GSL2 cDNA ORF clone, Candida dubliniensis CD36

  • Gene

  • Clones

  • gRNAs

The following GSL2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GSL2 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
OCr05466 XM_002421642.1
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Candida dubliniensis CD36 glucan synthase, putative (GSL2), partial 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)
    CloneID OCr05466
    Clone ID Related Accession (Same CDS sequence) XM_002421642.1
    Accession Version XM_002421642.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5259bp)
    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 2017-08-27
    Organism Candida dubliniensis CD36
    Product glucan synthase, putative
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NC_012867). COMPLETENESS: incomplete on both ends.

    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
    ATGATACTAA CTTTTTTGTT TAACTATACA GATCGGAATC CCAAAGGTTA TACGTCGGCA 
    TTCCCGCTGA CTGGATTTAG AACCCCATAT GTCAACTCAA GTAGATGGCA AGAAGTTCAA
    AAAATTGGCA ACTTTGATGA CTTTGAAGAT AAGTTTACTG ACGAACCCGG AAAGCAATTG
    GGCGAAAATG GGATCTACGA TATCTATTCC AACAAATATG ATCCATACCC CACTTGGAAC
    CCCCCAGAAG CAGTCCCTAT TACACGTGAA GACATTGAAG CTATTTTCTT GCAGCTAACT
    ACTATATTTG GGTTTCAGTT TGATAATACT AGAAACATGT TTGATTATTT AATGCGATTA
    TTGGATTCAC GAACATCAAG ATTGGGGCCA ACTCATGCCC TTAGATCTAT TCATGCCGAT
    TACATTGGTG GCATGAATTC TAATTTTAGA AAATGGTATT TTGCAGCCCA GTTGGATATT
    GATGATTTTG TTGGTTTTGA CAATGTTGCC AAAAATGGGA AAATCAAAGG ATCAAATGAC
    CCGGTTCCGA CGTTGGAGCA AGCTGAACTG CAATGGTCGA CAAATATGCT AGCTTTATCT
    CCTACTGACT CGGTTATTCA ATTAGCTATA TACCTTTTGA TTTGGGGTGA AGCCAACAAT
    ATCAGATTTA TGCCTGAGTG TATTTGCTTC ATATTTAAAT GCTGCAATGA TTTTTATTTT
    TCCATCGATC CAGATACACC AGTGGCAACT GCCACTCCAA GCTTTTTAGA TCACATAATT
    AGTCCCCTCT ACAACTTTTA CCGAGACCAA TCGTACATTC TTGTTGATGG GAAGTACCGT
    CGTCGCGACA AAGACCACGA GTCTGTGATT GGTTATGATG ATATGAACCA ATTGTTTTGG
    TATAGTAAAG GTTTGGAGAG ACTTGTTTTG GCAGATAAGA AATCTAGATT GATGAGTCTT
    CCACCAGGAG AGAGGTATCA GAAACTAAAT CAAGTATTAT GGAATCGAGT CTTTTATAAG
    ACTTTCAAGG AAAGCAGAGG CTGGTCACAT GTATTGGTAA ATTTTCACCG GGTTTGGATA
    ATTCACAGTG CTGTATTCTG GTATTACACA GCTTTCAACT CACCAACATT ATACACGAAG
    AATTATCAGC CATCGTTAGA TAACCAACCC ACAACGCAAG CAAGATTATC AGTATTATCA
    CTTGGTGGTG TAGTTGCTGT TGTCATTGAT ATTATTAGTT TATTGTTTGA GTTACGGTTT
    ATTCCCAGAA AATGGACAGG GGCCCAACCT GTTAGTAAAA GATTGGCGTT GTTGATTTTG
    GCATTGGTTC TTAATGTGGG TCCGAGTGTC TACTTGTTTA TGTTTATTCC TTTAAATGTC
    GAAACCACGG TAGGTCTAGT CATTTCCGCT TTCCAGTTTT CATTTTCTGT CATTATGGTT
    TTATATTTAT CTACGGTACC ATTGGGAAGG CTCTTTTCCA AAAAACCCAA AGCCAATGAT
    AGAAGATTTT TGCCCCAACG TCTGTTTGTG ACTAATTTCT ATTCACTAGC TGAAGGTGAT
    AGAGTTGCAT CTTATGGTTT GTGGTTTGCT ATATTTGTGT CAAAATTCAT TGAGTCATAT
    TTCTTTTTGA CTCTATCTTT GAGAGATCCT GTTCGTGAAT TGAGTATAAT GAAAATGAAT
    AGATGTGCTG GCGAGGTGTG GCTAGGCAGC TGGTTTTGTA CTAGACAACC AACAATTGTT
    TTGGGGTTGA TATATCTTAC TGATTTGGTA TTATTTATAT TAGACACCTA CTTGTGGTAT
    ATTGTATGGA ATACAGTGTT TTCAGTTTGT CGCTCGTTTT ACATTGGTGT TTCCATTTGG
    ACTCCATGGC GAAACATATT TTCAAGGTTA CCCAAAAGAA TATTTTCTAA AATAATCTCA
    GTTTCTGGAG ATAAAAACAT AAAGTCAAAG TTGCTTGTTT CCCAAGTATG GAATTCTATC
    ATTATTTCCA TGTACAGAGA ACATTTGATA TCTTTGGAGC ATGTTCAGAA ACTTATCTAC
    AAGCAGATTG ACAACCCTGG GGTTGAAGGC GATTCTGTTT TGAAAGAACC AATCTTTTTT
    GTTTCACAAG AAGATCAAAC GATAAAATCA TCATTGTTCC AAGATCAAGC AGAAGCACAA
    CGAAGGATTA CATTTTTCGC CCAGTCTCTA TCGACACCTA TGCCTGAAGT AGGTCCAGTA
    CATTTAATGC CGTCGTTTAC CGTTTTAATT CCTCATTACA GTGAAAAGAT AACTTTATCA
    TTACGGGAGA TAATACGAGA GGAAGAACAA TATTCTCATG TCACAATGCT AGAATATTTA
    AAGCTGTTAC ATCCGTTGGA GTGGAGCTGT TTTGTAAAAG ATACCAAGTT GTTGGCAGAA
    GAGTTTGAAA CAGATTCGTC ATCAGCAGAA CTTAAGAGAG AGAAACTCGA TGATCTCCCA
    TATTATTCTG TTGGATTCAA GGTCGCTACA CCAGAATACA TACTTCGAAC TCGAATCTGG
    GCATCACTCC GCTCCCAAAC ACTTTATAGA ACGATTTCTG GCTTTATGAA TTACTCACGT
    GCTATTAAGT TGTTATTTGA TGTTGAGAAT CCAGACCTGA CTAAATTTGG CACTGAAAAT
    GACAAATTGG AACAAGCAGC AATAATGGCT CATCGTAAAT TCCGAATTAT TACTTCAATG
    CAAAGATTAA AGTATTTTAC ACCTGAAGAA AAGGAAAACA CGGAGTTCTT GTTACGAGCT
    TATCCTGAGC TACAGATATG TTATCTTGAT GAAGAAATTG ACGAGGCTTC TGGTGAGGTT
    GTTTATTATT CAGCATTAGT AGATGGCAGT TGTGCAATAT TGGAAAATGG TGAAAGAGAG
    CCAAAGTACC GTATTCGCTT ATCGGGGAAC CCAATTCTTG GAGATGGGAA ATCAGATAAC
    CAGAATCATT CCTTGATATT TTGCAGAGGT GAGTATATTC AACTAGTTGA TGCCAACCAA
    GACAATTATT TGGAAGAGTG TCTTAAAATC AGAAGCATTT TGGCAGAATT TGAGGAAGCA
    ACGTTCCCCT TGGACCCTTA TTCCACTGAT TTGGAAGGCA CAGAGCTGGT ATACCCTGTT
    GCCATTATTG GAACAAGAGA ATATATTTTT TCAGAGAATA TTGGAATTCT TGGCGATGTT
    GCTGCTGGGA AAGAGCAAAC TTTTGGTACT TTGTTCGCCA GAACATTGGC TCATATTGGA
    GGGAAATTGC ACTATGGTCA TCCAGATTTT TTGAATGGGA TTTTTATGAC AACTAGAGGT
    GGTGTTTCCA AGGCGCAAAA GGGCTTGCAT TTAAATGAAG ATATTTATGC CGGCATGAAT
    GTGGTCTTAA GAGGTGGTCG TATCAAACAC TGTGAATATA TGCAGTGTGG AAAGGGAAGA
    GATTTGGGGT TTGGCTCGAT ATTGAATTTT ACTACAAAGA TAGGGGCAGG AATGGGTGAG
    CAAATGCTCT CAAGAGAGTA TTTCTATATG GGTACTCAAC TTCCATTGGA TAGGTTCTTG
    TCGTTTTACT ATGCTCATTC GGGATTCCAT TTGAATAATT TGTTTATAAT GCTTTCTATT
    CATTTGTTTC TACTCGTTGG TGCTAATCTT GCAGCTCTAA CTAGCGAAAG CACAATTTGT
    GAATATGACA AATTCAGACC CATAACTGAT CCTAAACGGC CTCATGGGTG CTACAATTTG
    ATTCCTGTGG TTCATTGGTT GCAGAGATGT ATATTTTCTA TTTTCATCGT GTTTGTTATA
    TCTTTTGTAC CTTTGGCAGT ACAAGAATTA ACTGAAAGAG GATTCTATAA AGCCATTACG
    AGATTGGGAA AACAGTTTGC ATCGTTCTCT CCGTTGTTTG AGGTATTTGT TTGCAAAATA
    TATGCCCATT CGTTGTCCAG TGACATTTCA ATTGGTGGCG CCAGGTATCT TGCTACAGGT
    CGAGGTTTTG CAACTATAAG GGTTCCATTT GCCACTTTGT ATTCTCGATT TGCAGTAGAG
    AGTTTATATT ATGGATCTAT TTGCGGATTA TTGATATTTT ACTGCTCCCT ATCAATGTGG
    AAACTACAAT TGTTGTACTT CTGGATTACC ATCCTTGGAC TATTGATATG TCCTTTTTTG
    TATAATCCGA ATCAGTTTTC TTGGAACGAC TTCTTTCTTG ATTACAAGGA ATGTATCCAA
    TGGTTCTATC GTGGTAACAG TAAGCCAAGA CTTTCATCTT GGATAAATTT TACGAGACTT
    AAACGGAGCC GAATTGTGGG TGTGAAAAGC AAAAGATACA GTATAAACGA AGAAATTAAA
    GTTGTTAGTG AAGTTAAACC ATCAAGATTT AAACTCATTA TTTCAGAATC GTTCTTACAG
    TTATGCGTCA TTACTTTAGT TGGACTTGCT TATTTGTTTA CCAACTCCCA AAACGAATCT
    CGAGGGACCT ATCCAGTCAA CAGTATCTTG AGAATTCTTA TCATCAGTTT TGTGCCAATT
    GGTATAAACC TCGTTATATT GATTGTTTGC TTTGTGGTAT CTACATGTAT TGGCCCCATA
    TTCACGTTAT TCTGTAAGAA ATTCCCCTCA TTTGTTGCAG CAATAGCTCA CTTGCTAGCA
    GTTGTCAATC ATGTATTTTT CTTTGAGTTA TTGTGGCTAT TACAAAATTG GAACTTTTCA
    GTTACAGTTC TTGGGTTTGC ATTATCAACT CTAATTCAAT GTTGGTTTTT ACAAATGATG
    ACCATTTTGC TAGTTTCCAG AGAGTTCAGA CACGATAGGT CTAACCGTTC ATGGTGGTCA
    GGTAAATGGG CAACAGCTGG TTTAGGGTGG TATATAATAA CCCAACCTAT GAGAGAAGCT
    GTATGCAAAT TAAGCGAGAT GTCTTATTTC GCTGGCGATT TAGTTGCAAC TCATATTATT
    TTGTTTGCTC AGATCCCTAT ATTATTGATT CCCTACGCTG ACAAATGGCA TACATTAATG
    TTGTTCTGGT TGAAGCCTGG TAACCAGATA CGTCCTAGAA TATTATCCAA ACGTCAAAAA
    AGAAGAAGAA GATTTCAAGC AAACTTGTAC TTGCTCATCT TTTTGTTGGG ATTAATATTG
    TTTTCAAGTA TATTTGTTTT GCCAGTGATT GCTACCAAGT ATTTTGATAT CGGTTTTTCT
    GAGTATATTC CAGAGTTCTT ACATCCATTG TTTCAACCCT ACGATGCTCC TACAAATTTG
    AAAGGATTAA AGAAAAAATT AGAAATTAAG CATTATTAG

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

    RefSeq XP_002421687.1
    CDS1..5259
    Translation

    Target ORF information:

    RefSeq Version XM_002421642.1
    Organism Candida dubliniensis CD36
    Definition Candida dubliniensis CD36 glucan synthase, putative (GSL2), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002421642.1

    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
    ATGATACTAA CTTTTTTGTT TAACTATACA GATCGGAATC CCAAAGGTTA TACGTCGGCA 
    TTCCCGCTGA CTGGATTTAG AACCCCATAT GTCAACTCAA GTAGATGGCA AGAAGTTCAA
    AAAATTGGCA ACTTTGATGA CTTTGAAGAT AAGTTTACTG ACGAACCCGG AAAGCAATTG
    GGCGAAAATG GGATCTACGA TATCTATTCC AACAAATATG ATCCATACCC CACTTGGAAC
    CCCCCAGAAG CAGTCCCTAT TACACGTGAA GACATTGAAG CTATTTTCTT GCAGCTAACT
    ACTATATTTG GGTTTCAGTT TGATAATACT AGAAACATGT TTGATTATTT AATGCGATTA
    TTGGATTCAC GAACATCAAG ATTGGGGCCA ACTCATGCCC TTAGATCTAT TCATGCCGAT
    TACATTGGTG GCATGAATTC TAATTTTAGA AAATGGTATT TTGCAGCCCA GTTGGATATT
    GATGATTTTG TTGGTTTTGA CAATGTTGCC AAAAATGGGA AAATCAAAGG ATCAAATGAC
    CCGGTTCCGA CGTTGGAGCA AGCTGAACTG CAATGGTCGA CAAATATGCT AGCTTTATCT
    CCTACTGACT CGGTTATTCA ATTAGCTATA TACCTTTTGA TTTGGGGTGA AGCCAACAAT
    ATCAGATTTA TGCCTGAGTG TATTTGCTTC ATATTTAAAT GCTGCAATGA TTTTTATTTT
    TCCATCGATC CAGATACACC AGTGGCAACT GCCACTCCAA GCTTTTTAGA TCACATAATT
    AGTCCCCTCT ACAACTTTTA CCGAGACCAA TCGTACATTC TTGTTGATGG GAAGTACCGT
    CGTCGCGACA AAGACCACGA GTCTGTGATT GGTTATGATG ATATGAACCA ATTGTTTTGG
    TATAGTAAAG GTTTGGAGAG ACTTGTTTTG GCAGATAAGA AATCTAGATT GATGAGTCTT
    CCACCAGGAG AGAGGTATCA GAAACTAAAT CAAGTATTAT GGAATCGAGT CTTTTATAAG
    ACTTTCAAGG AAAGCAGAGG CTGGTCACAT GTATTGGTAA ATTTTCACCG GGTTTGGATA
    ATTCACAGTG CTGTATTCTG GTATTACACA GCTTTCAACT CACCAACATT ATACACGAAG
    AATTATCAGC CATCGTTAGA TAACCAACCC ACAACGCAAG CAAGATTATC AGTATTATCA
    CTTGGTGGTG TAGTTGCTGT TGTCATTGAT ATTATTAGTT TATTGTTTGA GTTACGGTTT
    ATTCCCAGAA AATGGACAGG GGCCCAACCT GTTAGTAAAA GATTGGCGTT GTTGATTTTG
    GCATTGGTTC TTAATGTGGG TCCGAGTGTC TACTTGTTTA TGTTTATTCC TTTAAATGTC
    GAAACCACGG TAGGTCTAGT CATTTCCGCT TTCCAGTTTT CATTTTCTGT CATTATGGTT
    TTATATTTAT CTACGGTACC ATTGGGAAGG CTCTTTTCCA AAAAACCCAA AGCCAATGAT
    AGAAGATTTT TGCCCCAACG TCTGTTTGTG ACTAATTTCT ATTCACTAGC TGAAGGTGAT
    AGAGTTGCAT CTTATGGTTT GTGGTTTGCT ATATTTGTGT CAAAATTCAT TGAGTCATAT
    TTCTTTTTGA CTCTATCTTT GAGAGATCCT GTTCGTGAAT TGAGTATAAT GAAAATGAAT
    AGATGTGCTG GCGAGGTGTG GCTAGGCAGC TGGTTTTGTA CTAGACAACC AACAATTGTT
    TTGGGGTTGA TATATCTTAC TGATTTGGTA TTATTTATAT TAGACACCTA CTTGTGGTAT
    ATTGTATGGA ATACAGTGTT TTCAGTTTGT CGCTCGTTTT ACATTGGTGT TTCCATTTGG
    ACTCCATGGC GAAACATATT TTCAAGGTTA CCCAAAAGAA TATTTTCTAA AATAATCTCA
    GTTTCTGGAG ATAAAAACAT AAAGTCAAAG TTGCTTGTTT CCCAAGTATG GAATTCTATC
    ATTATTTCCA TGTACAGAGA ACATTTGATA TCTTTGGAGC ATGTTCAGAA ACTTATCTAC
    AAGCAGATTG ACAACCCTGG GGTTGAAGGC GATTCTGTTT TGAAAGAACC AATCTTTTTT
    GTTTCACAAG AAGATCAAAC GATAAAATCA TCATTGTTCC AAGATCAAGC AGAAGCACAA
    CGAAGGATTA CATTTTTCGC CCAGTCTCTA TCGACACCTA TGCCTGAAGT AGGTCCAGTA
    CATTTAATGC CGTCGTTTAC CGTTTTAATT CCTCATTACA GTGAAAAGAT AACTTTATCA
    TTACGGGAGA TAATACGAGA GGAAGAACAA TATTCTCATG TCACAATGCT AGAATATTTA
    AAGCTGTTAC ATCCGTTGGA GTGGAGCTGT TTTGTAAAAG ATACCAAGTT GTTGGCAGAA
    GAGTTTGAAA CAGATTCGTC ATCAGCAGAA CTTAAGAGAG AGAAACTCGA TGATCTCCCA
    TATTATTCTG TTGGATTCAA GGTCGCTACA CCAGAATACA TACTTCGAAC TCGAATCTGG
    GCATCACTCC GCTCCCAAAC ACTTTATAGA ACGATTTCTG GCTTTATGAA TTACTCACGT
    GCTATTAAGT TGTTATTTGA TGTTGAGAAT CCAGACCTGA CTAAATTTGG CACTGAAAAT
    GACAAATTGG AACAAGCAGC AATAATGGCT CATCGTAAAT TCCGAATTAT TACTTCAATG
    CAAAGATTAA AGTATTTTAC ACCTGAAGAA AAGGAAAACA CGGAGTTCTT GTTACGAGCT
    TATCCTGAGC TACAGATATG TTATCTTGAT GAAGAAATTG ACGAGGCTTC TGGTGAGGTT
    GTTTATTATT CAGCATTAGT AGATGGCAGT TGTGCAATAT TGGAAAATGG TGAAAGAGAG
    CCAAAGTACC GTATTCGCTT ATCGGGGAAC CCAATTCTTG GAGATGGGAA ATCAGATAAC
    CAGAATCATT CCTTGATATT TTGCAGAGGT GAGTATATTC AACTAGTTGA TGCCAACCAA
    GACAATTATT TGGAAGAGTG TCTTAAAATC AGAAGCATTT TGGCAGAATT TGAGGAAGCA
    ACGTTCCCCT TGGACCCTTA TTCCACTGAT TTGGAAGGCA CAGAGCTGGT ATACCCTGTT
    GCCATTATTG GAACAAGAGA ATATATTTTT TCAGAGAATA TTGGAATTCT TGGCGATGTT
    GCTGCTGGGA AAGAGCAAAC TTTTGGTACT TTGTTCGCCA GAACATTGGC TCATATTGGA
    GGGAAATTGC ACTATGGTCA TCCAGATTTT TTGAATGGGA TTTTTATGAC AACTAGAGGT
    GGTGTTTCCA AGGCGCAAAA GGGCTTGCAT TTAAATGAAG ATATTTATGC CGGCATGAAT
    GTGGTCTTAA GAGGTGGTCG TATCAAACAC TGTGAATATA TGCAGTGTGG AAAGGGAAGA
    GATTTGGGGT TTGGCTCGAT ATTGAATTTT ACTACAAAGA TAGGGGCAGG AATGGGTGAG
    CAAATGCTCT CAAGAGAGTA TTTCTATATG GGTACTCAAC TTCCATTGGA TAGGTTCTTG
    TCGTTTTACT ATGCTCATTC GGGATTCCAT TTGAATAATT TGTTTATAAT GCTTTCTATT
    CATTTGTTTC TACTCGTTGG TGCTAATCTT GCAGCTCTAA CTAGCGAAAG CACAATTTGT
    GAATATGACA AATTCAGACC CATAACTGAT CCTAAACGGC CTCATGGGTG CTACAATTTG
    ATTCCTGTGG TTCATTGGTT GCAGAGATGT ATATTTTCTA TTTTCATCGT GTTTGTTATA
    TCTTTTGTAC CTTTGGCAGT ACAAGAATTA ACTGAAAGAG GATTCTATAA AGCCATTACG
    AGATTGGGAA AACAGTTTGC ATCGTTCTCT CCGTTGTTTG AGGTATTTGT TTGCAAAATA
    TATGCCCATT CGTTGTCCAG TGACATTTCA ATTGGTGGCG CCAGGTATCT TGCTACAGGT
    CGAGGTTTTG CAACTATAAG GGTTCCATTT GCCACTTTGT ATTCTCGATT TGCAGTAGAG
    AGTTTATATT ATGGATCTAT TTGCGGATTA TTGATATTTT ACTGCTCCCT ATCAATGTGG
    AAACTACAAT TGTTGTACTT CTGGATTACC ATCCTTGGAC TATTGATATG TCCTTTTTTG
    TATAATCCGA ATCAGTTTTC TTGGAACGAC TTCTTTCTTG ATTACAAGGA ATGTATCCAA
    TGGTTCTATC GTGGTAACAG TAAGCCAAGA CTTTCATCTT GGATAAATTT TACGAGACTT
    AAACGGAGCC GAATTGTGGG TGTGAAAAGC AAAAGATACA GTATAAACGA AGAAATTAAA
    GTTGTTAGTG AAGTTAAACC ATCAAGATTT AAACTCATTA TTTCAGAATC GTTCTTACAG
    TTATGCGTCA TTACTTTAGT TGGACTTGCT TATTTGTTTA CCAACTCCCA AAACGAATCT
    CGAGGGACCT ATCCAGTCAA CAGTATCTTG AGAATTCTTA TCATCAGTTT TGTGCCAATT
    GGTATAAACC TCGTTATATT GATTGTTTGC TTTGTGGTAT CTACATGTAT TGGCCCCATA
    TTCACGTTAT TCTGTAAGAA ATTCCCCTCA TTTGTTGCAG CAATAGCTCA CTTGCTAGCA
    GTTGTCAATC ATGTATTTTT CTTTGAGTTA TTGTGGCTAT TACAAAATTG GAACTTTTCA
    GTTACAGTTC TTGGGTTTGC ATTATCAACT CTAATTCAAT GTTGGTTTTT ACAAATGATG
    ACCATTTTGC TAGTTTCCAG AGAGTTCAGA CACGATAGGT CTAACCGTTC ATGGTGGTCA
    GGTAAATGGG CAACAGCTGG TTTAGGGTGG TATATAATAA CCCAACCTAT GAGAGAAGCT
    GTATGCAAAT TAAGCGAGAT GTCTTATTTC GCTGGCGATT TAGTTGCAAC TCATATTATT
    TTGTTTGCTC AGATCCCTAT ATTATTGATT CCCTACGCTG ACAAATGGCA TACATTAATG
    TTGTTCTGGT TGAAGCCTGG TAACCAGATA CGTCCTAGAA TATTATCCAA ACGTCAAAAA
    AGAAGAAGAA GATTTCAAGC AAACTTGTAC TTGCTCATCT TTTTGTTGGG ATTAATATTG
    TTTTCAAGTA TATTTGTTTT GCCAGTGATT GCTACCAAGT ATTTTGATAT CGGTTTTTCT
    GAGTATATTC CAGAGTTCTT ACATCCATTG TTTCAACCCT ACGATGCTCC TACAAATTTG
    AAAGGATTAA AGAAAAAATT AGAAATTAAG CATTATTAG

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