ADAMTS20 cDNA ORF clone, Homo sapiens(human)

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
OHu19605 NM_025003.5
Latest version!
Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu72529 XM_011538754.2
Latest version!
Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu72530 XM_017019979.1
Latest version!
Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
View Old Accession Versions >>
OHu19605 NM_025003.4 Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
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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 OHu19605
    Clone ID Related Accession (Same CDS sequence) NM_025003.4 , NM_025003.5
    Accession Version NM_025003.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5733bp)
    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 2019-02-25
    Organism Homo sapiens(human)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 20 preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC090525.8, AF488804.1, AJ515153.3, AC120104.4 and CN292892.1. This sequence is a reference standard in the RefSeqGene project. On Feb 16, 2017 this sequence version replaced NM_025003.3. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA2153307 [ECO:0000350] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTACCATC TCTCGCTCTT CATCACCAGG 
    TCTTGGGAAG TTGACTTCCA CCCCAGGCAA GAAGCCCTGG TGAGGACACT GACCTCCTAC
    GAAGTAGTGA TCCCCGAGCG GGTCAATGAG TTTGGAGAAG TGTTCCCTCA GAGCCACCAC
    TTCAGCCGGC AGAAACGCAG CTCCGAGGCG CTGGAACCCA TGCCGTTCCG AACCCACTAT
    CGCTTCACTG CCTACGGGCA GCTCTTCCAG CTGAACCTGA CCGCCGATGC ATCCTTTCTG
    GCCGCCGGCT ACACCGAGGT GCACTTGGGA ACCCCGGAGC GCGGGGCCTG GGAGAGCGAC
    GCAGGGCCCT CGGACCTGCG CCACTGCTTC TACCGCGGCC AGGTCAACTC ACAGGAGGAT
    TACAAGGCCG TCGTCAGCTT ATGCGGAGGC CTGACGGGAA CATTTAAAGG ACAGAACGGT
    GAATATTTCT TAGAACCTAT AATGAAGGCA GATGGGAATG AATATGAAGA TGGTCACAAC
    AAGCCACATC TTATATACAG ACAAGACTTA AATAACTCTT TTCTGCAGAC TCTGAAGTAT
    TGCAGTGTGT CAGAAAGTCA AATAAAGGAA ACCAGTTTAC CCTTTCATAC CTACAGCAAC
    ATGAATGAAG ATCTTAATGT AATGAAAGAA AGAGTTTTAG GACACACATC AAAAAATGTA
    CCATTGAAAG ATGAAAGAAG ACATTCCAGG AAAAAACGTC TTATATCATA TCCAAGATAC
    ATTGAAATTA TGGTTACAGC TGATGCTAAA GTGGTTTCTG CTCATGGATC GAATTTGCAA
    AACTATATAC TGACTCTAAT GTCAATTGTT GCAACAATCT ACAAAGATCC AAGTATTGGA
    AATTTGATAC ACATAGTAGT GGTAAAATTA GTTATGATTC ACCGTGAGGA GGAAGGACCA
    GTCATTAATT TTGATGGTGC TACCACATTA AAGAACTTTT GTTCATGGCA ACAAACTCAG
    AATGACCTTG ATGATGTTCA CCCTTCCCAC CATGACACTG CTGTTCTTAT CACTAGGGAA
    GACATTTGTT CATCTAAAGA GAAATGTAAC ATGTTAGGTT TATCATATTT AGGTACCATA
    TGTGATCCTT TACAAAGCTG CTTTATTAAT GAAGAAAAAG GACTCATTTC TGCTTTTACT
    ATAGCCCATG AGCTTGGGCA CACACTTGGT GTTCAACATG ATGATAATCC TAGATGTAAA
    GAAATGAAAG TTACAAAGTA TCATGTAATG GCCCCTGCTT TAAGTTTTCA CATGAGTCCT
    TGGAGCTGGT CAAACTGTAG TCGGAAATAT GTTACTGAAT TCCTAGATAC TGGTTACGGG
    GAATGTCTTC TTGACAAACC AGATGAAGAA ATATATAATC TGCCTTCAGA ACTTCCTGGA
    TCACGATATG ATGGAAACAA GCAGTGTGAG CTTGCGTTTG GTCCTGGGTC ACAAATGTGT
    CCCCATATAA ATATATGCAT GCATCTGTGG TGCACAAGCA CAGAAAAGCT TCACAAAGGC
    TGTTTCACTC AACACGTGCC ACCAGCAGAT GGAACAGACT GCGGTCCTGG AATGCATTGC
    CGTCATGGGC TATGTGTAAA CAAAGAAACG GAAACACGTC CTGTAAATGG TGAATGGGGA
    CCATGGGAAC CTTACAGTTC TTGTTCAAGA ACATGTGGAG GCGGAATCGA AAGTGCAACC
    AGGCGCTGTA ATCGTCCTGA GCCAAGAAAC GGAGGAAATT ACTGTGTGGG CCGCAGGATG
    AAATTTCGAT CATGTAATAC TGATTCATGT CCAAAAGGCA CACAAGACTT TCGAGAGAAG
    CAGTGCTCTG ATTTTAATGG TAAACATTTG GACATCAGTG GCATTCCCTC TAATGTGAGG
    TGGCTTCCAA GATACAGTGG CATTGGCACA AAGGATCGTT GTAAACTCTA TTGTCAGGTT
    GCTGGAACCA ATTATTTCTA CCTATTGAAG GATATGGTTG AAGATGGTAC TCCTTGTGGA
    ACTGAAACTC ATGACATCTG TGTTCAAGGC CAGTGTATGG CAGCTGGTTG TGATCACGTG
    TTAAACTCCA GTGCCAAGAT AGACAAATGT GGAGTGTGTG GTGGGGACAA CTCTTCATGC
    AAGACAATAA CAGGTGTCTT CAACAGTTCT CATTATGGTT ATAATGTTGT TGTAAAGATT
    CCCGCAGGAG CAACAAACGT TGACATTCGT CAGTACAGCT ATTCTGGACA ACCAGATGAC
    AGTTACCTTG CATTATCTGA CGCTGAAGGG AATTTTCTTT TCAATGGAAA TTTTCTTCTA
    AGTACGTCAA AAAAAGAAAT CAATGTGCAA GGAACAAGAA CTGTTATTGA ATACAGTGGA
    TCAAATAACG CAGTTGAAAG AATTAATAGT ACTAATCGAC AAGAGAAAGA ACTTATTTTG
    CAGGTGTTGT GTGTGGGTAA TTTATACAAC CCTGATGTAC ATTATTCCTT CAATATCCCT
    TTGGAAGAGA GGAGTGACAT GTTCACATGG GACCCCTATG GACCATGGGA AGGCTGTACC
    AAAATGTGTC AAGGTCTTCA GCGAAGAAAC ATAACTTGCA TACATAAGAG TGATCATAGT
    GTTGTGTCTG ATAAAGAATG TGACCACTTG CCACTTCCAT CATTTGTTAC TCAAAGTTGC
    AATACAGACT GTGAACTAAG GTGGCATGTT ATTGGCAAAA GTGAATGTTC ATCCCAATGT
    GGTCAAGGAT ATAGAACCTT GGACATCCAT TGCATGAAGT ATTCCATTCA TGAAGGACAG
    ACTGTTCAAG TTGATGACCA CTACTGTGGT GACCAGCTTA AACCTCCTAC CCAAGAACTA
    TGCCATGGTA ACTGTGTCTT CACAAGATGG CATTATTCAG AATGGTCTCA GTGTTCCAGG
    AGTTGTGGAG GAGGGGAAAG GTCTCGAGAA TCTTATTGTA TGAATAACTT TGGCCATCGT
    CTTGCTGACA ATGAATGCCA AGAACTGTCC CGAGTGACGA GAGAGAATTG CAATGAATTT
    TCCTGTCCCA GTTGGGCTGC TAGTGAATGG AGCGAGTGCC TTGTTACATG TGGTAAAGGA
    ACAAAGCAGC GGCAGGTATG GTGTCAGCTG AATGTAGATC ACTTGAGTGA TGGCTTCTGT
    AATTCAAGTA CCAAACCTGA ATCTCTGAGT CCATGTGAAC TTCATACATG TGCTTCCTGG
    CAAGTAGGAC CATGGGGTCC TTGCACAACC ACATGTGGAC ATGGGTATCA GATGCGAGAT
    GTTAAATGTG TCAATGAGCT AGCTAGTGCA GTGTTAGAGG ACACAGAATG CCATGAAGCT
    AGTCGCCCCA GTGACAGACA GAGCTGTGTA CTTACACCTT GCTCATTTAT TTCTAAACTT
    GAGACCGCTT TATTACCAAC TGTTCTCATA AAAAAGATGG CACAATGGCG ACATGGTTCT
    TGGACCCCAT GCTCCGTATC TTGTGGAAGA GGTACTCAAG CCCGCTATGT AAGCTGTCGT
    GATGCTCTTG ATAGAATAGC AGATGAATCA TATTGTGCCC ACTTACCCCG ACCTGCTGAA
    ATATGGGACT GTTTTACCCC TTGTGGAGAG TGGCAAGCAG GGGATTGGTC ACCCTGTTCA
    GCTTCCTGTG GCCATGGAAA AACAACTCGA CAAGTTTTAT GCATGAACTA CCATCAGCCA
    ATTGATGAGA ATTACTGTGA TCCTGAAGTT CGCCCTTTGA TGGAACAGGA ATGTAGCCTG
    GCAGCCTGCC CTCCTGCACA CAGCCACTTT CCTAGTTCCC CTGTGCAGCC AAGCTATTAT
    CTAAGCACGA ATTTGCCATT AACTCAAAAA CTTGAAGATA ATGAAAATCA GGTGGTCCAT
    CCATCAGTCA GAGGAAACCA GTGGAGAACC GGACCATGGG GATCATGCTC CAGCAGTTGT
    TCTGGAGGTC TTCAGCATAG GGCTGTGGTC TGCCAGGATG AAAATGGACA AAGTGCTAGT
    TACTGCGATG CAGCCTCCAA GCCTCCAGAG TTACAGCAAT GTGGTCCAGG GCCTTGTCCA
    CAGTGGAACT ACGGAAATTG GGGAGAATGT TCACAAACAT GTGGAGGAGG AATAAAATCA
    AGACTTGTAA TATGTCAATT TCCCAATGGC CAAATATTAG AAGATCACAA CTGTGAAATT
    GTAAACAAGC CACCTAGCGT AATACAGTGT CATATGCATG CTTGCCCTGC TGATGTGTCA
    TGGCATCAGG AACCATGGAC ATCGTGCTCA GCTTCTTGTG GTAAAGGTAG AAAGTACCGT
    GAAGTGTTTT GCATTGACCA ATTCCAAAGG AAATTAGAAG ACACAAATTG CAGTCAAGTA
    CAGAAACCTC CAACTCACAA AGCCTGTAGA TCTGTCAGAT GCCCTTCATG GAAAGCCAAT
    AGCTGGAATG AGTGCTCTGT GACCTGTGGC TCTGGAGTTC AGCAGAGGGA TGTATACTGC
    AGACTGAAAG GTGTTGGTCA GGTGGTTGAA GAAATGTGTG ATCAGTCCAC CCGACCTTGT
    TCTCAGAGGC GATGTTGGAG TCAGGACTGT GTGCAGCACA AGGGGATGGA AAGAGGGAGG
    CTGAATTGTT CAACATCATG TGAGAGAAAA GATTCACATC AACGAATGGA GTGCACAGAT
    AACCAAATCA GACAAGTGAA TGAAATAGTC TATAATTCTT CAACCATATC TCTTACATCC
    AAGAATTGCA GGAACCCTCC TTGCAATTAC ATTGTGGTAA CAGCAGACTC ATCACAGTGT
    GCAAACAACT GTGGATTTAG TTACAGACAA AGGATTACAT ATTGCACCGA GATCCCATCT
    ACTAAGAAAC ATAAGCTCCA TCGACTTCGG CCTATAGTTT ATCAAGAATG CCCTGTGGTG
    CCTTCCTCTC AGGTTTACCA ATGCATTAAC AGCTGTTTGC ATTTGGCCAC TTGGAAAGTT
    GGAAAATGGA GCAAGTGCTC AGTGACTTGT GGAATTGGGA TAATGAAGAG ACAAGTGAAA
    TGCATTACCA AACATGGTTT GTCCAGTGAC TTATGTTTAA ACCATTTAAA ACCAGGTGCT
    CAAAAGAAAT GTTATGCCAA TGACTGTAAA TCATTTACCA CCTGCAAAGA AATTCAAGTG
    AAAAACCACA TTAGAAAGGA TGGTGACTAT TACCTTAACA TTAAGGGAAG AATAATAAAG
    ATTTATTGTG CAGACATGTA CTTGGAGAAC CCTAAGGAAT ATTTAACACT GGTCCAAGGT
    GAAGAAAACT TTTCTGAAGT GTATGGCTTT AGACTAAAAA ATCCATATCA ATGTCCTTTT
    AATGGGAGTA GAAGGGAAGA CTGTGAATGT GACAATGGAC ACTTAGCTGC TGGATACACT
    GTTTTCAGCA AAATAAGAAT TGATCTCACT TCCATGCAAA TTAAAACTAC GGACCTTCTT
    TTTTCCAAAA CAATATTTGG AAATGCAGTT CCATTTGCCA CAGCTGGAGA TTGCTACAGT
    GCTTTCAGAT GCCCACAGGG ACAGTTTAGC ATTAATTTGT CAGGAACTGG GATGAAGATA
    TCCAGCACAG CAAAGTGGCT CACTCAGGGG AGTTATACCT CTGTCAGCAT ACGAAGATCA
    GAGGATGGAA CTAGATTTTT CGGCAAATGT GGAGGGTACT GTGGAAAGTG TCTTCCTCAC
    ATGACTACTG GTCTCCCAAT TCAAGTCATA TGA

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

    RefSeq NP_079279.3
    CDS51..5783
    Translation

    Target ORF information:

    RefSeq Version NM_025003.4
    Organism Homo sapiens(human)
    Definition Homo sapiens 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
    NM_025003.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTACCATC TCTCGCTCTT CATCACCAGG 
    TCTTGGGAAG TTGACTTCCA CCCCAGGCAA GAAGCCCTGG TGAGGACACT GACCTCCTAC
    GAAGTAGTGA TCCCCGAGCG GGTCAATGAG TTTGGAGAAG TGTTCCCTCA GAGCCACCAC
    TTCAGCCGGC AGAAACGCAG CTCCGAGGCG CTGGAACCCA TGCCGTTCCG AACCCACTAT
    CGCTTCACTG CCTACGGGCA GCTCTTCCAG CTGAACCTGA CCGCCGATGC ATCCTTTCTG
    GCCGCCGGCT ACACCGAGGT GCACTTGGGA ACCCCGGAGC GCGGGGCCTG GGAGAGCGAC
    GCAGGGCCCT CGGACCTGCG CCACTGCTTC TACCGCGGCC AGGTCAACTC ACAGGAGGAT
    TACAAGGCCG TCGTCAGCTT ATGCGGAGGC CTGACGGGAA CATTTAAAGG ACAGAACGGT
    GAATATTTCT TAGAACCTAT AATGAAGGCA GATGGGAATG AATATGAAGA TGGTCACAAC
    AAGCCACATC TTATATACAG ACAAGACTTA AATAACTCTT TTCTGCAGAC TCTGAAGTAT
    TGCAGTGTGT CAGAAAGTCA AATAAAGGAA ACCAGTTTAC CCTTTCATAC CTACAGCAAC
    ATGAATGAAG ATCTTAATGT AATGAAAGAA AGAGTTTTAG GACACACATC AAAAAATGTA
    CCATTGAAAG ATGAAAGAAG ACATTCCAGG AAAAAACGTC TTATATCATA TCCAAGATAC
    ATTGAAATTA TGGTTACAGC TGATGCTAAA GTGGTTTCTG CTCATGGATC GAATTTGCAA
    AACTATATAC TGACTCTAAT GTCAATTGTT GCAACAATCT ACAAAGATCC AAGTATTGGA
    AATTTGATAC ACATAGTAGT GGTAAAATTA GTTATGATTC ACCGTGAGGA GGAAGGACCA
    GTCATTAATT TTGATGGTGC TACCACATTA AAGAACTTTT GTTCATGGCA ACAAACTCAG
    AATGACCTTG ATGATGTTCA CCCTTCCCAC CATGACACTG CTGTTCTTAT CACTAGGGAA
    GACATTTGTT CATCTAAAGA GAAATGTAAC ATGTTAGGTT TATCATATTT AGGTACCATA
    TGTGATCCTT TACAAAGCTG CTTTATTAAT GAAGAAAAAG GACTCATTTC TGCTTTTACT
    ATAGCCCATG AGCTTGGGCA CACACTTGGT GTTCAACATG ATGATAATCC TAGATGTAAA
    GAAATGAAAG TTACAAAGTA TCATGTAATG GCCCCTGCTT TAAGTTTTCA CATGAGTCCT
    TGGAGCTGGT CAAACTGTAG TCGGAAATAT GTTACTGAAT TCCTAGATAC TGGTTACGGG
    GAATGTCTTC TTGACAAACC AGATGAAGAA ATATATAATC TGCCTTCAGA ACTTCCTGGA
    TCACGATATG ATGGAAACAA GCAGTGTGAG CTTGCGTTTG GTCCTGGGTC ACAAATGTGT
    CCCCATATAA ATATATGCAT GCATCTGTGG TGCACAAGCA CAGAAAAGCT TCACAAAGGC
    TGTTTCACTC AACACGTGCC ACCAGCAGAT GGAACAGACT GCGGTCCTGG AATGCATTGC
    CGTCATGGGC TATGTGTAAA CAAAGAAACG GAAACACGTC CTGTAAATGG TGAATGGGGA
    CCATGGGAAC CTTACAGTTC TTGTTCAAGA ACATGTGGAG GCGGAATCGA AAGTGCAACC
    AGGCGCTGTA ATCGTCCTGA GCCAAGAAAC GGAGGAAATT ACTGTGTGGG CCGCAGGATG
    AAATTTCGAT CATGTAATAC TGATTCATGT CCAAAAGGCA CACAAGACTT TCGAGAGAAG
    CAGTGCTCTG ATTTTAATGG TAAACATTTG GACATCAGTG GCATTCCCTC TAATGTGAGG
    TGGCTTCCAA GATACAGTGG CATTGGCACA AAGGATCGTT GTAAACTCTA TTGTCAGGTT
    GCTGGAACCA ATTATTTCTA CCTATTGAAG GATATGGTTG AAGATGGTAC TCCTTGTGGA
    ACTGAAACTC ATGACATCTG TGTTCAAGGC CAGTGTATGG CAGCTGGTTG TGATCACGTG
    TTAAACTCCA GTGCCAAGAT AGACAAATGT GGAGTGTGTG GTGGGGACAA CTCTTCATGC
    AAGACAATAA CAGGTGTCTT CAACAGTTCT CATTATGGTT ATAATGTTGT TGTAAAGATT
    CCCGCAGGAG CAACAAACGT TGACATTCGT CAGTACAGCT ATTCTGGACA ACCAGATGAC
    AGTTACCTTG CATTATCTGA CGCTGAAGGG AATTTTCTTT TCAATGGAAA TTTTCTTCTA
    AGTACGTCAA AAAAAGAAAT CAATGTGCAA GGAACAAGAA CTGTTATTGA ATACAGTGGA
    TCAAATAACG CAGTTGAAAG AATTAATAGT ACTAATCGAC AAGAGAAAGA ACTTATTTTG
    CAGGTGTTGT GTGTGGGTAA TTTATACAAC CCTGATGTAC ATTATTCCTT CAATATCCCT
    TTGGAAGAGA GGAGTGACAT GTTCACATGG GACCCCTATG GACCATGGGA AGGCTGTACC
    AAAATGTGTC AAGGTCTTCA GCGAAGAAAC ATAACTTGCA TACATAAGAG TGATCATAGT
    GTTGTGTCTG ATAAAGAATG TGACCACTTG CCACTTCCAT CATTTGTTAC TCAAAGTTGC
    AATACAGACT GTGAACTAAG GTGGCATGTT ATTGGCAAAA GTGAATGTTC ATCCCAATGT
    GGTCAAGGAT ATAGAACCTT GGACATCCAT TGCATGAAGT ATTCCATTCA TGAAGGACAG
    ACTGTTCAAG TTGATGACCA CTACTGTGGT GACCAGCTTA AACCTCCTAC CCAAGAACTA
    TGCCATGGTA ACTGTGTCTT CACAAGATGG CATTATTCAG AATGGTCTCA GTGTTCCAGG
    AGTTGTGGAG GAGGGGAAAG GTCTCGAGAA TCTTATTGTA TGAATAACTT TGGCCATCGT
    CTTGCTGACA ATGAATGCCA AGAACTGTCC CGAGTGACGA GAGAGAATTG CAATGAATTT
    TCCTGTCCCA GTTGGGCTGC TAGTGAATGG AGCGAGTGCC TTGTTACATG TGGTAAAGGA
    ACAAAGCAGC GGCAGGTATG GTGTCAGCTG AATGTAGATC ACTTGAGTGA TGGCTTCTGT
    AATTCAAGTA CCAAACCTGA ATCTCTGAGT CCATGTGAAC TTCATACATG TGCTTCCTGG
    CAAGTAGGAC CATGGGGTCC TTGCACAACC ACATGTGGAC ATGGGTATCA GATGCGAGAT
    GTTAAATGTG TCAATGAGCT AGCTAGTGCA GTGTTAGAGG ACACAGAATG CCATGAAGCT
    AGTCGCCCCA GTGACAGACA GAGCTGTGTA CTTACACCTT GCTCATTTAT TTCTAAACTT
    GAGACCGCTT TATTACCAAC TGTTCTCATA AAAAAGATGG CACAATGGCG ACATGGTTCT
    TGGACCCCAT GCTCCGTATC TTGTGGAAGA GGTACTCAAG CCCGCTATGT AAGCTGTCGT
    GATGCTCTTG ATAGAATAGC AGATGAATCA TATTGTGCCC ACTTACCCCG ACCTGCTGAA
    ATATGGGACT GTTTTACCCC TTGTGGAGAG TGGCAAGCAG GGGATTGGTC ACCCTGTTCA
    GCTTCCTGTG GCCATGGAAA AACAACTCGA CAAGTTTTAT GCATGAACTA CCATCAGCCA
    ATTGATGAGA ATTACTGTGA TCCTGAAGTT CGCCCTTTGA TGGAACAGGA ATGTAGCCTG
    GCAGCCTGCC CTCCTGCACA CAGCCACTTT CCTAGTTCCC CTGTGCAGCC AAGCTATTAT
    CTAAGCACGA ATTTGCCATT AACTCAAAAA CTTGAAGATA ATGAAAATCA GGTGGTCCAT
    CCATCAGTCA GAGGAAACCA GTGGAGAACC GGACCATGGG GATCATGCTC CAGCAGTTGT
    TCTGGAGGTC TTCAGCATAG GGCTGTGGTC TGCCAGGATG AAAATGGACA AAGTGCTAGT
    TACTGCGATG CAGCCTCCAA GCCTCCAGAG TTACAGCAAT GTGGTCCAGG GCCTTGTCCA
    CAGTGGAACT ACGGAAATTG GGGAGAATGT TCACAAACAT GTGGAGGAGG AATAAAATCA
    AGACTTGTAA TATGTCAATT TCCCAATGGC CAAATATTAG AAGATCACAA CTGTGAAATT
    GTAAACAAGC CACCTAGCGT AATACAGTGT CATATGCATG CTTGCCCTGC TGATGTGTCA
    TGGCATCAGG AACCATGGAC ATCGTGCTCA GCTTCTTGTG GTAAAGGTAG AAAGTACCGT
    GAAGTGTTTT GCATTGACCA ATTCCAAAGG AAATTAGAAG ACACAAATTG CAGTCAAGTA
    CAGAAACCTC CAACTCACAA AGCCTGTAGA TCTGTCAGAT GCCCTTCATG GAAAGCCAAT
    AGCTGGAATG AGTGCTCTGT GACCTGTGGC TCTGGAGTTC AGCAGAGGGA TGTATACTGC
    AGACTGAAAG GTGTTGGTCA GGTGGTTGAA GAAATGTGTG ATCAGTCCAC CCGACCTTGT
    TCTCAGAGGC GATGTTGGAG TCAGGACTGT GTGCAGCACA AGGGGATGGA AAGAGGGAGG
    CTGAATTGTT CAACATCATG TGAGAGAAAA GATTCACATC AACGAATGGA GTGCACAGAT
    AACCAAATCA GACAAGTGAA TGAAATAGTC TATAATTCTT CAACCATATC TCTTACATCC
    AAGAATTGCA GGAACCCTCC TTGCAATTAC ATTGTGGTAA CAGCAGACTC ATCACAGTGT
    GCAAACAACT GTGGATTTAG TTACAGACAA AGGATTACAT ATTGCACCGA GATCCCATCT
    ACTAAGAAAC ATAAGCTCCA TCGACTTCGG CCTATAGTTT ATCAAGAATG CCCTGTGGTG
    CCTTCCTCTC AGGTTTACCA ATGCATTAAC AGCTGTTTGC ATTTGGCCAC TTGGAAAGTT
    GGAAAATGGA GCAAGTGCTC AGTGACTTGT GGAATTGGGA TAATGAAGAG ACAAGTGAAA
    TGCATTACCA AACATGGTTT GTCCAGTGAC TTATGTTTAA ACCATTTAAA ACCAGGTGCT
    CAAAAGAAAT GTTATGCCAA TGACTGTAAA TCATTTACCA CCTGCAAAGA AATTCAAGTG
    AAAAACCACA TTAGAAAGGA TGGTGACTAT TACCTTAACA TTAAGGGAAG AATAATAAAG
    ATTTATTGTG CAGACATGTA CTTGGAGAAC CCTAAGGAAT ATTTAACACT GGTCCAAGGT
    GAAGAAAACT TTTCTGAAGT GTATGGCTTT AGACTAAAAA ATCCATATCA ATGTCCTTTT
    AATGGGAGTA GAAGGGAAGA CTGTGAATGT GACAATGGAC ACTTAGCTGC TGGATACACT
    GTTTTCAGCA AAATAAGAAT TGATCTCACT TCCATGCAAA TTAAAACTAC GGACCTTCTT
    TTTTCCAAAA CAATATTTGG AAATGCAGTT CCATTTGCCA CAGCTGGAGA TTGCTACAGT
    GCTTTCAGAT GCCCACAGGG ACAGTTTAGC ATTAATTTGT CAGGAACTGG GATGAAGATA
    TCCAGCACAG CAAAGTGGCT CACTCAGGGG AGTTATACCT CTGTCAGCAT ACGAAGATCA
    GAGGATGGAA CTAGATTTTT CGGCAAATGT GGAGGGTACT GTGGAAAGTG TCTTCCTCAC
    ATGACTACTG GTCTCCCAAT TCAAGTCATA TGA

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

    CloneID OHu19605
    Clone ID Related Accession (Same CDS sequence) NM_025003.4 , NM_025003.5
    Accession Version NM_025003.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5733bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-10-24
    Organism Homo sapiens(human)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 20 preproprotein
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC090525.8, AF488804.1, AJ515153.3, AC120104.4 and CN292892.1. This sequence is a reference standard in the RefSeqGene project. On May 17, 2019 this sequence version replaced NM_025003.4. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA2153307 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000389420.8/ ENSP00000374071.3 RefSeq Select criteria :: based on conservation ##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
    5581
    5641
    5701
    ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTACCATC TCTCGCTCTT CATCACCAGG 
    TCTTGGGAAG TTGACTTCCA CCCCAGGCAA GAAGCCCTGG TGAGGACACT GACCTCCTAC
    GAAGTAGTGA TCCCCGAGCG GGTCAATGAG TTTGGAGAAG TGTTCCCTCA GAGCCACCAC
    TTCAGCCGGC AGAAACGCAG CTCCGAGGCG CTGGAACCCA TGCCGTTCCG AACCCACTAT
    CGCTTCACTG CCTACGGGCA GCTCTTCCAG CTGAACCTGA CCGCCGATGC ATCCTTTCTG
    GCCGCCGGCT ACACCGAGGT GCACTTGGGA ACCCCGGAGC GCGGGGCCTG GGAGAGCGAC
    GCAGGGCCCT CGGACCTGCG CCACTGCTTC TACCGCGGCC AGGTCAACTC ACAGGAGGAT
    TACAAGGCCG TCGTCAGCTT ATGCGGAGGC CTGACGGGAA CATTTAAAGG ACAGAACGGT
    GAATATTTCT TAGAACCTAT AATGAAGGCA GATGGGAATG AATATGAAGA TGGTCACAAC
    AAGCCACATC TTATATACAG ACAAGACTTA AATAACTCTT TTCTGCAGAC TCTGAAGTAT
    TGCAGTGTGT CAGAAAGTCA AATAAAGGAA ACCAGTTTAC CCTTTCATAC CTACAGCAAC
    ATGAATGAAG ATCTTAATGT AATGAAAGAA AGAGTTTTAG GACACACATC AAAAAATGTA
    CCATTGAAAG ATGAAAGAAG ACATTCCAGG AAAAAACGTC TTATATCATA TCCAAGATAC
    ATTGAAATTA TGGTTACAGC TGATGCTAAA GTGGTTTCTG CTCATGGATC GAATTTGCAA
    AACTATATAC TGACTCTAAT GTCAATTGTT GCAACAATCT ACAAAGATCC AAGTATTGGA
    AATTTGATAC ACATAGTAGT GGTAAAATTA GTTATGATTC ACCGTGAGGA GGAAGGACCA
    GTCATTAATT TTGATGGTGC TACCACATTA AAGAACTTTT GTTCATGGCA ACAAACTCAG
    AATGACCTTG ATGATGTTCA CCCTTCCCAC CATGACACTG CTGTTCTTAT CACTAGGGAA
    GACATTTGTT CATCTAAAGA GAAATGTAAC ATGTTAGGTT TATCATATTT AGGTACCATA
    TGTGATCCTT TACAAAGCTG CTTTATTAAT GAAGAAAAAG GACTCATTTC TGCTTTTACT
    ATAGCCCATG AGCTTGGGCA CACACTTGGT GTTCAACATG ATGATAATCC TAGATGTAAA
    GAAATGAAAG TTACAAAGTA TCATGTAATG GCCCCTGCTT TAAGTTTTCA CATGAGTCCT
    TGGAGCTGGT CAAACTGTAG TCGGAAATAT GTTACTGAAT TCCTAGATAC TGGTTACGGG
    GAATGTCTTC TTGACAAACC AGATGAAGAA ATATATAATC TGCCTTCAGA ACTTCCTGGA
    TCACGATATG ATGGAAACAA GCAGTGTGAG CTTGCGTTTG GTCCTGGGTC ACAAATGTGT
    CCCCATATAA ATATATGCAT GCATCTGTGG TGCACAAGCA CAGAAAAGCT TCACAAAGGC
    TGTTTCACTC AACACGTGCC ACCAGCAGAT GGAACAGACT GCGGTCCTGG AATGCATTGC
    CGTCATGGGC TATGTGTAAA CAAAGAAACG GAAACACGTC CTGTAAATGG TGAATGGGGA
    CCATGGGAAC CTTACAGTTC TTGTTCAAGA ACATGTGGAG GCGGAATCGA AAGTGCAACC
    AGGCGCTGTA ATCGTCCTGA GCCAAGAAAC GGAGGAAATT ACTGTGTGGG CCGCAGGATG
    AAATTTCGAT CATGTAATAC TGATTCATGT CCAAAAGGCA CACAAGACTT TCGAGAGAAG
    CAGTGCTCTG ATTTTAATGG TAAACATTTG GACATCAGTG GCATTCCCTC TAATGTGAGG
    TGGCTTCCAA GATACAGTGG CATTGGCACA AAGGATCGTT GTAAACTCTA TTGTCAGGTT
    GCTGGAACCA ATTATTTCTA CCTATTGAAG GATATGGTTG AAGATGGTAC TCCTTGTGGA
    ACTGAAACTC ATGACATCTG TGTTCAAGGC CAGTGTATGG CAGCTGGTTG TGATCACGTG
    TTAAACTCCA GTGCCAAGAT AGACAAATGT GGAGTGTGTG GTGGGGACAA CTCTTCATGC
    AAGACAATAA CAGGTGTCTT CAACAGTTCT CATTATGGTT ATAATGTTGT TGTAAAGATT
    CCCGCAGGAG CAACAAACGT TGACATTCGT CAGTACAGCT ATTCTGGACA ACCAGATGAC
    AGTTACCTTG CATTATCTGA CGCTGAAGGG AATTTTCTTT TCAATGGAAA TTTTCTTCTA
    AGTACGTCAA AAAAAGAAAT CAATGTGCAA GGAACAAGAA CTGTTATTGA ATACAGTGGA
    TCAAATAACG CAGTTGAAAG AATTAATAGT ACTAATCGAC AAGAGAAAGA ACTTATTTTG
    CAGGTGTTGT GTGTGGGTAA TTTATACAAC CCTGATGTAC ATTATTCCTT CAATATCCCT
    TTGGAAGAGA GGAGTGACAT GTTCACATGG GACCCCTATG GACCATGGGA AGGCTGTACC
    AAAATGTGTC AAGGTCTTCA GCGAAGAAAC ATAACTTGCA TACATAAGAG TGATCATAGT
    GTTGTGTCTG ATAAAGAATG TGACCACTTG CCACTTCCAT CATTTGTTAC TCAAAGTTGC
    AATACAGACT GTGAACTAAG GTGGCATGTT ATTGGCAAAA GTGAATGTTC ATCCCAATGT
    GGTCAAGGAT ATAGAACCTT GGACATCCAT TGCATGAAGT ATTCCATTCA TGAAGGACAG
    ACTGTTCAAG TTGATGACCA CTACTGTGGT GACCAGCTTA AACCTCCTAC CCAAGAACTA
    TGCCATGGTA ACTGTGTCTT CACAAGATGG CATTATTCAG AATGGTCTCA GTGTTCCAGG
    AGTTGTGGAG GAGGGGAAAG GTCTCGAGAA TCTTATTGTA TGAATAACTT TGGCCATCGT
    CTTGCTGACA ATGAATGCCA AGAACTGTCC CGAGTGACGA GAGAGAATTG CAATGAATTT
    TCCTGTCCCA GTTGGGCTGC TAGTGAATGG AGCGAGTGCC TTGTTACATG TGGTAAAGGA
    ACAAAGCAGC GGCAGGTATG GTGTCAGCTG AATGTAGATC ACTTGAGTGA TGGCTTCTGT
    AATTCAAGTA CCAAACCTGA ATCTCTGAGT CCATGTGAAC TTCATACATG TGCTTCCTGG
    CAAGTAGGAC CATGGGGTCC TTGCACAACC ACATGTGGAC ATGGGTATCA GATGCGAGAT
    GTTAAATGTG TCAATGAGCT AGCTAGTGCA GTGTTAGAGG ACACAGAATG CCATGAAGCT
    AGTCGCCCCA GTGACAGACA GAGCTGTGTA CTTACACCTT GCTCATTTAT TTCTAAACTT
    GAGACCGCTT TATTACCAAC TGTTCTCATA AAAAAGATGG CACAATGGCG ACATGGTTCT
    TGGACCCCAT GCTCCGTATC TTGTGGAAGA GGTACTCAAG CCCGCTATGT AAGCTGTCGT
    GATGCTCTTG ATAGAATAGC AGATGAATCA TATTGTGCCC ACTTACCCCG ACCTGCTGAA
    ATATGGGACT GTTTTACCCC TTGTGGAGAG TGGCAAGCAG GGGATTGGTC ACCCTGTTCA
    GCTTCCTGTG GCCATGGAAA AACAACTCGA CAAGTTTTAT GCATGAACTA CCATCAGCCA
    ATTGATGAGA ATTACTGTGA TCCTGAAGTT CGCCCTTTGA TGGAACAGGA ATGTAGCCTG
    GCAGCCTGCC CTCCTGCACA CAGCCACTTT CCTAGTTCCC CTGTGCAGCC AAGCTATTAT
    CTAAGCACGA ATTTGCCATT AACTCAAAAA CTTGAAGATA ATGAAAATCA GGTGGTCCAT
    CCATCAGTCA GAGGAAACCA GTGGAGAACC GGACCATGGG GATCATGCTC CAGCAGTTGT
    TCTGGAGGTC TTCAGCATAG GGCTGTGGTC TGCCAGGATG AAAATGGACA AAGTGCTAGT
    TACTGCGATG CAGCCTCCAA GCCTCCAGAG TTACAGCAAT GTGGTCCAGG GCCTTGTCCA
    CAGTGGAACT ACGGAAATTG GGGAGAATGT TCACAAACAT GTGGAGGAGG AATAAAATCA
    AGACTTGTAA TATGTCAATT TCCCAATGGC CAAATATTAG AAGATCACAA CTGTGAAATT
    GTAAACAAGC CACCTAGCGT AATACAGTGT CATATGCATG CTTGCCCTGC TGATGTGTCA
    TGGCATCAGG AACCATGGAC ATCGTGCTCA GCTTCTTGTG GTAAAGGTAG AAAGTACCGT
    GAAGTGTTTT GCATTGACCA ATTCCAAAGG AAATTAGAAG ACACAAATTG CAGTCAAGTA
    CAGAAACCTC CAACTCACAA AGCCTGTAGA TCTGTCAGAT GCCCTTCATG GAAAGCCAAT
    AGCTGGAATG AGTGCTCTGT GACCTGTGGC TCTGGAGTTC AGCAGAGGGA TGTATACTGC
    AGACTGAAAG GTGTTGGTCA GGTGGTTGAA GAAATGTGTG ATCAGTCCAC CCGACCTTGT
    TCTCAGAGGC GATGTTGGAG TCAGGACTGT GTGCAGCACA AGGGGATGGA AAGAGGGAGG
    CTGAATTGTT CAACATCATG TGAGAGAAAA GATTCACATC AACGAATGGA GTGCACAGAT
    AACCAAATCA GACAAGTGAA TGAAATAGTC TATAATTCTT CAACCATATC TCTTACATCC
    AAGAATTGCA GGAACCCTCC TTGCAATTAC ATTGTGGTAA CAGCAGACTC ATCACAGTGT
    GCAAACAACT GTGGATTTAG TTACAGACAA AGGATTACAT ATTGCACCGA GATCCCATCT
    ACTAAGAAAC ATAAGCTCCA TCGACTTCGG CCTATAGTTT ATCAAGAATG CCCTGTGGTG
    CCTTCCTCTC AGGTTTACCA ATGCATTAAC AGCTGTTTGC ATTTGGCCAC TTGGAAAGTT
    GGAAAATGGA GCAAGTGCTC AGTGACTTGT GGAATTGGGA TAATGAAGAG ACAAGTGAAA
    TGCATTACCA AACATGGTTT GTCCAGTGAC TTATGTTTAA ACCATTTAAA ACCAGGTGCT
    CAAAAGAAAT GTTATGCCAA TGACTGTAAA TCATTTACCA CCTGCAAAGA AATTCAAGTG
    AAAAACCACA TTAGAAAGGA TGGTGACTAT TACCTTAACA TTAAGGGAAG AATAATAAAG
    ATTTATTGTG CAGACATGTA CTTGGAGAAC CCTAAGGAAT ATTTAACACT GGTCCAAGGT
    GAAGAAAACT TTTCTGAAGT GTATGGCTTT AGACTAAAAA ATCCATATCA ATGTCCTTTT
    AATGGGAGTA GAAGGGAAGA CTGTGAATGT GACAATGGAC ACTTAGCTGC TGGATACACT
    GTTTTCAGCA AAATAAGAAT TGATCTCACT TCCATGCAAA TTAAAACTAC GGACCTTCTT
    TTTTCCAAAA CAATATTTGG AAATGCAGTT CCATTTGCCA CAGCTGGAGA TTGCTACAGT
    GCTTTCAGAT GCCCACAGGG ACAGTTTAGC ATTAATTTGT CAGGAACTGG GATGAAGATA
    TCCAGCACAG CAAAGTGGCT CACTCAGGGG AGTTATACCT CTGTCAGCAT ACGAAGATCA
    GAGGATGGAA CTAGATTTTT CGGCAAATGT GGAGGGTACT GTGGAAAGTG TCTTCCTCAC
    ATGACTACTG GTCTCCCAAT TCAAGTCATA TGA

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

    RefSeq NP_079279.3
    CDS283..6015
    Translation

    Target ORF information:

    RefSeq Version NM_025003.5
    Organism Homo sapiens(human)
    Definition Homo sapiens 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
    NM_025003.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTACCATC TCTCGCTCTT CATCACCAGG 
    TCTTGGGAAG TTGACTTCCA CCCCAGGCAA GAAGCCCTGG TGAGGACACT GACCTCCTAC
    GAAGTAGTGA TCCCCGAGCG GGTCAATGAG TTTGGAGAAG TGTTCCCTCA GAGCCACCAC
    TTCAGCCGGC AGAAACGCAG CTCCGAGGCG CTGGAACCCA TGCCGTTCCG AACCCACTAT
    CGCTTCACTG CCTACGGGCA GCTCTTCCAG CTGAACCTGA CCGCCGATGC ATCCTTTCTG
    GCCGCCGGCT ACACCGAGGT GCACTTGGGA ACCCCGGAGC GCGGGGCCTG GGAGAGCGAC
    GCAGGGCCCT CGGACCTGCG CCACTGCTTC TACCGCGGCC AGGTCAACTC ACAGGAGGAT
    TACAAGGCCG TCGTCAGCTT ATGCGGAGGC CTGACGGGAA CATTTAAAGG ACAGAACGGT
    GAATATTTCT TAGAACCTAT AATGAAGGCA GATGGGAATG AATATGAAGA TGGTCACAAC
    AAGCCACATC TTATATACAG ACAAGACTTA AATAACTCTT TTCTGCAGAC TCTGAAGTAT
    TGCAGTGTGT CAGAAAGTCA AATAAAGGAA ACCAGTTTAC CCTTTCATAC CTACAGCAAC
    ATGAATGAAG ATCTTAATGT AATGAAAGAA AGAGTTTTAG GACACACATC AAAAAATGTA
    CCATTGAAAG ATGAAAGAAG ACATTCCAGG AAAAAACGTC TTATATCATA TCCAAGATAC
    ATTGAAATTA TGGTTACAGC TGATGCTAAA GTGGTTTCTG CTCATGGATC GAATTTGCAA
    AACTATATAC TGACTCTAAT GTCAATTGTT GCAACAATCT ACAAAGATCC AAGTATTGGA
    AATTTGATAC ACATAGTAGT GGTAAAATTA GTTATGATTC ACCGTGAGGA GGAAGGACCA
    GTCATTAATT TTGATGGTGC TACCACATTA AAGAACTTTT GTTCATGGCA ACAAACTCAG
    AATGACCTTG ATGATGTTCA CCCTTCCCAC CATGACACTG CTGTTCTTAT CACTAGGGAA
    GACATTTGTT CATCTAAAGA GAAATGTAAC ATGTTAGGTT TATCATATTT AGGTACCATA
    TGTGATCCTT TACAAAGCTG CTTTATTAAT GAAGAAAAAG GACTCATTTC TGCTTTTACT
    ATAGCCCATG AGCTTGGGCA CACACTTGGT GTTCAACATG ATGATAATCC TAGATGTAAA
    GAAATGAAAG TTACAAAGTA TCATGTAATG GCCCCTGCTT TAAGTTTTCA CATGAGTCCT
    TGGAGCTGGT CAAACTGTAG TCGGAAATAT GTTACTGAAT TCCTAGATAC TGGTTACGGG
    GAATGTCTTC TTGACAAACC AGATGAAGAA ATATATAATC TGCCTTCAGA ACTTCCTGGA
    TCACGATATG ATGGAAACAA GCAGTGTGAG CTTGCGTTTG GTCCTGGGTC ACAAATGTGT
    CCCCATATAA ATATATGCAT GCATCTGTGG TGCACAAGCA CAGAAAAGCT TCACAAAGGC
    TGTTTCACTC AACACGTGCC ACCAGCAGAT GGAACAGACT GCGGTCCTGG AATGCATTGC
    CGTCATGGGC TATGTGTAAA CAAAGAAACG GAAACACGTC CTGTAAATGG TGAATGGGGA
    CCATGGGAAC CTTACAGTTC TTGTTCAAGA ACATGTGGAG GCGGAATCGA AAGTGCAACC
    AGGCGCTGTA ATCGTCCTGA GCCAAGAAAC GGAGGAAATT ACTGTGTGGG CCGCAGGATG
    AAATTTCGAT CATGTAATAC TGATTCATGT CCAAAAGGCA CACAAGACTT TCGAGAGAAG
    CAGTGCTCTG ATTTTAATGG TAAACATTTG GACATCAGTG GCATTCCCTC TAATGTGAGG
    TGGCTTCCAA GATACAGTGG CATTGGCACA AAGGATCGTT GTAAACTCTA TTGTCAGGTT
    GCTGGAACCA ATTATTTCTA CCTATTGAAG GATATGGTTG AAGATGGTAC TCCTTGTGGA
    ACTGAAACTC ATGACATCTG TGTTCAAGGC CAGTGTATGG CAGCTGGTTG TGATCACGTG
    TTAAACTCCA GTGCCAAGAT AGACAAATGT GGAGTGTGTG GTGGGGACAA CTCTTCATGC
    AAGACAATAA CAGGTGTCTT CAACAGTTCT CATTATGGTT ATAATGTTGT TGTAAAGATT
    CCCGCAGGAG CAACAAACGT TGACATTCGT CAGTACAGCT ATTCTGGACA ACCAGATGAC
    AGTTACCTTG CATTATCTGA CGCTGAAGGG AATTTTCTTT TCAATGGAAA TTTTCTTCTA
    AGTACGTCAA AAAAAGAAAT CAATGTGCAA GGAACAAGAA CTGTTATTGA ATACAGTGGA
    TCAAATAACG CAGTTGAAAG AATTAATAGT ACTAATCGAC AAGAGAAAGA ACTTATTTTG
    CAGGTGTTGT GTGTGGGTAA TTTATACAAC CCTGATGTAC ATTATTCCTT CAATATCCCT
    TTGGAAGAGA GGAGTGACAT GTTCACATGG GACCCCTATG GACCATGGGA AGGCTGTACC
    AAAATGTGTC AAGGTCTTCA GCGAAGAAAC ATAACTTGCA TACATAAGAG TGATCATAGT
    GTTGTGTCTG ATAAAGAATG TGACCACTTG CCACTTCCAT CATTTGTTAC TCAAAGTTGC
    AATACAGACT GTGAACTAAG GTGGCATGTT ATTGGCAAAA GTGAATGTTC ATCCCAATGT
    GGTCAAGGAT ATAGAACCTT GGACATCCAT TGCATGAAGT ATTCCATTCA TGAAGGACAG
    ACTGTTCAAG TTGATGACCA CTACTGTGGT GACCAGCTTA AACCTCCTAC CCAAGAACTA
    TGCCATGGTA ACTGTGTCTT CACAAGATGG CATTATTCAG AATGGTCTCA GTGTTCCAGG
    AGTTGTGGAG GAGGGGAAAG GTCTCGAGAA TCTTATTGTA TGAATAACTT TGGCCATCGT
    CTTGCTGACA ATGAATGCCA AGAACTGTCC CGAGTGACGA GAGAGAATTG CAATGAATTT
    TCCTGTCCCA GTTGGGCTGC TAGTGAATGG AGCGAGTGCC TTGTTACATG TGGTAAAGGA
    ACAAAGCAGC GGCAGGTATG GTGTCAGCTG AATGTAGATC ACTTGAGTGA TGGCTTCTGT
    AATTCAAGTA CCAAACCTGA ATCTCTGAGT CCATGTGAAC TTCATACATG TGCTTCCTGG
    CAAGTAGGAC CATGGGGTCC TTGCACAACC ACATGTGGAC ATGGGTATCA GATGCGAGAT
    GTTAAATGTG TCAATGAGCT AGCTAGTGCA GTGTTAGAGG ACACAGAATG CCATGAAGCT
    AGTCGCCCCA GTGACAGACA GAGCTGTGTA CTTACACCTT GCTCATTTAT TTCTAAACTT
    GAGACCGCTT TATTACCAAC TGTTCTCATA AAAAAGATGG CACAATGGCG ACATGGTTCT
    TGGACCCCAT GCTCCGTATC TTGTGGAAGA GGTACTCAAG CCCGCTATGT AAGCTGTCGT
    GATGCTCTTG ATAGAATAGC AGATGAATCA TATTGTGCCC ACTTACCCCG ACCTGCTGAA
    ATATGGGACT GTTTTACCCC TTGTGGAGAG TGGCAAGCAG GGGATTGGTC ACCCTGTTCA
    GCTTCCTGTG GCCATGGAAA AACAACTCGA CAAGTTTTAT GCATGAACTA CCATCAGCCA
    ATTGATGAGA ATTACTGTGA TCCTGAAGTT CGCCCTTTGA TGGAACAGGA ATGTAGCCTG
    GCAGCCTGCC CTCCTGCACA CAGCCACTTT CCTAGTTCCC CTGTGCAGCC AAGCTATTAT
    CTAAGCACGA ATTTGCCATT AACTCAAAAA CTTGAAGATA ATGAAAATCA GGTGGTCCAT
    CCATCAGTCA GAGGAAACCA GTGGAGAACC GGACCATGGG GATCATGCTC CAGCAGTTGT
    TCTGGAGGTC TTCAGCATAG GGCTGTGGTC TGCCAGGATG AAAATGGACA AAGTGCTAGT
    TACTGCGATG CAGCCTCCAA GCCTCCAGAG TTACAGCAAT GTGGTCCAGG GCCTTGTCCA
    CAGTGGAACT ACGGAAATTG GGGAGAATGT TCACAAACAT GTGGAGGAGG AATAAAATCA
    AGACTTGTAA TATGTCAATT TCCCAATGGC CAAATATTAG AAGATCACAA CTGTGAAATT
    GTAAACAAGC CACCTAGCGT AATACAGTGT CATATGCATG CTTGCCCTGC TGATGTGTCA
    TGGCATCAGG AACCATGGAC ATCGTGCTCA GCTTCTTGTG GTAAAGGTAG AAAGTACCGT
    GAAGTGTTTT GCATTGACCA ATTCCAAAGG AAATTAGAAG ACACAAATTG CAGTCAAGTA
    CAGAAACCTC CAACTCACAA AGCCTGTAGA TCTGTCAGAT GCCCTTCATG GAAAGCCAAT
    AGCTGGAATG AGTGCTCTGT GACCTGTGGC TCTGGAGTTC AGCAGAGGGA TGTATACTGC
    AGACTGAAAG GTGTTGGTCA GGTGGTTGAA GAAATGTGTG ATCAGTCCAC CCGACCTTGT
    TCTCAGAGGC GATGTTGGAG TCAGGACTGT GTGCAGCACA AGGGGATGGA AAGAGGGAGG
    CTGAATTGTT CAACATCATG TGAGAGAAAA GATTCACATC AACGAATGGA GTGCACAGAT
    AACCAAATCA GACAAGTGAA TGAAATAGTC TATAATTCTT CAACCATATC TCTTACATCC
    AAGAATTGCA GGAACCCTCC TTGCAATTAC ATTGTGGTAA CAGCAGACTC ATCACAGTGT
    GCAAACAACT GTGGATTTAG TTACAGACAA AGGATTACAT ATTGCACCGA GATCCCATCT
    ACTAAGAAAC ATAAGCTCCA TCGACTTCGG CCTATAGTTT ATCAAGAATG CCCTGTGGTG
    CCTTCCTCTC AGGTTTACCA ATGCATTAAC AGCTGTTTGC ATTTGGCCAC TTGGAAAGTT
    GGAAAATGGA GCAAGTGCTC AGTGACTTGT GGAATTGGGA TAATGAAGAG ACAAGTGAAA
    TGCATTACCA AACATGGTTT GTCCAGTGAC TTATGTTTAA ACCATTTAAA ACCAGGTGCT
    CAAAAGAAAT GTTATGCCAA TGACTGTAAA TCATTTACCA CCTGCAAAGA AATTCAAGTG
    AAAAACCACA TTAGAAAGGA TGGTGACTAT TACCTTAACA TTAAGGGAAG AATAATAAAG
    ATTTATTGTG CAGACATGTA CTTGGAGAAC CCTAAGGAAT ATTTAACACT GGTCCAAGGT
    GAAGAAAACT TTTCTGAAGT GTATGGCTTT AGACTAAAAA ATCCATATCA ATGTCCTTTT
    AATGGGAGTA GAAGGGAAGA CTGTGAATGT GACAATGGAC ACTTAGCTGC TGGATACACT
    GTTTTCAGCA AAATAAGAAT TGATCTCACT TCCATGCAAA TTAAAACTAC GGACCTTCTT
    TTTTCCAAAA CAATATTTGG AAATGCAGTT CCATTTGCCA CAGCTGGAGA TTGCTACAGT
    GCTTTCAGAT GCCCACAGGG ACAGTTTAGC ATTAATTTGT CAGGAACTGG GATGAAGATA
    TCCAGCACAG CAAAGTGGCT CACTCAGGGG AGTTATACCT CTGTCAGCAT ACGAAGATCA
    GAGGATGGAA CTAGATTTTT CGGCAAATGT GGAGGGTACT GTGGAAAGTG TCTTCCTCAC
    ATGACTACTG GTCTCCCAAT TCAAGTCATA TGA

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

    CloneID OHu72529
    Clone ID Related Accession (Same CDS sequence) XM_011538754.2
    Accession Version XM_011538754.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5736bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 20 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011538754.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTACCATC TCTCGCTCTT CATCACCAGG 
    TCTTGGGAAG TTGACTTCCA CCCCAGGCAA GAAGCCCTGG TGAGGACACT GACCTCCTAC
    GAAGTAGTGA TCCCCGAGCG GGTCAATGAG TTTGGAGAAG TGTTCCCTCA GAGCCACCAC
    TTCAGCCGGC AGAAACGCAG CTCCGAGGCG CTGGAACCCA TGCCGTTCCG AACCCACTAT
    CGCTTCACTG CCTACGGGCA GCTCTTCCAG CTGAACCTGA CCGCCGATGC ATCCTTTCTG
    GCCGCCGGCT ACACCGAGGT GCACTTGGGA ACCCCGGAGC GCGGGGCCTG GGAGAGCGAC
    GCAGGGCCCT CGGACCTGCG CCACTGCTTC TACCGCGGCC AGGTCAACTC ACAGGAGGAT
    TACAAGGCCG TCGTCAGCTT ATGCGGAGGC CTGACGGGAA CATTTAAAGG ACAGAACGGT
    GAATATTTCT TAGAACCTAT AATGAAGGCA GATGGGAATG AATATGAAGA TGGTCACAAC
    AAGCCACATC TTATATACAG ACAAGACTTA AATAACTCTT TTCTGCAGAC TCTGAAGTAT
    TGCAGTGTGT CAGAAAGTCA AATAAAGGAA ACCAGTTTAC CCTTTCATAC CTACAGCAAC
    ATGAATGAAG ATCTTAATGT AATGAAAGAA AGAGTTTTAG GACACACATC AAAAAATGTA
    CCATTGAAAG ATGAAAGAAG ACATTCCAGG AAAAAACGTC TTATATCATA TCCAAGATAC
    ATTGAAATTA TGGTTACAGC TGATGCTAAA GTGGTTTCTG CTCATGGATC GAATTTGCAA
    AACTATATAC TGACTCTAAT GTCAATTGTT GCAACAATCT ACAAAGATCC AAGTATTGGA
    AATTTGATAC ACATAGTAGT GGTAAAATTA GTTATGATTC ACCGTGAGGA GGAAGGACCA
    GTCATTAATT TTGATGGTGC TACCACATTA AAGAACTTTT GTTCATGGCA ACAAACTCAG
    AATGACCTTG ATGATGTTCA CCCTTCCCAC CATGACACTG CTGTTCTTAT CACTAGGGAA
    GACATTTGTT CATCTAAAGA GAAATGTAAC ATGTTAGGTT TATCATATTT AGGTACCATA
    TGTGATCCTT TACAAAGCTG CTTTATTAAT GAAGAAAAAG GACTCATTTC TGCTTTTACT
    ATAGCCCATG AGCTTGGGCA CACACTTGGT GTTCAACATG ATGATAATCC TAGATGTAAA
    GAAATGAAAG TTACAAAGTA TCATGTAATG GCCCCTGCTT TAAGTTTTCA CATGAGTCCT
    TGGAGCTGGT CAAACTGTAG TCGGAAATAT GTTACTGAAT TCCTAGATAC TGGTTACGGG
    GAATGTCTTC TTGACAAACC AGATGAAGAA ATATATAATC TGCCTTCAGA ACTTCCTGGA
    TCACGATATG ATGGAAACAA GCAGTGTGAG CTTGCGTTTG GTCCTGGGTC ACAAATGTGT
    CCCCATATAG AGAATATATG CATGCATCTG TGGTGCACAA GCACAGAAAA GCTTCACAAA
    GGCTGTTTCA CTCAACACGT GCCACCAGCA GATGGAACAG ACTGCGGTCC TGGAATGCAT
    TGCCGTCATG GGCTATGTGT AAACAAAGAA ACGGAAACAC GTCCTGTAAA TGGTGAATGG
    GGACCATGGG AACCTTACAG TTCTTGTTCA AGAACATGTG GAGGCGGAAT CGAAAGTGCA
    ACCAGGCGCT GTAATCGTCC TGAGCCAAGA AACGGAGGAA ATTACTGTGT GGGCCGCAGG
    ATGAAATTTC GATCATGTAA TACTGATTCA TGTCCAAAAG GCACACAAGA CTTTCGAGAG
    AAGCAGTGCT CTGATTTTAA TGGTAAACAT TTGGACATCA GTGGCATTCC CTCTAATGTG
    AGGTGGCTTC CAAGATACAG TGGCATTGGC ACAAAGGATC GTTGTAAACT CTATTGTCAG
    GTTGCTGGAA CCAATTATTT CTACCTATTG AAGGATATGG TTGAAGATGG TACTCCTTGT
    GGAACTGAAA CTCATGACAT CTGTGTTCAA GGCCAGTGTA TGGCAGCTGG TTGTGATCAC
    GTGTTAAACT CCAGTGCCAA GATAGACAAA TGTGGAGTGT GTGGTGGGGA CAACTCTTCA
    TGCAAGACAA TAACAGGTGT CTTCAACAGT TCTCATTATG GTTATAATGT TGTTGTAAAG
    ATTCCCGCAG GAGCAACAAA CGTTGACATT CGTCAGTACA GCTATTCTGG ACAACCAGAT
    GACAGTTACC TTGCATTATC TGACGCTGAA GGGAATTTTC TTTTCAATGG AAATTTTCTT
    CTAAGTACGT CAAAAAAAGA AATCAATGTG CAAGGAACAA GAACTGTTAT TGAATACAGT
    GGATCAAATA ACGCAGTTGA AAGAATTAAT AGTACTAATC GACAAGAGAA AGAACTTATT
    TTGCAGGTGT TGTGTGTGGG TAATTTATAC AACCCTGATG TACATTATTC CTTCAATATC
    CCTTTGGAAG AGAGGAGTGA CATGTTCACA TGGGACCCCT ATGGACCATG GGAAGGCTGT
    ACCAAAATGT GTCAAGGTCT TCAGCGAAGA AACATAACTT GCATACATAA GAGTGATCAT
    AGTGTTGTGT CTGATAAAGA ATGTGACCAC TTGCCACTTC CATCATTTGT TACTCAAAGT
    TGCAATACAG ACTGTGAACT AAGGTGGCAT GTTATTGGCA AAAGTGAATG TTCATCCCAA
    TGTGGTCAAG GATATAGAAC CTTGGACATC CATTGCATGA AGTATTCCAT TCATGAAGGA
    CAGACTGTTC AAGTTGATGA CCACTACTGT GGTGACCAGC TTAAACCTCC TACCCAAGAA
    CTATGCCATG GTAACTGTGT CTTCACAAGA TGGCATTATT CAGAATGGTC TCAGTGTTCC
    AGGAGTTGTG GAGGAGGGGA AAGGTCTCGA GAATCTTATT GTATGAATAA CTTTGGCCAT
    CGTCTTGCTG ACAATGAATG CCAAGAACTG TCCCGAGTGA CGAGAGAGAA TTGCAATGAA
    TTTTCCTGTC CCAGTTGGGC TGCTAGTGAA TGGAGCGAGT GCCTTGTTAC ATGTGGTAAA
    GGAACAAAGC AGCGGCAGGT ATGGTGTCAG CTGAATGTAG ATCACTTGAG TGATGGCTTC
    TGTAATTCAA GTACCAAACC TGAATCTCTG AGTCCATGTG AACTTCATAC ATGTGCTTCC
    TGGCAAGTAG GACCATGGGG TCCTTGCACA ACCACATGTG GACATGGGTA TCAGATGCGA
    GATGTTAAAT GTGTCAATGA GCTAGCTAGT GCAGTGTTAG AGGACACAGA ATGCCATGAA
    GCTAGTCGCC CCAGTGACAG ACAGAGCTGT GTACTTACAC CTTGCTCATT TATTTCTAAA
    CTTGAGACCG CTTTATTACC AACTGTTCTC ATAAAAAAGA TGGCACAATG GCGACATGGT
    TCTTGGACCC CATGCTCCGT ATCTTGTGGA AGAGGTACTC AAGCCCGCTA TGTAAGCTGT
    CGTGATGCTC TTGATAGAAT AGCAGATGAA TCATATTGTG CCCACTTACC CCGACCTGCT
    GAAATATGGG ACTGTTTTAC CCCTTGTGGA GAGTGGCAAG CAGGGGATTG GTCACCCTGT
    TCAGCTTCCT GTGGCCATGG AAAAACAACT CGACAAGTTT TATGCATGAA CTACCATCAG
    CCAATTGATG AGAATTACTG TGATCCTGAA GTTCGCCCTT TGATGGAACA GGAATGTAGC
    CTGGCAGCCT GCCCTCCTGC ACACAGCCAC TTTCCTAGTT CCCCTGTGCA GCCAAGCTAT
    TATCTAAGCA CGAATTTGCC ATTAACTCAA AAACTTGAAG ATAATGAAAA TCAGGTGGTC
    CATCCATCAG TCAGAGGAAA CCAGTGGAGA ACCGGACCAT GGGGATCATG CTCCAGCAGT
    TGTTCTGGAG GTCTTCAGCA TAGGGCTGTG GTCTGCCAGG ATGAAAATGG ACAAAGTGCT
    AGTTACTGCG ATGCAGCCTC CAAGCCTCCA GAGTTACAGC AATGTGGTCC AGGGCCTTGT
    CCACAGTGGA ACTACGGAAA TTGGGGAGAA TGTTCACAAA CATGTGGAGG AGGAATAAAA
    TCAAGACTTG TAATATGTCA ATTTCCCAAT GGCCAAATAT TAGAAGATCA CAACTGTGAA
    ATTGTAAACA AGCCACCTAG CGTAATACAG TGTCATATGC ATGCTTGCCC TGCTGATGTG
    TCATGGCATC AGGAACCATG GACATCGTGC TCAGCTTCTT GTGGTAAAGG TAGAAAGTAC
    CGTGAAGTGT TTTGCATTGA CCAATTCCAA AGGAAATTAG AAGACACAAA TTGCAGTCAA
    GTACAGAAAC CTCCAACTCA CAAAGCCTGT AGATCTGTCA GATGCCCTTC ATGGAAAGCC
    AATAGCTGGA ATGAGTGCTC TGTGACCTGT GGCTCTGGAG TTCAGCAGAG GGATGTATAC
    TGCAGACTGA AAGGTGTTGG TCAGGTGGTT GAAGAAATGT GTGATCAGTC CACCCGACCT
    TGTTCTCAGA GGCGATGTTG GAGTCAGGAC TGTGTGCAGC ACAAGGGGAT GGAAAGAGGG
    AGGCTGAATT GTTCAACATC ATGTGAGAGA AAAGATTCAC ATCAACGAAT GGAGTGCACA
    GATAACCAAA TCAGACAAGT GAATGAAATA GTCTATAATT CTTCAACCAT ATCTCTTACA
    TCCAAGAATT GCAGGAACCC TCCTTGCAAT TACATTGTGG TAACAGCAGA CTCATCACAG
    TGTGCAAACA ACTGTGGATT TAGTTACAGA CAAAGGATTA CATATTGCAC CGAGATCCCA
    TCTACTAAGA AACATAAGCT CCATCGACTT CGGCCTATAG TTTATCAAGA ATGCCCTGTG
    GTGCCTTCCT CTCAGGTTTA CCAATGCATT AACAGCTGTT TGCATTTGGC CACTTGGAAA
    GTTGGAAAAT GGAGCAAGTG CTCAGTGACT TGTGGAATTG GGATAATGAA GAGACAAGTG
    AAATGCATTA CCAAACATGG TTTGTCCAGT GACTTATGTT TAAACCATTT AAAACCAGGT
    GCTCAAAAGA AATGTTATGC CAATGACTGT AAATCATTTA CCACCTGCAA AGAAATTCAA
    GTGAAAAACC ACATTAGAAA GGATGGTGAC TATTACCTTA ACATTAAGGG AAGAATAATA
    AAGATTTATT GTGCAGACAT GTACTTGGAG AACCCTAAGG AATATTTAAC ACTGGTCCAA
    GGTGAAGAAA ACTTTTCTGA AGTGTATGGC TTTAGACTAA AAAATCCATA TCAATGTCCT
    TTTAATGGGA GTAGAAGGGA AGACTGTGAA TGTGACAATG GACACTTAGC TGCTGGATAC
    ACTGTTTTCA GCAAAATAAG AATTGATCTC ACTTCCATGC AAATTAAAAC TACGGACCTT
    CTTTTTTCCA AAACAATATT TGGAAATGCA GTTCCATTTG CCACAGCTGG AGATTGCTAC
    AGTGCTTTCA GATGCCCACA GGGACAGTTT AGCATTAATT TGTCAGGAAC TGGGATGAAG
    ATATCCAGCA CAGCAAAGTG GCTCACTCAG GGGAGTTATA CCTCTGTCAG CATACGAAGA
    TCAGAGGATG GAACTAGATT TTTCGGCAAA TGTGGAGGGT ACTGTGGAAA GTGTCTTCCT
    CACATGACTA CTGGTCTCCC AATTCAAGTC ATATGA

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

    RefSeq XP_011537056.1
    CDS51..5786
    Translation

    Target ORF information:

    RefSeq Version XM_011538754.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011538754.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTACCATC TCTCGCTCTT CATCACCAGG 
    TCTTGGGAAG TTGACTTCCA CCCCAGGCAA GAAGCCCTGG TGAGGACACT GACCTCCTAC
    GAAGTAGTGA TCCCCGAGCG GGTCAATGAG TTTGGAGAAG TGTTCCCTCA GAGCCACCAC
    TTCAGCCGGC AGAAACGCAG CTCCGAGGCG CTGGAACCCA TGCCGTTCCG AACCCACTAT
    CGCTTCACTG CCTACGGGCA GCTCTTCCAG CTGAACCTGA CCGCCGATGC ATCCTTTCTG
    GCCGCCGGCT ACACCGAGGT GCACTTGGGA ACCCCGGAGC GCGGGGCCTG GGAGAGCGAC
    GCAGGGCCCT CGGACCTGCG CCACTGCTTC TACCGCGGCC AGGTCAACTC ACAGGAGGAT
    TACAAGGCCG TCGTCAGCTT ATGCGGAGGC CTGACGGGAA CATTTAAAGG ACAGAACGGT
    GAATATTTCT TAGAACCTAT AATGAAGGCA GATGGGAATG AATATGAAGA TGGTCACAAC
    AAGCCACATC TTATATACAG ACAAGACTTA AATAACTCTT TTCTGCAGAC TCTGAAGTAT
    TGCAGTGTGT CAGAAAGTCA AATAAAGGAA ACCAGTTTAC CCTTTCATAC CTACAGCAAC
    ATGAATGAAG ATCTTAATGT AATGAAAGAA AGAGTTTTAG GACACACATC AAAAAATGTA
    CCATTGAAAG ATGAAAGAAG ACATTCCAGG AAAAAACGTC TTATATCATA TCCAAGATAC
    ATTGAAATTA TGGTTACAGC TGATGCTAAA GTGGTTTCTG CTCATGGATC GAATTTGCAA
    AACTATATAC TGACTCTAAT GTCAATTGTT GCAACAATCT ACAAAGATCC AAGTATTGGA
    AATTTGATAC ACATAGTAGT GGTAAAATTA GTTATGATTC ACCGTGAGGA GGAAGGACCA
    GTCATTAATT TTGATGGTGC TACCACATTA AAGAACTTTT GTTCATGGCA ACAAACTCAG
    AATGACCTTG ATGATGTTCA CCCTTCCCAC CATGACACTG CTGTTCTTAT CACTAGGGAA
    GACATTTGTT CATCTAAAGA GAAATGTAAC ATGTTAGGTT TATCATATTT AGGTACCATA
    TGTGATCCTT TACAAAGCTG CTTTATTAAT GAAGAAAAAG GACTCATTTC TGCTTTTACT
    ATAGCCCATG AGCTTGGGCA CACACTTGGT GTTCAACATG ATGATAATCC TAGATGTAAA
    GAAATGAAAG TTACAAAGTA TCATGTAATG GCCCCTGCTT TAAGTTTTCA CATGAGTCCT
    TGGAGCTGGT CAAACTGTAG TCGGAAATAT GTTACTGAAT TCCTAGATAC TGGTTACGGG
    GAATGTCTTC TTGACAAACC AGATGAAGAA ATATATAATC TGCCTTCAGA ACTTCCTGGA
    TCACGATATG ATGGAAACAA GCAGTGTGAG CTTGCGTTTG GTCCTGGGTC ACAAATGTGT
    CCCCATATAG AGAATATATG CATGCATCTG TGGTGCACAA GCACAGAAAA GCTTCACAAA
    GGCTGTTTCA CTCAACACGT GCCACCAGCA GATGGAACAG ACTGCGGTCC TGGAATGCAT
    TGCCGTCATG GGCTATGTGT AAACAAAGAA ACGGAAACAC GTCCTGTAAA TGGTGAATGG
    GGACCATGGG AACCTTACAG TTCTTGTTCA AGAACATGTG GAGGCGGAAT CGAAAGTGCA
    ACCAGGCGCT GTAATCGTCC TGAGCCAAGA AACGGAGGAA ATTACTGTGT GGGCCGCAGG
    ATGAAATTTC GATCATGTAA TACTGATTCA TGTCCAAAAG GCACACAAGA CTTTCGAGAG
    AAGCAGTGCT CTGATTTTAA TGGTAAACAT TTGGACATCA GTGGCATTCC CTCTAATGTG
    AGGTGGCTTC CAAGATACAG TGGCATTGGC ACAAAGGATC GTTGTAAACT CTATTGTCAG
    GTTGCTGGAA CCAATTATTT CTACCTATTG AAGGATATGG TTGAAGATGG TACTCCTTGT
    GGAACTGAAA CTCATGACAT CTGTGTTCAA GGCCAGTGTA TGGCAGCTGG TTGTGATCAC
    GTGTTAAACT CCAGTGCCAA GATAGACAAA TGTGGAGTGT GTGGTGGGGA CAACTCTTCA
    TGCAAGACAA TAACAGGTGT CTTCAACAGT TCTCATTATG GTTATAATGT TGTTGTAAAG
    ATTCCCGCAG GAGCAACAAA CGTTGACATT CGTCAGTACA GCTATTCTGG ACAACCAGAT
    GACAGTTACC TTGCATTATC TGACGCTGAA GGGAATTTTC TTTTCAATGG AAATTTTCTT
    CTAAGTACGT CAAAAAAAGA AATCAATGTG CAAGGAACAA GAACTGTTAT TGAATACAGT
    GGATCAAATA ACGCAGTTGA AAGAATTAAT AGTACTAATC GACAAGAGAA AGAACTTATT
    TTGCAGGTGT TGTGTGTGGG TAATTTATAC AACCCTGATG TACATTATTC CTTCAATATC
    CCTTTGGAAG AGAGGAGTGA CATGTTCACA TGGGACCCCT ATGGACCATG GGAAGGCTGT
    ACCAAAATGT GTCAAGGTCT TCAGCGAAGA AACATAACTT GCATACATAA GAGTGATCAT
    AGTGTTGTGT CTGATAAAGA ATGTGACCAC TTGCCACTTC CATCATTTGT TACTCAAAGT
    TGCAATACAG ACTGTGAACT AAGGTGGCAT GTTATTGGCA AAAGTGAATG TTCATCCCAA
    TGTGGTCAAG GATATAGAAC CTTGGACATC CATTGCATGA AGTATTCCAT TCATGAAGGA
    CAGACTGTTC AAGTTGATGA CCACTACTGT GGTGACCAGC TTAAACCTCC TACCCAAGAA
    CTATGCCATG GTAACTGTGT CTTCACAAGA TGGCATTATT CAGAATGGTC TCAGTGTTCC
    AGGAGTTGTG GAGGAGGGGA AAGGTCTCGA GAATCTTATT GTATGAATAA CTTTGGCCAT
    CGTCTTGCTG ACAATGAATG CCAAGAACTG TCCCGAGTGA CGAGAGAGAA TTGCAATGAA
    TTTTCCTGTC CCAGTTGGGC TGCTAGTGAA TGGAGCGAGT GCCTTGTTAC ATGTGGTAAA
    GGAACAAAGC AGCGGCAGGT ATGGTGTCAG CTGAATGTAG ATCACTTGAG TGATGGCTTC
    TGTAATTCAA GTACCAAACC TGAATCTCTG AGTCCATGTG AACTTCATAC ATGTGCTTCC
    TGGCAAGTAG GACCATGGGG TCCTTGCACA ACCACATGTG GACATGGGTA TCAGATGCGA
    GATGTTAAAT GTGTCAATGA GCTAGCTAGT GCAGTGTTAG AGGACACAGA ATGCCATGAA
    GCTAGTCGCC CCAGTGACAG ACAGAGCTGT GTACTTACAC CTTGCTCATT TATTTCTAAA
    CTTGAGACCG CTTTATTACC AACTGTTCTC ATAAAAAAGA TGGCACAATG GCGACATGGT
    TCTTGGACCC CATGCTCCGT ATCTTGTGGA AGAGGTACTC AAGCCCGCTA TGTAAGCTGT
    CGTGATGCTC TTGATAGAAT AGCAGATGAA TCATATTGTG CCCACTTACC CCGACCTGCT
    GAAATATGGG ACTGTTTTAC CCCTTGTGGA GAGTGGCAAG CAGGGGATTG GTCACCCTGT
    TCAGCTTCCT GTGGCCATGG AAAAACAACT CGACAAGTTT TATGCATGAA CTACCATCAG
    CCAATTGATG AGAATTACTG TGATCCTGAA GTTCGCCCTT TGATGGAACA GGAATGTAGC
    CTGGCAGCCT GCCCTCCTGC ACACAGCCAC TTTCCTAGTT CCCCTGTGCA GCCAAGCTAT
    TATCTAAGCA CGAATTTGCC ATTAACTCAA AAACTTGAAG ATAATGAAAA TCAGGTGGTC
    CATCCATCAG TCAGAGGAAA CCAGTGGAGA ACCGGACCAT GGGGATCATG CTCCAGCAGT
    TGTTCTGGAG GTCTTCAGCA TAGGGCTGTG GTCTGCCAGG ATGAAAATGG ACAAAGTGCT
    AGTTACTGCG ATGCAGCCTC CAAGCCTCCA GAGTTACAGC AATGTGGTCC AGGGCCTTGT
    CCACAGTGGA ACTACGGAAA TTGGGGAGAA TGTTCACAAA CATGTGGAGG AGGAATAAAA
    TCAAGACTTG TAATATGTCA ATTTCCCAAT GGCCAAATAT TAGAAGATCA CAACTGTGAA
    ATTGTAAACA AGCCACCTAG CGTAATACAG TGTCATATGC ATGCTTGCCC TGCTGATGTG
    TCATGGCATC AGGAACCATG GACATCGTGC TCAGCTTCTT GTGGTAAAGG TAGAAAGTAC
    CGTGAAGTGT TTTGCATTGA CCAATTCCAA AGGAAATTAG AAGACACAAA TTGCAGTCAA
    GTACAGAAAC CTCCAACTCA CAAAGCCTGT AGATCTGTCA GATGCCCTTC ATGGAAAGCC
    AATAGCTGGA ATGAGTGCTC TGTGACCTGT GGCTCTGGAG TTCAGCAGAG GGATGTATAC
    TGCAGACTGA AAGGTGTTGG TCAGGTGGTT GAAGAAATGT GTGATCAGTC CACCCGACCT
    TGTTCTCAGA GGCGATGTTG GAGTCAGGAC TGTGTGCAGC ACAAGGGGAT GGAAAGAGGG
    AGGCTGAATT GTTCAACATC ATGTGAGAGA AAAGATTCAC ATCAACGAAT GGAGTGCACA
    GATAACCAAA TCAGACAAGT GAATGAAATA GTCTATAATT CTTCAACCAT ATCTCTTACA
    TCCAAGAATT GCAGGAACCC TCCTTGCAAT TACATTGTGG TAACAGCAGA CTCATCACAG
    TGTGCAAACA ACTGTGGATT TAGTTACAGA CAAAGGATTA CATATTGCAC CGAGATCCCA
    TCTACTAAGA AACATAAGCT CCATCGACTT CGGCCTATAG TTTATCAAGA ATGCCCTGTG
    GTGCCTTCCT CTCAGGTTTA CCAATGCATT AACAGCTGTT TGCATTTGGC CACTTGGAAA
    GTTGGAAAAT GGAGCAAGTG CTCAGTGACT TGTGGAATTG GGATAATGAA GAGACAAGTG
    AAATGCATTA CCAAACATGG TTTGTCCAGT GACTTATGTT TAAACCATTT AAAACCAGGT
    GCTCAAAAGA AATGTTATGC CAATGACTGT AAATCATTTA CCACCTGCAA AGAAATTCAA
    GTGAAAAACC ACATTAGAAA GGATGGTGAC TATTACCTTA ACATTAAGGG AAGAATAATA
    AAGATTTATT GTGCAGACAT GTACTTGGAG AACCCTAAGG AATATTTAAC ACTGGTCCAA
    GGTGAAGAAA ACTTTTCTGA AGTGTATGGC TTTAGACTAA AAAATCCATA TCAATGTCCT
    TTTAATGGGA GTAGAAGGGA AGACTGTGAA TGTGACAATG GACACTTAGC TGCTGGATAC
    ACTGTTTTCA GCAAAATAAG AATTGATCTC ACTTCCATGC AAATTAAAAC TACGGACCTT
    CTTTTTTCCA AAACAATATT TGGAAATGCA GTTCCATTTG CCACAGCTGG AGATTGCTAC
    AGTGCTTTCA GATGCCCACA GGGACAGTTT AGCATTAATT TGTCAGGAAC TGGGATGAAG
    ATATCCAGCA CAGCAAAGTG GCTCACTCAG GGGAGTTATA CCTCTGTCAG CATACGAAGA
    TCAGAGGATG GAACTAGATT TTTCGGCAAA TGTGGAGGGT ACTGTGGAAA GTGTCTTCCT
    CACATGACTA CTGGTCTCCC AATTCAAGTC ATATGA

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

    CloneID OHu72530
    Clone ID Related Accession (Same CDS sequence) XM_017019979.1
    Accession Version XM_017019979.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4521bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 20 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGACCAGAC TTGGTGTTCA ACATGATGAT AATCCTAGAT GTAAAGAAAT GAAAGTTACA 
    AAGTATCATG TAATGGCCCC TGCTTTAAGT TTTCACATGA GTCCTTGGAG CTGGTCAAAC
    TGTAGTCGGA AATATGTTAC TGAATTCCTA GATACTGGTT ACGGGGAATG TCTTCTTGAC
    AAACCAGATG AAGAAATATA TAATCTGCCT TCAGAACTTC CTGGATCACG ATATGATGGA
    AACAAGCAGT GTGAGCTTGC GTTTGGTCCT GGGTCACAAA TGTGTCCCCA TATAGAGAAT
    ATATGCATGC ATCTGTGGTG CACAAGCACA GAAAAGCTTC ACAAAGGCTG TTTCACTCAA
    CACGTGCCAC CAGCAGATGG AACAGACTGC GGTCCTGGAA TGCATTGCCG TCATGGGCTA
    TGTGTAAACA AAGAAACGGA AACACGTCCT GTAAATGGTG AATGGGGACC ATGGGAACCT
    TACAGTTCTT GTTCAAGAAC ATGTGGAGGC GGAATCGAAA GTGCAACCAG GCGCTGTAAT
    CGTCCTGAGC CAAGAAACGG AGGAAATTAC TGTGTGGGCC GCAGGATGAA ATTTCGATCA
    TGTAATACTG ATTCATGTCC AAAAGGCACA CAAGACTTTC GAGAGAAGCA GTGCTCTGAT
    TTTAATGGTA AACATTTGGA CATCAGTGGC ATTCCCTCTA ATGTGAGGTG GCTTCCAAGA
    TACAGTGGCA TTGGCACAAA GGATCGTTGT AAACTCTATT GTCAGGTTGC TGGAACCAAT
    TATTTCTACC TATTGAAGGA TATGGTTGAA GATGGTACTC CTTGTGGAAC TGAAACTCAT
    GACATCTGTG TTCAAGGCCA GTGTATGGCA GCTGGTTGTG ATCACGTGTT AAACTCCAGT
    GCCAAGATAG ACAAATGTGG AGTGTGTGGT GGGGACAACT CTTCATGCAA GACAATAACA
    GGTGTCTTCA ACAGTTCTCA TTATGGTTAT AATGTTGTTG TAAAGATTCC CGCAGGAGCA
    ACAAACGTTG ACATTCGTCA GTACAGCTAT TCTGGACAAC CAGATGACAG TTACCTTGCA
    TTATCTGACG CTGAAGGGAA TTTTCTTTTC AATGGAAATT TTCTTCTAAG TACGTCAAAA
    AAAGAAATCA ATGTGCAAGG AACAAGAACT GTTATTGAAT ACAGTGGATC AAATAACGCA
    GTTGAAAGAA TTAATAGTAC TAATCGACAA GAGAAAGAAC TTATTTTGCA GGTGTTGTGT
    GTGGGTAATT TATACAACCC TGATGTACAT TATTCCTTCA ATATCCCTTT GGAAGAGAGG
    AGTGACATGT TCACATGGGA CCCCTATGGA CCATGGGAAG GCTGTACCAA AATGTGTCAA
    GGTCTTCAGC GAAGAAACAT AACTTGCATA CATAAGAGTG ATCATAGTGT TGTGTCTGAT
    AAAGAATGTG ACCACTTGCC ACTTCCATCA TTTGTTACTC AAAGTTGCAA TACAGACTGT
    GAACTAAGGT GGCATGTTAT TGGCAAAAGT GAATGTTCAT CCCAATGTGG TCAAGGATAT
    AGAACCTTGG ACATCCATTG CATGAAGTAT TCCATTCATG AAGGACAGAC TGTTCAAGTT
    GATGACCACT ACTGTGGTGA CCAGCTTAAA CCTCCTACCC AAGAACTATG CCATGGTAAC
    TGTGTCTTCA CAAGATGGCA TTATTCAGAA TGGTCTCAGT GTTCCAGGAG TTGTGGAGGA
    GGGGAAAGGT CTCGAGAATC TTATTGTATG AATAACTTTG GCCATCGTCT TGCTGACAAT
    GAATGCCAAG AACTGTCCCG AGTGACGAGA GAGAATTGCA ATGAATTTTC CTGTCCCAGT
    TGGGCTGCTA GTGAATGGAG CGAGTGCCTT GTTACATGTG GTAAAGGAAC AAAGCAGCGG
    CAGGTATGGT GTCAGCTGAA TGTAGATCAC TTGAGTGATG GCTTCTGTAA TTCAAGTACC
    AAACCTGAAT CTCTGAGTCC ATGTGAACTT CATACATGTG CTTCCTGGCA AGTAGGACCA
    TGGGGTCCTT GCACAACCAC ATGTGGACAT GGGTATCAGA TGCGAGATGT TAAATGTGTC
    AATGAGCTAG CTAGTGCAGT GTTAGAGGAC ACAGAATGCC ATGAAGCTAG TCGCCCCAGT
    GACAGACAGA GCTGTGTACT TACACCTTGC TCATTTATTT CTAAACTTGA GACCGCTTTA
    TTACCAACTG TTCTCATAAA AAAGATGGCA CAATGGCGAC ATGGTTCTTG GACCCCATGC
    TCCGTATCTT GTGGAAGAGG TACTCAAGCC CGCTATGTAA GCTGTCGTGA TGCTCTTGAT
    AGAATAGCAG ATGAATCATA TTGTGCCCAC TTACCCCGAC CTGCTGAAAT ATGGGACTGT
    TTTACCCCTT GTGGAGAGTG GCAAGCAGGG GATTGGTCAC CCTGTTCAGC TTCCTGTGGC
    CATGGAAAAA CAACTCGACA AGTTTTATGC ATGAACTACC ATCAGCCAAT TGATGAGAAT
    TACTGTGATC CTGAAGTTCG CCCTTTGATG GAACAGGAAT GTAGCCTGGC AGCCTGCCCT
    CCTGCACACA GCCACTTTCC TAGTTCCCCT GTGCAGCCAA GCTATTATCT AAGCACGAAT
    TTGCCATTAA CTCAAAAACT TGAAGATAAT GAAAATCAGG TGGTCCATCC ATCAGTCAGA
    GGAAACCAGT GGAGAACCGG ACCATGGGGA TCATGCTCCA GCAGTTGTTC TGGAGGTCTT
    CAGCATAGGG CTGTGGTCTG CCAGGATGAA AATGGACAAA GTGCTAGTTA CTGCGATGCA
    GCCTCCAAGC CTCCAGAGTT ACAGCAATGT GGTCCAGGGC CTTGTCCACA GTGGAACTAC
    GGAAATTGGG GAGAATGTTC ACAAACATGT GGAGGAGGAA TAAAATCAAG ACTTGTAATA
    TGTCAATTTC CCAATGGCCA AATATTAGAA GATCACAACT GTGAAATTGT AAACAAGCCA
    CCTAGCGTAA TACAGTGTCA TATGCATGCT TGCCCTGCTG ATGTGTCATG GCATCAGGAA
    CCATGGACAT CGTGCTCAGC TTCTTGTGGT AAAGGTAGAA AGTACCGTGA AGTGTTTTGC
    ATTGACCAAT TCCAAAGGAA ATTAGAAGAC ACAAATTGCA GTCAAGTACA GAAACCTCCA
    ACTCACAAAG CCTGTAGATC TGTCAGATGC CCTTCATGGA AAGCCAATAG CTGGAATGAG
    TGCTCTGTGA CCTGTGGCTC TGGAGTTCAG CAGAGGGATG TATACTGCAG ACTGAAAGGT
    GTTGGTCAGG TGGTTGAAGA AATGTGTGAT CAGTCCACCC GACCTTGTTC TCAGAGGCGA
    TGTTGGAGTC AGGACTGTGT GCAGCACAAG GGGATGGAAA GAGGGAGGCT GAATTGTTCA
    ACATCATGTG AGAGAAAAGA TTCACATCAA CGAATGGAGT GCACAGATAA CCAAATCAGA
    CAAGTGAATG AAATAGTCTA TAATTCTTCA ACCATATCTC TTACATCCAA GAATTGCAGG
    AACCCTCCTT GCAATTACAT TGTGGTAACA GCAGACTCAT CACAGTGTGC AAACAACTGT
    GGATTTAGTT ACAGACAAAG GATTACATAT TGCACCGAGA TCCCATCTAC TAAGAAACAT
    AAGCTCCATC GACTTCGGCC TATAGTTTAT CAAGAATGCC CTGTGGTGCC TTCCTCTCAG
    GTTTACCAAT GCATTAACAG CTGTTTGCAT TTGGCCACTT GGAAAGTTGG AAAATGGAGC
    AAGTGCTCAG TGACTTGTGG AATTGGGATA ATGAAGAGAC AAGTGAAATG CATTACCAAA
    CATGGTTTGT CCAGTGACTT ATGTTTAAAC CATTTAAAAC CAGGTGCTCA AAAGAAATGT
    TATGCCAATG ACTGTAAATC ATTTACCACC TGCAAAGAAA TTCAAGTGAA AAACCACATT
    AGAAAGGATG GTGACTATTA CCTTAACATT AAGGGAAGAA TAATAAAGAT TTATTGTGCA
    GACATGTACT TGGAGAACCC TAAGGAATAT TTAACACTGG TCCAAGGTGA AGAAAACTTT
    TCTGAAGTGT ATGGCTTTAG ACTAAAAAAT CCATATCAAT GTCCTTTTAA TGGGAGTAGA
    AGGGAAGACT GTGAATGTGA CAATGGACAC TTAGCTGCTG GATACACTGT TTTCAGCAAA
    ATAAGAATTG ATCTCACTTC CATGCAAATT AAAACTACGG ACCTTCTTTT TTCCAAAACA
    ATATTTGGAA ATGCAGTTCC ATTTGCCACA GCTGGAGATT GCTACAGTGC TTTCAGATGC
    CCACAGGGAC AGTTTAGCAT TAATTTGTCA GGAACTGGGA TGAAGATATC CAGCACAGCA
    AAGTGGCTCA CTCAGGGGAG TTATACCTCT GTCAGCATAC GAAGATCAGA GGATGGAACT
    AGATTTTTCG GCAAATGTGG AGGGTACTGT GGAAAGTGTC TTCCTCACAT GACTACTGGT
    CTCCCAATTC AAGTCATATG A

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

    RefSeq XP_016875468.1
    CDS282..4802
    Translation

    Target ORF information:

    RefSeq Version XM_017019979.1
    Organism Homo sapiens(human)
    Definition Homo sapiens ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017019979.1

    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
    ATGACCAGAC TTGGTGTTCA ACATGATGAT AATCCTAGAT GTAAAGAAAT GAAAGTTACA 
    AAGTATCATG TAATGGCCCC TGCTTTAAGT TTTCACATGA GTCCTTGGAG CTGGTCAAAC
    TGTAGTCGGA AATATGTTAC TGAATTCCTA GATACTGGTT ACGGGGAATG TCTTCTTGAC
    AAACCAGATG AAGAAATATA TAATCTGCCT TCAGAACTTC CTGGATCACG ATATGATGGA
    AACAAGCAGT GTGAGCTTGC GTTTGGTCCT GGGTCACAAA TGTGTCCCCA TATAGAGAAT
    ATATGCATGC ATCTGTGGTG CACAAGCACA GAAAAGCTTC ACAAAGGCTG TTTCACTCAA
    CACGTGCCAC CAGCAGATGG AACAGACTGC GGTCCTGGAA TGCATTGCCG TCATGGGCTA
    TGTGTAAACA AAGAAACGGA AACACGTCCT GTAAATGGTG AATGGGGACC ATGGGAACCT
    TACAGTTCTT GTTCAAGAAC ATGTGGAGGC GGAATCGAAA GTGCAACCAG GCGCTGTAAT
    CGTCCTGAGC CAAGAAACGG AGGAAATTAC TGTGTGGGCC GCAGGATGAA ATTTCGATCA
    TGTAATACTG ATTCATGTCC AAAAGGCACA CAAGACTTTC GAGAGAAGCA GTGCTCTGAT
    TTTAATGGTA AACATTTGGA CATCAGTGGC ATTCCCTCTA ATGTGAGGTG GCTTCCAAGA
    TACAGTGGCA TTGGCACAAA GGATCGTTGT AAACTCTATT GTCAGGTTGC TGGAACCAAT
    TATTTCTACC TATTGAAGGA TATGGTTGAA GATGGTACTC CTTGTGGAAC TGAAACTCAT
    GACATCTGTG TTCAAGGCCA GTGTATGGCA GCTGGTTGTG ATCACGTGTT AAACTCCAGT
    GCCAAGATAG ACAAATGTGG AGTGTGTGGT GGGGACAACT CTTCATGCAA GACAATAACA
    GGTGTCTTCA ACAGTTCTCA TTATGGTTAT AATGTTGTTG TAAAGATTCC CGCAGGAGCA
    ACAAACGTTG ACATTCGTCA GTACAGCTAT TCTGGACAAC CAGATGACAG TTACCTTGCA
    TTATCTGACG CTGAAGGGAA TTTTCTTTTC AATGGAAATT TTCTTCTAAG TACGTCAAAA
    AAAGAAATCA ATGTGCAAGG AACAAGAACT GTTATTGAAT ACAGTGGATC AAATAACGCA
    GTTGAAAGAA TTAATAGTAC TAATCGACAA GAGAAAGAAC TTATTTTGCA GGTGTTGTGT
    GTGGGTAATT TATACAACCC TGATGTACAT TATTCCTTCA ATATCCCTTT GGAAGAGAGG
    AGTGACATGT TCACATGGGA CCCCTATGGA CCATGGGAAG GCTGTACCAA AATGTGTCAA
    GGTCTTCAGC GAAGAAACAT AACTTGCATA CATAAGAGTG ATCATAGTGT TGTGTCTGAT
    AAAGAATGTG ACCACTTGCC ACTTCCATCA TTTGTTACTC AAAGTTGCAA TACAGACTGT
    GAACTAAGGT GGCATGTTAT TGGCAAAAGT GAATGTTCAT CCCAATGTGG TCAAGGATAT
    AGAACCTTGG ACATCCATTG CATGAAGTAT TCCATTCATG AAGGACAGAC TGTTCAAGTT
    GATGACCACT ACTGTGGTGA CCAGCTTAAA CCTCCTACCC AAGAACTATG CCATGGTAAC
    TGTGTCTTCA CAAGATGGCA TTATTCAGAA TGGTCTCAGT GTTCCAGGAG TTGTGGAGGA
    GGGGAAAGGT CTCGAGAATC TTATTGTATG AATAACTTTG GCCATCGTCT TGCTGACAAT
    GAATGCCAAG AACTGTCCCG AGTGACGAGA GAGAATTGCA ATGAATTTTC CTGTCCCAGT
    TGGGCTGCTA GTGAATGGAG CGAGTGCCTT GTTACATGTG GTAAAGGAAC AAAGCAGCGG
    CAGGTATGGT GTCAGCTGAA TGTAGATCAC TTGAGTGATG GCTTCTGTAA TTCAAGTACC
    AAACCTGAAT CTCTGAGTCC ATGTGAACTT CATACATGTG CTTCCTGGCA AGTAGGACCA
    TGGGGTCCTT GCACAACCAC ATGTGGACAT GGGTATCAGA TGCGAGATGT TAAATGTGTC
    AATGAGCTAG CTAGTGCAGT GTTAGAGGAC ACAGAATGCC ATGAAGCTAG TCGCCCCAGT
    GACAGACAGA GCTGTGTACT TACACCTTGC TCATTTATTT CTAAACTTGA GACCGCTTTA
    TTACCAACTG TTCTCATAAA AAAGATGGCA CAATGGCGAC ATGGTTCTTG GACCCCATGC
    TCCGTATCTT GTGGAAGAGG TACTCAAGCC CGCTATGTAA GCTGTCGTGA TGCTCTTGAT
    AGAATAGCAG ATGAATCATA TTGTGCCCAC TTACCCCGAC CTGCTGAAAT ATGGGACTGT
    TTTACCCCTT GTGGAGAGTG GCAAGCAGGG GATTGGTCAC CCTGTTCAGC TTCCTGTGGC
    CATGGAAAAA CAACTCGACA AGTTTTATGC ATGAACTACC ATCAGCCAAT TGATGAGAAT
    TACTGTGATC CTGAAGTTCG CCCTTTGATG GAACAGGAAT GTAGCCTGGC AGCCTGCCCT
    CCTGCACACA GCCACTTTCC TAGTTCCCCT GTGCAGCCAA GCTATTATCT AAGCACGAAT
    TTGCCATTAA CTCAAAAACT TGAAGATAAT GAAAATCAGG TGGTCCATCC ATCAGTCAGA
    GGAAACCAGT GGAGAACCGG ACCATGGGGA TCATGCTCCA GCAGTTGTTC TGGAGGTCTT
    CAGCATAGGG CTGTGGTCTG CCAGGATGAA AATGGACAAA GTGCTAGTTA CTGCGATGCA
    GCCTCCAAGC CTCCAGAGTT ACAGCAATGT GGTCCAGGGC CTTGTCCACA GTGGAACTAC
    GGAAATTGGG GAGAATGTTC ACAAACATGT GGAGGAGGAA TAAAATCAAG ACTTGTAATA
    TGTCAATTTC CCAATGGCCA AATATTAGAA GATCACAACT GTGAAATTGT AAACAAGCCA
    CCTAGCGTAA TACAGTGTCA TATGCATGCT TGCCCTGCTG ATGTGTCATG GCATCAGGAA
    CCATGGACAT CGTGCTCAGC TTCTTGTGGT AAAGGTAGAA AGTACCGTGA AGTGTTTTGC
    ATTGACCAAT TCCAAAGGAA ATTAGAAGAC ACAAATTGCA GTCAAGTACA GAAACCTCCA
    ACTCACAAAG CCTGTAGATC TGTCAGATGC CCTTCATGGA AAGCCAATAG CTGGAATGAG
    TGCTCTGTGA CCTGTGGCTC TGGAGTTCAG CAGAGGGATG TATACTGCAG ACTGAAAGGT
    GTTGGTCAGG TGGTTGAAGA AATGTGTGAT CAGTCCACCC GACCTTGTTC TCAGAGGCGA
    TGTTGGAGTC AGGACTGTGT GCAGCACAAG GGGATGGAAA GAGGGAGGCT GAATTGTTCA
    ACATCATGTG AGAGAAAAGA TTCACATCAA CGAATGGAGT GCACAGATAA CCAAATCAGA
    CAAGTGAATG AAATAGTCTA TAATTCTTCA ACCATATCTC TTACATCCAA GAATTGCAGG
    AACCCTCCTT GCAATTACAT TGTGGTAACA GCAGACTCAT CACAGTGTGC AAACAACTGT
    GGATTTAGTT ACAGACAAAG GATTACATAT TGCACCGAGA TCCCATCTAC TAAGAAACAT
    AAGCTCCATC GACTTCGGCC TATAGTTTAT CAAGAATGCC CTGTGGTGCC TTCCTCTCAG
    GTTTACCAAT GCATTAACAG CTGTTTGCAT TTGGCCACTT GGAAAGTTGG AAAATGGAGC
    AAGTGCTCAG TGACTTGTGG AATTGGGATA ATGAAGAGAC AAGTGAAATG CATTACCAAA
    CATGGTTTGT CCAGTGACTT ATGTTTAAAC CATTTAAAAC CAGGTGCTCA AAAGAAATGT
    TATGCCAATG ACTGTAAATC ATTTACCACC TGCAAAGAAA TTCAAGTGAA AAACCACATT
    AGAAAGGATG GTGACTATTA CCTTAACATT AAGGGAAGAA TAATAAAGAT TTATTGTGCA
    GACATGTACT TGGAGAACCC TAAGGAATAT TTAACACTGG TCCAAGGTGA AGAAAACTTT
    TCTGAAGTGT ATGGCTTTAG ACTAAAAAAT CCATATCAAT GTCCTTTTAA TGGGAGTAGA
    AGGGAAGACT GTGAATGTGA CAATGGACAC TTAGCTGCTG GATACACTGT TTTCAGCAAA
    ATAAGAATTG ATCTCACTTC CATGCAAATT AAAACTACGG ACCTTCTTTT TTCCAAAACA
    ATATTTGGAA ATGCAGTTCC ATTTGCCACA GCTGGAGATT GCTACAGTGC TTTCAGATGC
    CCACAGGGAC AGTTTAGCAT TAATTTGTCA GGAACTGGGA TGAAGATATC CAGCACAGCA
    AAGTGGCTCA CTCAGGGGAG TTATACCTCT GTCAGCATAC GAAGATCAGA GGATGGAACT
    AGATTTTTCG GCAAATGTGG AGGGTACTGT GGAAAGTGTC TTCCTCACAT GACTACTGGT
    CTCCCAATTC AAGTCATATG A

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

  • PubMed

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    McCormack M,Urban TJ,Shianna KV,Walley N,Pandolfo M,Depondt C,Chaila E,O'Conner GD,Kasperavi?i?t? D,Radtke RA,Heinzen EL,Sisodiya SM,Delanty N,Cavalleri GL


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