ORF » Species Summary » Saccoglossus kowalevskii » ADAMTS9 cDNA ORF clone

ADAMTS9 cDNA ORF clone, Saccoglossus kowalevskii

The following ADAMTS9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS9 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OSg07560 XM_006818777.1
Latest version!		 Saccoglossus kowalevskii ADAM metallopeptidase with thrombospondin type 1 motif, 9 (ADAMTS9), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00

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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)
    ADAMTS9 ( XM_006818777.1 ) cDNA ORF clone, Saccoglossus kowalevskii -> XP_006818840.1 Saccoglossus kowalevskii ADAM metallopeptidase with thrombospondin type 1 motif, 9 (ADAMTS9), mRNA.
    Price & Availability↑
    CloneID OSg07560
    Clone ID Related Accession (Same CDS sequence) XM_006818777.1
    Accession Version XM_006818777.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5577bp)
    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 2014-02-17
    Organism Saccoglossus kowalevskii
    Product A disintegrin and metalloproteinase with thrombospondin motifs 9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003133348.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Saccoglossus kowalevskii Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGTGTTCTG TGTTGGTTGC TTTAGTACTG CTCGTGTGTT TGTTGCAGCC AGCAGCGCTA 
    GGGCTTCAAA CACAGAACGT CCAGGCCGGT CAAGGGGATT CCAAGAGAGT ACTTGGACAG 
    TCCGTCAAAG GCCATGAAGT CGTGTTTCCT ATCAGAGTGA ACTCAGATGG CAAGACATTC 
    CCTTCAAATC TTCATTTTCG CAATCGTAGA CAGGCAGCAA ATTCGGAAGA GAGCTGGAAC 
    TCTACAGCGG CGTATGTTAT CGAAGCATTC GGTCAAAAGT TCCATCTAAA TTTGAGAGAA 
    GATGAGGGAT TTTTAGCTGG CAGTTTTGTG TTTGAATATT CAGGGAATAT GGGACATGGA 
    AATGTTAATG ATACTTTAAC GGGGGAGTAT GGAGACGACA CAATACTGAC AGAGCCGTCA 
    TTTGGTGCCT TCAAAACTGA AAATGGAACA CAGTATTATG TGGAGCCTTT ACCAAGTGAA 
    GATAGTAAAG ACACGGTGGC TGATGAGAAC AGTAAACCAC ATGTGATTTA CAAGCATACT 
    GATTTGCCCC ATACACAGAA ACCAATCGAA TCAACTTGCG GGGTTAAAGA TCACCATCAT 
    CATACACTTC TTCAGAGTGA ACAGAGAAAA TCAACTCAAA GAAATACAAA TCTTAAATCA 
    ACAAAATCAC GTCAGAAAAG ATTTAATTCA TATGAAAGGT TTGTTGAAAC CATGATAGCA 
    GTTGATAGTA AGATGTTGGC CTACCATGGC GGAGATTTAG AGCACTATGT TCTAACTCTC 
    ATGGCATTAG TAAGTAGCAT TTACAAAGAT AAATCAATTG GTAACTCTAT TAGTATAACT 
    GTGGTCAAGT TAATTGTCAT TGATGAACAG AAAGATTCTC CAAAAATATC TTCACATGCA 
    CCGAATACAC TCAATCATTT CTGCCAGTGG CAGCAAGAAC AAAACACTGC AGATGACAGT 
    CACCCAAATC ATCATGATAC TGCTATTCTG TTAACCAGAC AAGACATATG CAGGTCAACT 
    AACAAATGCG ATACTCTCGG TTTAGCTGAA TTGGGTACAA TGTGTGATCC ATTTCGCAGT 
    TGTTCAATTG TAGAAGATAA TGGTCTGAGT GCTGCATTCA CGATTGCTCA TGAACTTGGT 
    CATGTATTTA ACCTACCTCA TGATGATGAT CGAAACAAGT GTGCAAAAAA CAATACAGGA 
    AAGTTGCATG TAATGGCACC AACTTTAACT TATAACACAA ACCCATGGTC CTGGTCAGTC 
    TGCAGTAAAA ATGAACTAAC AGAATTTTTA AATCTTGGGC ATGGTGAGTG TTTATTGGAC 
    AGGCCACCAA GTTCGATGTA TGTCTTACCT AAAGCTCAGC CTGGAACTCA ATACAATGTG 
    AACAGACAAT GTGAACTGCT AATTGGAGCC AATTCAACCG TTTGCCCATA TATGAGAGCC 
    TGTAAAAGGC TTTGGTGTAC AAGTCCATTT TCGTCTGAGG GCTGTAGAAC ACAACATATG 
    CCCTGGGCAG ATGGTACATG GTGTGATGAA AATAAGTGGT GCATTCAGGG TGAGTGTAAA 
    AATAAAACTC ATAACAGCAA GCCTGTAAAT GGAGGCTGGG ATAAATGGTC ACCATATACA 
    CAGTGCTCAA GAACATGCGG TGGTGGAGTA AAATCATCAG AGAGATATTG TACGAATCCA 
    CATCCAAAGA ATGGTGGTAA ATATTGCATT GGTAGAAGAA CAAAATTCAA ACCATGTCAT 
    ACAAAGCCTT GCCCTCCAGG ACAACCAAGT TTTCGAGAAC AACAGTGTTC ATACTATGAT 
    GGGCAACATT TTAATCTCAA CAATCTACCT CCTAATGTTA GATATGTTCC AAAATATAGT 
    GGAATTCAAA TACAAGACAG ATGTAAGTTA TTTTGCAGGG CATCTGGTAC TGCTCATTAT 
    CACCAGCTAG CTAAAATGGT TGTTGATGGC ACACCATGCG GGCCAGATAC TGATGACATA 
    TGTGTTCGTG GTTTATGCAG GAAAGCCGGA TGTGATCATG TATTGGGGTC ATCTACTCGA 
    AAAGATAAAT GTGGTATATG TGGTGGCGAT GATTCCTCTT GTAAAGCAAA ATCAGATACT 
    TATAATAAAG CTATATTTGG ATACAACACA GTTGTTCAAA TACCTTCTGG TGCTAAAAAT 
    ATAGAAGTCA GTCAGCATGG TTATAAAAAC CAAATTGATG ATGATAATTA TTTAGCTCTT 
    ATGAATAGCA ACTATCAATA TATAATGAAT GGTAATTTTG CTGTTAGTAT GTACAGAAGA 
    TTTGTAGAAG TAGCTGGAGC AGTTATTGAA TATAGTGGTT CTAACACTAC CATTGAAAGA 
    ATTAATTGTT CTAGAAAGAT AGAAGAAGAT ATTATTGTAC AGGTGTTGTC TGTTGGTAGT 
    TTGAATCCCC CAAGGATTAG ATATACTTAC ACCGTCCCAA TTGTAGATAA TGCTGTCATC 
    TATGTATGGG ATCGTTATGG TCCATGGAAA CAATGCTCAA AACAATGTAA TGGAGTTAAA 
    GAGAGAGTCA TTCATTGTGT GGGAGCAGAT GACAGAGGAA AAGTAGAAGA TCATCACTGC 
    AACGCCCAAT CTAAACCACC TGCTCTTCAG GCACCTTGTA ACGCAAAATG TATTCCTGTA 
    TGGCAAACTG AAATCACAAC TGCATGCTCA GTTCGTTGTG GTACTGGTAA ACAGCATCAA 
    GTGAGCGTAT GTACAAATTC ACGAAATAAT AATACAATTT CTGAAGAACA CTGTGATTTA 
    CAACCAAAAC CTTTGGAATA TGTTGAATGT GAGGGTAGTT GTCGTCAAAC GCACTGGGAA 
    TACGGTAGTT GGTCTGAGTG TTCTGTCACA TGTGGTGGAG GAAGAAGTAA TAGAAGAGCC 
    AGCTGCCTAG AAGATACTGG TGCTGAACTG AGTGACAGTG AATGTGATAT ATCTCAACAA 
    CAAATAATCA CGACATCATG TCAGGAACAG AAGTGTCCTT ACTGGGAACA TACAGATTGG 
    TCAACATGTT CAGTGACATG TGGAGCTGGT GAGAGAGTTC GACAGTTGCA TTGTATGTAT 
    GGTAACGATT ATGTTGGTGA AATAGAATGT GAGCAAGCCA CAATGCCAGC CAGTAAAGAA 
    GCATGTGTTT TAGAAGACTG CCCTGTATGG AGATACAGTA CATGTTCAGT TACATGTGGA 
    AGAGGATATA AACTGATTGA ATGTTGTGCT AGTGATGGTA CCATACTTGA TGAAGAACAC 
    TGTAGTCCTG CACTCATACC TACAATGGAA TGTAACCGAC CTGCATGCCC TGATAATGTG 
    CCAACAACAA TTACTAGTCA GCTTTTAATA AGGAAATCAC CTAGAGTCAC ACAGTGGAGA 
    ACTGGATCCT GGACACAATG TTCAAAGACA TGCGGAGTTG GTAGCAAGGA GCGATATGTC 
    AGCTGTCGTG ACAGTGAAGG CAAAGGAGCA GATGACAGAG AATGCATTGA TTCTGAAAAA 
    CCACCATCCA AAGAAAGTTG TCAAGTTCAG CCTTGTCCTT ATTGGAGAAC TGGGGAATGG 
    CTTCCATGTC CAGTTACATG TGGTTCAGGC ATAACCAGTC GTTATGTGGC ATGTGTTCAA 
    GAAAATGGTG AAATAGCTAT AACTGAAACC GATTGTGATG TATCACAAAG ACCTAGCTCA 
    GAACAAAAGT GCAATACCCA TCAATGTATG ATGATCAGTG ATGAAATAGT TGTGGCAAAT 
    GTATTTATCA GTAACATTAA AGTGGCACAT ACAAGTCATT GGAGAACTGG GCCCTGGGGA 
    TCATGTTCAA GTACTTGTGA TCAGGGTTGG AAAAGACGTG TTGTAGTTTG TCAAGATGAA 
    AATGGTGATA TTAGTTCCTG TGATGAGTCA CTAAAACCAA CTGATATTGA TGTATGTGAT 
    GCAGGTCCAT GTCCTACTTG GAACTTTGGC GAATGGGGAA CTTGTTCCAG ATCTTGTGGT 
    GGAGGCACCA AATCTCGTAT TGTACAGTGT CAGACGTATA ATGGCCAGCC ACTGAATGAC 
    CATGGATGTT ACCCTGTAGA GAGGCCGCCA GACACCATTC CTTGCAATGT AGGAGAATGT 
    CCTTCATCAA CGGAATGGTA CAGAAATGAC TGGTCACCGT GTTCAGCTAC ATGTGGCAGA 
    GGACAAAGAT ATCGTGCAGT TTACTGTATT GACAGTGAAG GCAGAGATCT ACCAGATGAG 
    CTATGCCAAA GTGAGAAACC TAAACAGTCA AGAGGATGTC GTGTAATGAA ATGTCCAAAA 
    TGGAAGTCAG AACCCTGGAG TAAGTGTTCA GTTAAATGTG GAGAAGGTGT GAAGACAAGA 
    GAAGTAAAAT GTACTAAAGA TAGATACCGT ACAGGGATTT CTGAATTGTG TGACCCAAGA 
    AAGAAACCAA TTGATACACG CAAATGTAAA AAACCTGATT GTGTCACATA TACATGGAGG 
    ACTGGTAGGT GGTCACAGTG TACAAGGTCT TGCAGCGGAG GTAAAAGACA CAGAGTTGTT 
    CATTGCATTG ATAGTAAAGA CCAGCTTGTA GAAGATAGAA AGTGTGGTAA AAAAAGACCC 
    AGGAACTCAA AGAAATGTAA TTCCCAATCT TGCCCTGGTC CTACAGTTAT ATGGACCAAT 
    GGCCAGTGGT CTGAATGTTC ACAGACATGT GGACAGGGTC ACCAATCAAG ACGAGTGTCT 
    TGTAAGATAC TCAGCAAAGG AGGATGGCCT GTACCAGGAG ACACTACAGG ATGTGAAGTG 
    AGTAAAAAGC CATCAGCAGT CAAATTATGT AATCTGGGTG AATGTGACGC TAGCAATCAT 
    TGGATAGTAG GAATGTGGAG TGAATGTTCT AGGAGTTGTG GAATTGGAAT AACACAAAGA 
    AAAGTACAAT GTACAGGTAG AAGTGGGGAA ACTAGATTAG AAAATATGTG CCGTCCTCCT 
    GCTGTCAAAC CTGAAAGTTT CAGAACATGT GATAGTGGAC CATGTTTACC TGGAAGTTGT 
    CAAGATGTTA AAAAGATGAA AGGTGTTACC AAGGACAGTG AATATCAAAT CTTAGTGCAT 
    GGAAGACTGT TACAGGTGTA CTGTTATAAT ATGATATCAG ATAATCCATC CGAATATCTT 
    ACACTGCCAG CTGGTGAAGC TGAAAATTTT TCAGAAATTT ATCCAAAAAC TTTATTAGAG 
    CCCAAAAAGT GTCCAGATAA TGGGAACAGG AATTATGACT GTGCTTGTAC TGTTCATGGT 
    CATCCAGAAT CTGGATTTTC ATCATTCACT AAAATCAGAA TTGATATAAA TACATTATCA 
    GTTCTTGATG ATGATTCCAA GTTCTCAACA ACGAAAATTG GAATCTTTGT CCCATTTGGT 
    ACTGCAGGTG ATTGTTATAG TTACGCTAAT TGTCCACAGG GACATTTCAA TATTAATTTA 
    ACTGGCACTG GTTTAGCTGT CACTGCCGAA ACAAGCTGGG ATACTGCTGG TACAGCTGTC 
    ACCAGAAATA TTTTCAGAGA AAAGAATGGT CAAATAATAC GTGGTAGGTG TGGTGGTTAT 
    TGTGGTAAAT GTTTTCCAGA CAGGATGAGT GGATTACAAC TTGCATTCCT TTCATGA

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

    RefSeq XP_006818840.1
    CDS50..5626
    Translation

    Target ORF information:

    RefSeq Version XM_006818777.1
    Organism Saccoglossus kowalevskii
    Definition Saccoglossus kowalevskii ADAM metallopeptidase with thrombospondin type 1 motif, 9 (ADAMTS9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006818777.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    ATGTGTTCTG TGTTGGTTGC TTTAGTACTG CTCGTGTGTT TGTTGCAGCC AGCAGCGCTA 
    GGGCTTCAAA CACAGAACGT CCAGGCCGGT CAAGGGGATT CCAAGAGAGT ACTTGGACAG 
    TCCGTCAAAG GCCATGAAGT CGTGTTTCCT ATCAGAGTGA ACTCAGATGG CAAGACATTC 
    CCTTCAAATC TTCATTTTCG CAATCGTAGA CAGGCAGCAA ATTCGGAAGA GAGCTGGAAC 
    TCTACAGCGG CGTATGTTAT CGAAGCATTC GGTCAAAAGT TCCATCTAAA TTTGAGAGAA 
    GATGAGGGAT TTTTAGCTGG CAGTTTTGTG TTTGAATATT CAGGGAATAT GGGACATGGA 
    AATGTTAATG ATACTTTAAC GGGGGAGTAT GGAGACGACA CAATACTGAC AGAGCCGTCA 
    TTTGGTGCCT TCAAAACTGA AAATGGAACA CAGTATTATG TGGAGCCTTT ACCAAGTGAA 
    GATAGTAAAG ACACGGTGGC TGATGAGAAC AGTAAACCAC ATGTGATTTA CAAGCATACT 
    GATTTGCCCC ATACACAGAA ACCAATCGAA TCAACTTGCG GGGTTAAAGA TCACCATCAT 
    CATACACTTC TTCAGAGTGA ACAGAGAAAA TCAACTCAAA GAAATACAAA TCTTAAATCA 
    ACAAAATCAC GTCAGAAAAG ATTTAATTCA TATGAAAGGT TTGTTGAAAC CATGATAGCA 
    GTTGATAGTA AGATGTTGGC CTACCATGGC GGAGATTTAG AGCACTATGT TCTAACTCTC 
    ATGGCATTAG TAAGTAGCAT TTACAAAGAT AAATCAATTG GTAACTCTAT TAGTATAACT 
    GTGGTCAAGT TAATTGTCAT TGATGAACAG AAAGATTCTC CAAAAATATC TTCACATGCA 
    CCGAATACAC TCAATCATTT CTGCCAGTGG CAGCAAGAAC AAAACACTGC AGATGACAGT 
    CACCCAAATC ATCATGATAC TGCTATTCTG TTAACCAGAC AAGACATATG CAGGTCAACT 
    AACAAATGCG ATACTCTCGG TTTAGCTGAA TTGGGTACAA TGTGTGATCC ATTTCGCAGT 
    TGTTCAATTG TAGAAGATAA TGGTCTGAGT GCTGCATTCA CGATTGCTCA TGAACTTGGT 
    CATGTATTTA ACCTACCTCA TGATGATGAT CGAAACAAGT GTGCAAAAAA CAATACAGGA 
    AAGTTGCATG TAATGGCACC AACTTTAACT TATAACACAA ACCCATGGTC CTGGTCAGTC 
    TGCAGTAAAA ATGAACTAAC AGAATTTTTA AATCTTGGGC ATGGTGAGTG TTTATTGGAC 
    AGGCCACCAA GTTCGATGTA TGTCTTACCT AAAGCTCAGC CTGGAACTCA ATACAATGTG 
    AACAGACAAT GTGAACTGCT AATTGGAGCC AATTCAACCG TTTGCCCATA TATGAGAGCC 
    TGTAAAAGGC TTTGGTGTAC AAGTCCATTT TCGTCTGAGG GCTGTAGAAC ACAACATATG 
    CCCTGGGCAG ATGGTACATG GTGTGATGAA AATAAGTGGT GCATTCAGGG TGAGTGTAAA 
    AATAAAACTC ATAACAGCAA GCCTGTAAAT GGAGGCTGGG ATAAATGGTC ACCATATACA 
    CAGTGCTCAA GAACATGCGG TGGTGGAGTA AAATCATCAG AGAGATATTG TACGAATCCA 
    CATCCAAAGA ATGGTGGTAA ATATTGCATT GGTAGAAGAA CAAAATTCAA ACCATGTCAT 
    ACAAAGCCTT GCCCTCCAGG ACAACCAAGT TTTCGAGAAC AACAGTGTTC ATACTATGAT 
    GGGCAACATT TTAATCTCAA CAATCTACCT CCTAATGTTA GATATGTTCC AAAATATAGT 
    GGAATTCAAA TACAAGACAG ATGTAAGTTA TTTTGCAGGG CATCTGGTAC TGCTCATTAT 
    CACCAGCTAG CTAAAATGGT TGTTGATGGC ACACCATGCG GGCCAGATAC TGATGACATA 
    TGTGTTCGTG GTTTATGCAG GAAAGCCGGA TGTGATCATG TATTGGGGTC ATCTACTCGA 
    AAAGATAAAT GTGGTATATG TGGTGGCGAT GATTCCTCTT GTAAAGCAAA ATCAGATACT 
    TATAATAAAG CTATATTTGG ATACAACACA GTTGTTCAAA TACCTTCTGG TGCTAAAAAT 
    ATAGAAGTCA GTCAGCATGG TTATAAAAAC CAAATTGATG ATGATAATTA TTTAGCTCTT 
    ATGAATAGCA ACTATCAATA TATAATGAAT GGTAATTTTG CTGTTAGTAT GTACAGAAGA 
    TTTGTAGAAG TAGCTGGAGC AGTTATTGAA TATAGTGGTT CTAACACTAC CATTGAAAGA 
    ATTAATTGTT CTAGAAAGAT AGAAGAAGAT ATTATTGTAC AGGTGTTGTC TGTTGGTAGT 
    TTGAATCCCC CAAGGATTAG ATATACTTAC ACCGTCCCAA TTGTAGATAA TGCTGTCATC 
    TATGTATGGG ATCGTTATGG TCCATGGAAA CAATGCTCAA AACAATGTAA TGGAGTTAAA 
    GAGAGAGTCA TTCATTGTGT GGGAGCAGAT GACAGAGGAA AAGTAGAAGA TCATCACTGC 
    AACGCCCAAT CTAAACCACC TGCTCTTCAG GCACCTTGTA ACGCAAAATG TATTCCTGTA 
    TGGCAAACTG AAATCACAAC TGCATGCTCA GTTCGTTGTG GTACTGGTAA ACAGCATCAA 
    GTGAGCGTAT GTACAAATTC ACGAAATAAT AATACAATTT CTGAAGAACA CTGTGATTTA 
    CAACCAAAAC CTTTGGAATA TGTTGAATGT GAGGGTAGTT GTCGTCAAAC GCACTGGGAA 
    TACGGTAGTT GGTCTGAGTG TTCTGTCACA TGTGGTGGAG GAAGAAGTAA TAGAAGAGCC 
    AGCTGCCTAG AAGATACTGG TGCTGAACTG AGTGACAGTG AATGTGATAT ATCTCAACAA 
    CAAATAATCA CGACATCATG TCAGGAACAG AAGTGTCCTT ACTGGGAACA TACAGATTGG 
    TCAACATGTT CAGTGACATG TGGAGCTGGT GAGAGAGTTC GACAGTTGCA TTGTATGTAT 
    GGTAACGATT ATGTTGGTGA AATAGAATGT GAGCAAGCCA CAATGCCAGC CAGTAAAGAA 
    GCATGTGTTT TAGAAGACTG CCCTGTATGG AGATACAGTA CATGTTCAGT TACATGTGGA 
    AGAGGATATA AACTGATTGA ATGTTGTGCT AGTGATGGTA CCATACTTGA TGAAGAACAC 
    TGTAGTCCTG CACTCATACC TACAATGGAA TGTAACCGAC CTGCATGCCC TGATAATGTG 
    CCAACAACAA TTACTAGTCA GCTTTTAATA AGGAAATCAC CTAGAGTCAC ACAGTGGAGA 
    ACTGGATCCT GGACACAATG TTCAAAGACA TGCGGAGTTG GTAGCAAGGA GCGATATGTC 
    AGCTGTCGTG ACAGTGAAGG CAAAGGAGCA GATGACAGAG AATGCATTGA TTCTGAAAAA 
    CCACCATCCA AAGAAAGTTG TCAAGTTCAG CCTTGTCCTT ATTGGAGAAC TGGGGAATGG 
    CTTCCATGTC CAGTTACATG TGGTTCAGGC ATAACCAGTC GTTATGTGGC ATGTGTTCAA 
    GAAAATGGTG AAATAGCTAT AACTGAAACC GATTGTGATG TATCACAAAG ACCTAGCTCA 
    GAACAAAAGT GCAATACCCA TCAATGTATG ATGATCAGTG ATGAAATAGT TGTGGCAAAT 
    GTATTTATCA GTAACATTAA AGTGGCACAT ACAAGTCATT GGAGAACTGG GCCCTGGGGA 
    TCATGTTCAA GTACTTGTGA TCAGGGTTGG AAAAGACGTG TTGTAGTTTG TCAAGATGAA 
    AATGGTGATA TTAGTTCCTG TGATGAGTCA CTAAAACCAA CTGATATTGA TGTATGTGAT 
    GCAGGTCCAT GTCCTACTTG GAACTTTGGC GAATGGGGAA CTTGTTCCAG ATCTTGTGGT 
    GGAGGCACCA AATCTCGTAT TGTACAGTGT CAGACGTATA ATGGCCAGCC ACTGAATGAC 
    CATGGATGTT ACCCTGTAGA GAGGCCGCCA GACACCATTC CTTGCAATGT AGGAGAATGT 
    CCTTCATCAA CGGAATGGTA CAGAAATGAC TGGTCACCGT GTTCAGCTAC ATGTGGCAGA 
    GGACAAAGAT ATCGTGCAGT TTACTGTATT GACAGTGAAG GCAGAGATCT ACCAGATGAG 
    CTATGCCAAA GTGAGAAACC TAAACAGTCA AGAGGATGTC GTGTAATGAA ATGTCCAAAA 
    TGGAAGTCAG AACCCTGGAG TAAGTGTTCA GTTAAATGTG GAGAAGGTGT GAAGACAAGA 
    GAAGTAAAAT GTACTAAAGA TAGATACCGT ACAGGGATTT CTGAATTGTG TGACCCAAGA 
    AAGAAACCAA TTGATACACG CAAATGTAAA AAACCTGATT GTGTCACATA TACATGGAGG 
    ACTGGTAGGT GGTCACAGTG TACAAGGTCT TGCAGCGGAG GTAAAAGACA CAGAGTTGTT 
    CATTGCATTG ATAGTAAAGA CCAGCTTGTA GAAGATAGAA AGTGTGGTAA AAAAAGACCC 
    AGGAACTCAA AGAAATGTAA TTCCCAATCT TGCCCTGGTC CTACAGTTAT ATGGACCAAT 
    GGCCAGTGGT CTGAATGTTC ACAGACATGT GGACAGGGTC ACCAATCAAG ACGAGTGTCT 
    TGTAAGATAC TCAGCAAAGG AGGATGGCCT GTACCAGGAG ACACTACAGG ATGTGAAGTG 
    AGTAAAAAGC CATCAGCAGT CAAATTATGT AATCTGGGTG AATGTGACGC TAGCAATCAT 
    TGGATAGTAG GAATGTGGAG TGAATGTTCT AGGAGTTGTG GAATTGGAAT AACACAAAGA 
    AAAGTACAAT GTACAGGTAG AAGTGGGGAA ACTAGATTAG AAAATATGTG CCGTCCTCCT 
    GCTGTCAAAC CTGAAAGTTT CAGAACATGT GATAGTGGAC CATGTTTACC TGGAAGTTGT 
    CAAGATGTTA AAAAGATGAA AGGTGTTACC AAGGACAGTG AATATCAAAT CTTAGTGCAT 
    GGAAGACTGT TACAGGTGTA CTGTTATAAT ATGATATCAG ATAATCCATC CGAATATCTT 
    ACACTGCCAG CTGGTGAAGC TGAAAATTTT TCAGAAATTT ATCCAAAAAC TTTATTAGAG 
    CCCAAAAAGT GTCCAGATAA TGGGAACAGG AATTATGACT GTGCTTGTAC TGTTCATGGT 
    CATCCAGAAT CTGGATTTTC ATCATTCACT AAAATCAGAA TTGATATAAA TACATTATCA 
    GTTCTTGATG ATGATTCCAA GTTCTCAACA ACGAAAATTG GAATCTTTGT CCCATTTGGT 
    ACTGCAGGTG ATTGTTATAG TTACGCTAAT TGTCCACAGG GACATTTCAA TATTAATTTA 
    ACTGGCACTG GTTTAGCTGT CACTGCCGAA ACAAGCTGGG ATACTGCTGG TACAGCTGTC 
    ACCAGAAATA TTTTCAGAGA AAAGAATGGT CAAATAATAC GTGGTAGGTG TGGTGGTTAT 
    TGTGGTAAAT GTTTTCCAGA CAGGATGAGT GGATTACAAC TTGCATTCCT TTCATGA

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

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