA GGAGCAGATT 
    GTATCCGATC TAGAATGCCA ACACTTGCCT CATCCAGAAG GACAGGAACC CTGCAACCAG 
    CAGCTTTGCC CACCCAGGTG GAAGGTAGCA GAGGCAACTC CATGCTCAGC AGCCTGTGGA 
    TATGGCATCT CCAAGCAGAG AGTAGTGTGT GTGCAGACAG TAGAAGGGGC AGAGAAGGAG 
    ATGGACCTGG ACTCTTGTGT CCTTCAAGAG AAGCCACCAT CTCTCATCCC TTGCATTGTC 
    AATAACTGCT TCTACTCATG GGAAGTCAGC GCCTGGACTC AGTGCTCGGT CACCTGTGGG 
    AACGGTATCC AAAGCCGTCA AGATGTTTGC ACCAACCTAA AAACCCGACA GCCGGTGAGC 
    CCCACCTTCT GTGGGAATGC CCCCAAACCC ATCACTATTC GCGGATGCTC AGCCCAGACA 
    TGTAGGCCTG AAACGACCAC TCCGCAGGCT GCCTTGGCAA GTACAGCTCT GGTCACCCAG 
    CTGCCGCCCA GCGACGCCAT CTTGAGGCCA CAGTGGAGAT CTGCTGTAAC CCCTCGGGAA 
    CACAACCTTG AGTACAATCG ACGTAGAGAA CCAGGCAAAG CTGAGGAAGA AGATGGTAGT 
    ACCAGTATCT GCGGGCAGCT GTTCCTCAAC GCTACAGGAG TGCTGAGTAC CACGGGGCTC 
    AATGAGAGAG ACTGTATGTT CACCATTGGG CGCCCCCTGG GGGAGGTGAT TATAGTCCGA 
    GTGTTGTCCA GCACTCTCAA CTGCACAGCC GGGGAGCTGC TGCTGTTCTT CGGGCGGGTC 
    ATGTGGCGCA AGACGTGCGC TCGCCTCTCG GGGGTGACCC TGCTGTCTCG GTCGAACACT 
    CTCTCTGTGA GACAGCGCCA GGCTATAGAC GGCAATGGGG TGGTACTGGA GTACTGGAGC 
    AAACCGGCCG CCCAAAACTA CTCCCAAGCA TGCGATATCC AGCTTTATGG AATGGGGGGA 
    GAAATCCGGA ATCCCGTGCA GCCCTGGATG GAGGGGGGAT CCCCAGCTTG TAGAGTCTTC 
    ATTGACGTGG CCCCCCAGTA TTACATTGCT ATTCATGCTT TGTACATGGA CCTGGAACCC 
    ATGAGCAACC ATACGCACCC AAGTTCTATT CTGATTCGGG ACATGAAATC GCTCAAATCC 
    ACGGGATTCC ATGGGAACCA CTTGTTCTAC TGGGAGTCGG CGGGGAGTCG GGCGGAAATA 
    GAATTTCATG GCGATTTCTC TAAGGACCGA GTCAGTTTCC GGGCGCAGTA CTGGGCGCGG 
    GCACCGAGGC TACAGGGCAG GGGGCGCCCC CCGGTGGAAT GA

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

    adamts13 ( XM_031891563.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031747423.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa64885
    Clone ID Related Accession (Same CDS sequence) XM_031891563.1
    Accession Version XM_031891563.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4779bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGACCCGGC CGGTCCGTCT GTGGGTAGCC CTTGGCTTGC TCCTTTCTCC TGTACTGTGT 
    GCGACAAAGA AGTTCTTGCA CCATCTAGAA CCTGAAGAAC TATATGGATA CTTCGGTGCA 
    ACATCTGTCC TAGAATCCAA TGTGGTGGAC CTGGCTGAGC TGACCTGCTC CTGTGAGTCC 
    CCTGAGTTGC CACCCCTATG TTTAGCTTTG CGTTGCATCC TTCAGGGGAC AGAGGGGACA 
    TTTGTCTTCA GGTTCCCTGT TGGTTCCGGA CCCATCATTA CGGAACGTGT TGTCAACACA 
    TCTCTGCAAA GGCTCAAACA TTTCCCAGAG GGCTGCGGGG TTCCGGGTTT CATTCTATAT 
    CCAGACGAAA CCAAAGCAGT GATCAGCTAC TGTGAAGGAG AACTTCGTGG ATTCATCGTC 
    TCTGATGGAC ACTTGCTCTC CATACAACCG TTGAAGAAGA GGCATGAGCA AGACCACAAA 
    TCCCGAAGTT CTCATATTAT CTCCAGAGTA GGGAAATCAC CCCCTGCCAG TGGTGGACCA 
    AGGCCTGCCC CTTTGCCCAA CCGAATTAGC AAACGAGCAG TTGGTGGTGT GAAGCATTTG 
    GAGCTCCTAG TGGTAGTGGG TCATGACGTC TACCAGTTCC ACCAAGAGGA CACTGAGCGA 
    TACGTCCTGA CCAACCTTAA CATTGGGGTT GAGTTGCTGA GAGATGTCTC ACTTGGAACC 
    GCATTCCGTG TCCATCTTGT GAAGCTAATT ATCCTGACCG AACCGGAGGC AGATATCCAA 
    ATTACCACCA ACCTCACCTC CTCGTTGATC AGCCTTTGCA AATGGAGCCA CAAGGTGAAC 
    CCTCCAGATG ACTCCGACCC TCAACATGCA GACCTTGTTC TCTATGTGAC CAGATTTGAT 
    CTTGAATTAC CAGATGGCAA CAAACAGGTG CGAGGAGTCA CCCAGCTGGG CGGGGCCTGC 
    TCGTCTGTTT GGAGTTGCGT CATTACTGAG GACACCGGCT TTGATCTGGG AGTCACCATG 
    GCACATGAGA TTGGACACAG TTTTGGAATC AACCACGACG GAACGGGGAA CAGCTGCAGC 
    AAAAGTGGGA ACATCATGGC ATCGGAGGGG TACCACAATA ACGTCCACCT CACCTGGTCT 
    GAATGCAGCC GGGAACAGTT CCTCAGATTC CTCAGCAGCG GCATGGCAAG CTGTGTTGAT 
    GACTTGCCAG CAATGGACAG TAGTATTCCC GGCTGGAAGC CCGGTCTGTA TTATGGAGCA 
    GATGAGCAGT GTCAGATTGC CTTCGGCAGC TCTGCCCTGG CATGCACTTT CTCCAGAAAT 
    GACCTGGATT CCTGCAGTGT CCTCTCATGC CACATAAACC AACACGATCG TACGAGTTGC 
    AACAGACTTC TGGTCCCCCT TCTAGATGGC ACAGAGTGTG GGGAGAACAA GTGGTGCCAC 
    AAGGGCCGTT GCAGTTCACT CGAAGAGCTG AATCCGGTTT CCGTAGTGCA CGGAGGATGG 
    TCCAGTTGGG GGTCTTTCTC CTCATGTTCC CGCAGCTGTG GTGGGGGAGT CGTGATGAGG 
    AAAAGGCAGT GTAACAACCC TAGACCTGCA TTTGGTGGAC GCGCCTGTGA GGGATCCAAT 
    CTACAGGCTG AAATGTGTAA CACTCAGGTC TGTAGCAGCA CCCAGATCGG TTTCATGAAT 
    GAGCAATGTT CTGATACAGA CACCAAACCT CTCTATCTCA GCCCAGGAAT TCCAAGTTTT 
    TACAAGTGGA CCTCAGCCGT TGGCTTTGTC GATGGGAAAG CGCTGTGTCA ATACATGTGT 
    CGAGCCCAGG GGAAGAGTTT CATCGTAGCA CGAGGGAAGA GTTTTTTGGA TGGGACCCGG 
    TGTGAGACAA ATAAGGAGGC CAATGCTAAG TTGGGTCTCT GTGTAGCTGG CAGTTGCAGG 
    GTCTTTGGCT GTGATGGAGT GATGGGATCT GGGATGGTGA AGGATCAATG TGGTGTGTGT 
    GGAGGAGATA ACAGCACGTG CAATAGAATC CATGGCTCTT TCTCTGAAGG GAAAGCCGGA 
    GAGTATGTCT CCTTCTTGAC TCTTCCACCA GGCTCCACAT CTTTAAAAGT GACAAATCAA 
    AAGCCCGTTT TTACGCATTT GGGGATTAAG GTGAACGATG AGTACTTGGT AGCGGGAAAG 
    GGAAGTATTT CTCTCAATGT AACCTACCCA TCAGTCCTAG AGGACCAGAC AATAGAATAC 
    CGGTTGTTTC TGAATGCAGA CAAGCTTCCA CATCTGGAGC AAATCCATAT AGAGGGTCCC 
    ACCACAAAAG AACTTGAGAT ACAGGTTTAC AGGAAATATG GCCAGGAATA TGGAGATGCT 
    ACAAACCCCG ACATCATTTA TAGTTACCAT ATACCCAAGA AGGACATAGA ATATAAATGG 
    TTCCCTGTGC CAGGACCCTG TTCAGCAAGC TGTGATGGGG GTTTTCACTT GGTGTCTTAC 
    GAATGTTCCG AACATGATCT GAACCAGTTG GTCCAATCCA GCCTCTGCAA TGATTCTGCA 
    CGCCCGTCTT CATTCCATGA ACCATGTGGC ATAGATCCAT GTCCTCCTAG GTGGGATGTG 
    AAGGAAAGTT CCCCATGCAC AGTGTCCTGT GGTGGTGGGG TGGTTCTAAG AACTCTACAT 
    TGTGTTCAAA TGCAACAAGG CATTGAGACC ATTCTATTTG ATGCCTACTG CGACCACTCA 
    ACCCGTCCAG AAGCCTTTGT TGCCTGTGGC TTAGAACCCT GTCCTGCCAG ATGGGAAGCG 
    TCGGAGGCTG GTCTCTGCCC GGTGGTGTGT GGCTCAGGTC TGGCTTTGAG AAATGTCTCC 
    TGTGTTCAGT CTCATGCTGG ATTGGAAGTT GCGGTGGAAG AATCAAACTG TTTAGGTCAA 
    GAAAAGCCAA CGACTCAGGT GGAATGCGTA GTCAGTGTGT GTCCTGTCGG CTGGGACATG 
    ATGGACTCTT CATTGAGGTT GAGTGAACGT TCCTCTCGTG AAGAAACTGC TGAGAAACAT 
    ACAGAAGTCT ACGTGTGGAG CCCACGGGTC GGACCATGCT CAGTGAGCTG TGGAACAGGA 
    ATATCTGAGC TTAGCTACAT CTGTGTGGAT TTCTACACCA AGACTGAAAC CGCGGAGGAG 
    AACTGCAACC AAACTCTGAA GCCAGAACCA CGGCCAAACG TCTGCAACCT TGGAACGTGC 
    CCACCGCTGT GGGAAGTGAA GGAGCTCGGT CCATGTCCCG TGACCTGTGG AGGAGCAACG 
    ATTCCACTCG CTGTGATCTG TGTTAGGAGA GATGGAAATA TCTCCTATTC CCTTCCTCAC 
    TCCAAGTGCA GCCGAATCCC TCGTCCCCGT GCCAGCAAAC CTTGTGGGAT GGAACCCTGC 
    CCAGTCCGGT GGCGCTATAA AACAGGATCT TGCAGTGTGA GCTGCGGCGG GGGCATCTTG 
    CAGAGAGTCC TCTACTGCTC CAGGTATCCC CAAAAAGGAG AGAGTGAGGA GCAGATTGTA 
    TCCGATCTAG AATGCCAACA CTTGCCTCAT CCAGAAGGAC AGGAACCCTG CAACCAGCAG 
    CTTTGCCCAC CCAGGTGGAA GGTAGCAGAG GCAACTCCAT GCTCAGCAGC CTGTGGATAT 
    GGCATCTCCA AGCAGAGAGT AGTGTGTGTG CAGACAGTAG AAGGGGCAGA GAAGGAGATG 
    GACCTGGACT CTTGTGTCCT TCAAGAGAAG CCACCATCTC TCATCCCTTG CATTGTCAAT 
    AACTGCTTCT ACTCATGGGA AGTCAGCGCC TGGACTCAGT GCTCGGTCAC CTGTGGGAAC 
    GGTATCCAAA GCCGTCAAGA TGTTTGCACC AACCTAAAAA CCCGACAGCC GGTGAGCCCC 
    ACCTTCTGTG GGAATGCCCC CAAACCCATC ACTATTCGCG GATGCTCAGC CCAGACATGT 
    AGGCCTGAAA CGACCACTCC GCAGGCTGCC TTGGCAAGTA CAGCTCTGGT CACCCAGCTG 
    CCGCCCAGCG ACGCCATCTT GAGGCCACAG TGGAGATCTG CTGTAACCCC TCGGGAACAC 
    AACCTTGAGT ACAATCGACG TAGAGAACCA GGCAAAGCTG AGGAAGAAGA TGGTAGTACC 
    AGTATCTGCG GGCAGCTGTT CCTCAACGCT ACAGGAGTGC TGAGTACCAC GGGGCTCAAT 
    GAGAGAGACT GTATGTTCAC CATTGGGCGC CCCCTGGGGG AGGTGATTAT AGTCCGAGTG 
    TTGTCCAGCA CTCTCAACTG CACAGCCGGG GAGCTGCTGC TGTTCTTCGG GCGGGTCATG 
    TGGCGCAAGA CGTGCGCTCG CCTCTCGGGG GTGACCCTGC TGTCTCGGTC GAACACTCTC 
    TCTGTGAGAC AGCGCCAGGC TATAGACGGC AATGGGGTGG TACTGGAGTA CTGGAGCAAA 
    CCGGCCGCCC AAAACTACTC CCAAGCATGC GATATCCAGC TTTATGGAAT GGGGGGAGAA 
    ATCCGGAATC CCGTGCAGCC CTGGATGGAG GGGGGATCCC CAGCTTGTAG AGTCTTCATT 
    GACGTGGCCC CCCAGTATTA CATTGCTATT CATGCTTTGT ACATGGACCT GGAACCCATG 
    AGCAACCATA CGCACCCAAG TTCTATTCTG ATTCGGGACA TGAAATCGCT CAAATCCACG 
    GGATTCCATG GGAACCACTT GTTCTACTGG GAGTCGGCGG GGAGTCGGGC GGAAATAGAA 
    TTTCATGGCG ATTTCTCTAA GGACCGAGTC AGTTTCCGGG CGCAGTACTG GGCGCGGGCA 
    CCGAGGCTAC AGGGCAGGGG GCGCCCCCCG GTGGAATGA

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

    RefSeq XP_031747423.1
    CDS104..4882
    Translation

    Target ORF information:

    RefSeq Version XM_031891563.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031891563.1

    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
    ATGACCCGGC CGGTCCGTCT GTGGGTAGCC CTTGGCTTGC TCCTTTCTCC TGTACTGTGT 
    GCGACAAAGA AGTTCTTGCA CCATCTAGAA CCTGAAGAAC TATATGGATA CTTCGGTGCA 
    ACATCTGTCC TAGAATCCAA TGTGGTGGAC CTGGCTGAGC TGACCTGCTC CTGTGAGTCC 
    CCTGAGTTGC CACCCCTATG TTTAGCTTTG CGTTGCATCC TTCAGGGGAC AGAGGGGACA 
    TTTGTCTTCA GGTTCCCTGT TGGTTCCGGA CCCATCATTA CGGAACGTGT TGTCAACACA 
    TCTCTGCAAA GGCTCAAACA TTTCCCAGAG GGCTGCGGGG TTCCGGGTTT CATTCTATAT 
    CCAGACGAAA CCAAAGCAGT GATCAGCTAC TGTGAAGGAG AACTTCGTGG ATTCATCGTC 
    TCTGATGGAC ACTTGCTCTC CATACAACCG TTGAAGAAGA GGCATGAGCA AGACCACAAA 
    TCCCGAAGTT CTCATATTAT CTCCAGAGTA GGGAAATCAC CCCCTGCCAG TGGTGGACCA 
    AGGCCTGCCC CTTTGCCCAA CCGAATTAGC AAACGAGCAG TTGGTGGTGT GAAGCATTTG 
    GAGCTCCTAG TGGTAGTGGG TCATGACGTC TACCAGTTCC ACCAAGAGGA CACTGAGCGA 
    TACGTCCTGA CCAACCTTAA CATTGGGGTT GAGTTGCTGA GAGATGTCTC ACTTGGAACC 
    GCATTCCGTG TCCATCTTGT GAAGCTAATT ATCCTGACCG AACCGGAGGC AGATATCCAA 
    ATTACCACCA ACCTCACCTC CTCGTTGATC AGCCTTTGCA AATGGAGCCA CAAGGTGAAC 
    CCTCCAGATG ACTCCGACCC TCAACATGCA GACCTTGTTC TCTATGTGAC CAGATTTGAT 
    CTTGAATTAC CAGATGGCAA CAAACAGGTG CGAGGAGTCA CCCAGCTGGG CGGGGCCTGC 
    TCGTCTGTTT GGAGTTGCGT CATTACTGAG GACACCGGCT TTGATCTGGG AGTCACCATG 
    GCACATGAGA TTGGACACAG TTTTGGAATC AACCACGACG GAACGGGGAA CAGCTGCAGC 
    AAAAGTGGGA ACATCATGGC ATCGGAGGGG TACCACAATA ACGTCCACCT CACCTGGTCT 
    GAATGCAGCC GGGAACAGTT CCTCAGATTC CTCAGCAGCG GCATGGCAAG CTGTGTTGAT 
    GACTTGCCAG CAATGGACAG TAGTATTCCC GGCTGGAAGC CCGGTCTGTA TTATGGAGCA 
    GATGAGCAGT GTCAGATTGC CTTCGGCAGC TCTGCCCTGG CATGCACTTT CTCCAGAAAT 
    GACCTGGATT CCTGCAGTGT CCTCTCATGC CACATAAACC AACACGATCG TACGAGTTGC 
    AACAGACTTC TGGTCCCCCT TCTAGATGGC ACAGAGTGTG GGGAGAACAA GTGGTGCCAC 
    AAGGGCCGTT GCAGTTCACT CGAAGAGCTG AATCCGGTTT CCGTAGTGCA CGGAGGATGG 
    TCCAGTTGGG GGTCTTTCTC CTCATGTTCC CGCAGCTGTG GTGGGGGAGT CGTGATGAGG 
    AAAAGGCAGT GTAACAACCC TAGACCTGCA TTTGGTGGAC GCGCCTGTGA GGGATCCAAT 
    CTACAGGCTG AAATGTGTAA CACTCAGGTC TGTAGCAGCA CCCAGATCGG TTTCATGAAT 
    GAGCAATGTT CTGATACAGA CACCAAACCT CTCTATCTCA GCCCAGGAAT TCCAAGTTTT 
    TACAAGTGGA CCTCAGCCGT TGGCTTTGTC GATGGGAAAG CGCTGTGTCA ATACATGTGT 
    CGAGCCCAGG GGAAGAGTTT CATCGTAGCA CGAGGGAAGA GTTTTTTGGA TGGGACCCGG 
    TGTGAGACAA ATAAGGAGGC CAATGCTAAG TTGGGTCTCT GTGTAGCTGG CAGTTGCAGG 
    GTCTTTGGCT GTGATGGAGT GATGGGATCT GGGATGGTGA AGGATCAATG TGGTGTGTGT 
    GGAGGAGATA ACAGCACGTG CAATAGAATC CATGGCTCTT TCTCTGAAGG GAAAGCCGGA 
    GAGTATGTCT CCTTCTTGAC TCTTCCACCA GGCTCCACAT CTTTAAAAGT GACAAATCAA 
    AAGCCCGTTT TTACGCATTT GGGGATTAAG GTGAACGATG AGTACTTGGT AGCGGGAAAG 
    GGAAGTATTT CTCTCAATGT AACCTACCCA TCAGTCCTAG AGGACCAGAC AATAGAATAC 
    CGGTTGTTTC TGAATGCAGA CAAGCTTCCA CATCTGGAGC AAATCCATAT AGAGGGTCCC 
    ACCACAAAAG AACTTGAGAT ACAGGTTTAC AGGAAATATG GCCAGGAATA TGGAGATGCT 
    ACAAACCCCG ACATCATTTA TAGTTACCAT ATACCCAAGA AGGACATAGA ATATAAATGG 
    TTCCCTGTGC CAGGACCCTG TTCAGCAAGC TGTGATGGGG GTTTTCACTT GGTGTCTTAC 
    GAATGTTCCG AACATGATCT GAACCAGTTG GTCCAATCCA GCCTCTGCAA TGATTCTGCA 
    CGCCCGTCTT CATTCCATGA ACCATGTGGC ATAGATCCAT GTCCTCCTAG GTGGGATGTG 
    AAGGAAAGTT CCCCATGCAC AGTGTCCTGT GGTGGTGGGG TGGTTCTAAG AACTCTACAT 
    TGTGTTCAAA TGCAACAAGG CATTGAGACC ATTCTATTTG ATGCCTACTG CGACCACTCA 
    ACCCGTCCAG AAGCCTTTGT TGCCTGTGGC TTAGAACCCT GTCCTGCCAG ATGGGAAGCG 
    TCGGAGGCTG GTCTCTGCCC GGTGGTGTGT GGCTCAGGTC TGGCTTTGAG AAATGTCTCC 
    TGTGTTCAGT CTCATGCTGG ATTGGAAGTT GCGGTGGAAG AATCAAACTG TTTAGGTCAA 
    GAAAAGCCAA CGACTCAGGT GGAATGCGTA GTCAGTGTGT GTCCTGTCGG CTGGGACATG 
    ATGGACTCTT CATTGAGGTT GAGTGAACGT TCCTCTCGTG AAGAAACTGC TGAGAAACAT 
    ACAGAAGTCT ACGTGTGGAG CCCACGGGTC GGACCATGCT CAGTGAGCTG TGGAACAGGA 
    ATATCTGAGC TTAGCTACAT CTGTGTGGAT TTCTACACCA AGACTGAAAC CGCGGAGGAG 
    AACTGCAACC AAACTCTGAA GCCAGAACCA CGGCCAAACG TCTGCAACCT TGGAACGTGC 
    CCACCGCTGT GGGAAGTGAA GGAGCTCGGT CCATGTCCCG TGACCTGTGG AGGAGCAACG 
    ATTCCACTCG CTGTGATCTG TGTTAGGAGA GATGGAAATA TCTCCTATTC CCTTCCTCAC 
    TCCAAGTGCA GCCGAATCCC TCGTCCCCGT GCCAGCAAAC CTTGTGGGAT GGAACCCTGC 
    CCAGTCCGGT GGCGCTATAA AACAGGATCT TGCAGTGTGA GCTGCGGCGG GGGCATCTTG 
    CAGAGAGTCC TCTACTGCTC CAGGTATCCC CAAAAAGGAG AGAGTGAGGA GCAGATTGTA 
    TCCGATCTAG AATGCCAACA CTTGCCTCAT CCAGAAGGAC AGGAACCCTG CAACCAGCAG 
    CTTTGCCCAC CCAGGTGGAA GGTAGCAGAG GCAACTCCAT GCTCAGCAGC CTGTGGATAT 
    GGCATCTCCA AGCAGAGAGT AGTGTGTGTG CAGACAGTAG AAGGGGCAGA GAAGGAGATG 
    GACCTGGACT CTTGTGTCCT TCAAGAGAAG CCACCATCTC TCATCCCTTG CATTGTCAAT 
    AACTGCTTCT ACTCATGGGA AGTCAGCGCC TGGACTCAGT GCTCGGTCAC CTGTGGGAAC 
    GGTATCCAAA GCCGTCAAGA TGTTTGCACC AACCTAAAAA CCCGACAGCC GGTGAGCCCC 
    ACCTTCTGTG GGAATGCCCC CAAACCCATC ACTATTCGCG GATGCTCAGC CCAGACATGT 
    AGGCCTGAAA CGACCACTCC GCAGGCTGCC TTGGCAAGTA CAGCTCTGGT CACCCAGCTG 
    CCGCCCAGCG ACGCCATCTT GAGGCCACAG TGGAGATCTG CTGTAACCCC TCGGGAACAC 
    AACCTTGAGT ACAATCGACG TAGAGAACCA GGCAAAGCTG AGGAAGAAGA TGGTAGTACC 
    AGTATCTGCG GGCAGCTGTT CCTCAACGCT ACAGGAGTGC TGAGTACCAC GGGGCTCAAT 
    GAGAGAGACT GTATGTTCAC CATTGGGCGC CCCCTGGGGG AGGTGATTAT AGTCCGAGTG 
    TTGTCCAGCA CTCTCAACTG CACAGCCGGG GAGCTGCTGC TGTTCTTCGG GCGGGTCATG 
    TGGCGCAAGA CGTGCGCTCG CCTCTCGGGG GTGACCCTGC TGTCTCGGTC GAACACTCTC 
    TCTGTGAGAC AGCGCCAGGC TATAGACGGC AATGGGGTGG TACTGGAGTA CTGGAGCAAA 
    CCGGCCGCCC AAAACTACTC CCAAGCATGC GATATCCAGC TTTATGGAAT GGGGGGAGAA 
    ATCCGGAATC CCGTGCAGCC CTGGATGGAG GGGGGATCCC CAGCTTGTAG AGTCTTCATT 
    GACGTGGCCC CCCAGTATTA CATTGCTATT CATGCTTTGT ACATGGACCT GGAACCCATG 
    AGCAACCATA CGCACCCAAG TTCTATTCTG ATTCGGGACA TGAAATCGCT CAAATCCACG 
    GGATTCCATG GGAACCACTT GTTCTACTGG GAGTCGGCGG GGAGTCGGGC GGAAATAGAA 
    TTTCATGGCG ATTTCTCTAA GGACCGAGTC AGTTTCCGGG CGCAGTACTG GGCGCGGGCA 
    CCGAGGCTAC AGGGCAGGGG GCGCCCCCCG GTGGAATGA

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

    adamts13 ( XM_031891564.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031747424.1 Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa64886
    Clone ID Related Accession (Same CDS sequence) XM_031891564.1
    Accession Version XM_031891564.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4773bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 13 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGACCCGGC CGGTCCGTCT GTGGGTAGCC CTTGGCTTGC TCCTTTCTCC TGTACTGTGT 
    GCGACAAAGA AGTTCTTGCA CCATCTAGAA CCTGAAGAAC TATATGGATA CTTCGGTGCA 
    ACATCTGTCC TAGAATCCAA TGTGGTGGAC CTGGCTGAGC TGACCTGCTC CTGTGAGTCC 
    CCTGAGTTGC CACCCCTATG TTTAGCTTTG CGTTGCATCC TTCAGGGGAC AGAGGGGACA 
    TTTGTCTTCA GGTTCCCTGT TGGTTCCGGA CCCATCATTA CGGAACGTGT TGTCAACACA 
    TCTCTGCAAA GGCTCAAACA TTTCCCAGAG GGCTGCGGGG TTCCGGGTTT CATTCTATAT 
    CCAGACGAAA CCAAAGCAGT GATCAGCTAC TGTGAAGGAG AACTTCGTGG ATTCATCGTC 
    TCTGATGGAC ACTTGCTCTC CATACAACCG TTGAAGAAGA GGCATGAGCA AGACCACAAA 
    TCCCGAAGTT CTCATATTAT CTCCAGAGTA GGGAAATCAC CCCCTGCCAG TGGTGGACCA 
    AGGCCTGCCC CTTTGCCCAA CCGAATTAGC AAACGAGCAG TTGGTGGTGT GAAGCATTTG 
    GAGCTCCTAG TGGTAGTGGG TCATGACGTC TACCAGTTCC ACCAAGAGGA CACTGAGCGA 
    TACGTCCTGA CCAACCTTAA CATTGGGGTT GAGTTGCTGA GAGATGTCTC ACTTGGAACC 
    GCATTCCGTG TCCATCTTGT GAAGCTAATT ATCCTGACCG AACCGGAGGC AGATATCCAA 
    ATTACCACCA ACCTCACCTC CTCGTTGATC AGCCTTTGCA AATGGAGCCA CAAGGTGAAC 
    CCTCCAGATG ACTCCGACCC TCAACATGCA GACCTTGTTC TCTATGTGAC CAGATTTGAT 
    CTTGAATTAC CAGATGGCAA CAAACAGGTG CGAGGAGTCA CCCAGCTGGG CGGGGCCTGC 
    TCGTCTGTTT GGAGTTGCGT CATTACTGAG GACACCGGCT TTGATCTGGG AGTCACCATG 
    GCACATGAGA TTGGACACAG TTTTGGAATC AACCACGACG GAACGGGGAA CAGCTGCAGC 
    AAAAGTGGGA ACATCATGGC ATCGGAGGGG TACCACAATA ACGTCCACCT CACCTGGTCT 
    GAATGCAGCC GGGAACAGTT CCTCAGATTC CTCAGCAGCG GCATGGCAAG CTGTGTTGAT 
    GACTTGCCAG CAATGGACAG TAGTATTCCC GGCTGGAAGC CCGGTCTGTA TTATGGAGCA 
    GATGAGCAGT GTCAGATTGC CTTCGGCAGC TCTGCCCTGG CATGCACTTT CTCCAGAAAT 
    GACCTGGATT CCTGCAGTGT CCTCTCATGC CACATAAACC AACACGATCG TACGAGTTGC 
    AACAGACTTC TGGTCCCCCT TCTAGATGGC ACAGAGTGTG GGGAGAACAA GTGGTGCCAC 
    AAGGGCCGTT GCAGTTCACT CGAAGAGCTG AATCCGGTTT CCGTAGTGCA CGGAGGATGG 
    TCCAGTTGGG GGTCTTTCTC CTCATGTTCC CGCAGCTGTG GTGGGGGAGT CGTGATGAGG 
    AAAAGGCAGT GTAACAACCC TAGACCTGCA TTTGGTGGAC GCGCCTGTGA GGGATCCAAT 
    CTACAGGCTG AAATGTGTAA CACTCAGGTC TGTAGCAGCA CCCAGATCGG TTTCATGAAT 
    GAGCAATGTT CTGATACAGA CACCAAACCT CTCTATCTCA GCCCAGGAAT TCCAAGTTTT 
    TACAAGTGGA CCTCAGCCGT TGGCTTTGTC GATGGGAAAG CGCTGTGTCA ATACATGTGT 
    CGAGCCCAGG GGAAGAGTTT CATCGTAGCA CGAGGGAAGA GTTTTTTGGA TGGGACCCGG 
    TGTGAGACAA ATAAGGAGGC CAATGCTAAG TTGGGTCTCT GTGTAGCTGG CAGTTGCAGG 
    GTCTTTGGCT GTGATGGAGT GATGGGATCT GGGATGGTGA AGGATCAATG TGGTGTGTGT 
    GGAGGAGATA ACAGCACGTG CAATAGAATC CATGGCTCTT TCTCTGAAGG GAAAGCCGGA 
    GAGTATGTCT CCTTCTTGAC TCTTCCACCA GGCTCCACAT CTTTAAAAGT GACAAATCAA 
    AAGCCCGTTT TTACGCATTT GGGGATTAAG GTGAACGATG AGTACTTGGT AGCGGGAAAG 
    GGAAGTATTT CTCTCAATGT AACCTACCCA TCAGTCCTAG AGGACCAGAC AATAGAATAC 
    CGGTTGTTTC TGAATGCAGA CAAGCTTCCA CATCTGGAGC AAATCCATAT AGAGGGTCCC 
    ACCACAAAAG AACTTGAGAT ACAGGTTTAC AGGAAATATG GCCAGGAATA TGGAGATGCT 
    ACAAACCCCG ACATCATTTA TAGTTACCAT ATACCCAAGA AGGACATAGA ATATAAATGG 
    TTCCCTGTGC CAGGACCCTG TTCAGCAAGC TGTGATGGGG GTTTTCACTT GGTGTCTTAC 
    GAATGTTCCG AACATGATCT GAACCAGTTG GTCCAATCCA GCCTCTGCAA TGATTCTGCA 
    CGCCCGTCTT CATTCCATGA ACCATGTGGC ATAGATCCAT GTCCTCCTAG GTGGGATGTG 
    AAGGAAAGTT CCCCATGCAC AGTGTCCTGT GGTGGTGGGG TGGTTCTAAG AACTCTACAT 
    TGTGTTCAAA TGCAACAAGG CATTGAGACC ATTCTATTTG ATGCCTACTG CGACCACTCA 
    ACCCGTCCAG AAGCCTTTGT TGCCTGTGGC TTAGAACCCT GTCCTGCCAG ATGGGAAGCG 
    TCGGAGGCTG GTCTCTGCCC GGTGGTGTGT GGCTCAGGTC TGGCTTTGAG AAATGTCTCC 
    TGTGTTCAGT CTCATGCTGG ATTGGAAGTT GCGGTGGAAG AATCAAACTG TTTAGGTCAA 
    GAAAAGCCAA CGACTCAGGT GGAATGCGTA GTCAGTGTGT GTCCTGTCGG CTGGGACATG 
    CAGATGGACT CTTCATTGAG GTTGAGTGAA CGTTCCTCTC GTGAAGAAAC TGCTGAGAAA 
    CATACAGAAG TCTACGTGTG GAGCCCACGG GTCGGACCAT GCTCAGTGAG CTGTGGAACA 
    GGAATATCTG AGCTTAGCTA CATCTGTGTG GATTTCTACA CCAAGACTGA AACCGCGGAG 
    GAGAACTGCA ACCAAACTCT GAAGCCAGAA CCACGGCCAA ACGTCTGCAA CCTTGGAACG 
    TGCCCACCGC TGTGGGAAGT GAAGGAGCTC GGTCCATGTC CCGTGACCTG TGGAGGAGCA 
    ACGATTCCAC TCGCTGTGAT CTGTGTTAGG AGAGATGGAA ATATCTCCTA TTCCCTTCCT 
    CACTCCAAGT GCAGCCGAAT CCCTCGTCCC CGTGCCAGCA AACCTTGTGG GATGGAACCC 
    TGCCCAGTCC GGTGGCGCTA TAAAACAGGA TCTTGCAGTG TGAGCTGCGG CGGGGGCATC 
    TTGCAGAGAG TCCTCTACTG CTCCAGGTAT CCCCAAAAAG GAGAGAGTGA GGAGCAGATT 
    GTATCCGATC TAGAATGCCA ACACTTGCCT CATCCAGAAG GACAGGAACC CTGCAACCAG 
    CAGCTTTGCC CACCCAGGTG GAAGGTAGCA GAGGCAACTC CATGCTCAGC AGCCTGTGGA 
    TATGGCATCT CCAAGCAGAG AGTAGTGTGT GTGCAGACAG TAGAAGGGGC AGAGAAGGAG 
    ATGGACCTGG ACTCTTGTGT CCTTCAAGAG AAGCCACCAT CTCTCATCCC TTGCATTGTC 
    AATAACTGCT TCTACTCATG GGAAGTCAGC GCCTGGACTC AGTGCTCGGT CACCTGTGGG 
    AACGGTATCC AAAGCCGTCA AGATGTTTGC ACCAACCTAA AAACCCGACA GCCGGTGAGC 
    CCCACCTTCT GTGGGAATGC CCCCAAACCC ATCACTATTC GCGGATGCTC AGCCCAGACA 
    TGTAGGCCTG AAACGACCAC TCCGCAGGCT GCCTTGGCAA GTACAGCTCT GGTCACCCAG 
    CTGCCGCCCA GCGACGCCAT CTTGAGGCCA CAGTGGAGAT CTGCTGTAAC CCCTCGGGAA 
    CACAACCTTG AGTACAATCG ACGTAGAGAA CCAGGCAAAG CTGAGGAAGA AGATGGTATC 
    TGCGGGCAGC TGTTCCTCAA CGCTACAGGA GTGCTGAGTA CCACGGGGCT CAATGAGAGA 
    GACTGTATGT TCACCATTGG GCGCCCCCTG GGGGAGGTGA TTATAGTCCG AGTGTTGTCC 
    AGCACTCTCA ACTGCACAGC CGGGGAGCTG CTGCTGTTCT TCGGGCGGGT CATGTGGCGC 
    AAGACGTGCG CTCGCCTCTC GGGGGTGACC CTGCTGTCTC GGTCGAACAC TCTCTCTGTG 
    AGACAGCGCC AGGCTATAGA CGGCAATGGG GTGGTACTGG AGTACTGGAG CAAACCGGCC 
    GCCCAAAACT ACTCCCAAGC ATGCGATATC CAGCTTTATG GAATGGGGGG AGAAATCCGG 
    AATCCCGTGC AGCCCTGGAT GGAGGGGGGA TCCCCAGCTT GTAGAGTCTT CATTGACGTG 
    GCCCCCCAGT ATTACATTGC TATTCATGCT TTGTACATGG ACCTGGAACC CATGAGCAAC 
    CATACGCACC CAAGTTCTAT TCTGATTCGG GACATGAAAT CGCTCAAATC CACGGGATTC 
    CATGGGAACC ACTTGTTCTA CTGGGAGTCG GCGGGGAGTC GGGCGGAAAT AGAATTTCAT 
    GGCGATTTCT CTAAGGACCG AGTCAGTTTC CGGGCGCAGT ACTGGGCGCG GGCACCGAGG 
    CTACAGGGCA GGGGGCGCCC CCCGGTGGAA TGA

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

    RefSeq XP_031747424.1
    CDS104..4876
    Translation

    Target ORF information:

    RefSeq Version XM_031891564.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ADAM metallopeptidase with thrombospondin type 1 motif 13 (adamts13), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031891564.1

    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
    ATGACCCGGC CGGTCCGTCT GTGGGTAGCC CTTGGCTTGC TCCTTTCTCC TGTACTGTGT 
    GCGACAAAGA AGTTCTTGCA CCATCTAGAA CCTGAAGAAC TATATGGATA CTTCGGTGCA 
    ACATCTGTCC TAGAATCCAA TGTGGTGGAC CTGGCTGAGC TGACCTGCTC CTGTGAGTCC 
    CCTGAGTTGC CACCCCTATG TTTAGCTTTG CGTTGCATCC TTCAGGGGAC AGAGGGGACA 
    TTTGTCTTCA GGTTCCCTGT TGGTTCCGGA CCCATCATTA CGGAACGTGT TGTCAACACA 
    TCTCTGCAAA GGCTCAAACA TTTCCCAGAG GGCTGCGGGG TTCCGGGTTT CATTCTATAT 
    CCAGACGAAA CCAAAGCAGT GATCAGCTAC TGTGAAGGAG AACTTCGTGG ATTCATCGTC 
    TCTGATGGAC ACTTGCTCTC CATACAACCG TTGAAGAAGA GGCATGAGCA AGACCACAAA 
    TCCCGAAGTT CTCATATTAT CTCCAGAGTA GGGAAATCAC CCCCTGCCAG TGGTGGACCA 
    AGGCCTGCCC CTTTGCCCAA CCGAATTAGC AAACGAGCAG TTGGTGGTGT GAAGCATTTG 
    GAGCTCCTAG TGGTAGTGGG TCATGACGTC TACCAGTTCC ACCAAGAGGA CACTGAGCGA 
    TACGTCCTGA CCAACCTTAA CATTGGGGTT GAGTTGCTGA GAGATGTCTC ACTTGGAACC 
    GCATTCCGTG TCCATCTTGT GAAGCTAATT ATCCTGACCG AACCGGAGGC AGATATCCAA 
    ATTACCACCA ACCTCACCTC CTCGTTGATC AGCCTTTGCA AATGGAGCCA CAAGGTGAAC 
    CCTCCAGATG ACTCCGACCC TCAACATGCA GACCTTGTTC TCTATGTGAC CAGATTTGAT 
    CTTGAATTAC CAGATGGCAA CAAACAGGTG CGAGGAGTCA CCCAGCTGGG CGGGGCCTGC 
    TCGTCTGTTT GGAGTTGCGT CATTACTGAG GACACCGGCT TTGATCTGGG AGTCACCATG 
    GCACATGAGA TTGGACACAG TTTTGGAATC AACCACGACG GAACGGGGAA CAGCTGCAGC 
    AAAAGTGGGA ACATCATGGC ATCGGAGGGG TACCACAATA ACGTCCACCT CACCTGGTCT 
    GAATGCAGCC GGGAACAGTT CCTCAGATTC CTCAGCAGCG GCATGGCAAG CTGTGTTGAT 
    GACTTGCCAG CAATGGACAG TAGTATTCCC GGCTGGAAGC CCGGTCTGTA TTATGGAGCA 
    GATGAGCAGT GTCAGATTGC CTTCGGCAGC TCTGCCCTGG CATGCACTTT CTCCAGAAAT 
    GACCTGGATT CCTGCAGTGT CCTCTCATGC CACATAAACC AACACGATCG TACGAGTTGC 
    AACAGACTTC TGGTCCCCCT TCTAGATGGC ACAGAGTGTG GGGAGAACAA GTGGTGCCAC 
    AAGGGCCGTT GCAGTTCACT CGAAGAGCTG AATCCGGTTT CCGTAGTGCA CGGAGGATGG 
    TCCAGTTGGG GGTCTTTCTC CTCATGTTCC CGCAGCTGTG GTGGGGGAGT CGTGATGAGG 
    AAAAGGCAGT GTAACAACCC TAGACCTGCA TTTGGTGGAC GCGCCTGTGA GGGATCCAAT 
    CTACAGGCTG AAATGTGTAA CACTCAGGTC TGTAGCAGCA CCCAGATCGG TTTCATGAAT 
    GAGCAATGTT CTGATACAGA CACCAAACCT CTCTATCTCA GCCCAGGAAT TCCAAGTTTT 
    TACAAGTGGA CCTCAGCCGT TGGCTTTGTC GATGGGAAAG CGCTGTGTCA ATACATGTGT 
    CGAGCCCAGG GGAAGAGTTT CATCGTAGCA CGAGGGAAGA GTTTTTTGGA TGGGACCCGG 
    TGTGAGACAA ATAAGGAGGC CAATGCTAAG TTGGGTCTCT GTGTAGCTGG CAGTTGCAGG 
    GTCTTTGGCT GTGATGGAGT GATGGGATCT GGGATGGTGA AGGATCAATG TGGTGTGTGT 
    GGAGGAGATA ACAGCACGTG CAATAGAATC CATGGCTCTT TCTCTGAAGG GAAAGCCGGA 
    GAGTATGTCT CCTTCTTGAC TCTTCCACCA GGCTCCACAT CTTTAAAAGT GACAAATCAA 
    AAGCCCGTTT TTACGCATTT GGGGATTAAG GTGAACGATG AGTACTTGGT AGCGGGAAAG 
    GGAAGTATTT CTCTCAATGT AACCTACCCA TCAGTCCTAG AGGACCAGAC AATAGAATAC 
    CGGTTGTTTC TGAATGCAGA CAAGCTTCCA CATCTGGAGC AAATCCATAT AGAGGGTCCC 
    ACCACAAAAG AACTTGAGAT ACAGGTTTAC AGGAAATATG GCCAGGAATA TGGAGATGCT 
    ACAAACCCCG ACATCATTTA TAGTTACCAT ATACCCAAGA AGGACATAGA ATATAAATGG 
    TTCCCTGTGC CAGGACCCTG TTCAGCAAGC TGTGATGGGG GTTTTCACTT GGTGTCTTAC 
    GAATGTTCCG AACATGATCT GAACCAGTTG GTCCAATCCA GCCTCTGCAA TGATTCTGCA 
    CGCCCGTCTT CATTCCATGA ACCATGTGGC ATAGATCCAT GTCCTCCTAG GTGGGATGTG 
    AAGGAAAGTT CCCCATGCAC AGTGTCCTGT GGTGGTGGGG TGGTTCTAAG AACTCTACAT 
    TGTGTTCAAA TGCAACAAGG CATTGAGACC ATTCTATTTG ATGCCTACTG CGACCACTCA 
    ACCCGTCCAG AAGCCTTTGT TGCCTGTGGC TTAGAACCCT GTCCTGCCAG ATGGGAAGCG 
    TCGGAGGCTG GTCTCTGCCC GGTGGTGTGT GGCTCAGGTC TGGCTTTGAG AAATGTCTCC 
    TGTGTTCAGT CTCATGCTGG ATTGGAAGTT GCGGTGGAAG AATCAAACTG TTTAGGTCAA 
    GAAAAGCCAA CGACTCAGGT GGAATGCGTA GTCAGTGTGT GTCCTGTCGG CTGGGACATG 
    CAGATGGACT CTTCATTGAG GTTGAGTGAA CGTTCCTCTC GTGAAGAAAC TGCTGAGAAA 
    CATACAGAAG TCTACGTGTG GAGCCCACGG GTCGGACCAT GCTCAGTGAG CTGTGGAACA 
    GGAATATCTG AGCTTAGCTA CATCTGTGTG GATTTCTACA CCAAGACTGA AACCGCGGAG 
    GAGAACTGCA ACCAAACTCT GAAGCCAGAA CCACGGCCAA ACGTCTGCAA CCTTGGAACG 
    TGCCCACCGC TGTGGGAAGT GAAGGAGCTC GGTCCATGTC CCGTGACCTG TGGAGGAGCA 
    ACGATTCCAC TCGCTGTGAT CTGTGTTAGG AGAGATGGAA ATATCTCCTA TTCCCTTCCT 
    CACTCCAAGT GCAGCCGAAT CCCTCGTCCC CGTGCCAGCA AACCTTGTGG GATGGAACCC 
    TGCCCAGTCC GGTGGCGCTA TAAAACAGGA TCTTGCAGTG TGAGCTGCGG CGGGGGCATC 
    TTGCAGAGAG TCCTCTACTG CTCCAGGTAT CCCCAAAAAG GAGAGAGTGA GGAGCAGATT 
    GTATCCGATC TAGAATGCCA ACACTTGCCT CATCCAGAAG GACAGGAACC CTGCAACCAG 
    CAGCTTTGCC CACCCAGGTG GAAGGTAGCA GAGGCAACTC CATGCTCAGC AGCCTGTGGA 
    TATGGCATCT CCAAGCAGAG AGTAGTGTGT GTGCAGACAG TAGAAGGGGC AGAGAAGGAG 
    ATGGACCTGG ACTCTTGTGT CCTTCAAGAG AAGCCACCAT CTCTCATCCC TTGCATTGTC 
    AATAACTGCT TCTACTCATG GGAAGTCAGC GCCTGGACTC AGTGCTCGGT CACCTGTGGG 
    AACGGTATCC AAAGCCGTCA AGATGTTTGC ACCAACCTAA AAACCCGACA GCCGGTGAGC 
    CCCACCTTCT GTGGGAATGC CCCCAAACCC ATCACTATTC GCGGATGCTC AGCCCAGACA 
    TGTAGGCCTG AAACGACCAC TCCGCAGGCT GCCTTGGCAA GTACAGCTCT GGTCACCCAG 
    CTGCCGCCCA GCGACGCCAT CTTGAGGCCA CAGTGGAGAT CTGCTGTAAC CCCTCGGGAA 
    CACAACCTTG AGTACAATCG ACGTAGAGAA CCAGGCAAAG CTGAGGAAGA AGATGGTATC 
    TGCGGGCAGC TGTTCCTCAA CGCTACAGGA GTGCTGAGTA CCACGGGGCT CAATGAGAGA 
    GACTGTATGT TCACCATTGG GCGCCCCCTG GGGGAGGTGA TTATAGTCCG AGTGTTGTCC 
    AGCACTCTCA ACTGCACAGC CGGGGAGCTG CTGCTGTTCT TCGGGCGGGT CATGTGGCGC 
    AAGACGTGCG CTCGCCTCTC GGGGGTGACC CTGCTGTCTC GGTCGAACAC TCTCTCTGTG 
    AGACAGCGCC AGGCTATAGA CGGCAATGGG GTGGTACTGG AGTACTGGAG CAAACCGGCC 
    GCCCAAAACT ACTCCCAAGC ATGCGATATC CAGCTTTATG GAATGGGGGG AGAAATCCGG 
    AATCCCGTGC AGCCCTGGAT GGAGGGGGGA TCCCCAGCTT GTAGAGTCTT CATTGACGTG 
    GCCCCCCAGT ATTACATTGC TATTCATGCT TTGTACATGG ACCTGGAACC CATGAGCAAC 
    CATACGCACC CAAGTTCTAT TCTGATTCGG GACATGAAAT CGCTCAAATC CACGGGATTC 
    CATGGGAACC ACTTGTTCTA CTGGGAGTCG GCGGGGAGTC GGGCGGAAAT AGAATTTCAT 
    GGCGATTTCT CTAAGGACCG AGTCAGTTTC CGGGCGCAGT ACTGGGCGCG GGCACCGAGG 
    CTACAGGGCA GGGGGCGCCC CCCGGTGGAA TGA

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

見積依頼

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03-6811-6572

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03-6811-6573
050-3174-7589(受注専用)

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