ORF » Species Summary » Pan troglodytes » ADAMTS20 cDNA ORF clone

ADAMTS20 cDNA ORF clone, Pan troglodytes(chimpanzee)

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
OPc66009 XM_016923613.1
Latest version!		 Pan troglodytes ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OPc96170 XM_016923613.2
Latest version!		 Pan troglodytes 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)
    ADAMTS20 ( XM_016923613.1 ) cDNA ORF clone, Pan troglodytes(chimpanzee) -> XP_016779102.1 Pan troglodytes ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA.
    Price & Availability↑
    CloneID OPc66009
    Clone ID Related Accession (Same CDS sequence) XM_016923613.1
    Accession Version XM_016923613.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5349bp)
    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 2016-06-01
    Organism Pan troglodytes(chimpanzee)
    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_006479.4) 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 :: Full annotation Annotation Version :: Pan troglodytes Annotation Release 104 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
    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
    ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTACCATC TCTCGCTCTT CGTCACCAGG 
    TCTTGGGAAG TTCACTTCCA 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 ACAAGAATTA AATAACTCTT TTCTGCAGAC TCTGAAGTAT 
    TGCAATGTGT CAGAAAGTCA AATAAAGGAA ACCAGTTTAC CCTTTCATAC CTACAGCAAC 
    ATGAATGAAG ATCTTAACGT AATGAAAGAA AGAGTTTTAG GACACACATC AAAAAATGTG 
    CCATTGAAAG ATGAAAGAAG TCAATTACAT TCCAGGAAAA AACGTCTTAT ATCATATCCA 
    AGATACATTG AAATTATGGT TACAGCTGAT GCTAAAGTGG TTTCTGCTCA TGGATCGAAT 
    TTGCAAAACT ATATACTGAC TCTAATGTCA ATTGTTGCAA CAATCTACAA AGATCCAAGT 
    ATTGGAAATT TGATACACAT AGTAGTGGTA AAATTAGTTA TGATTCACTG TGAGGAGGAA 
    GGACCAGTCA TTAATTTTGA TGGTGCTACC ACATTAAAGA ACTTTTGTTC ATGGCAACAA 
    ACTCAGAATG ACCTTGATGA TGTTCACCCT TCCCACCATG ACACTGCTGT TCTTATCACT 
    AGGGAAGACA TTTGTTCATC TAAAGAGAAA TGTAACATGT TAGGTTTATC ATATTTAGGT 
    ACCATATGTG ATCCTTTACA AAGCTGCTTT ATTAATGAAG AAAAAGGACT CATTTCTGCT 
    TTTACTATAG CCCATGAGCT TGGGCACACA CTTGGTGTTC AACATGATGA TAGTCCTAGA 
    TGTAAAGAAA TGAAAGTTAC ACAGTATCAT GTAATGGCCC CTGCTTTAAG TTTTCACATG 
    AGTCCTTGGA GCTGGTCAAA CTGTAGTCGG AAATATGTTA CTGAATTCCT AGATACTGGT 
    TACGGGGAAT GTCTTCTTGA CAAACCAGAT GAAGAAATAT ATAATCTGCC TTCAGAACTT 
    CCTGGATCAC GATATGATGG AAACAAGCAG TGTGAGCTTG CGTTTGGTCC TGGGTCACAA 
    ATGTGTCCCC ATATAGAGAA TATATGCATG CATCTGTGGT GCACAAGCAC AGAAAAGCTT 
    CACAAAGGCT GTTTCACTCA ACATGTGCCA CCAGCAGATG GAACAGACTG CGGTCCTGGA 
    ATGCATTGCC GTCATGGGCT ATGTGTAAAC AAAGAAACGG AAACACGTCC TGTAAATGGT 
    GAATGGGGAC CATGGGAACC TTACAGTTCT TGTTCAAGAA CATGTGGAGG CGGAATCGAA 
    AGTGCAACCA GGCGCTGTAA TCGTCCTGAG CCAAGAAACG GAGGAAATTA CTGTGTGGGC 
    CGCAGGATGA AATTTCGATC ATGTAATACT GATTCATGTC CAAAAGGCAC ACAAGACTTT 
    CGAGAGAAGC AGTGCTCTGA TTTTAATGGT AAACATTTGG ACATCAGTGG CATTCCCTCT 
    AATGTGAGGT GGCTTCCAAG ATACAGTGGC ATTGGCACAA AGGATCGTTG TAAACTCTAT 
    TGTCAGGTTG CTGGAACCAA TTATTTCTAC CTATTGAAGG ATATGGTTGA AGATGGTACT 
    CCTTGTGGAA CTGAAACTCA TGACATCTGT GTTCAAGGCC AGTGTATGGC AGCTGGTTGT 
    GATCACGTGT TAAACTCCAG TGCCAAGATA GACAAATGTG GAGTGTGTGG TGGGGACAAC 
    TCTTCATGCA AGACAATAAC AGGTGTCTTC AACAGTTCTC ATTATGGTTA TAATGTTGTT 
    GTAAAGATTC CCGCAGGAGC AACAAACGTT GACATTCGTC AGTACAGCTA TTCTGGACAA 
    CCAGATGACA GTTACCTTGC ATTATCTGAC GCTGAAGGGA ATTTTCTTTT CAATGGAAAT 
    TTTCTTCTAA GTACATCAAA AAAAGAAATC AATGTGCAAG GAACAAGAAC TGTGATTGAA 
    TACAGTGGAT CAAATAACGC AGTTGAAAGA ATTAATAGTA CTAATCGACA AGAGAAAGAA 
    CTTATTTTGC AGGTGTTGTG TGTGGGTAAT TTATACAACC CTGATGTACA TTATTCCTTC 
    AATATCCCTT TGGAAGAGAG GAGTGACATG TTCACATGGG ACCCCTATGG ACCATGGGAA 
    GGCTGTACCA AAATGTGTCA AGGTCTTCAG CGAAGAAACA TAACTTGCAT ACATAAGAGT 
    GATCATAGTG TTGTGTCTGA TAAAGAATGT GACCACTTGC CACTTCCATC ATTTGTTACT 
    CAAAGTTGCA ATACAGACTG TGAACTAAGG TGGCATGTTA TTGGCAAAAG TGAATGTTCA 
    TCCCAATGTG GTCAAGGATA TAGAACCTTG GACATCCATT GCATGAAGTA TTCCATTCAT 
    GAAGGACAGA CTGTTCAAGT TGATGACCAC TACTGTGGTG ACCAGCTTAA ACCTCCTACC 
    CGAGAACTAT GCCATGGTAA CTGTGTCTTC ACAAGATGGC ATTATTCAGA ATGGTCTCAG 
    TGTTCCAGGA GTTGTGGAGG AGGGGAAAGG TCTCGAGAAT CTTATTGTAT GAATAACTTT 
    GGCCATCGTC TTGCTGACAA TGAATGCCAA GAACTGTCCC GAGTGACGAG AGAGAATTGC 
    AATGAATTTT CCTGTCCCAG TTGGGCTGCT AGTGAATGGA GTGAGTGCTC CGTATCTTGT 
    GGAAGAGGTA CTCAAGCCCG CTATGTAAGC TGTCGTGATG CTCTTGATAG AATAGCAGAT 
    GAATCATATT GTGCCCACTT ACCCCGACCT GCTGAAATAT GGGACTGTTT TACCCCTTGT 
    GGAGAGTGGC AAGCAGGGGA TTGGTCACCC TGTTCAGCTT CTTGTGGCCA TGGAAAAACA 
    ACTCGACAAG TTTTATGCAT GAACTACCAT CAGCCAATTG ATGAGAATTA CTGTGATCCT 
    GAAGTTCGCC CTTTGATGGA ACAGGAATGT AGCCTGGCAG CCTGCCCTAC TGCACACAGC 
    CACTTTCCTA GTTCCCCTGT GCAGCCAAGC TATTATCTAA GCACGAATTT GCCATTAACT 
    CACAAACTTG AAGATAATGA AAATCAGGTG GTCCATCCAT CAGTCAGAGG AAACCAGTGG 
    AGAACCGGAC CATGGGGATC ATGCTCCAGC AGTTGTTCTG GAGGTCTTCA GCGTAGGGCT 
    GTGGTCTGCC AGGATGAAAA TGGACAAAGT GCTAGTTACT GCGATGCAGC CTCCAAGCCT 
    CCAGAGTTAC AGCACTGTGG TCCAGGGCCT TGTCCACAGT GGAACTACGG AAATTGGGGA 
    GAATGTTCAC AAACATGTGG AGGAGGAATA AAATCAAGAC TTGTAATATG TCAATTTCCC 
    AATGGCCAAA TATTAGAAGA TCACAACTGT GAAATCGTAA ACAAGCCACC TAGTGTAATA 
    CAGTGTCATA TGCATGCTTG CCCTGCTGAT GTGTCATGGC ATCAGGAACC ATGGACATCG 
    TGCTCAGCTT CTTGTGGTAA AGGTAGAAAG TACCGTGAAG TGTTTTGCAT TGACCAATTC 
    CAAAGGAAAT TAGAAGACAC AAATTGCAGT CAAGTACAGA AACCTCCAAC TCACAAAGCC 
    TGTAGATCTG TCAGATGCCC TTCATGGAAA GCCAATAGCT GGAATGAGTG CTCTGTGACC 
    TGTGGCTCTG GAGTTCAGCA GAGGGATGTA TACTGCAGAC TGAAAGGTGT TGGTCAGGTG 
    GTTGAAGAAA TGTGTGATCA GTCCACCCGA CCTTGTTCTC AGAGGCGATG TTGGAGTCAG 
    GACTGTGTGC AGCACAAGGG GATGGAAAGA GGGAGGCTGA ATTGTTCAAC ATCATGTGAG 
    AGAAAAGATT CACATCAACG AATGGAGTGC ACAGATAACC AAATGAGACA AGTGAATGAA 
    ATAGTCTATA ATTCTTCAAC CATATCTCTT ACATCCAAGA ATTGCAGGAA CCCTCCTTGC 
    AATTACATTG TGGTAACAGC AGACTCATCA CAGTGTGCAA ACAACTGTGG ATTTAGTTAC 
    AGACAAAGGA TTACATATTG CACCGAGATC CCATCTACTA AGAAACATAA GCTCCATCGA 
    CTTCGGCCTA TAGTTTATCA AGAATGCCCT GTGGTGCCTT CCTCTCAGGT TTACAAATGC 
    ATTAACAGCT GTTTGCATTT GGCCACTTGG AAAGTTGGAA AATGGAGCAA GTGCTCAGTG 
    ACTTGTGGAA TTGGGATAAT GAAGAGACAA GTGAAATGCA TTACCAAACA TGGTTTGTCC 
    AGTGACTTAT GTTTAAACCA TTTAAAACCA GGTGCTCAAA AGAAATGTTA TGCCAATGAC 
    TGTAAATCAT TTACCACCTG CAAAGAAATT CAAGTGAAAA ACCACATTAG AAAGGATGGT 
    GACTATTACC TTAACATTAA GGGAAGAATA ATAAAGATTT ATTGTGCAGA CATGTACTTG 
    GAGAACCCTA AGGAATATTT AACACTGGTC CAAGGTGAAG AAAACTTTTC TGAAGTGTAT 
    GGCTTTAGAC TAAAAAATCC ATATCAATGT CCTTTTAATG GGAGTAGGAG GGAAGACTGT 
    GAATGTGACA ATGGACACTT AGCTGCTGGA TACACTGTTT TCAGCAAAAT AAGAATTGAT 
    CTCACTTCCA TGCAAATTAA AACTACAGAC CTTCTTTTTT CCAAAACAAT ATTTGGAAAT 
    GCAGTTCCAT TTGCCACAGC TGGAGATTGC TACAGTGCTT TCAGATGCCC ACAGGGACAG 
    TTTAGCATTA ATTTGTCAGG AACTGGGATG AAGATATCCA GCACAGCAAA GTGGCTCACT 
    CAGGGGAGTT ATACCTCTGT CAGCATACGA AGATCAGAGG ATGGAACTAG ATTTTTCGGC 
    AAATGTGGAG GGTACTGTGG AAAGTGTCTT CCTCACATGG CTACTGGTCT CCCAATTCAA 
    GTCATATGA

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

    RefSeq XP_016779102.1
    CDS422..5770
    Translation

    Target ORF information:

    RefSeq Version XM_016923613.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes 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_016923613.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTACCATC TCTCGCTCTT CGTCACCAGG 
    TCTTGGGAAG TTCACTTCCA 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 ACAAGAATTA AATAACTCTT TTCTGCAGAC TCTGAAGTAT 
    TGCAATGTGT CAGAAAGTCA AATAAAGGAA ACCAGTTTAC CCTTTCATAC CTACAGCAAC 
    ATGAATGAAG ATCTTAACGT AATGAAAGAA AGAGTTTTAG GACACACATC AAAAAATGTG 
    CCATTGAAAG ATGAAAGAAG TCAATTACAT TCCAGGAAAA AACGTCTTAT ATCATATCCA 
    AGATACATTG AAATTATGGT TACAGCTGAT GCTAAAGTGG TTTCTGCTCA TGGATCGAAT 
    TTGCAAAACT ATATACTGAC TCTAATGTCA ATTGTTGCAA CAATCTACAA AGATCCAAGT 
    ATTGGAAATT TGATACACAT AGTAGTGGTA AAATTAGTTA TGATTCACTG TGAGGAGGAA 
    GGACCAGTCA TTAATTTTGA TGGTGCTACC ACATTAAAGA ACTTTTGTTC ATGGCAACAA 
    ACTCAGAATG ACCTTGATGA TGTTCACCCT TCCCACCATG ACACTGCTGT TCTTATCACT 
    AGGGAAGACA TTTGTTCATC TAAAGAGAAA TGTAACATGT TAGGTTTATC ATATTTAGGT 
    ACCATATGTG ATCCTTTACA AAGCTGCTTT ATTAATGAAG AAAAAGGACT CATTTCTGCT 
    TTTACTATAG CCCATGAGCT TGGGCACACA CTTGGTGTTC AACATGATGA TAGTCCTAGA 
    TGTAAAGAAA TGAAAGTTAC ACAGTATCAT GTAATGGCCC CTGCTTTAAG TTTTCACATG 
    AGTCCTTGGA GCTGGTCAAA CTGTAGTCGG AAATATGTTA CTGAATTCCT AGATACTGGT 
    TACGGGGAAT GTCTTCTTGA CAAACCAGAT GAAGAAATAT ATAATCTGCC TTCAGAACTT 
    CCTGGATCAC GATATGATGG AAACAAGCAG TGTGAGCTTG CGTTTGGTCC TGGGTCACAA 
    ATGTGTCCCC ATATAGAGAA TATATGCATG CATCTGTGGT GCACAAGCAC AGAAAAGCTT 
    CACAAAGGCT GTTTCACTCA ACATGTGCCA CCAGCAGATG GAACAGACTG CGGTCCTGGA 
    ATGCATTGCC GTCATGGGCT ATGTGTAAAC AAAGAAACGG AAACACGTCC TGTAAATGGT 
    GAATGGGGAC CATGGGAACC TTACAGTTCT TGTTCAAGAA CATGTGGAGG CGGAATCGAA 
    AGTGCAACCA GGCGCTGTAA TCGTCCTGAG CCAAGAAACG GAGGAAATTA CTGTGTGGGC 
    CGCAGGATGA AATTTCGATC ATGTAATACT GATTCATGTC CAAAAGGCAC ACAAGACTTT 
    CGAGAGAAGC AGTGCTCTGA TTTTAATGGT AAACATTTGG ACATCAGTGG CATTCCCTCT 
    AATGTGAGGT GGCTTCCAAG ATACAGTGGC ATTGGCACAA AGGATCGTTG TAAACTCTAT 
    TGTCAGGTTG CTGGAACCAA TTATTTCTAC CTATTGAAGG ATATGGTTGA AGATGGTACT 
    CCTTGTGGAA CTGAAACTCA TGACATCTGT GTTCAAGGCC AGTGTATGGC AGCTGGTTGT 
    GATCACGTGT TAAACTCCAG TGCCAAGATA GACAAATGTG GAGTGTGTGG TGGGGACAAC 
    TCTTCATGCA AGACAATAAC AGGTGTCTTC AACAGTTCTC ATTATGGTTA TAATGTTGTT 
    GTAAAGATTC CCGCAGGAGC AACAAACGTT GACATTCGTC AGTACAGCTA TTCTGGACAA 
    CCAGATGACA GTTACCTTGC ATTATCTGAC GCTGAAGGGA ATTTTCTTTT CAATGGAAAT 
    TTTCTTCTAA GTACATCAAA AAAAGAAATC AATGTGCAAG GAACAAGAAC TGTGATTGAA 
    TACAGTGGAT CAAATAACGC AGTTGAAAGA ATTAATAGTA CTAATCGACA AGAGAAAGAA 
    CTTATTTTGC AGGTGTTGTG TGTGGGTAAT TTATACAACC CTGATGTACA TTATTCCTTC 
    AATATCCCTT TGGAAGAGAG GAGTGACATG TTCACATGGG ACCCCTATGG ACCATGGGAA 
    GGCTGTACCA AAATGTGTCA AGGTCTTCAG CGAAGAAACA TAACTTGCAT ACATAAGAGT 
    GATCATAGTG TTGTGTCTGA TAAAGAATGT GACCACTTGC CACTTCCATC ATTTGTTACT 
    CAAAGTTGCA ATACAGACTG TGAACTAAGG TGGCATGTTA TTGGCAAAAG TGAATGTTCA 
    TCCCAATGTG GTCAAGGATA TAGAACCTTG GACATCCATT GCATGAAGTA TTCCATTCAT 
    GAAGGACAGA CTGTTCAAGT TGATGACCAC TACTGTGGTG ACCAGCTTAA ACCTCCTACC 
    CGAGAACTAT GCCATGGTAA CTGTGTCTTC ACAAGATGGC ATTATTCAGA ATGGTCTCAG 
    TGTTCCAGGA GTTGTGGAGG AGGGGAAAGG TCTCGAGAAT CTTATTGTAT GAATAACTTT 
    GGCCATCGTC TTGCTGACAA TGAATGCCAA GAACTGTCCC GAGTGACGAG AGAGAATTGC 
    AATGAATTTT CCTGTCCCAG TTGGGCTGCT AGTGAATGGA GTGAGTGCTC CGTATCTTGT 
    GGAAGAGGTA CTCAAGCCCG CTATGTAAGC TGTCGTGATG CTCTTGATAG AATAGCAGAT 
    GAATCATATT GTGCCCACTT ACCCCGACCT GCTGAAATAT GGGACTGTTT TACCCCTTGT 
    GGAGAGTGGC AAGCAGGGGA TTGGTCACCC TGTTCAGCTT CTTGTGGCCA TGGAAAAACA 
    ACTCGACAAG TTTTATGCAT GAACTACCAT CAGCCAATTG ATGAGAATTA CTGTGATCCT 
    GAAGTTCGCC CTTTGATGGA ACAGGAATGT AGCCTGGCAG CCTGCCCTAC TGCACACAGC 
    CACTTTCCTA GTTCCCCTGT GCAGCCAAGC TATTATCTAA GCACGAATTT GCCATTAACT 
    CACAAACTTG AAGATAATGA AAATCAGGTG GTCCATCCAT CAGTCAGAGG AAACCAGTGG 
    AGAACCGGAC CATGGGGATC ATGCTCCAGC AGTTGTTCTG GAGGTCTTCA GCGTAGGGCT 
    GTGGTCTGCC AGGATGAAAA TGGACAAAGT GCTAGTTACT GCGATGCAGC CTCCAAGCCT 
    CCAGAGTTAC AGCACTGTGG TCCAGGGCCT TGTCCACAGT GGAACTACGG AAATTGGGGA 
    GAATGTTCAC AAACATGTGG AGGAGGAATA AAATCAAGAC TTGTAATATG TCAATTTCCC 
    AATGGCCAAA TATTAGAAGA TCACAACTGT GAAATCGTAA ACAAGCCACC TAGTGTAATA 
    CAGTGTCATA TGCATGCTTG CCCTGCTGAT GTGTCATGGC ATCAGGAACC ATGGACATCG 
    TGCTCAGCTT CTTGTGGTAA AGGTAGAAAG TACCGTGAAG TGTTTTGCAT TGACCAATTC 
    CAAAGGAAAT TAGAAGACAC AAATTGCAGT CAAGTACAGA AACCTCCAAC TCACAAAGCC 
    TGTAGATCTG TCAGATGCCC TTCATGGAAA GCCAATAGCT GGAATGAGTG CTCTGTGACC 
    TGTGGCTCTG GAGTTCAGCA GAGGGATGTA TACTGCAGAC TGAAAGGTGT TGGTCAGGTG 
    GTTGAAGAAA TGTGTGATCA GTCCACCCGA CCTTGTTCTC AGAGGCGATG TTGGAGTCAG 
    GACTGTGTGC AGCACAAGGG GATGGAAAGA GGGAGGCTGA ATTGTTCAAC ATCATGTGAG 
    AGAAAAGATT CACATCAACG AATGGAGTGC ACAGATAACC AAATGAGACA AGTGAATGAA 
    ATAGTCTATA ATTCTTCAAC CATATCTCTT ACATCCAAGA ATTGCAGGAA CCCTCCTTGC 
    AATTACATTG TGGTAACAGC AGACTCATCA CAGTGTGCAA ACAACTGTGG ATTTAGTTAC 
    AGACAAAGGA TTACATATTG CACCGAGATC CCATCTACTA AGAAACATAA GCTCCATCGA 
    CTTCGGCCTA TAGTTTATCA AGAATGCCCT GTGGTGCCTT CCTCTCAGGT TTACAAATGC 
    ATTAACAGCT GTTTGCATTT GGCCACTTGG AAAGTTGGAA AATGGAGCAA GTGCTCAGTG 
    ACTTGTGGAA TTGGGATAAT GAAGAGACAA GTGAAATGCA TTACCAAACA TGGTTTGTCC 
    AGTGACTTAT GTTTAAACCA TTTAAAACCA GGTGCTCAAA AGAAATGTTA TGCCAATGAC 
    TGTAAATCAT TTACCACCTG CAAAGAAATT CAAGTGAAAA ACCACATTAG AAAGGATGGT 
    GACTATTACC TTAACATTAA GGGAAGAATA ATAAAGATTT ATTGTGCAGA CATGTACTTG 
    GAGAACCCTA AGGAATATTT AACACTGGTC CAAGGTGAAG AAAACTTTTC TGAAGTGTAT 
    GGCTTTAGAC TAAAAAATCC ATATCAATGT CCTTTTAATG GGAGTAGGAG GGAAGACTGT 
    GAATGTGACA ATGGACACTT AGCTGCTGGA TACACTGTTT TCAGCAAAAT AAGAATTGAT 
    CTCACTTCCA TGCAAATTAA AACTACAGAC CTTCTTTTTT CCAAAACAAT ATTTGGAAAT 
    GCAGTTCCAT TTGCCACAGC TGGAGATTGC TACAGTGCTT TCAGATGCCC ACAGGGACAG 
    TTTAGCATTA ATTTGTCAGG AACTGGGATG AAGATATCCA GCACAGCAAA GTGGCTCACT 
    CAGGGGAGTT ATACCTCTGT CAGCATACGA AGATCAGAGG ATGGAACTAG ATTTTTCGGC 
    AAATGTGGAG GGTACTGTGG AAAGTGTCTT CCTCACATGG CTACTGGTCT CCCAATTCAA 
    GTCATATGA

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

    ADAMTS20 ( XM_016923613.2 ) cDNA ORF clone, Pan troglodytes(chimpanzee) -> XP_016779102.2 Pan troglodytes ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA.
    Price & Availability↑
    CloneID OPc96170
    Clone ID Related Accession (Same CDS sequence) XM_016923613.2
    Accession Version XM_016923613.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5349bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    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_036891.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_016923613.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    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
    ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTACCATC TCTCGCTCTT CATCACCAGG 
    TCTTGGGAAG TTCACTTCCA 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 ACAAGAATTA AATAACTCTT TTCTGCAGAC TCTGAAGTAT 
    TGCAATGTGT CAGAAAGTCA AATAAAGGAA ACCAGTTTAC CCTTTCATAC CTACAGCAAC 
    ATGAATGAAG ATCTTAACGT AATGAAAGAA AGAGTTTTAG GACACACATC AAAAAATGTG 
    CCATTGAAAG ATGAAAGAAG TCAATTACAT TCCAGGAAAA AACGTCTTAT ATCATATCCA 
    AGATACATTG AAATTATGGT TACAGCTGAT GCTAAAGTGG TTTCTGCTCA TGGATCGAAT 
    TTGCAAAACT ATATACTGAC TCTAATGTCA ATTGTTGCAA CAATCTACAA AGATCCAAGT 
    ATTGGAAATT TGATACACAT AGTAGTGGTA AAATTAGTTA TGATTCACCG TGAGGAGGAA 
    GGACCAGTCA TTAATTTTGA TGGTGCTACC ACATTAAAGA ACTTTTGTTC ATGGCAACAA 
    ACTCAGAATG ACCTTGATGA TGTTCACCCT TCCCACCATG ACACTGCTGT TCTTATCACT 
    AGGGAAGACA TTTGTTCATC TAAAGAGAAA TGTAACATGT TAGGTTTATC ATATTTAGGT 
    ACCATATGTG ATCCTTTACA AAGCTGCTTT ATTAATGAAG AAAAAGGACT CATTTCTGCT 
    TTTACTATAG CCCATGAGCT TGGGCACACA CTTGGTGTTC AACATGATGA TAGTCCTAGA 
    TGTAAAGAAA TGAAAGTTAC ACAGTATCAT GTAATGGCCC CTGCTTTAAG TTTTCACATG 
    AGTCCTTGGA GCTGGTCAAA CTGTAGTCGG AAATATGTTA CTGAATTCCT AGATACTGGT 
    TACGGGGAAT GTCTTCTTGA CAAACCAGAT GAAGAAATAT ATAATCTGCC TTCAGAACTT 
    CCTGGATCAC GATATGATGG AAACAAGCAG TGTGAGCTTG CGTTTGGTCC TGGGTCACAA 
    ATGTGTCCCC ATATAGAGAA TATATGCATG CATCTGTGGT GCACAAGCAC AGAAAAGCTT 
    CACAAAGGCT GTTTCACTCA ACATGTGCCA CCAGCAGATG GAACAGACTG CGGTCCTGGA 
    ATGCATTGCC GTCATGGGCT ATGTGTAAAC AAAGAAACGG AAACACGTCC TGTAAATGGT 
    GAATGGGGAC CATGGGAACC TTACAGTTCT TGTTCAAGAA CATGTGGAGG CGGAATCGAA 
    AGTGCAACCA GGCGCTGTAA TCGTCCTGAG CCAAGAAACG GAGGAAATTA CTGTGTGGGC 
    CGCAGGATGA AATTTCGATC ATGTAATACT GATTCATGTC CAAAAGGCAC ACAAGACTTT 
    CGAGAGAAGC AGTGCTCTGA TTTTAATGGT AAACATTTGG ACATCAGTGG CATTCCCTCT 
    AATGTGAGGT GGCTTCCAAG ATACAGTGGC ATTGGCACAA AGGATCGTTG TAAACTCTAT 
    TGTCAGGTTG CTGGAACCAA TTATTTCTAC CTATTGAAGG ATATGGTTGA AGATGGTACT 
    CCTTGTGGAA CTGAAACTCA TGACATCTGT GTTCAAGGCC AGTGTATGGC AGCTGGTTGT 
    GATCACGTGT TAAACTCCAG TGCCAAGATA GACAAATGTG GAGTGTGTGG TGGGGACAAC 
    TCTTCATGCA AGACAATAAC AGGTGTCTTC AACAGTTCTC ATTATGGTTA TAATGTTGTT 
    GTAAAGATTC CCGCAGGAGC AACAAACGTT GACATTCGTC AGTACAGCTA TTCTGGACAA 
    CCAGATGACA GTTACCTTGC ATTATCTGAC GCTGAAGGGA ATTTTCTTTT CAATGGAAAT 
    TTTCTTCTAA GTACATCAAA AAAAGAAATC AATGTGCAAG GAACAAGAAC TGTGATTGAA 
    TACAGTGGAT CAAATAACGC AGTTGAAAGA ATTAATAGTA CTAATCGACA AGAGAAAGAA 
    CTTATTTTGC AGGTGTTGTG TGTGGGTAAT TTATACAACC CTGATGTACA TTATTCCTTC 
    AATATCCCTT TGGAAGAGAG GAGTGACATG TTCACATGGG ACCCCTATGG ACCATGGGAA 
    GGCTGTACCA AAATGTGTCA AGGTCTTCAG CGAAGAAACA TAACTTGCAT ACATAAGAGT 
    GATCATAGTG TTGTGTCTGA TAAAGAATGT GACCACTTGC CACTTCCATC ATTTGTTACT 
    CAAAGTTGCA ATACAGACTG TGAACTAAGG TGGCATGTTA TTGGCAAAAG TGAATGTTCA 
    TCCCAATGTG GTCAAGGATA TAGAACCTTG GACATCCATT GCATGAAGTA TTCCATTCAT 
    GAAGGACAGA CTGTTCAAGT TGATGACCAC TACTGTGGTG ACCAGCTTAA ACCTCCTACC 
    CGAGAACTAT GCCATGGTAA CTGTGTCTTC ACAAGATGGC ATTATTCAGA ATGGTCTCAG 
    TGTTCCAGGA GTTGTGGAGG AGGGGAAAGG TCTCGAGAAT CTTATTGTAT GAATAACTTT 
    GGCCATCGTC TTGCTGACAA TGAATGCCAA GAACTGTCCC GAGTGACGAG AGAGAATTGC 
    AATGAATTTT CCTGTCCCAG TTGGGCTGCT AGTGAATGGA GTGAGTGCTC CGTATCTTGT 
    GGAAGAGGTA CTCAAGCCCG CTATGTAAGC TGTCGTGATG CTCTTGATAG AATAGCAGAT 
    GAATCATATT GTGCCCACTT ACCCCGACCT GCTGAAATAT GGGACTGTTT TACCCCTTGT 
    GGAGAGTGGC AAGCAGGGGA TTGGTCACCC TGTTCAGCTT CTTGTGGCCA TGGAAAAACA 
    ACTCGACAAG TTTTATGCAT GAACTACCAT CAGCCAATTG ATGAGAATTA CTGTGATCCT 
    GAAGTTCGCC CTTTGATGGA ACAGGAATGT AGCCTGGCAG CCTGCCCTAC TGCACACAGC 
    CACTTTCCTA GTTCCCCTGT GCAGCCAAGC TATTATCTAA GCACGAATTT GCCATTAACT 
    CACAAACTTG AAGATAATGA AAATCAGGTG GTCCATCCAT CAGTCAGAGG AAACCAGTGG 
    AGAACCGGAC CATGGGGATC ATGCTCCAGC AGTTGTTCTG GAGGTCTTCA GCGTAGGGCT 
    GTGGTCTGCC AGGATGAAAA TGGACAAAGT GCTAGTTACT GCGATGCAGC CTCCAAGCCT 
    CCAGAGTTAC AGCACTGTGG TCCAGGGCCT TGTCCACAGT GGAACTACGG AAATTGGGGA 
    GAATGTTCAC AAACATGTGG AGGAGGAATA AAATCAAGAC TTGTAATATG TCAATTTCCC 
    AATGGCCAAA TATTAGAAGA TCACAACTGT GAAATCGTAA ACAAGCCACC TAGTGTAATA 
    CAGTGTCATA TGCATGCTTG CCCTGCTGAT GTGTCATGGC ATCAGGAACC ATGGACATCG 
    TGCTCAGCTT CTTGTGGTAA AGGTAGAAAG TACCGTGAAG TGTTTTGCAT TGACCAATTC 
    CAAAGGAAAT TAGAAGACAC AAATTGCAGT CAAGTACAGA AACCTCCAAC TCACAAAGCC 
    TGTAGATCTG TCAGATGCCC TTCATGGAAA GCCAATAGCT GGAATGAGTG CTCTGTGACC 
    TGTGGCTCTG GAGTTCAGCA GAGGGATGTA TACTGCAGAC TGAAAGGTGT TGGTCAGGTG 
    GTTGAAGAAA TGTGTGATCA GTCCACCCGA CCTTGTTCTC AGAGGCGATG TTGGAGTCAG 
    GACTGTGTGC AGCACAAGGG GATGGAAAGA GGGAGGCTGA ATTGTTCAAC ATCATGTGAG 
    AGAAAAGATT CACATCAACG AATGGAGTGC ACAGATAACC AAATGAGACA AGTGAATGAA 
    ATAGTCTATA ATTCTTCAAC CATATCTCTT ACATCCAAGA ATTGCAGGAA CCCTCCTTGC 
    AATTACATTG TGGTAACAGC AGACTCATCA CAGTGTGCAA ACAACTGTGG ATTTAGTTAT 
    AGACAAAGGA TTACATATTG CACCGAGATC CCATCTACTA AGAAACATAA GCTCCATCGA 
    CTTCGGCCTA TAGTTTATCA AGAATGCCCT GTGGTGCCTT CCTCTCAGGT TTACAAATGC 
    ATTAACAGCT GTTTGCATTT GGCCACTTGG AAAGTTGGAA AATGGAGCAA GTGCTCAGTG 
    ACTTGTGGAA TTGGGATAAT GAAGAGACAA GTGAAATGCA TTACCAAACA TGGTTTGTCC 
    AGTGACTTAT GTTTAAACCA TTTAAAACCA GGTGCTCAAA AGAAATGTTA TGCCAATGAC 
    TGTAAATCAT TTACCACCTG CAAAGAAATT CAAGTGAAAA ACCACATTAG AAAGGATGGT 
    GACTATTACC TTAACATTAA GGGAAGAATA ATAAAGATTT ATTGTGCAGA CATGTACTTG 
    GAGAACCCTA AGGAATATTT AACACTGGTC CAAGGTGAAG AAAACTTTTC TGAAGTGTAT 
    GGCTTTAGAC TAAAAAATCC ATATCAATGT CCTTTTAATG GGAGTAGGAG GGAAGACTGT 
    GAATGTGACA ATGGACACTT AGCTGCTGGA TACACTGTTT TCAGCAAAAT AAGAATTGAT 
    CTCACTTCCA TGCAAATTAA AACTACAGAC CTTCTTTTTT CCAAAACAAT ATTTGGAAAT 
    GCAGTTCCAT TTGCCACAGC TGGAGATTGC TACAGTGCTT TCAGATGCCC ACAGGGACAG 
    TTTAGCATTA ATTTGTCAGG AACTGGGATG AAGATATCCA GCACAGCAAA GTGGCTCACT 
    CAGGGGAGTT ATACCTCTGT CAGCATACGA AGATCAGAGG ATGGAACTAG ATTTTTCGGC 
    AAATGTGGAG GGTACTGTGG AAAGTGTCTT CCTCACATGG CTACTGGTCT CCCAATTCAA 
    GTCATATGA

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

    RefSeq XP_016779102.2
    CDS422..5770
    Translation

    Target ORF information:

    RefSeq Version XM_016923613.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes 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_016923613.2

    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
    ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTACCATC TCTCGCTCTT CATCACCAGG 
    TCTTGGGAAG TTCACTTCCA 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 ACAAGAATTA AATAACTCTT TTCTGCAGAC TCTGAAGTAT 
    TGCAATGTGT CAGAAAGTCA AATAAAGGAA ACCAGTTTAC CCTTTCATAC CTACAGCAAC 
    ATGAATGAAG ATCTTAACGT AATGAAAGAA AGAGTTTTAG GACACACATC AAAAAATGTG 
    CCATTGAAAG ATGAAAGAAG TCAATTACAT TCCAGGAAAA AACGTCTTAT ATCATATCCA 
    AGATACATTG AAATTATGGT TACAGCTGAT GCTAAAGTGG TTTCTGCTCA TGGATCGAAT 
    TTGCAAAACT ATATACTGAC TCTAATGTCA ATTGTTGCAA CAATCTACAA AGATCCAAGT 
    ATTGGAAATT TGATACACAT AGTAGTGGTA AAATTAGTTA TGATTCACCG TGAGGAGGAA 
    GGACCAGTCA TTAATTTTGA TGGTGCTACC ACATTAAAGA ACTTTTGTTC ATGGCAACAA 
    ACTCAGAATG ACCTTGATGA TGTTCACCCT TCCCACCATG ACACTGCTGT TCTTATCACT 
    AGGGAAGACA TTTGTTCATC TAAAGAGAAA TGTAACATGT TAGGTTTATC ATATTTAGGT 
    ACCATATGTG ATCCTTTACA AAGCTGCTTT ATTAATGAAG AAAAAGGACT CATTTCTGCT 
    TTTACTATAG CCCATGAGCT TGGGCACACA CTTGGTGTTC AACATGATGA TAGTCCTAGA 
    TGTAAAGAAA TGAAAGTTAC ACAGTATCAT GTAATGGCCC CTGCTTTAAG TTTTCACATG 
    AGTCCTTGGA GCTGGTCAAA CTGTAGTCGG AAATATGTTA CTGAATTCCT AGATACTGGT 
    TACGGGGAAT GTCTTCTTGA CAAACCAGAT GAAGAAATAT ATAATCTGCC TTCAGAACTT 
    CCTGGATCAC GATATGATGG AAACAAGCAG TGTGAGCTTG CGTTTGGTCC TGGGTCACAA 
    ATGTGTCCCC ATATAGAGAA TATATGCATG CATCTGTGGT GCACAAGCAC AGAAAAGCTT 
    CACAAAGGCT GTTTCACTCA ACATGTGCCA CCAGCAGATG GAACAGACTG CGGTCCTGGA 
    ATGCATTGCC GTCATGGGCT ATGTGTAAAC AAAGAAACGG AAACACGTCC TGTAAATGGT 
    GAATGGGGAC CATGGGAACC TTACAGTTCT TGTTCAAGAA CATGTGGAGG CGGAATCGAA 
    AGTGCAACCA GGCGCTGTAA TCGTCCTGAG CCAAGAAACG GAGGAAATTA CTGTGTGGGC 
    CGCAGGATGA AATTTCGATC ATGTAATACT GATTCATGTC CAAAAGGCAC ACAAGACTTT 
    CGAGAGAAGC AGTGCTCTGA TTTTAATGGT AAACATTTGG ACATCAGTGG CATTCCCTCT 
    AATGTGAGGT GGCTTCCAAG ATACAGTGGC ATTGGCACAA AGGATCGTTG TAAACTCTAT 
    TGTCAGGTTG CTGGAACCAA TTATTTCTAC CTATTGAAGG ATATGGTTGA AGATGGTACT 
    CCTTGTGGAA CTGAAACTCA TGACATCTGT GTTCAAGGCC AGTGTATGGC AGCTGGTTGT 
    GATCACGTGT TAAACTCCAG TGCCAAGATA GACAAATGTG GAGTGTGTGG TGGGGACAAC 
    TCTTCATGCA AGACAATAAC AGGTGTCTTC AACAGTTCTC ATTATGGTTA TAATGTTGTT 
    GTAAAGATTC CCGCAGGAGC AACAAACGTT GACATTCGTC AGTACAGCTA TTCTGGACAA 
    CCAGATGACA GTTACCTTGC ATTATCTGAC GCTGAAGGGA ATTTTCTTTT CAATGGAAAT 
    TTTCTTCTAA GTACATCAAA AAAAGAAATC AATGTGCAAG GAACAAGAAC TGTGATTGAA 
    TACAGTGGAT CAAATAACGC AGTTGAAAGA ATTAATAGTA CTAATCGACA AGAGAAAGAA 
    CTTATTTTGC AGGTGTTGTG TGTGGGTAAT TTATACAACC CTGATGTACA TTATTCCTTC 
    AATATCCCTT TGGAAGAGAG GAGTGACATG TTCACATGGG ACCCCTATGG ACCATGGGAA 
    GGCTGTACCA AAATGTGTCA AGGTCTTCAG CGAAGAAACA TAACTTGCAT ACATAAGAGT 
    GATCATAGTG TTGTGTCTGA TAAAGAATGT GACCACTTGC CACTTCCATC ATTTGTTACT 
    CAAAGTTGCA ATACAGACTG TGAACTAAGG TGGCATGTTA TTGGCAAAAG TGAATGTTCA 
    TCCCAATGTG GTCAAGGATA TAGAACCTTG GACATCCATT GCATGAAGTA TTCCATTCAT 
    GAAGGACAGA CTGTTCAAGT TGATGACCAC TACTGTGGTG ACCAGCTTAA ACCTCCTACC 
    CGAGAACTAT GCCATGGTAA CTGTGTCTTC ACAAGATGGC ATTATTCAGA ATGGTCTCAG 
    TGTTCCAGGA GTTGTGGAGG AGGGGAAAGG TCTCGAGAAT CTTATTGTAT GAATAACTTT 
    GGCCATCGTC TTGCTGACAA TGAATGCCAA GAACTGTCCC GAGTGACGAG AGAGAATTGC 
    AATGAATTTT CCTGTCCCAG TTGGGCTGCT AGTGAATGGA GTGAGTGCTC CGTATCTTGT 
    GGAAGAGGTA CTCAAGCCCG CTATGTAAGC TGTCGTGATG CTCTTGATAG AATAGCAGAT 
    GAATCATATT GTGCCCACTT ACCCCGACCT GCTGAAATAT GGGACTGTTT TACCCCTTGT 
    GGAGAGTGGC AAGCAGGGGA TTGGTCACCC TGTTCAGCTT CTTGTGGCCA TGGAAAAACA 
    ACTCGACAAG TTTTATGCAT GAACTACCAT CAGCCAATTG ATGAGAATTA CTGTGATCCT 
    GAAGTTCGCC CTTTGATGGA ACAGGAATGT AGCCTGGCAG CCTGCCCTAC TGCACACAGC 
    CACTTTCCTA GTTCCCCTGT GCAGCCAAGC TATTATCTAA GCACGAATTT GCCATTAACT 
    CACAAACTTG AAGATAATGA AAATCAGGTG GTCCATCCAT CAGTCAGAGG AAACCAGTGG 
    AGAACCGGAC CATGGGGATC ATGCTCCAGC AGTTGTTCTG GAGGTCTTCA GCGTAGGGCT 
    GTGGTCTGCC AGGATGAAAA TGGACAAAGT GCTAGTTACT GCGATGCAGC CTCCAAGCCT 
    CCAGAGTTAC AGCACTGTGG TCCAGGGCCT TGTCCACAGT GGAACTACGG AAATTGGGGA 
    GAATGTTCAC AAACATGTGG AGGAGGAATA AAATCAAGAC TTGTAATATG TCAATTTCCC 
    AATGGCCAAA TATTAGAAGA TCACAACTGT GAAATCGTAA ACAAGCCACC TAGTGTAATA 
    CAGTGTCATA TGCATGCTTG CCCTGCTGAT GTGTCATGGC ATCAGGAACC ATGGACATCG 
    TGCTCAGCTT CTTGTGGTAA AGGTAGAAAG TACCGTGAAG TGTTTTGCAT TGACCAATTC 
    CAAAGGAAAT TAGAAGACAC AAATTGCAGT CAAGTACAGA AACCTCCAAC TCACAAAGCC 
    TGTAGATCTG TCAGATGCCC TTCATGGAAA GCCAATAGCT GGAATGAGTG CTCTGTGACC 
    TGTGGCTCTG GAGTTCAGCA GAGGGATGTA TACTGCAGAC TGAAAGGTGT TGGTCAGGTG 
    GTTGAAGAAA TGTGTGATCA GTCCACCCGA CCTTGTTCTC AGAGGCGATG TTGGAGTCAG 
    GACTGTGTGC AGCACAAGGG GATGGAAAGA GGGAGGCTGA ATTGTTCAAC ATCATGTGAG 
    AGAAAAGATT CACATCAACG AATGGAGTGC ACAGATAACC AAATGAGACA AGTGAATGAA 
    ATAGTCTATA ATTCTTCAAC CATATCTCTT ACATCCAAGA ATTGCAGGAA CCCTCCTTGC 
    AATTACATTG TGGTAACAGC AGACTCATCA CAGTGTGCAA ACAACTGTGG ATTTAGTTAT 
    AGACAAAGGA TTACATATTG CACCGAGATC CCATCTACTA AGAAACATAA GCTCCATCGA 
    CTTCGGCCTA TAGTTTATCA AGAATGCCCT GTGGTGCCTT CCTCTCAGGT TTACAAATGC 
    ATTAACAGCT GTTTGCATTT GGCCACTTGG AAAGTTGGAA AATGGAGCAA GTGCTCAGTG 
    ACTTGTGGAA TTGGGATAAT GAAGAGACAA GTGAAATGCA TTACCAAACA TGGTTTGTCC 
    AGTGACTTAT GTTTAAACCA TTTAAAACCA GGTGCTCAAA AGAAATGTTA TGCCAATGAC 
    TGTAAATCAT TTACCACCTG CAAAGAAATT CAAGTGAAAA ACCACATTAG AAAGGATGGT 
    GACTATTACC TTAACATTAA GGGAAGAATA ATAAAGATTT ATTGTGCAGA CATGTACTTG 
    GAGAACCCTA AGGAATATTT AACACTGGTC CAAGGTGAAG AAAACTTTTC TGAAGTGTAT 
    GGCTTTAGAC TAAAAAATCC ATATCAATGT CCTTTTAATG GGAGTAGGAG GGAAGACTGT 
    GAATGTGACA ATGGACACTT AGCTGCTGGA TACACTGTTT TCAGCAAAAT AAGAATTGAT 
    CTCACTTCCA TGCAAATTAA AACTACAGAC CTTCTTTTTT CCAAAACAAT ATTTGGAAAT 
    GCAGTTCCAT TTGCCACAGC TGGAGATTGC TACAGTGCTT TCAGATGCCC ACAGGGACAG 
    TTTAGCATTA ATTTGTCAGG AACTGGGATG AAGATATCCA GCACAGCAAA GTGGCTCACT 
    CAGGGGAGTT ATACCTCTGT CAGCATACGA AGATCAGAGG ATGGAACTAG ATTTTTCGGC 
    AAATGTGGAG GGTACTGTGG AAAGTGTCTT CCTCACATGG CTACTGGTCT CCCAATTCAA 
    GTCATATGA

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

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