ORF » Species Summary » Amyelois transitella » LOC106140673 cDNA ORF clone

LOC106140673 cDNA ORF clone, Amyelois transitella

The following LOC106140673 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106140673 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
OAm70087 XM_013342296.1
Latest version!		 Amyelois transitella protein split ends-like (LOC106140673), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00

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** 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)
    LOC106140673 ( XM_013342296.1 ) cDNA ORF clone, Amyelois transitella -> XP_013197750.1 Amyelois transitella protein split ends-like (LOC106140673), mRNA.
    Price & Availability↑
    CloneID OAm70087
    Clone ID Related Accession (Same CDS sequence) XM_013342296.1
    Accession Version XM_013342296.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5976bp)
    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 2015-08-05
    Organism Amyelois transitella
    Product protein split ends-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013536536.1) 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 :: Amyelois transitella Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    ATGGTCTCAC AGGAATATCA TAAGGCTGAA GACAAAAACG GAAAAGAAAA ATTCAATCAA 
    AATACTATTT TGGATTCAGT ACATACAAGC AATAAGTTGG AAAAAGAAAA TATTGAATTT 
    GTAAAAGGGT ATAATAGTGA AAAAATTAAT TCAGATACAA TTTTTTACTC GGAGAAAAAG 
    CTACTAGACG GTGAAAAGCG CACAGAAGAT CGTAGTAGAA ATGATCGGGA AAAAAATAGA 
    CATGGAAAAG AACGATCAGA TAAAGATAAA CATGAGCATG ACAAAGAAAA ATCCAGAAGC 
    CACAGAACTG AAAGGGTAGA TAGAAACGAA AAAGAAAAGA AGAACAAAGA GTCTGTACAC 
    ACTGAAAAGT CTCACGGCGA AAAATCTAAA TCTGATCATG AAAAGCATAA ACATGATAGA 
    GAAAATGATC GAACAAAACA CGCAGAGGAA AAATCTACGC GGCATGATCA TCATAGGAAA 
    GATAAAATGG ATAAAGATAA AAGAAAGGAT TCAACTGACT TAGATTCCAA AGCTAAAAAA 
    GAAGATAAAA TTAAACATGA CAAATCAAAA AAGGAATCCC AGGATTCTAA ACGTGAGGGT 
    AAAAAAGATT CGGATTTGGT GAAGTCTAGA AAGTCTTCCA GAGATGACAT TTCTAGAGAT 
    TTATGTCGCA AAGATTCTAC AGACTCATCT ACGTCCAGAG CATCTCATGA CTCCATGAAA 
    GTCAAAGAGG AAAGTAGTGA AATCAAAGAA GATTCAAAAG TAACTCTCAA AAATTACAAC 
    ACTTTATTTT GTAAACAAGA CAGCAAAGAT TTATTGCTCA CAACAGCCGA CCTTGATTCA 
    TTAATTAAAG TTGAAGCAAA AGAAGAGCCT GATAATTCTG AGAAATTAAT TGTGAAGGGC 
    AAAAATAATA CTGAATTAGC TGCCAAGTCC AAATCAGAAG TTTCTGAAAA ACAAAGACAT 
    TATTCTGTTG ATTCACCAAC TGCTGATGCT AAACGTAAGG AGCGTTTAAA TTCATGTTCA 
    AGTTTACCTC CGAATATTGG GTACAAACGC AGAATGTCTT CTCACGATAG TTTAGATTCT 
    GTTTATGAAG AAACCAAAAA GATAAAAACT GACGCGAAAA GTCTTGAACG ACGGGATTCA 
    AAAGATTCAA AATCTTCATC AAATCACCAA GATTCAAAAC ATAAAACGGC CAAGTTTAAT 
    AAAGGTCATT TTGCAAAATT AATAGAAAGT AAAACAAAAG ATGATAAAAA GAATCAGGTT 
    AAACCGCCCG ATGATATTTA TGATGTAAAA AATAAAGAAG AGAGCAAAGA TCAAAAACCT 
    GCTGACAAAA TGAAATTGTC CAAAAAGAGT CCCAAAATCA CTAATGATGA AAAAATTAAC 
    ACTGAAGCCT CTTCTGAAAG CTTGCATCAT GATCTAGACT TTCTTGCCAC GTTAGAGCTC 
    CGATCCAGTG AGGAAGATGA AAAGCAACGA GCACTAAGAA AAGAAATGAA GGAAAAGAAA 
    CGTATCCAAC AACTGCAACA AATACAAGCA CTACAAATGC AACAGGATGC CCTACACCAA 
    GCAGAACTTT CCAAATCAAA AGATGAAAAG AAACAAAAAT GTGACGACAA AAAGAAAGAG 
    GCAGCTCGCG AGAAGCGTAT GTCAATTGAG CGGAAGAGCA GGGAAGATAA GAACGATCTC 
    AATAAACGGA AAAATAGAAA GCAACTTAGC ACAGATAGTT CTGACTCTGA CGAACCTAAG 
    AAACATTCTA TTTTCGACAT AGTTGATGAC GGTCCAACTT ATATATCCAT GTATGACAAA 
    GTCAAAGCTC GTTCTTGTAA AAATATGCAA AAGCAAGAAG AAGAAAAACG ACAAGAAAAA 
    ATCAAAGCAA AATTCAGTCA ACTAAAACAA AGCAGGGCAA AACGCGAAGA GAAGAAAAGA 
    TCTAGTTGGG ATGAAGATAG TGACTCTGAA CAAGACAGGA AGAAGACTCA CAAATCATCA 
    ATTGATAGCT CTACAGACGA CGATCGTTTG ATGATTCATA ACAAAAAGCT AGATAAATTA 
    CATCGGACAA GCCTTGATTT TGATCGTATT AAATCCAGTG ATTATTTCAA TGCGGTTGGT 
    AGTGAAGAAG ATTTAAGAAA TAAATTATCC CGCAAAAATT CTAGAACTCG CATTATGTCT 
    GACACATCTG ATGATGAAAG ATCCAATAAA AGAAGTATCA GTAAAAGCCC TCCTTTTATT 
    ACTAACATCA AAAAAGAAAT TATCTCTGAT TCTGAATCTT CACAAAGGAC TAAAGATGAT 
    ACTTCAAAAG AAGTCAGTGA TGACAAAATA AAAAGGAACT CCTTATTAAA TTTGTTTGGT 
    AAGAGTGATA GTGAGGATAG TAAATTAAAA TCAAGCGTGG AAACTGATTT GGAATACAAA 
    CATAACTTTA ATAAATCTGT CATAGATTTT TCTTCAGAGA GCGAATCTAT GACTTCGAAC 
    AGAAATGCTT TGGAAATTCG TAAAAAACAT AAACGAAAAC AAAAGAAACA TAAATTCTCT 
    TTTTCCGATG ATGACGGTAA AGTGCATGAA AACAGTGAAG GCTTTGAAAA CAAACATAAA 
    CATTCTGAAA AAATGCGGCG CCACAGTAAT AAAAAAGAAA AAAGGAAAGA TAAAACCCGT 
    GAAAGTGTAG ATACTGATGA TACTCGGGAA GACAAAATTC GATTCAAGAA GGAGAAAAAG 
    CCCACCAACA GTTCTTTTGA ATTTTCAATG GATTCTGTTT CTAAAAAAGA AGGTAAAATG 
    GAGGATATTT TTGGTCCACT GTCAGATGAA TCAGATAAAG AGGCAAGAGT TTCACAACCA 
    AATAATACAC TAGACTTCTC CCATAGTTAC GAGTCCTACA GTGCCCCTCA TAATCAACCA 
    ACCCTTGCGG TAAATTGCGA CGAAAGCAAA TGTAAAGAGA AAGATGAAAA TAAACGGAAA 
    AAAGAGAAAA GGAGAAGAGA TAAGAGATAT ATTGCAAAGG AAGACGAAAA TAGCTTAGAC 
    GTAGACGCAG TTAGTAAAGC CATTGAAGCC CGGTTGATTG AAGACACCGT GTCCGATGAT 
    GAAAATAGAT CTATTTTAGA AACGCTGGAT ATTAAGCGTG ACGATACAAA TGAGTTTACA 
    TATAAAAATG AACTTTCTGA AAATAATAAA ATCAATGAGC GGCATAGTGA GAAAAATAAA 
    AAAGATTGCA GGGAAAAGAA GAAGAAAAAG AAAAGGAGCA GAGAACAACG ACAAAGTCGT 
    AAAGATCATC ACCATTATCA TCATCATCAT GATAAATTGG AAAAGTCTGA CATTTTACTT 
    GAAAAGCCTC TTGTTGAAAT CTCTAACAAA ACTCTGCTTT TAGATATACC TCTTCCGAAT 
    GAGCCGGAAA ACGTTGCTGA TAAGTCAGAT GATTGTAAGT CACTCTCTGA GTCTCCTAGT 
    CTACCTAGAC TAACAGAAAG TCCCCCAACT GCCATACCAG ATTTAGACTC CCGCGATGCG 
    GATCCTAGTT CACCAGGAGT TATATCTATT GAATCTAGCA TTGATAGTGA GTATTTGGGA 
    AAGAAAATGA TTGAAGTCGA TGAAATACCT ATGCCTGCTC CCATTGAATG TGATATCAGT 
    GAAGTGCCCT TACCAAGTGG TGATCCTGCG CCAATAATTT CAGATCAAAG TAATAGTGAA 
    TCTACGTCAT TTTCCTGCAC GCTTATGGAC ACTATTGACA GTAGCGAAAC CGCTGTGCGC 
    AGCATATCAA ATTTGTCTGA TACTAATTCT AATGTAGAAA AAGTGGAAAT GTCACCGAAA 
    AATGATAAAA AAGTGGAAGA AAAACCAAGA GCAATAATAT CACAAGAAGA GACGGCAGAT 
    GCGGTGGCTG CTCTTTTAGG TGAAAGTTTT GGCGGCAAAG TTGATTTTTC TGACTATGAA 
    CAAGTTGAAA CCAATGTTTC GAGTCAAACT GAAATAGAAA GTGTTACAAT TGAAACTGAA 
    ACTATACCTG AAGAAGATGC CGAAGAAATG AGACAGGCGG TTCAGAACTT AAATGCTTGT 
    GAAATGGAAA TGAAACCAGA CACTCCAGTA TCAGACAGTG ATCTCTTTAT TGACACTGAT 
    ACTGAGGAAG CTGATGAGAC TCCCCAAGAT GCAATTGAAA CACTGCCTAT AAATATAATT 
    GCTACAAATC AATCCTTAAG TACATCTGAG GAACAGTCAA AAATAATTTC TAAACCAAAA 
    ACTACTGTGG TTAAAGTATT GACATCTGAA GGAAATGAAT CAAGCCTGAA AAGCAATGAT 
    GCTGAATTCA AGATTCAATT AGCTAAACGG GAAACAACGC AGCAAATAAC TTCAACTGCG 
    ACTCCAGTGA TAACATCTTG GACTTTAAGT AGCAATAAAT TAGAACCGCA TCATGTTTTA 
    AATATTCAGC CTAATCAGTT GGTGAGTAGA GAAAAGTCTG AAGTTAAGCC AACACATATT 
    ACAGCTAATA TTGTGCAAAT TAAGACCCCA TCAACTCAGA ACATGCAAAT GAATAATACT 
    TTACGGCCTA TCATTGCGCC CGCTCGAGTA AGCGCACCCT ACCAAGTAAT AAACCAAATC 
    ATTCGGCCAC AAGTGTCGAA CATGCAACCT CCAACTATAA AAATACCAGA ACAACACATT 
    TTATATCAAA AGTCACCAGG AATAGTCATA TCTCCTAGAA ATACTAGTGA TCCAAGATTA 
    CAAAGTCCCA AATCTACATC TCAGAATGAA GGTTTGCTTT CTCCACGATT GACTAATATG 
    GCTATATTGA GTACTCCGCA AAGTTTAAAT TCAGCCGGTA TCGGGACACC TAATATGCAG 
    CAAAGATCTC CTGGTCAAGT GACGGTCGTA AGGATGCAAC AACCATCATT GAGCCCCATC 
    CAAGCAATGC ATTTACCACA TGGTGCTAGA ACTATGGTGT CCCCGAGCAG ACCTAATTCT 
    GTGCTAGTTC AAACCCAGGG AGCCCCAATA CAATTTAATC GATTACCGGT AACTCCAGTC 
    TTAGCACCTA TTTCAAAACA AATAAGTGTT GGCAACATAG TCCAGAATAA AGGAAATAAT 
    GTCAGTGTTT CACCATCTAT TCATCATTCG AAAATAATAA CTACAGCAGA TATCAGAAAA 
    AGTGATTTAA GAAATACTTC TGATGGCATT AGCGAGCCTA AAATAATTTT GTCACCGACT 
    AGTTTACAAC AGAATAATAA CCCTACAGTG ATGGCTCAGA ATCGTCTCAT ATCTATGCAA 
    AATGCAATGC ATGTTGGAAA TATAAATACT TCTCTTCATT TACCCAATAA AGTTTTAATT 
    AATAATATAA ATTCACTAAA CGAGAAGAGA GATACTCAAA CACAAAAGTC AGATCAACAT 
    AATCATATAC CCTTTGGTTC GCCGCCAATA ATACATGTAG CTGGAGTTAA TCATTCTACT 
    GCGTCAATCA TTCAAAGTGG AACGAAGCCA GTGATGTGCA CAATTCAGGA ACCCAATAAC 
    ATTAACAGAA GTCAAAATTC TAATGTTATT CATACTTTAA ATTCGCCGAG ACTGCTCACA 
    ACTGCACCTA TTAGTAAAGT CATTCAAATT GATGCTGCCA ATAAGGGAGC ACCACCGTCG 
    GTGTTATCAA TGGCGACTAT CAGGTCTCCA ACAGTCTTGA CACGATTAGA GTCTTCCAAT 
    TCAGTTGCAG TTACGACAAC TAGTTTAACT AATGTAGTAA TGACGCCTTT GTTATTAAAA 
    ACCACAAATG CCTCGGGAGC TATAAGAGTT AACCAAGATA AAGCTGAAAG TCAAAGTCAT 
    CATAATCACA TAGCACAAGG AACGGATAAG CAAATTGAAG AAAAATCAAG TCAGTCTCCA 
    TTTTTATACG ATTCTATAGA TAAAGATAAG GAAGGAGTAC ATTTGAAAAA AGTTAAGTCG 
    TCTGTGGAAA TTATNGATAG TGAAAATAAA ATAGAAGATA CAAATAATTC GATTAAATCT 
    GAACCGGAAA TTCAGAGCCA CCGCATATTC TCTTGA

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

    RefSeq XP_013197750.1
    CDS263..6238
    Translation

    Target ORF information:

    RefSeq Version XM_013342296.1
    Organism Amyelois transitella
    Definition Amyelois transitella protein split ends-like (LOC106140673), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_013342296.1

    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
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    ATGGTCTCAC AGGAATATCA TAAGGCTGAA GACAAAAACG GAAAAGAAAA ATTCAATCAA 
    AATACTATTT TGGATTCAGT ACATACAAGC AATAAGTTGG AAAAAGAAAA TATTGAATTT 
    GTAAAAGGGT ATAATAGTGA AAAAATTAAT TCAGATACAA TTTTTTACTC GGAGAAAAAG 
    CTACTAGACG GTGAAAAGCG CACAGAAGAT CGTAGTAGAA ATGATCGGGA AAAAAATAGA 
    CATGGAAAAG AACGATCAGA TAAAGATAAA CATGAGCATG ACAAAGAAAA ATCCAGAAGC 
    CACAGAACTG AAAGGGTAGA TAGAAACGAA AAAGAAAAGA AGAACAAAGA GTCTGTACAC 
    ACTGAAAAGT CTCACGGCGA AAAATCTAAA TCTGATCATG AAAAGCATAA ACATGATAGA 
    GAAAATGATC GAACAAAACA CGCAGAGGAA AAATCTACGC GGCATGATCA TCATAGGAAA 
    GATAAAATGG ATAAAGATAA AAGAAAGGAT TCAACTGACT TAGATTCCAA AGCTAAAAAA 
    GAAGATAAAA TTAAACATGA CAAATCAAAA AAGGAATCCC AGGATTCTAA ACGTGAGGGT 
    AAAAAAGATT CGGATTTGGT GAAGTCTAGA AAGTCTTCCA GAGATGACAT TTCTAGAGAT 
    TTATGTCGCA AAGATTCTAC AGACTCATCT ACGTCCAGAG CATCTCATGA CTCCATGAAA 
    GTCAAAGAGG AAAGTAGTGA AATCAAAGAA GATTCAAAAG TAACTCTCAA AAATTACAAC 
    ACTTTATTTT GTAAACAAGA CAGCAAAGAT TTATTGCTCA CAACAGCCGA CCTTGATTCA 
    TTAATTAAAG TTGAAGCAAA AGAAGAGCCT GATAATTCTG AGAAATTAAT TGTGAAGGGC 
    AAAAATAATA CTGAATTAGC TGCCAAGTCC AAATCAGAAG TTTCTGAAAA ACAAAGACAT 
    TATTCTGTTG ATTCACCAAC TGCTGATGCT AAACGTAAGG AGCGTTTAAA TTCATGTTCA 
    AGTTTACCTC CGAATATTGG GTACAAACGC AGAATGTCTT CTCACGATAG TTTAGATTCT 
    GTTTATGAAG AAACCAAAAA GATAAAAACT GACGCGAAAA GTCTTGAACG ACGGGATTCA 
    AAAGATTCAA AATCTTCATC AAATCACCAA GATTCAAAAC ATAAAACGGC CAAGTTTAAT 
    AAAGGTCATT TTGCAAAATT AATAGAAAGT AAAACAAAAG ATGATAAAAA GAATCAGGTT 
    AAACCGCCCG ATGATATTTA TGATGTAAAA AATAAAGAAG AGAGCAAAGA TCAAAAACCT 
    GCTGACAAAA TGAAATTGTC CAAAAAGAGT CCCAAAATCA CTAATGATGA AAAAATTAAC 
    ACTGAAGCCT CTTCTGAAAG CTTGCATCAT GATCTAGACT TTCTTGCCAC GTTAGAGCTC 
    CGATCCAGTG AGGAAGATGA AAAGCAACGA GCACTAAGAA AAGAAATGAA GGAAAAGAAA 
    CGTATCCAAC AACTGCAACA AATACAAGCA CTACAAATGC AACAGGATGC CCTACACCAA 
    GCAGAACTTT CCAAATCAAA AGATGAAAAG AAACAAAAAT GTGACGACAA AAAGAAAGAG 
    GCAGCTCGCG AGAAGCGTAT GTCAATTGAG CGGAAGAGCA GGGAAGATAA GAACGATCTC 
    AATAAACGGA AAAATAGAAA GCAACTTAGC ACAGATAGTT CTGACTCTGA CGAACCTAAG 
    AAACATTCTA TTTTCGACAT AGTTGATGAC GGTCCAACTT ATATATCCAT GTATGACAAA 
    GTCAAAGCTC GTTCTTGTAA AAATATGCAA AAGCAAGAAG AAGAAAAACG ACAAGAAAAA 
    ATCAAAGCAA AATTCAGTCA ACTAAAACAA AGCAGGGCAA AACGCGAAGA GAAGAAAAGA 
    TCTAGTTGGG ATGAAGATAG TGACTCTGAA CAAGACAGGA AGAAGACTCA CAAATCATCA 
    ATTGATAGCT CTACAGACGA CGATCGTTTG ATGATTCATA ACAAAAAGCT AGATAAATTA 
    CATCGGACAA GCCTTGATTT TGATCGTATT AAATCCAGTG ATTATTTCAA TGCGGTTGGT 
    AGTGAAGAAG ATTTAAGAAA TAAATTATCC CGCAAAAATT CTAGAACTCG CATTATGTCT 
    GACACATCTG ATGATGAAAG ATCCAATAAA AGAAGTATCA GTAAAAGCCC TCCTTTTATT 
    ACTAACATCA AAAAAGAAAT TATCTCTGAT TCTGAATCTT CACAAAGGAC TAAAGATGAT 
    ACTTCAAAAG AAGTCAGTGA TGACAAAATA AAAAGGAACT CCTTATTAAA TTTGTTTGGT 
    AAGAGTGATA GTGAGGATAG TAAATTAAAA TCAAGCGTGG AAACTGATTT GGAATACAAA 
    CATAACTTTA ATAAATCTGT CATAGATTTT TCTTCAGAGA GCGAATCTAT GACTTCGAAC 
    AGAAATGCTT TGGAAATTCG TAAAAAACAT AAACGAAAAC AAAAGAAACA TAAATTCTCT 
    TTTTCCGATG ATGACGGTAA AGTGCATGAA AACAGTGAAG GCTTTGAAAA CAAACATAAA 
    CATTCTGAAA AAATGCGGCG CCACAGTAAT AAAAAAGAAA AAAGGAAAGA TAAAACCCGT 
    GAAAGTGTAG ATACTGATGA TACTCGGGAA GACAAAATTC GATTCAAGAA GGAGAAAAAG 
    CCCACCAACA GTTCTTTTGA ATTTTCAATG GATTCTGTTT CTAAAAAAGA AGGTAAAATG 
    GAGGATATTT TTGGTCCACT GTCAGATGAA TCAGATAAAG AGGCAAGAGT TTCACAACCA 
    AATAATACAC TAGACTTCTC CCATAGTTAC GAGTCCTACA GTGCCCCTCA TAATCAACCA 
    ACCCTTGCGG TAAATTGCGA CGAAAGCAAA TGTAAAGAGA AAGATGAAAA TAAACGGAAA 
    AAAGAGAAAA GGAGAAGAGA TAAGAGATAT ATTGCAAAGG AAGACGAAAA TAGCTTAGAC 
    GTAGACGCAG TTAGTAAAGC CATTGAAGCC CGGTTGATTG AAGACACCGT GTCCGATGAT 
    GAAAATAGAT CTATTTTAGA AACGCTGGAT ATTAAGCGTG ACGATACAAA TGAGTTTACA 
    TATAAAAATG AACTTTCTGA AAATAATAAA ATCAATGAGC GGCATAGTGA GAAAAATAAA 
    AAAGATTGCA GGGAAAAGAA GAAGAAAAAG AAAAGGAGCA GAGAACAACG ACAAAGTCGT 
    AAAGATCATC ACCATTATCA TCATCATCAT GATAAATTGG AAAAGTCTGA CATTTTACTT 
    GAAAAGCCTC TTGTTGAAAT CTCTAACAAA ACTCTGCTTT TAGATATACC TCTTCCGAAT 
    GAGCCGGAAA ACGTTGCTGA TAAGTCAGAT GATTGTAAGT CACTCTCTGA GTCTCCTAGT 
    CTACCTAGAC TAACAGAAAG TCCCCCAACT GCCATACCAG ATTTAGACTC CCGCGATGCG 
    GATCCTAGTT CACCAGGAGT TATATCTATT GAATCTAGCA TTGATAGTGA GTATTTGGGA 
    AAGAAAATGA TTGAAGTCGA TGAAATACCT ATGCCTGCTC CCATTGAATG TGATATCAGT 
    GAAGTGCCCT TACCAAGTGG TGATCCTGCG CCAATAATTT CAGATCAAAG TAATAGTGAA 
    TCTACGTCAT TTTCCTGCAC GCTTATGGAC ACTATTGACA GTAGCGAAAC CGCTGTGCGC 
    AGCATATCAA ATTTGTCTGA TACTAATTCT AATGTAGAAA AAGTGGAAAT GTCACCGAAA 
    AATGATAAAA AAGTGGAAGA AAAACCAAGA GCAATAATAT CACAAGAAGA GACGGCAGAT 
    GCGGTGGCTG CTCTTTTAGG TGAAAGTTTT GGCGGCAAAG TTGATTTTTC TGACTATGAA 
    CAAGTTGAAA CCAATGTTTC GAGTCAAACT GAAATAGAAA GTGTTACAAT TGAAACTGAA 
    ACTATACCTG AAGAAGATGC CGAAGAAATG AGACAGGCGG TTCAGAACTT AAATGCTTGT 
    GAAATGGAAA TGAAACCAGA CACTCCAGTA TCAGACAGTG ATCTCTTTAT TGACACTGAT 
    ACTGAGGAAG CTGATGAGAC TCCCCAAGAT GCAATTGAAA CACTGCCTAT AAATATAATT 
    GCTACAAATC AATCCTTAAG TACATCTGAG GAACAGTCAA AAATAATTTC TAAACCAAAA 
    ACTACTGTGG TTAAAGTATT GACATCTGAA GGAAATGAAT CAAGCCTGAA AAGCAATGAT 
    GCTGAATTCA AGATTCAATT AGCTAAACGG GAAACAACGC AGCAAATAAC TTCAACTGCG 
    ACTCCAGTGA TAACATCTTG GACTTTAAGT AGCAATAAAT TAGAACCGCA TCATGTTTTA 
    AATATTCAGC CTAATCAGTT GGTGAGTAGA GAAAAGTCTG AAGTTAAGCC AACACATATT 
    ACAGCTAATA TTGTGCAAAT TAAGACCCCA TCAACTCAGA ACATGCAAAT GAATAATACT 
    TTACGGCCTA TCATTGCGCC CGCTCGAGTA AGCGCACCCT ACCAAGTAAT AAACCAAATC 
    ATTCGGCCAC AAGTGTCGAA CATGCAACCT CCAACTATAA AAATACCAGA ACAACACATT 
    TTATATCAAA AGTCACCAGG AATAGTCATA TCTCCTAGAA ATACTAGTGA TCCAAGATTA 
    CAAAGTCCCA AATCTACATC TCAGAATGAA GGTTTGCTTT CTCCACGATT GACTAATATG 
    GCTATATTGA GTACTCCGCA AAGTTTAAAT TCAGCCGGTA TCGGGACACC TAATATGCAG 
    CAAAGATCTC CTGGTCAAGT GACGGTCGTA AGGATGCAAC AACCATCATT GAGCCCCATC 
    CAAGCAATGC ATTTACCACA TGGTGCTAGA ACTATGGTGT CCCCGAGCAG ACCTAATTCT 
    GTGCTAGTTC AAACCCAGGG AGCCCCAATA CAATTTAATC GATTACCGGT AACTCCAGTC 
    TTAGCACCTA TTTCAAAACA AATAAGTGTT GGCAACATAG TCCAGAATAA AGGAAATAAT 
    GTCAGTGTTT CACCATCTAT TCATCATTCG AAAATAATAA CTACAGCAGA TATCAGAAAA 
    AGTGATTTAA GAAATACTTC TGATGGCATT AGCGAGCCTA AAATAATTTT GTCACCGACT 
    AGTTTACAAC AGAATAATAA CCCTACAGTG ATGGCTCAGA ATCGTCTCAT ATCTATGCAA 
    AATGCAATGC ATGTTGGAAA TATAAATACT TCTCTTCATT TACCCAATAA AGTTTTAATT 
    AATAATATAA ATTCACTAAA CGAGAAGAGA GATACTCAAA CACAAAAGTC AGATCAACAT 
    AATCATATAC CCTTTGGTTC GCCGCCAATA ATACATGTAG CTGGAGTTAA TCATTCTACT 
    GCGTCAATCA TTCAAAGTGG AACGAAGCCA GTGATGTGCA CAATTCAGGA ACCCAATAAC 
    ATTAACAGAA GTCAAAATTC TAATGTTATT CATACTTTAA ATTCGCCGAG ACTGCTCACA 
    ACTGCACCTA TTAGTAAAGT CATTCAAATT GATGCTGCCA ATAAGGGAGC ACCACCGTCG 
    GTGTTATCAA TGGCGACTAT CAGGTCTCCA ACAGTCTTGA CACGATTAGA GTCTTCCAAT 
    TCAGTTGCAG TTACGACAAC TAGTTTAACT AATGTAGTAA TGACGCCTTT GTTATTAAAA 
    ACCACAAATG CCTCGGGAGC TATAAGAGTT AACCAAGATA AAGCTGAAAG TCAAAGTCAT 
    CATAATCACA TAGCACAAGG AACGGATAAG CAAATTGAAG AAAAATCAAG TCAGTCTCCA 
    TTTTTATACG ATTCTATAGA TAAAGATAAG GAAGGAGTAC ATTTGAAAAA AGTTAAGTCG 
    TCTGTGGAAA TTATNGATAG TGAAAATAAA ATAGAAGATA CAAATAATTC GATTAAATCT 
    GAACCGGAAA TTCAGAGCCA CCGCATATTC TCTTGA

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

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