ADAMTS20 cDNA ORF clone, Ornithorhynchus anatinus(platypus)

  • Gene

  • Clones

  • gRNAs

The following ADAMTS20 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS20 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
OOc00671 XM_007658148.1
Latest version!
Ornithorhynchus anatinus ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OOc122900 XM_029058456.1
Latest version!
Ornithorhynchus anatinus ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OOc00671
    Clone ID Related Accession (Same CDS sequence) XM_007658148.1
    Accession Version XM_007658148.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    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 2016-04-14
    Organism Ornithorhynchus anatinus(platypus)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 20
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_009095.1) 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 :: Ornithorhynchus anatinus Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGTTCTAC AATATCTCTT AAAAAATGGA TCTTTAGCAG ATGAAAGGAG TAAAACGCTT 
    AACCGGAAAA AGCGTTTTCT TTCGTATCCA AGATACGTGG AGGTTATGGT TACGGCAGAT
    GCTAAAATGG TTCGCTATCA TGGACGAAAC TTGCAACACT ACATATTAAC CCTAATGTCA
    ATTGTTGCTG CAATTTACAA AGATCCAAGT ATTGGAAACC TCATCAATAT CGTGATTGTA
    AAATTAATTG TAATTTACAA TGAACAGGAG GGACCAGTCA TCAGTTTTAA TGCAGCTACC
    ACTTTACGCA ACTTTTGTTT ATGGCAACAA ACTCAAAATA CATTGGATGA TTCCCATCCT
    TCCCATCATG ACACTGCTGT TCTTATCACT CGGGAAGACA TCTGCAGAGC TAGAGAGAAG
    TGTGATACAC TAGGATTGGC AGAGTTAGGC ACTATGTGTG ACCCTCTGCG CAGCTGTTCT
    ATAAGTGAAG AAAATGGACT AAGTGCAGCT TTCACTATAG CACATGAACT TGGCCACGTA
    TTTAACATTC CTCACGATGA TAGCTTTAAA TGTAAAGAAG CAGGAATCAA GCATCAGTAT
    CATGTAATGG CGCCGACTTT AAATTATCAC ACGAGCCCTT GGACCTGGTC AAAATGCAGT
    CAAAAATACA TCACTGAATT TTTAGATACT GGTTATGGGG AATGTCTCCT TAATAAACCG
    AATGGAAGAA CGTATGATTT GTCATCACAG CTACCTGGAT CAGTGTATGA TGTCAACAAA
    CAGTGTGAAT TAATGTTTGG AGCTGGTTCA CAAGTATGTC CGTATATGAA GCAATGCAAA
    CGTCTTTGGT GCACAAGTTC TGAAGGAGTT CACAAGGGCT GTCGTACGCA ACATATGCCA
    TTGGCTGATG GGACAGAATG TGGTTCTGGA ATGCACTGTC GTCATGGACT CTGTGTAAGC
    AAAGATATGG AAACCCGTCT CGTCGATGGT CAGTGGGGAC CTTGGGGACC TTATAGTTCA
    TGTTCAAGAA CGTGTGGAGG TGGAATCAAA AGCACAGCAA GACTCTGTAA CCGGCCTGAG
    CCAAGAAACG GAGGAAAGTT CTGTGTGGGC CGCAGGATGA AATTTCGATC ATGTAACACT
    GATTCATGTC CAAAAGGCAC ACAAGATTTT CGTGAGGAGC AGTGCTCTAG TTTTGACGGT
    AAACATTTCA ACATCAACGG TCTTTCACCT AATGTGAGAT GGCTTCCAAA ATACAGTGGC
    ATCGCCATGA AGGATCGCTG TAAACTCTTT TGCCGGGTTG CTGGGACTAC CTACTACTAC
    CAGTTGAGGG ACAGGGTTGC CGATGGTACA CCTTGTGGAA CCGAAACCAA TGATCTATGC
    GTTCAAGGCT TGTGCAGGCA AGCTGGCTGT GATCATGTGT TGAATTCCAA GGCAAAGAGA
    GATAAGTGTG GAGTGTGTGG AGGTGATAAT TCTTCGTGTA AGACAATGGC AGGCACTTTC
    AACAGCGCTC AGTATGGTTA TAATATTGTA ATAAAAATTC CCAGAGGAGC AACAAATGTT
    GACATTCAGC AGCACAGCTA TTCAGGAAAA CCAGAAGATG ACAATTATCT TGCACTGTCT
    GACACACAAG GACATTTTAT TCTAAATGGG AATTACGTTG TAAGCATGTC TAAGAAGGAA
    ATCAATGTTC AAGGAGCCAT TTTTGAGTAC AGTGGATCAA ACAACTCCAT AGAGAGAATC
    AATTGCACTG ATCGACTTGA AGAAGAAGTT GTTTTACAGG TGTTGTGTGT GGGAAATTTA
    TACAATCCCG ACGTGCGCTA CTCCTTTAGC ATCCCAGTGG AAGAAAGAAA TGACTTGTTT
    ATCTGGGACC CCTATGGTCC ATGGCAAGAT TGCAGCAAAA TGTGCCAAGG TCTTCGAAGA
    AGAAAGATTT CCTGCATCCG TAAAAGTGAT CGGTTGGTAG TTTCTGACCA ACGATGTGAG
    CATATGCCTC CTTCGTCGGT AGTGACCGAA AGGTGCAATA CAGACTGTGA ACTAAGGTGG
    CATGTCATTG GCAAAAGTGA CTGTACATCA CAGTGTGGCC CAGGGCACCG GTCAATAGAT
    GTCCAATGCT TGAAGTATTC TGTTAATAAA GGACACAGCA TCCCAGTAGA GGATAAATAC
    TGTGGCGATC AACATAAGCC TCCACTGAGA GAACTCTGCC ATGGTGACTG TCTCTTAAAA
    AGCTGGCATT ACACAGAATG GTCACAGTGT TCGAGGAGCT GTGGCAGAGG CGGGAGAGGC
    CGGGAAGCCT ACTGTATGAA CAACCTTGGC CGCCGTCTTG CTGACCAAGA ATGCCAAGAG
    CTGCCCAAAG TGGTGACGGA AAGCTGCAAC GAATTCTCCT GTCCCGACTG GGCCACTAGT
    GAGTGGAGTG AGTGCCTGGT GACATGCGGA AAGGGAACAA AACATCGGCA GGTGTGGTGT
    CGGCTCAACC AAGAGCAGCT GGATGAAGAT TTCTGTAATC TGGGCAGTAA ACCGGATTCC
    GTGAAACCCT GTCAACTTCA TGAATGTGCA TTTTGGCAAG AAGGATCATG GGGATCTTGT
    ACTGCAACCT GCGGACGAGG TTATCAGGTG CGTGCTGTTA AATGTGTCCT CGCTGCATAT
    GGGTCTGCGG TTGATGAGAG AGAATGCAGT GCAGCTTCTC GCCCATCAGT ACTTCGGGAC
    TGTGAAGCAA GCCCATGCTC ACATCTCCCA GAACCTCAGG TGACTTCACT GCCTCCAACT
    CACATAGGAA AGATGACACA GTGGAGATAT GGCTCTTGGA CACCTTGCTC GGTGTCCTGT
    GGCCGGGGAA CCCGGGCTCG ATACGTAAGT TGTTGGGATC CACACTCTGG AGCGGCCGAA
    GAGTTCTCGT GCGCACATTC ACCGAGGCCG GTCGAAATTT CAAGCTGCTT TAGTCCTTGT
    GGAGAATGGC AAGCCGGAAG CTGGTCGCCC TGTTCCGTGT CCTGCGGTGC CGGAGTGAGG
    ACGAGACAAG TCGTCTGTAT CAACTACCAT CAACACATCG ATGAGAATTA CTGTAATCCC
    GAAAGCCGCC CCAGGGAGGA AGAAGAGTGT GACCTGGCAG CGTGTCCTGT CGTGTACAGC
    CACTTTCCTA ATTCTTACGA TGAGCCGAGC CGTTCTCCAG GCAGCAGTTT TCCACAGACT
    CAGAAGCCAG AAGATGACCG CGATCACCCC AGTCGTTCGT CGGAAGCGGG AAACCAATGG
    AGAACAGGAC CGTGGGGATC TTGCTCCAGT ACTTGTGGTA GTGGATTTCA ACGAAGGGTT
    GTGGTGTGCC AGGATGAGAA TGGAAGAAGT GCCAGTTATT GTGTGGAAAC TGCCAAACCA
    CCGGAATCTA GGGACTGTGA CATTGGGCCA TGTCCAAGAT GGAACTATGG AAGCTGGGGA
    GAATGTTCAC AAACCTGCGG AGGAGGAATA AAAACAAGAT TAGTGATATG TCAGCTTCCT
    AATGGTGAAA TGTCAAGCGA TCAAAACTGT GAAATCCTAG ATAAGCCACC TACTATGGAA
    CAATGTCAAG TGCATGCTTG TCCCGATGGG GCTTCGTGGT ATCGGGGACC ATGGAAATCG
    GTACGATAG

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

    RefSeq XP_007656338.1
    CDS61..3669
    Translation

    Target ORF information:

    RefSeq Version XM_007658148.1
    Organism Ornithorhynchus anatinus(platypus)
    Definition Ornithorhynchus anatinus ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_007658148.1

    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
    ATGGTTCTAC AATATCTCTT AAAAAATGGA TCTTTAGCAG ATGAAAGGAG TAAAACGCTT 
    AACCGGAAAA AGCGTTTTCT TTCGTATCCA AGATACGTGG AGGTTATGGT TACGGCAGAT
    GCTAAAATGG TTCGCTATCA TGGACGAAAC TTGCAACACT ACATATTAAC CCTAATGTCA
    ATTGTTGCTG CAATTTACAA AGATCCAAGT ATTGGAAACC TCATCAATAT CGTGATTGTA
    AAATTAATTG TAATTTACAA TGAACAGGAG GGACCAGTCA TCAGTTTTAA TGCAGCTACC
    ACTTTACGCA ACTTTTGTTT ATGGCAACAA ACTCAAAATA CATTGGATGA TTCCCATCCT
    TCCCATCATG ACACTGCTGT TCTTATCACT CGGGAAGACA TCTGCAGAGC TAGAGAGAAG
    TGTGATACAC TAGGATTGGC AGAGTTAGGC ACTATGTGTG ACCCTCTGCG CAGCTGTTCT
    ATAAGTGAAG AAAATGGACT AAGTGCAGCT TTCACTATAG CACATGAACT TGGCCACGTA
    TTTAACATTC CTCACGATGA TAGCTTTAAA TGTAAAGAAG CAGGAATCAA GCATCAGTAT
    CATGTAATGG CGCCGACTTT AAATTATCAC ACGAGCCCTT GGACCTGGTC AAAATGCAGT
    CAAAAATACA TCACTGAATT TTTAGATACT GGTTATGGGG AATGTCTCCT TAATAAACCG
    AATGGAAGAA CGTATGATTT GTCATCACAG CTACCTGGAT CAGTGTATGA TGTCAACAAA
    CAGTGTGAAT TAATGTTTGG AGCTGGTTCA CAAGTATGTC CGTATATGAA GCAATGCAAA
    CGTCTTTGGT GCACAAGTTC TGAAGGAGTT CACAAGGGCT GTCGTACGCA ACATATGCCA
    TTGGCTGATG GGACAGAATG TGGTTCTGGA ATGCACTGTC GTCATGGACT CTGTGTAAGC
    AAAGATATGG AAACCCGTCT CGTCGATGGT CAGTGGGGAC CTTGGGGACC TTATAGTTCA
    TGTTCAAGAA CGTGTGGAGG TGGAATCAAA AGCACAGCAA GACTCTGTAA CCGGCCTGAG
    CCAAGAAACG GAGGAAAGTT CTGTGTGGGC CGCAGGATGA AATTTCGATC ATGTAACACT
    GATTCATGTC CAAAAGGCAC ACAAGATTTT CGTGAGGAGC AGTGCTCTAG TTTTGACGGT
    AAACATTTCA ACATCAACGG TCTTTCACCT AATGTGAGAT GGCTTCCAAA ATACAGTGGC
    ATCGCCATGA AGGATCGCTG TAAACTCTTT TGCCGGGTTG CTGGGACTAC CTACTACTAC
    CAGTTGAGGG ACAGGGTTGC CGATGGTACA CCTTGTGGAA CCGAAACCAA TGATCTATGC
    GTTCAAGGCT TGTGCAGGCA AGCTGGCTGT GATCATGTGT TGAATTCCAA GGCAAAGAGA
    GATAAGTGTG GAGTGTGTGG AGGTGATAAT TCTTCGTGTA AGACAATGGC AGGCACTTTC
    AACAGCGCTC AGTATGGTTA TAATATTGTA ATAAAAATTC CCAGAGGAGC AACAAATGTT
    GACATTCAGC AGCACAGCTA TTCAGGAAAA CCAGAAGATG ACAATTATCT TGCACTGTCT
    GACACACAAG GACATTTTAT TCTAAATGGG AATTACGTTG TAAGCATGTC TAAGAAGGAA
    ATCAATGTTC AAGGAGCCAT TTTTGAGTAC AGTGGATCAA ACAACTCCAT AGAGAGAATC
    AATTGCACTG ATCGACTTGA AGAAGAAGTT GTTTTACAGG TGTTGTGTGT GGGAAATTTA
    TACAATCCCG ACGTGCGCTA CTCCTTTAGC ATCCCAGTGG AAGAAAGAAA TGACTTGTTT
    ATCTGGGACC CCTATGGTCC ATGGCAAGAT TGCAGCAAAA TGTGCCAAGG TCTTCGAAGA
    AGAAAGATTT CCTGCATCCG TAAAAGTGAT CGGTTGGTAG TTTCTGACCA ACGATGTGAG
    CATATGCCTC CTTCGTCGGT AGTGACCGAA AGGTGCAATA CAGACTGTGA ACTAAGGTGG
    CATGTCATTG GCAAAAGTGA CTGTACATCA CAGTGTGGCC CAGGGCACCG GTCAATAGAT
    GTCCAATGCT TGAAGTATTC TGTTAATAAA GGACACAGCA TCCCAGTAGA GGATAAATAC
    TGTGGCGATC AACATAAGCC TCCACTGAGA GAACTCTGCC ATGGTGACTG TCTCTTAAAA
    AGCTGGCATT ACACAGAATG GTCACAGTGT TCGAGGAGCT GTGGCAGAGG CGGGAGAGGC
    CGGGAAGCCT ACTGTATGAA CAACCTTGGC CGCCGTCTTG CTGACCAAGA ATGCCAAGAG
    CTGCCCAAAG TGGTGACGGA AAGCTGCAAC GAATTCTCCT GTCCCGACTG GGCCACTAGT
    GAGTGGAGTG AGTGCCTGGT GACATGCGGA AAGGGAACAA AACATCGGCA GGTGTGGTGT
    CGGCTCAACC AAGAGCAGCT GGATGAAGAT TTCTGTAATC TGGGCAGTAA ACCGGATTCC
    GTGAAACCCT GTCAACTTCA TGAATGTGCA TTTTGGCAAG AAGGATCATG GGGATCTTGT
    ACTGCAACCT GCGGACGAGG TTATCAGGTG CGTGCTGTTA AATGTGTCCT CGCTGCATAT
    GGGTCTGCGG TTGATGAGAG AGAATGCAGT GCAGCTTCTC GCCCATCAGT ACTTCGGGAC
    TGTGAAGCAA GCCCATGCTC ACATCTCCCA GAACCTCAGG TGACTTCACT GCCTCCAACT
    CACATAGGAA AGATGACACA GTGGAGATAT GGCTCTTGGA CACCTTGCTC GGTGTCCTGT
    GGCCGGGGAA CCCGGGCTCG ATACGTAAGT TGTTGGGATC CACACTCTGG AGCGGCCGAA
    GAGTTCTCGT GCGCACATTC ACCGAGGCCG GTCGAAATTT CAAGCTGCTT TAGTCCTTGT
    GGAGAATGGC AAGCCGGAAG CTGGTCGCCC TGTTCCGTGT CCTGCGGTGC CGGAGTGAGG
    ACGAGACAAG TCGTCTGTAT CAACTACCAT CAACACATCG ATGAGAATTA CTGTAATCCC
    GAAAGCCGCC CCAGGGAGGA AGAAGAGTGT GACCTGGCAG CGTGTCCTGT CGTGTACAGC
    CACTTTCCTA ATTCTTACGA TGAGCCGAGC CGTTCTCCAG GCAGCAGTTT TCCACAGACT
    CAGAAGCCAG AAGATGACCG CGATCACCCC AGTCGTTCGT CGGAAGCGGG AAACCAATGG
    AGAACAGGAC CGTGGGGATC TTGCTCCAGT ACTTGTGGTA GTGGATTTCA ACGAAGGGTT
    GTGGTGTGCC AGGATGAGAA TGGAAGAAGT GCCAGTTATT GTGTGGAAAC TGCCAAACCA
    CCGGAATCTA GGGACTGTGA CATTGGGCCA TGTCCAAGAT GGAACTATGG AAGCTGGGGA
    GAATGTTCAC AAACCTGCGG AGGAGGAATA AAAACAAGAT TAGTGATATG TCAGCTTCCT
    AATGGTGAAA TGTCAAGCGA TCAAAACTGT GAAATCCTAG ATAAGCCACC TACTATGGAA
    CAATGTCAAG TGCATGCTTG TCCCGATGGG GCTTCGTGGT ATCGGGGACC ATGGAAATCG
    GTACGATAG

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

    CloneID OOc122900
    Clone ID Related Accession (Same CDS sequence) XM_029058456.1
    Accession Version XM_029058456.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5133bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-28
    Organism Ornithorhynchus anatinus(platypus)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 20
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041729.1) 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 Name :: Ornithorhynchus anatinus Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGGCACGT TCAAAGCACC TGATGGTGAA TATTTTCTCG AGCCTCTGTT GAATGCAGAT 
    GGTAGTGAAC CCGAAGACGG TCATAACAAA CCGCATCTCA TCTACAGGTA TGAAGAGCTC
    AGAAATGATC ATTCTCAGGC TCTGCCCAGA CCTTGCGACG TGTCAGAAAA TGAAACAAAG
    GGAAGTAATC TACCATTTCA AAACTACGGC AGCCTGAAGG AAGATATTAA TGCGCAAAAG
    GAAATGGTTC TACAATATCT CTTAAAAAAT GGATCTTTAG CAGATGAAAG GAGTAAAACG
    CTTAACCGGA AAAAGCGTTT TCTTTCGTAT CCAAGATACG TGGAGGTTAT GGTTACGGCA
    GATGCTAAAA TGGTTCGCTA TCATGGACGA AACTTGCAAC ACTACATATT AACCCTAATG
    TCAATTGTTG CTGCAATTTA CAAAGATCCA AGTATTGGAA ACCTCATCAA TATCGTGATT
    GTAAAATTAA TTGTAATTTA CAATGAACAG GAGGGACCAG TCATCAGTTT TAATGCAGCT
    ACCACTTTAC GCAACTTTTG TTTATGGCAA CAAACTCAAA ATACATTGGA TGATTCCCAT
    CCTTCCCATC ATGACACTGC TGTTCTTATC ACTCGGGAAG ACATCTGCAG AGCTAGAGAG
    AAGTGTGATA CACTAGGATT GGCAGAGTTA GGCACTATGT GTGACCCTCT GCGCAGCTGT
    TCTATAAGTG AAGAAAATGG ACTAAGTGCA GCTTTCACTA TAGCACATGA ACTTGGCCAC
    GTATTTAACA TTCCTCACGA TGATAGCTTT AAATGTAAAG AAGCAGGAAT CAAGCATCAG
    TATCATGTAA TGGCGCCGAC TTTAAATTAT CACACGAGCC CTTGGACCTG GTCAAAATGC
    AGTCAAAAAT ACATCACTGA ATTTTTAGAT ACTGGTTATG GGGAATGTCT CCTTAATAAA
    CCGAATGGAA GAACGTATGA TTTGTCATCA CAGCTACCTG GATCAGTGTA TGATGTCAAC
    AAACAGTGTG AATTAATGTT TGGAGCTGGT TCACAAGTAT GTCCGTATAT GAAGCAATGC
    AAACGTCTTT GGTGCACAAG TTCTGAAGGA GTTCACAAGG GCTGTCGTAC GCAACATATG
    CCATTGGCTG ATGGGACAGA ATGTGGTTCT GGAATGCACT GTCGTCATGG ACTCTGTGTA
    AGCAAAGATA TGGAAACCCG TCTCGTCGAT GGTCAGTGGG GACCTTGGGG ACCTTATAGT
    TCATGTTCAA GAACGTGTGG AGGTGGAATC AAAAGCACAG CAAGACTCTG TAACCGGCCT
    GAGCCAAGAA ACGGAGGAAA GTTCTGTGTG GGCCGCAGGA TGAAATTTCG ATCATGTAAC
    ACTGATTCAT GTCCAAAAGG CACACAAGAT TTTCGTGAGG AGCAGTGCTC TAGTTTTGAC
    GGTAAACATT TCAACATCAA CGGTCTTTCA CCTAATGTGA GATGGCTTCC AAAATACAGT
    GGCATCGCCA TGAAGGATCG CTGTAAACTC TTTTGCCGGG TTGCTGGGAC TACCTACTAC
    TACCAGTTGA GGGACAGGGT TGCCGATGGT ACACCTTGTG GAACCGAAAC CAATGATCTA
    TGCGTTCAAG GCTTGTGCAG GCAAGCTGGC TGTGATCATG TATTGAATTC CAAGGCAAAG
    AGAGATAAGT GTGGAGTGTG TGGAGGTGAT AATTCTTCGT GTAAGACAAT GGCAGGCACT
    TTCAACAGCG CTCAGTATGG TTATAATATT GTAATAAAAA TTCCCAGAGG AGCAACAAAT
    GTTGACATTC AGCAGCACAG CTATTCAGGA AAACCAGAAG ATGACAATTA TCTTGCACTG
    TCTGACACAC AAGGACATTT TATTCTAAAT GGGAATTACG TTGTAAGCAT GTCTAAGAAG
    GAAATCAATG TTCAAGGAGC CATTTTTGAG TACAGTGGAT CAAACAACTC CATAGAGAGA
    ATCAATTGCA CTGATCGACT TGAAGAAGAA GTTGTTTTAC AGGTGTTGTG TGTGGGAAAT
    TTATACAATC CCGACGTGCG CTACTCCTTT AGCATCCCAG TGGAAGAAAG AAATGACTTG
    TTTATCTGGG ACCCCTATGG TCCATGGCAA GATTGCAGCA AAATGTGCCA AGGTCTTCGA
    AGAAGAAAGA TTTCCTGCAT CCGTAAAAGT GATCGGTTGG TAGTTTCTGA CCAACGATGT
    GAGCATATGC CTCCTTCGTC GGTAGTGACC GAAAGGTGCA ATACAGACTG TGAACTAAGG
    TGGCATGTCA TTGGCAAAAG TGACTGTACA TCACAGTGTG GCCCAGGGCA CCGGTCAATA
    GATGTCCAAT GCTTGAAGTA TTCTGTTAAT AAAGGACACA GCATCCCAGT AGAGGATAAA
    TACTGTGGCG ATCAACATAA GCCTCCACTG AGAGAACTCT GCCATGGTGA CTGTCTCTTA
    AAAAGCTGGC ATTACACAGA ATGGTCACAG TGTTCGAGGA GCTGTGGCAG AGGCGGGAGA
    GGCCGGGAAG CCTACTGTAT GAACAACCTT GGCCGCCGTC TTGCTGACCA AGAATGCCAA
    GAGCTGCCCA AAGTGGTGAC GGAAAGCTGC AACGAATTCT CCTGTCCCGA CTGGGCCACT
    AGTGAGTGGA GTGAGTGTAC TGCAACCTGC GGACGAGGTT ATCAGGTGCG TGCTGTTAAA
    TGTGTCCTCG CTGCATATGG GTCTGCGGTT GATGAGAGAG AATGCAGTGC AGCTTCTCGC
    CCATCAGTAC TTCGGGACTG TGAAGCAAGC CCATGCTCAC ATCTCCCAGA ACCTCAGGTG
    ACTTCACTGC CTCCAACTCA CATAGGAAAG ATGACACAGT GGAGATATGG CTCTTGGACA
    CCTTGCTCGG TGTCCTGTGG CCGGGGAACC CGGGCTCGAT ACGTAAGTTG TTGGGATCCA
    CACTCTGGAG CGGCCGAAGA GTTCTCGTGC GCACATTCAC CGAGGCCGGT CGAAATTTCA
    AGCTGCTTTA GTCCTTGTGG AGAATGGCAA GCCGGAAGCT GGTCGCCCTG TTCCGTGTCC
    TGCGGTGCCG GAGTGAGGAC GAGACAAGTC GTCTGTATCA ACTACCATCA ACACATCGAT
    GAGAATTACT GTAATCCCGA AAGCCGCCCC AGGGAGGAAG AAGAGTGTGA CCTGGCAGCG
    TGTCCTGTCG TGTACAGCCA CTTTCCTAAT TCTTACGATG AGCCGAGCCG TTCTCCAGGC
    AGCAGTTTTC CACAGACTCA GAAGCCAGAA GATGACCGCG ATCACCCCAG TCGTTCGTCG
    GAAGCGGGAA ACCAATGGAG AACAGGACCG TGGGGATCTT GCTCCAGTAC TTGTGGTAGT
    GGATTTCAAC GAAGGGTTGT GGTGTGCCAG GATGAGAATG GAAGAAGTGC CAGTTATTGT
    GTGGAAACTG CCAAACCACC GGAATCTAGG GACTGTGACA TTGGGCCATG TCCAAGATGG
    AACTATGGAA GCTGGGGAGA ATGTTCACAA ACCTGCGGAG GAGGAATAAA AACAAGATTA
    GTGATATGTC AGCTTCCTAA TGGTGAAATG TCAAGCGATC AAAACTGTGA AATCCTAGAT
    AAGCCACCTA CTATGGAACA ATGTCAAGTG CATGCTTGTC CCGATGGGGC TTCGTGGTAT
    CGGGGACCAT GGAAATCGTG CTCAGCTTCC TGCGGGAAAG GAATAAAATA CCGGGATGTG
    CACTGTATGA GCAAGTCCCA AAACATATTG GATGACGAGC GGTGCAGCCT ATCTTGGAAA
    CCCCGAACCC ACAAAGCCTG CAGATCCGGG AGGTGTCCAT CATGGAAAGC CAATAGGTGG
    AAGGAGTGTT CGGTGTCCTG CGGCGCTGGG GTTCAACAAA GAGATGTCTA CTGCAGATTG
    AAAGGTACTG GGCCAGTGAC TGAAGAAATG TGTGACGATT CAACTCGGCC TCATAGTAAG
    AGATACTGTT GGGAGCGTGC CTGTATTGAG TATCGTTGGT TGGCTGATGA GTGGCAAGAG
    TGTCCAGTGT CATGTAAGAA AAAAGAAATA TATCGGGAAG TGAAGTGTGT CGACGAACGG
    CAAATCCAAG TGAACGAAAG TAATTGTGAT GTTTCGACGA AGCCTCTATC TGCCAGGTGG
    TGCCAGGTCC TTCCCTGCAA ATACATTGTG GTCACTGGAG ACTCTTCGCA GTGTACAGAC
    AAGTGTGGAT TTGATTACCG ACAAAGAATA ACATACTGTA TTGGAGTCCA GTCTGTTCAG
    AGTAACGAGG TGTCTGAGCT TCGGTCTGTA ACCTATAAAG AATGCCCCGT CCTGCCTTCT
    CCGCATATTC ATAAGTGCAG TTTCAGGGGC TGCCTTCAAG CAGCTACTTG GAAGGTTGGA
    AAATGGAGCA AGTGCTCAGA AACCTGTGGA CTTGGCACAC AGGAGAGAAG AGTTGAGTGC
    CTGACCGAAA ATGGTTGGTC CAGCGACTTG TGCCTTTCCC GTTTAAAACC AGAAGCTAGG
    AAGTTGTGCC ATATCAGAGA CTGTGAAATA GTGACAAATT GCAAAGAAAT CCAGGTGAAA
    AAAATGATTA AGGATGATGG CGAGTATCTA ATTAACATCG AAGGAAAAAG GATAAAGGTT
    TATTGTTCAG ACATGCATTT GGAGAACCCC AAGGAATATC TATCACTGGT TAAAGGTGAA
    GAAGACAACT TTGCAGAAGT GTATGGATAC AGGCTACAAA ATCCATATGA ATGTCCCTTC
    AATGGAAGTA GAAGACAAGA CTGTGCATGT AGAAATGACT ACCCTGCTGC TGGATATACT
    GTTTTTAGCA AAATTAGAAT TGATCTCCTC TCCATGCAAA TTAAAATTAC AGACCTTCTT
    TTTGCTCATA CCATATTTGG AAAAGCGGTT CCATTCGGCA CAGCTGGAGA TTGTTATAGT
    GCTGCACGAT GCCCACAGGG ACGGTTCAGT ATCAATTTGG CAGGCACCGG GTTGAAGATA
    TCCAGTTCAG CAAAGTGGCT TGCCCAAGGC AATTATGCAT CTGTCAATGT GCATAGATCT
    CTGGATGGCA CAAAGATATA CGGTAGATGT GGTGGGTTCT GTGGGAAATG TATGCCTCAT
    TCAAACATGG GCCTCCCCAT CCAAGTCCAG TGA

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

    RefSeq XP_028914289.1
    CDS67..5199
    Translation

    Target ORF information:

    RefSeq Version XM_029058456.1
    Organism Ornithorhynchus anatinus(platypus)
    Definition Ornithorhynchus anatinus ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029058456.1

    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
    ATGGGCACGT TCAAAGCACC TGATGGTGAA TATTTTCTCG AGCCTCTGTT GAATGCAGAT 
    GGTAGTGAAC CCGAAGACGG TCATAACAAA CCGCATCTCA TCTACAGGTA TGAAGAGCTC
    AGAAATGATC ATTCTCAGGC TCTGCCCAGA CCTTGCGACG TGTCAGAAAA TGAAACAAAG
    GGAAGTAATC TACCATTTCA AAACTACGGC AGCCTGAAGG AAGATATTAA TGCGCAAAAG
    GAAATGGTTC TACAATATCT CTTAAAAAAT GGATCTTTAG CAGATGAAAG GAGTAAAACG
    CTTAACCGGA AAAAGCGTTT TCTTTCGTAT CCAAGATACG TGGAGGTTAT GGTTACGGCA
    GATGCTAAAA TGGTTCGCTA TCATGGACGA AACTTGCAAC ACTACATATT AACCCTAATG
    TCAATTGTTG CTGCAATTTA CAAAGATCCA AGTATTGGAA ACCTCATCAA TATCGTGATT
    GTAAAATTAA TTGTAATTTA CAATGAACAG GAGGGACCAG TCATCAGTTT TAATGCAGCT
    ACCACTTTAC GCAACTTTTG TTTATGGCAA CAAACTCAAA ATACATTGGA TGATTCCCAT
    CCTTCCCATC ATGACACTGC TGTTCTTATC ACTCGGGAAG ACATCTGCAG AGCTAGAGAG
    AAGTGTGATA CACTAGGATT GGCAGAGTTA GGCACTATGT GTGACCCTCT GCGCAGCTGT
    TCTATAAGTG AAGAAAATGG ACTAAGTGCA GCTTTCACTA TAGCACATGA ACTTGGCCAC
    GTATTTAACA TTCCTCACGA TGATAGCTTT AAATGTAAAG AAGCAGGAAT CAAGCATCAG
    TATCATGTAA TGGCGCCGAC TTTAAATTAT CACACGAGCC CTTGGACCTG GTCAAAATGC
    AGTCAAAAAT ACATCACTGA ATTTTTAGAT ACTGGTTATG GGGAATGTCT CCTTAATAAA
    CCGAATGGAA GAACGTATGA TTTGTCATCA CAGCTACCTG GATCAGTGTA TGATGTCAAC
    AAACAGTGTG AATTAATGTT TGGAGCTGGT TCACAAGTAT GTCCGTATAT GAAGCAATGC
    AAACGTCTTT GGTGCACAAG TTCTGAAGGA GTTCACAAGG GCTGTCGTAC GCAACATATG
    CCATTGGCTG ATGGGACAGA ATGTGGTTCT GGAATGCACT GTCGTCATGG ACTCTGTGTA
    AGCAAAGATA TGGAAACCCG TCTCGTCGAT GGTCAGTGGG GACCTTGGGG ACCTTATAGT
    TCATGTTCAA GAACGTGTGG AGGTGGAATC AAAAGCACAG CAAGACTCTG TAACCGGCCT
    GAGCCAAGAA ACGGAGGAAA GTTCTGTGTG GGCCGCAGGA TGAAATTTCG ATCATGTAAC
    ACTGATTCAT GTCCAAAAGG CACACAAGAT TTTCGTGAGG AGCAGTGCTC TAGTTTTGAC
    GGTAAACATT TCAACATCAA CGGTCTTTCA CCTAATGTGA GATGGCTTCC AAAATACAGT
    GGCATCGCCA TGAAGGATCG CTGTAAACTC TTTTGCCGGG TTGCTGGGAC TACCTACTAC
    TACCAGTTGA GGGACAGGGT TGCCGATGGT ACACCTTGTG GAACCGAAAC CAATGATCTA
    TGCGTTCAAG GCTTGTGCAG GCAAGCTGGC TGTGATCATG TATTGAATTC CAAGGCAAAG
    AGAGATAAGT GTGGAGTGTG TGGAGGTGAT AATTCTTCGT GTAAGACAAT GGCAGGCACT
    TTCAACAGCG CTCAGTATGG TTATAATATT GTAATAAAAA TTCCCAGAGG AGCAACAAAT
    GTTGACATTC AGCAGCACAG CTATTCAGGA AAACCAGAAG ATGACAATTA TCTTGCACTG
    TCTGACACAC AAGGACATTT TATTCTAAAT GGGAATTACG TTGTAAGCAT GTCTAAGAAG
    GAAATCAATG TTCAAGGAGC CATTTTTGAG TACAGTGGAT CAAACAACTC CATAGAGAGA
    ATCAATTGCA CTGATCGACT TGAAGAAGAA GTTGTTTTAC AGGTGTTGTG TGTGGGAAAT
    TTATACAATC CCGACGTGCG CTACTCCTTT AGCATCCCAG TGGAAGAAAG AAATGACTTG
    TTTATCTGGG ACCCCTATGG TCCATGGCAA GATTGCAGCA AAATGTGCCA AGGTCTTCGA
    AGAAGAAAGA TTTCCTGCAT CCGTAAAAGT GATCGGTTGG TAGTTTCTGA CCAACGATGT
    GAGCATATGC CTCCTTCGTC GGTAGTGACC GAAAGGTGCA ATACAGACTG TGAACTAAGG
    TGGCATGTCA TTGGCAAAAG TGACTGTACA TCACAGTGTG GCCCAGGGCA CCGGTCAATA
    GATGTCCAAT GCTTGAAGTA TTCTGTTAAT AAAGGACACA GCATCCCAGT AGAGGATAAA
    TACTGTGGCG ATCAACATAA GCCTCCACTG AGAGAACTCT GCCATGGTGA CTGTCTCTTA
    AAAAGCTGGC ATTACACAGA ATGGTCACAG TGTTCGAGGA GCTGTGGCAG AGGCGGGAGA
    GGCCGGGAAG CCTACTGTAT GAACAACCTT GGCCGCCGTC TTGCTGACCA AGAATGCCAA
    GAGCTGCCCA AAGTGGTGAC GGAAAGCTGC AACGAATTCT CCTGTCCCGA CTGGGCCACT
    AGTGAGTGGA GTGAGTGTAC TGCAACCTGC GGACGAGGTT ATCAGGTGCG TGCTGTTAAA
    TGTGTCCTCG CTGCATATGG GTCTGCGGTT GATGAGAGAG AATGCAGTGC AGCTTCTCGC
    CCATCAGTAC TTCGGGACTG TGAAGCAAGC CCATGCTCAC ATCTCCCAGA ACCTCAGGTG
    ACTTCACTGC CTCCAACTCA CATAGGAAAG ATGACACAGT GGAGATATGG CTCTTGGACA
    CCTTGCTCGG TGTCCTGTGG CCGGGGAACC CGGGCTCGAT ACGTAAGTTG TTGGGATCCA
    CACTCTGGAG CGGCCGAAGA GTTCTCGTGC GCACATTCAC CGAGGCCGGT CGAAATTTCA
    AGCTGCTTTA GTCCTTGTGG AGAATGGCAA GCCGGAAGCT GGTCGCCCTG TTCCGTGTCC
    TGCGGTGCCG GAGTGAGGAC GAGACAAGTC GTCTGTATCA ACTACCATCA ACACATCGAT
    GAGAATTACT GTAATCCCGA AAGCCGCCCC AGGGAGGAAG AAGAGTGTGA CCTGGCAGCG
    TGTCCTGTCG TGTACAGCCA CTTTCCTAAT TCTTACGATG AGCCGAGCCG TTCTCCAGGC
    AGCAGTTTTC CACAGACTCA GAAGCCAGAA GATGACCGCG ATCACCCCAG TCGTTCGTCG
    GAAGCGGGAA ACCAATGGAG AACAGGACCG TGGGGATCTT GCTCCAGTAC TTGTGGTAGT
    GGATTTCAAC GAAGGGTTGT GGTGTGCCAG GATGAGAATG GAAGAAGTGC CAGTTATTGT
    GTGGAAACTG CCAAACCACC GGAATCTAGG GACTGTGACA TTGGGCCATG TCCAAGATGG
    AACTATGGAA GCTGGGGAGA ATGTTCACAA ACCTGCGGAG GAGGAATAAA AACAAGATTA
    GTGATATGTC AGCTTCCTAA TGGTGAAATG TCAAGCGATC AAAACTGTGA AATCCTAGAT
    AAGCCACCTA CTATGGAACA ATGTCAAGTG CATGCTTGTC CCGATGGGGC TTCGTGGTAT
    CGGGGACCAT GGAAATCGTG CTCAGCTTCC TGCGGGAAAG GAATAAAATA CCGGGATGTG
    CACTGTATGA GCAAGTCCCA AAACATATTG GATGACGAGC GGTGCAGCCT ATCTTGGAAA
    CCCCGAACCC ACAAAGCCTG CAGATCCGGG AGGTGTCCAT CATGGAAAGC CAATAGGTGG
    AAGGAGTGTT CGGTGTCCTG CGGCGCTGGG GTTCAACAAA GAGATGTCTA CTGCAGATTG
    AAAGGTACTG GGCCAGTGAC TGAAGAAATG TGTGACGATT CAACTCGGCC TCATAGTAAG
    AGATACTGTT GGGAGCGTGC CTGTATTGAG TATCGTTGGT TGGCTGATGA GTGGCAAGAG
    TGTCCAGTGT CATGTAAGAA AAAAGAAATA TATCGGGAAG TGAAGTGTGT CGACGAACGG
    CAAATCCAAG TGAACGAAAG TAATTGTGAT GTTTCGACGA AGCCTCTATC TGCCAGGTGG
    TGCCAGGTCC TTCCCTGCAA ATACATTGTG GTCACTGGAG ACTCTTCGCA GTGTACAGAC
    AAGTGTGGAT TTGATTACCG ACAAAGAATA ACATACTGTA TTGGAGTCCA GTCTGTTCAG
    AGTAACGAGG TGTCTGAGCT TCGGTCTGTA ACCTATAAAG AATGCCCCGT CCTGCCTTCT
    CCGCATATTC ATAAGTGCAG TTTCAGGGGC TGCCTTCAAG CAGCTACTTG GAAGGTTGGA
    AAATGGAGCA AGTGCTCAGA AACCTGTGGA CTTGGCACAC AGGAGAGAAG AGTTGAGTGC
    CTGACCGAAA ATGGTTGGTC CAGCGACTTG TGCCTTTCCC GTTTAAAACC AGAAGCTAGG
    AAGTTGTGCC ATATCAGAGA CTGTGAAATA GTGACAAATT GCAAAGAAAT CCAGGTGAAA
    AAAATGATTA AGGATGATGG CGAGTATCTA ATTAACATCG AAGGAAAAAG GATAAAGGTT
    TATTGTTCAG ACATGCATTT GGAGAACCCC AAGGAATATC TATCACTGGT TAAAGGTGAA
    GAAGACAACT TTGCAGAAGT GTATGGATAC AGGCTACAAA ATCCATATGA ATGTCCCTTC
    AATGGAAGTA GAAGACAAGA CTGTGCATGT AGAAATGACT ACCCTGCTGC TGGATATACT
    GTTTTTAGCA AAATTAGAAT TGATCTCCTC TCCATGCAAA TTAAAATTAC AGACCTTCTT
    TTTGCTCATA CCATATTTGG AAAAGCGGTT CCATTCGGCA CAGCTGGAGA TTGTTATAGT
    GCTGCACGAT GCCCACAGGG ACGGTTCAGT ATCAATTTGG CAGGCACCGG GTTGAAGATA
    TCCAGTTCAG CAAAGTGGCT TGCCCAAGGC AATTATGCAT CTGTCAATGT GCATAGATCT
    CTGGATGGCA CAAAGATATA CGGTAGATGT GGTGGGTTCT GTGGGAAATG TATGCCTCAT
    TCAAACATGG GCCTCCCCAT CCAAGTCCAG TGA

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