ARHGEF40 cDNA ORF clone, Bos taurus(cattle)

The following ARHGEF40 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGEF40 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.

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OBa01803 NM_001205941.1
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Bos taurus Rho guanine nucleotide exchange factor (GEF) 40 (ARHGEF40), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
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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 OBa01803
    Clone ID Related Accession (Same CDS sequence) NM_001205941.1
    Accession Version NM_001205941.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4563bp)
    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 2011-11-15
    Organism Bos taurus(cattle)
    Product rho guanine nucleotide exchange factor 40
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AAFC03100398.1 and AAFC03073382.1. On Apr 20, 2011 this sequence version replaced XM_605753.5. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments.

    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
    ATGGAGCCTG AGCCAGTAGA GGACTGTGTG CAGAGTACTC TAGCGGCCCT TTACCCACCT 
    TTCAAGGCAA CAGCCCCCAC ACTGTTGGGC CAAGTGTTCC AGGTGGTGGA GAGGACTTAT
    CGGGAGGATG CGCTGAGATA CACACTGGAC TTCCTGGTGC CTGCCAAGCA CCTGCTTGCC
    AAGATCCAGC AGGAAGCCTG TGCCCAGTAC AGCGGTTTCC TCTTCTTCCA CGAGGGCTGG
    CCCCTCTGCC TGCACGAGCA GGTAGTGGTG CAGCTGGCCG CCCTCCCCTG GCAGCTGCTG
    CGCCCGGGAG ACTTCTACCT GCAAGTGGTA CCCTCAGCAG CCCAAGCACC CCGCCTAGCA
    CTCAAGTGCC TGGCCCCAGG GGGTGGGCGA GTGCAGGAGC TGCCTGTGCC TAATGAGGCT
    TGTGCATACC TGTTCACACC TGAGTGGCTA CAAGGCATCA ATAAGGACAG GCCAACAGGT
    CGCCTCAGCA CCTGCCTTCT GTCTGCGCCC TCTGGGATTC AGCGACTGCC CTGGGCTGAG
    CTCATCTGCC CTCGATTTGT GCACAAAGGA GGCCTCATGG TTGGACATCG GCCAAGCACA
    CTACCCCCAG AACTGCCCTC GGGGCCCCCG GGGCTCCCCA GCCCTCCACT CCCAGAGGAA
    GCCTTGGGCA CCCGGAGTCC CGGGGATGGG CACAATGCCC CCGCTGAAGG ACCTGAGGGC
    GAGTATGTGG AGCTGCTGGA GGTGACACTG CCTGTGAGGG GGAGCCCCAT GGATGCTGAA
    GGCTCCTCTG GCCTCTCCCG GACCCGGACA GTACCCACAC GCAAGGGTGC TGGAGGGAAG
    GGCCGGCATC GGAGACACCG GGCATGGATG CACCAGAAGG GTCTGGGGCC TCGGGACCAG
    GATGGAGCCC GGCCACCTGG TGAAGGGAGC AGCACTGGAG CCTCCCCTGG GTCTCCCCCG
    GGAGCTGAGG TTGAGGCTTT CCCAGAGGCA GCAGCCCTGG AGGTATCTGA GCCCCTGGCA
    GAGGCACTGG GAGAAGCCTC CGAGTCTTGC CCTCTGAGGC CAGGCGAGGT TGGAGCAGGA
    CCAGGCCAAG GGGCTGAAGG GCTGCCTGGT ACCCCTCGGA GAACAGGCAA AGGAAACAGG
    AGAAAGAAGC GAGCTGCAGG CAGAGGGGCT CTTAACCGAG GAGGGGACAG TGCCCCACTG
    AGCCCTGGGG ACAAGGAAGA GACCAGCCAC CAGGAAGCCC TTGTCAGCCT GCCCCCACCA
    AACGAACACG AGCTTCCAGG ATGCAGCCCA GTTAAGGAGG AACATGAAGG CTCGGGGAAG
    CCAGAACCTG AGCCAAGAGA GGAGCTCAAA CCACCAGATG AAAAAGAGCC TCGGTCCCAA
    GAAGTCTGCG GGCCTGTAGA AGAAAGGGCC AGAGAAAGAG AACAGGAGGG GCTAAGCCTG
    GTGTGCATGG CAGCGCCCAA CGATCCAGAA GGGCTCCTCT CCGACCCCCT AAAACCACCC
    CCAGAGACTG TGCAAGAAGT GAAAGGGGAG AGCATTCCGG AAGAAGGGCC CCCAGTCTCC
    ATCTCTGATG ACCCTGGTGT AGCTTGGGAC TTACTGGCAT CTGGATTCCT CATCCTGACT
    GGAGGGGTGG ACCAGAGTGG GCGAGCTCTG CTGACCATTA CCCCACCGTG CCCTCCCGAG
    GAGCCCCCAC CCTCCCAAGA CGTGCTGAGC ACTGCTCTTC ATTACCTTCA CTCACTGCTC
    AGACCTGATC TACAGATATT GGGGCTATCT GTCCTGCTGG ATCTTCGCAA GGCACCCCCA
    CTGCCTCCAG CTCTCATTCC TGTCCTGAGT CAACTTCAGG ACTCGGGAGA CCCTCCCCTC
    ATTCAGCGGC TCTTGCTTCT CACTCTTGAT GAGCCTCCAG CTGAACTCCA TGGACTTCAG
    GGTGCTGAGT TGCTATCAGA GGGCGATCTG AAAAGAGTGG CCAAGCCAGA GGAGCTGCAG
    TGGGACTTGG GAGGTCACAG GGAGCCCTCT CCTAGTCACT GGGTAGAGAC ACACCAGCAA
    GTGGCAAGGC TGTGCCACCT GTGCCGAGGT GTGCTGGGCT CTATACGGCA AGCCATTGAG
    GAACTAGAGA GAGCAGCAGA GCCAGAAGGA GAGGAGGTGG TAGGAATGCC TGAGCCCCTG
    CAGAAGGTAC TGGCAGATCC CCGGCTGACA GAGCTGCAGA GGGACGGAGG AGCCATCCTG
    ATGAAGCTGC GATCCACCCA CAGCAGCAAG CTGGAAGGTC CAGGTCCAGC TGCACTGTAT
    CAAGAGGTAG ATGAAGCCAT TCACCAGCTC GTGCGCCTCT CCAATCTGCA CGTGCAGCAG
    CAGGAGCAGC GGCAACGCTT GCACCGACTG CAGCAGGCAC TGCAGTGGCT CTCAGGCCCC
    GGAGAGGAGC AGCTGGCGAG CTTTGCCGTG CCTGGGGACT CCCTGCCTGC CCTGCAGGAG
    ACAGAGCTAC GATTCCGGGC TTTCAGTGCT GAGGTTCAGG AGCGCCTGGC CCAAGCGAGG
    GAGACCCTGG CCCTGGAAGA GGACGCTGCC TCCCAGAAGC TTCTGGATGT CTTTGAACAG
    CGCCTGGAGC AGGTGGAGAG TGGCCTCCAT CGGGCTCTGC GGCTACAGCG CTTCTTCCAG
    CAGGCACACG AATGGGTGGA TGAAGGTTCT GCGAGGCTGG CAGGAGCGGG ACCAGGGCGG
    GAGGCAGTGC TGGCAGCCTT GGCCCTGCGG CGCGCCCCGG AGCCCAGCGC TGGCACCTTC
    CAGGAGATGC GGGCCCTGGC CCTGGACCTG GGCAGCCCGG CAGCCCTGCG AGAATGGGGC
    CGCTGCCGGG CCCGCTGCCA AGAGCTGGAG AGGAGGATTC AACAACAGCT GGGGGAGGAA
    GCAAGTCCCC GGGGCCACCG GCGACGACGG GCAGACAGTG CCAGCAGCGG AGGAGCCCCA
    CGGGGCCCCC ACAGCCCCTC ACCCAGCCTC AGCTCCCTGC TGCTCCCCAG CAGCCCCGGG
    CCACGGGCAG CCCCGTCCCA CTGCTCCCTG GCCCCCTGTG GGGAGGACTA TGAGGAGGAG
    GGTGCCGAGC TGGGTCCAGA AGCAGAAGGC AGACCACCAA GGACTGTGCT GATCCGAGGT
    CTGGAAGTCA CCAGTACGGA GGTGGTAGAC AGGACGTGCT CACCCCGGGA ACACGTGCTG
    CTGGGCCGGG CTGGGGGACC AGAAGGGCCC TGGGGAGTGG GCACCCCCCG GATGGAGCGC
    AAGCGGAGCA TCAGCGCCCA GCAGCGTCTG GTGTCTGAGC TGATTACCTG TGAGCAAGAA
    TATGTGGCTG CCTTAAGTGA GCCGGTGCCA CCCCCAGGGC CTGAGCTGAC CCCAGAATTG
    CGGGGCACCT GGGCTGCTGC CCTGAGCGCC CGGGAGAGGC TCCGCAGTTT CCACCGGACA
    CACTTTCTGC GGGAACTTCA GGGCTGCGCC ACCCACCCCC TGCGCATCGG GGCCTGCTTC
    CTTCGCCATG GGGACCAATT CAGCCTTTAT GCCCAGTACG TGAAGCACCG GCACAAACTG
    GAGACCGGTC TGACAGCCCT CAGCCCCCCA ACCAAGGGCA CCTTGGAGGG GGGCCCTCAC
    CTGCCCCGGG CCTTGCAGCA GCCCCTGGAG CAGCTGGCCA GGTATGGGCG GCTCTTAGAG
    GAGCTCCTAA GGGAAGCTGG GCCTGAACCA AGTTCTGAGC GCCAGGCCCT TGGGGCTGCT
    GTGCAGCTGC TCCGGGAACA AGAGATCCGT GGCAGAGACC TGCTGGCTGT AGAGGCGGTG
    CGTGGCTGTG AGATAGATCT GAAGGAGCAG GGCCAACTCC TGCACCGGGA CCCTTTCACA
    GTCATCTGTG GCCGAAAAAA GTGCTTTCGC CATGTCTTTC TCTTTGAGCA TCTCCTCCTG
    TTCAGCAAGC TCAAGGGCCC TGAGGGGGGG TCAGAGACCT TCGTTTATAA GCAGGCCTTT
    AAGACTGCCG ACATGGGGCT AACAGAAAAC ATCGGGGACA GTGGGCTCTG CTTTGAACTG
    TGGTTTCGGC GGCGGCGCGC ACGAGAGGCG TACACCCTGC AGGCAGCCTC ACCAGAGATC
    AAACTCAAGT GGACAAGTTC TATTGCCCAG TTGCTGTGGA GACAGGCAGC CCACAACAAG
    GAGCTCCGAG TGCAGCAGAT GGTCTCCATG GGCATTGGGA ATAAACCCTT CCTGGACATC
    AAAGCACTTG GGGAGCGGAC ACTGAGTGCC CTGCTCACTG GAAGAGCCGC CCGCACCCGG
    GCCTCGGTGG CCGTGTCATC CTTTGAGCAT GCCGGCCCCT CCCTTCCCGG TCTCTCCCCG
    GGAGCGTGTT CCCTGCCTGC CCGCGTCGAG GAGGAGGCCT GGGATCTGGA CGTCAAGCAA
    ATTGCCCTGG CCCCAGAAAC ACTTGACTCT TCTGGAGATG TGTCCCCAGG ACCGAGAAAC
    AGCCCCAACC TGCAAGCCCC ACACCCTGGG AGCAGCACTC CCATTCTGTC CAGTGGAGGG
    ATCTTAGGGC TATCCCGGCA GAGTCATACC CGGGCCCTGA GCGACCCCAC CACGCCTCTG
    TGA

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

    RefSeq NP_001192870.1
    CDS5..4567
    Translation

    Target ORF information:

    RefSeq Version NM_001205941.1
    Organism Bos taurus(cattle)
    Definition Bos taurus Rho guanine nucleotide exchange factor (GEF) 40 (ARHGEF40), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001205941.1

    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
    ATGGAGCCTG AGCCAGTAGA GGACTGTGTG CAGAGTACTC TAGCGGCCCT TTACCCACCT 
    TTCAAGGCAA CAGCCCCCAC ACTGTTGGGC CAAGTGTTCC AGGTGGTGGA GAGGACTTAT
    CGGGAGGATG CGCTGAGATA CACACTGGAC TTCCTGGTGC CTGCCAAGCA CCTGCTTGCC
    AAGATCCAGC AGGAAGCCTG TGCCCAGTAC AGCGGTTTCC TCTTCTTCCA CGAGGGCTGG
    CCCCTCTGCC TGCACGAGCA GGTAGTGGTG CAGCTGGCCG CCCTCCCCTG GCAGCTGCTG
    CGCCCGGGAG ACTTCTACCT GCAAGTGGTA CCCTCAGCAG CCCAAGCACC CCGCCTAGCA
    CTCAAGTGCC TGGCCCCAGG GGGTGGGCGA GTGCAGGAGC TGCCTGTGCC TAATGAGGCT
    TGTGCATACC TGTTCACACC TGAGTGGCTA CAAGGCATCA ATAAGGACAG GCCAACAGGT
    CGCCTCAGCA CCTGCCTTCT GTCTGCGCCC TCTGGGATTC AGCGACTGCC CTGGGCTGAG
    CTCATCTGCC CTCGATTTGT GCACAAAGGA GGCCTCATGG TTGGACATCG GCCAAGCACA
    CTACCCCCAG AACTGCCCTC GGGGCCCCCG GGGCTCCCCA GCCCTCCACT CCCAGAGGAA
    GCCTTGGGCA CCCGGAGTCC CGGGGATGGG CACAATGCCC CCGCTGAAGG ACCTGAGGGC
    GAGTATGTGG AGCTGCTGGA GGTGACACTG CCTGTGAGGG GGAGCCCCAT GGATGCTGAA
    GGCTCCTCTG GCCTCTCCCG GACCCGGACA GTACCCACAC GCAAGGGTGC TGGAGGGAAG
    GGCCGGCATC GGAGACACCG GGCATGGATG CACCAGAAGG GTCTGGGGCC TCGGGACCAG
    GATGGAGCCC GGCCACCTGG TGAAGGGAGC AGCACTGGAG CCTCCCCTGG GTCTCCCCCG
    GGAGCTGAGG TTGAGGCTTT CCCAGAGGCA GCAGCCCTGG AGGTATCTGA GCCCCTGGCA
    GAGGCACTGG GAGAAGCCTC CGAGTCTTGC CCTCTGAGGC CAGGCGAGGT TGGAGCAGGA
    CCAGGCCAAG GGGCTGAAGG GCTGCCTGGT ACCCCTCGGA GAACAGGCAA AGGAAACAGG
    AGAAAGAAGC GAGCTGCAGG CAGAGGGGCT CTTAACCGAG GAGGGGACAG TGCCCCACTG
    AGCCCTGGGG ACAAGGAAGA GACCAGCCAC CAGGAAGCCC TTGTCAGCCT GCCCCCACCA
    AACGAACACG AGCTTCCAGG ATGCAGCCCA GTTAAGGAGG AACATGAAGG CTCGGGGAAG
    CCAGAACCTG AGCCAAGAGA GGAGCTCAAA CCACCAGATG AAAAAGAGCC TCGGTCCCAA
    GAAGTCTGCG GGCCTGTAGA AGAAAGGGCC AGAGAAAGAG AACAGGAGGG GCTAAGCCTG
    GTGTGCATGG CAGCGCCCAA CGATCCAGAA GGGCTCCTCT CCGACCCCCT AAAACCACCC
    CCAGAGACTG TGCAAGAAGT GAAAGGGGAG AGCATTCCGG AAGAAGGGCC CCCAGTCTCC
    ATCTCTGATG ACCCTGGTGT AGCTTGGGAC TTACTGGCAT CTGGATTCCT CATCCTGACT
    GGAGGGGTGG ACCAGAGTGG GCGAGCTCTG CTGACCATTA CCCCACCGTG CCCTCCCGAG
    GAGCCCCCAC CCTCCCAAGA CGTGCTGAGC ACTGCTCTTC ATTACCTTCA CTCACTGCTC
    AGACCTGATC TACAGATATT GGGGCTATCT GTCCTGCTGG ATCTTCGCAA GGCACCCCCA
    CTGCCTCCAG CTCTCATTCC TGTCCTGAGT CAACTTCAGG ACTCGGGAGA CCCTCCCCTC
    ATTCAGCGGC TCTTGCTTCT CACTCTTGAT GAGCCTCCAG CTGAACTCCA TGGACTTCAG
    GGTGCTGAGT TGCTATCAGA GGGCGATCTG AAAAGAGTGG CCAAGCCAGA GGAGCTGCAG
    TGGGACTTGG GAGGTCACAG GGAGCCCTCT CCTAGTCACT GGGTAGAGAC ACACCAGCAA
    GTGGCAAGGC TGTGCCACCT GTGCCGAGGT GTGCTGGGCT CTATACGGCA AGCCATTGAG
    GAACTAGAGA GAGCAGCAGA GCCAGAAGGA GAGGAGGTGG TAGGAATGCC TGAGCCCCTG
    CAGAAGGTAC TGGCAGATCC CCGGCTGACA GAGCTGCAGA GGGACGGAGG AGCCATCCTG
    ATGAAGCTGC GATCCACCCA CAGCAGCAAG CTGGAAGGTC CAGGTCCAGC TGCACTGTAT
    CAAGAGGTAG ATGAAGCCAT TCACCAGCTC GTGCGCCTCT CCAATCTGCA CGTGCAGCAG
    CAGGAGCAGC GGCAACGCTT GCACCGACTG CAGCAGGCAC TGCAGTGGCT CTCAGGCCCC
    GGAGAGGAGC AGCTGGCGAG CTTTGCCGTG CCTGGGGACT CCCTGCCTGC CCTGCAGGAG
    ACAGAGCTAC GATTCCGGGC TTTCAGTGCT GAGGTTCAGG AGCGCCTGGC CCAAGCGAGG
    GAGACCCTGG CCCTGGAAGA GGACGCTGCC TCCCAGAAGC TTCTGGATGT CTTTGAACAG
    CGCCTGGAGC AGGTGGAGAG TGGCCTCCAT CGGGCTCTGC GGCTACAGCG CTTCTTCCAG
    CAGGCACACG AATGGGTGGA TGAAGGTTCT GCGAGGCTGG CAGGAGCGGG ACCAGGGCGG
    GAGGCAGTGC TGGCAGCCTT GGCCCTGCGG CGCGCCCCGG AGCCCAGCGC TGGCACCTTC
    CAGGAGATGC GGGCCCTGGC CCTGGACCTG GGCAGCCCGG CAGCCCTGCG AGAATGGGGC
    CGCTGCCGGG CCCGCTGCCA AGAGCTGGAG AGGAGGATTC AACAACAGCT GGGGGAGGAA
    GCAAGTCCCC GGGGCCACCG GCGACGACGG GCAGACAGTG CCAGCAGCGG AGGAGCCCCA
    CGGGGCCCCC ACAGCCCCTC ACCCAGCCTC AGCTCCCTGC TGCTCCCCAG CAGCCCCGGG
    CCACGGGCAG CCCCGTCCCA CTGCTCCCTG GCCCCCTGTG GGGAGGACTA TGAGGAGGAG
    GGTGCCGAGC TGGGTCCAGA AGCAGAAGGC AGACCACCAA GGACTGTGCT GATCCGAGGT
    CTGGAAGTCA CCAGTACGGA GGTGGTAGAC AGGACGTGCT CACCCCGGGA ACACGTGCTG
    CTGGGCCGGG CTGGGGGACC AGAAGGGCCC TGGGGAGTGG GCACCCCCCG GATGGAGCGC
    AAGCGGAGCA TCAGCGCCCA GCAGCGTCTG GTGTCTGAGC TGATTACCTG TGAGCAAGAA
    TATGTGGCTG CCTTAAGTGA GCCGGTGCCA CCCCCAGGGC CTGAGCTGAC CCCAGAATTG
    CGGGGCACCT GGGCTGCTGC CCTGAGCGCC CGGGAGAGGC TCCGCAGTTT CCACCGGACA
    CACTTTCTGC GGGAACTTCA GGGCTGCGCC ACCCACCCCC TGCGCATCGG GGCCTGCTTC
    CTTCGCCATG GGGACCAATT CAGCCTTTAT GCCCAGTACG TGAAGCACCG GCACAAACTG
    GAGACCGGTC TGACAGCCCT CAGCCCCCCA ACCAAGGGCA CCTTGGAGGG GGGCCCTCAC
    CTGCCCCGGG CCTTGCAGCA GCCCCTGGAG CAGCTGGCCA GGTATGGGCG GCTCTTAGAG
    GAGCTCCTAA GGGAAGCTGG GCCTGAACCA AGTTCTGAGC GCCAGGCCCT TGGGGCTGCT
    GTGCAGCTGC TCCGGGAACA AGAGATCCGT GGCAGAGACC TGCTGGCTGT AGAGGCGGTG
    CGTGGCTGTG AGATAGATCT GAAGGAGCAG GGCCAACTCC TGCACCGGGA CCCTTTCACA
    GTCATCTGTG GCCGAAAAAA GTGCTTTCGC CATGTCTTTC TCTTTGAGCA TCTCCTCCTG
    TTCAGCAAGC TCAAGGGCCC TGAGGGGGGG TCAGAGACCT TCGTTTATAA GCAGGCCTTT
    AAGACTGCCG ACATGGGGCT AACAGAAAAC ATCGGGGACA GTGGGCTCTG CTTTGAACTG
    TGGTTTCGGC GGCGGCGCGC ACGAGAGGCG TACACCCTGC AGGCAGCCTC ACCAGAGATC
    AAACTCAAGT GGACAAGTTC TATTGCCCAG TTGCTGTGGA GACAGGCAGC CCACAACAAG
    GAGCTCCGAG TGCAGCAGAT GGTCTCCATG GGCATTGGGA ATAAACCCTT CCTGGACATC
    AAAGCACTTG GGGAGCGGAC ACTGAGTGCC CTGCTCACTG GAAGAGCCGC CCGCACCCGG
    GCCTCGGTGG CCGTGTCATC CTTTGAGCAT GCCGGCCCCT CCCTTCCCGG TCTCTCCCCG
    GGAGCGTGTT CCCTGCCTGC CCGCGTCGAG GAGGAGGCCT GGGATCTGGA CGTCAAGCAA
    ATTGCCCTGG CCCCAGAAAC ACTTGACTCT TCTGGAGATG TGTCCCCAGG ACCGAGAAAC
    AGCCCCAACC TGCAAGCCCC ACACCCTGGG AGCAGCACTC CCATTCTGTC CAGTGGAGGG
    ATCTTAGGGC TATCCCGGCA GAGTCATACC CGGGCCCTGA GCGACCCCAC CACGCCTCTG
    TGA

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