Dip2a cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Dip2a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Dip2a 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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ORa25613 NM_001191564.1
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Rattus norvegicus DIP2 disco-interacting protein 2 homolog A (Drosophila) (Dip2a), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
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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 ORa25613
    Clone ID Related Accession (Same CDS sequence) NM_001191564.1
    Accession Version NM_001191564.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4716bp)
    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 2010-07-16
    Organism Rattus norvegicus(Norway rat)
    Product disco-interacting protein 2 homolog A
    Comment Comment: INFERRED REFSEQ: This record is predicted by genome sequence analysis and is not yet supported by experimental evidence. The reference sequence was derived from AABR03116274.1, AABR03118024.1, AABR03117845.1, AABR03116519.1 and AABR03116726.1. On Jul 17, 2010 this sequence version replaced XM_002728934.1. 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
    4621
    4681
    ATGGCCGACC GCGGATGCCC TCTGGAGGCG GCGCCGCTGC CCGCCGAGGT GCTCGAGAGC 
    CTGGCGGAGC TGGAGCTGGA GCTGTCCGAA GGTGACATCA CTCAGAAAGG ATATGAGAAG
    AAGAGGGCGA AGCTGCTGGC TCGTTATATC CCCCTCATTC AAGGAGTGGA CCCCTGTCTG
    CAAACAGAGA GTAGAGTCCC TGGGCCCCTG CTGACTGCAC CTACAGCTAA ACCACAGAAG
    CCTCGGGCCA ACTCGAGGGA TGAGCGGTTC CGGTCAGATG TTCACACGGA AGCCGTGCAG
    GCAGCTCTGG CCAAGTACAA GGAGAGGAAG ATGCCCATGC CTTCAAAGAG ACGGTCTGCC
    CTTGTGCACT CATCCGTGGA AACCTATACA CCTCCAGACA CGTCATCTGC CTCAGAAGAT
    GAGGGCTCTT TACGGCGACC TGGGCGACTC ACCTCCACTC TGCTCCAGAG CCATTCCGGC
    ATCGAGCCCT GGCTCGACAG GGTCATTCAG GGCTCGTCCA CTTCATCCTC TGCATCCTCC
    ACCTCATCCC ACCCGGGAGG GAGACCTGCT GCTGCTCCCA GTGCCTCCAC TGCGCTTGCA
    GGCCTCACGG CCCACGCCCA CATAGATCCG CACTCCGCCC CACCCGATGT TACCACTGGG
    CTTGTGGAAC ACTCACACTT CGAGCGTCCA CAGATGGCCT CTGTACGAGG TGTTCCTCGA
    GGGCACGGCA GGAACATGCT GGAGACCGCA GATGGTGTGC CTGTGAACAG CAGAGTGTCC
    TCCAAAATCC AGCAGCTATT GAATACCCTG AAGAGGCCAA AACGCCCTCC TCTGAAGGAG
    TTTTTTGTGG ATGATTTTGA GGAGTTACTG GAAGTTCAGC AACCGGATCC CAATCAGCCC
    AAGCCGGAGG GGGAGCAGAT GGCTGTGCTG AAGGGAGAAC CTCTGTCAGT GGGGACTTCG
    GGGCCACCAA CTCTGTTGGC TGCACTGCAG CTGTGGGGCA CAACACAGCC TAAGGCCCCC
    TGCCTGACTG CCTTGGATAC ATCGGGGAAA GCCATCTGCA CCCTCACCTA TGGCAAACTC
    TGGAGTCGGA GCTTAAAATT AGCTTATACT CTGCTCAGTA AGCTGACTAG TAAGAATGAG
    CCACTGCTTA ACCCTGGAGA CAGGGTGGCA CTCGTGTTTC CAAATAGTGA CCCTGTAATG
    TTTATGGTTG CGTTTTACGG GTGTCTCCTG GCGGAGCTGG TCCCTGTCCC TATAGAAGTA
    CCATTAACGA GAAAGGATGC AGGCAGCCAG CATGTTGGCT TTCTCCTGGG CAGCTGCGGG
    GTGACCCTGG CCCTGACCAC AGATGCTTGT CAGAAGGGCC TGCCCAAGGC GCCGACAGGA
    GAGGTGGCAA CTTTCAAAGG TTGGCCCCCC CTGGCCTGGC TGGTGATTGA TGGGAAGCAT
    CTGACCAAGC CTCCGAAGGA CTGGTACCCG CTGGCCCAGG ACACAGGGTC CAGGACCGCC
    TACATTGAGT ATAAAACCAG CAAGGACGGC AGCACAGTAG GGGTCACCGT ACCCCACTCA
    TCCCTGCTGG CGCAGTGCCA GGCCCTGACC CAGGTGTGTG GGTACACGGA AGCCGAAACA
    TTAACGAATG TGCTGGACTT CAAAAGGGAT GCTGGTCTGT GGCATGGAGT CTTAACAAGT
    GTCATGAACA GGATGCACGT TATCAGCATC CCCTACGCCC TAATGAAGGT CAACCCCCTC
    TCCTGGATCC AGAAAGTGTG TTCCTATAAA GCCCGGGCTG CCCTGGTGAA GTCCCGAGAT
    ATGCACTGGT CACTCTTGGC ACAGCGAGGT CAGAGGGACG TCTGTCTCAG CTCTCTGCGT
    ATGTTGATTG TGGCGGATGG CGCAAACCCA TGGTCAATAT CTTCCTGCGA TGCCTTCCTC
    AACGTCTTCC AGTCTAGAGG TCTGAGGCCA GAGGTCATCT GTCCTTGTGC CAGTTCTCCT
    GAGGCGCTAA CAGTAGCCAT CCGCAGGCCC CCAGACCTGG GAGGACCTCC ACCAAGGAAA
    GCTGTCCTGT CCATGAACGG CCTGAGCTAC GGTGTGATCA GAGTTGACAC CGAGGAGAAG
    CTGTCGGTCC TCACTGTTCA GGATGTCGGC CAGGTGATGC CTGGAGCTAG TGTCTGTGTC
    GTGAAGGTAG ACGGTGTCCC TTACCTCTGT AAAACTGATG AAATCGGAGA GATCTGTGTC
    AGTTCTGTGG CCACTGGGAC AGCATATTAC GGGCTGCTTG GCATCACAAA GAATGTCTTT
    GAGACCGTCC CGGTCACTGC GGATGGAGTC CCTGTCTCTG ACCGGCCTTT CACCCGGACA
    GGTCTTCTGG GGTTTATTGG GCCTGAGAAC CTGGTCTTCG TCGTGGGCAA GCTGGACGGG
    CTGACGGTCG TAGGAGCACG CAGACATAAT GCAGATGACA TTGTGGCTAC TGCCCTGGCT
    GTGGAACCCA TGAAGTTTGT CTACAGAGGC AGGATCGCCG TGTTCTCTGT GACTGTTCTG
    CACGATGACC GGATTGTCTT GGTGGCCGAA CAGCGGCCCG ACTCTTCGGA GGAAGACAGC
    TTCCAGTGGA TGAGCCGTGT GCTACAGGCC ATTGACAGCA TCCACCAGGT GGGCGTGTAC
    TGTTTGGCCC TGGTTCCCGC CAACACCTTG CCCAAGGCTC CTCTTGGAGG AATTCACATT
    TCTGAAACGA AGCAACGCTT CCTGGAAGGG ACGCTACACC CATGTAACGT GTTGATGTGC
    CCTCACACAT GCGTTACCAA CCTTCCCAAG CCTCGCCAGA AACAGCCAGA AGTCGGACCA
    GCCTCCATGA TTGTTGGGAA CCTGGTTGCC GGAAAGAGGA TCGCACAGGC CTCTGGGAGA
    GAGCTGGCCC ACCTGGAGGA CAGTGACCAG GCTCGCAAGG TACGTGCGAG GCTTCCTCTC
    TCTCTGCAGT TCCTGTTCCT GGCGGACGTG CTGCAGTGGA GGGCTCACAC CACTCCCGAC
    CACCCGCTGT TCTTGCTCCT GAATGCTAAG GGCACAGTCA CCAGCACGGC AACCTGCATC
    CAGCTGCACA AAAGGGCTGA GAGAGTGGCT GCCGCGCTGA TGGAGAAGGG CCGACTAGAT
    GCTGGGGACC ATGTGGCTTT GGTGTATCCT CCAGGGGTGG ATCTTATTGC TGCGTTCTAT
    GGCTGCCTGT ACTGTGGCTG TGTGCCCGTC ACTGTGCGAC CCCCACACCC CCAGAACCTA
    GGCACCACAC TGCCCACTGT GAAGATGATT GTCGAGGTCA GCAAATCTGC ATGTGTCCTT
    AGCACACAGG CCATTACACG GCTGCTCAAG TCCAAAGAAG CAGCTGCGGC TGTAGATGTC
    AGGACCTGGC CAACCATCCT AGATACAGAT GACATTCCAA AAAAGAAGGT AGCTAGCATT
    TTCAGACCAC CCTCCCCAGA TGTGCTTGCA TACTTGGACT TCAGTGTGTC GACGACAGGG
    ATCTTAGCGG GAGTTAAGAT GTCACACGCA GCCACAAGTG CCTTGTGCCG CTCTATAAAG
    CTTCAGTGTG AGCTGTACCC CTCACGGCAG ATTGCCATCT GCCTGGACCC CTACTGTGGC
    CTTGGCTTCG CCCTGTGGTG TCTGTGCAGC GTGTACTCTG GACACCAGTC GGTACTCGTC
    CCCCCACTGG AGCTGGAGAG CAATGTGTCT CTCTGGCTGT CCGCCGTCAG CCAGTACAAG
    GCCCGAGTCA CCTTCTGTTC CTACTCAGTG ATGGAAATGT GCACCAAGGG CCTTGGTGCT
    CAGACAGGCG CCCTCAGGAT GAAGGGGGTG AACCTGTCGT GTGTGCGCAC GTGCATGGTG
    GTGGCTGAGG AGCGGCCCCG GATCTCGTTG ACACAGTCCT TCTCCAAGCT ATTCAAAGAC
    CTGGGCCTCC CTGCTCGCGC TGTGAGCACC ACCTTCGGGT GCAGGGTCAA CGTGGCCATC
    TGCCTCCAGG GCACAACAGG CCCAGATCCC ACGACGGTCT ATGTGGACAT GCGGGCACTG
    CGCCATGACA GAGTTCGTCT GGTGGAACGG GGTTCTCCGC ACAGTCTGCC GCTGATGGAG
    TCTGGGAAGA TTCTTCCAGG AGTGAAGGTC ATCATCGCAC ACACTGAGAC CAAAGGGCCC
    CTCGGAGACT CACACCTGGG TGAGATCTGG GTGAGCAGCC CCCACAATGC CACTGGGTAC
    TACACGGTCT ATGGGGAGGA GGCACTTCAT GCTGACCACT TCAGTGCCCG GCTGAGCTTT
    GGAGACACCC AGACCATTTG GGCAAGGACT GGCTACCTTG GCTTCCTTCG CAGGACAGAG
    CTGACTGATG CCAGTGGAGA GCGACACGAT GCGCTGTATG TTGTCGGCTC TCTGGACGAG
    ACGCTGGAGC TGAGGGGCAT GCGCTATCAC CCCATCGACA TCGAGACCTC TGTGATCCGG
    GCACACAGGA GCATCGCGGA GTGTGCCGTG TTCACCTGGA CCAACCTGCT GGTGGTGGTG
    GTGGAGCTCG ATGGTCTGGA GCAGGATGCC CTGGACCTGG TGGCCCTGGT GACCAATGTC
    GTGCTGGAGG AGCACTACCT TGTGGTGGGC GTGGTGGTCA TTGTGGACCC TGGAGTGATC
    CCCATCAACT CCCGGGGCGA GAAGCAGCGC ATGCACCTGC GCGACGGCTT CCTGGCCGAC
    CAGCTGGACC CCATCTATGT GGCCTACAAT ATGTGA

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

    RefSeq NP_001178493.1
    CDS49..4764
    Translation

    Target ORF information:

    RefSeq Version NM_001191564.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus DIP2 disco-interacting protein 2 homolog A (Drosophila) (Dip2a), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001191564.1

    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
    ATGGCCGACC GCGGATGCCC TCTGGAGGCG GCGCCGCTGC CCGCCGAGGT GCTCGAGAGC 
    CTGGCGGAGC TGGAGCTGGA GCTGTCCGAA GGTGACATCA CTCAGAAAGG ATATGAGAAG
    AAGAGGGCGA AGCTGCTGGC TCGTTATATC CCCCTCATTC AAGGAGTGGA CCCCTGTCTG
    CAAACAGAGA GTAGAGTCCC TGGGCCCCTG CTGACTGCAC CTACAGCTAA ACCACAGAAG
    CCTCGGGCCA ACTCGAGGGA TGAGCGGTTC CGGTCAGATG TTCACACGGA AGCCGTGCAG
    GCAGCTCTGG CCAAGTACAA GGAGAGGAAG ATGCCCATGC CTTCAAAGAG ACGGTCTGCC
    CTTGTGCACT CATCCGTGGA AACCTATACA CCTCCAGACA CGTCATCTGC CTCAGAAGAT
    GAGGGCTCTT TACGGCGACC TGGGCGACTC ACCTCCACTC TGCTCCAGAG CCATTCCGGC
    ATCGAGCCCT GGCTCGACAG GGTCATTCAG GGCTCGTCCA CTTCATCCTC TGCATCCTCC
    ACCTCATCCC ACCCGGGAGG GAGACCTGCT GCTGCTCCCA GTGCCTCCAC TGCGCTTGCA
    GGCCTCACGG CCCACGCCCA CATAGATCCG CACTCCGCCC CACCCGATGT TACCACTGGG
    CTTGTGGAAC ACTCACACTT CGAGCGTCCA CAGATGGCCT CTGTACGAGG TGTTCCTCGA
    GGGCACGGCA GGAACATGCT GGAGACCGCA GATGGTGTGC CTGTGAACAG CAGAGTGTCC
    TCCAAAATCC AGCAGCTATT GAATACCCTG AAGAGGCCAA AACGCCCTCC TCTGAAGGAG
    TTTTTTGTGG ATGATTTTGA GGAGTTACTG GAAGTTCAGC AACCGGATCC CAATCAGCCC
    AAGCCGGAGG GGGAGCAGAT GGCTGTGCTG AAGGGAGAAC CTCTGTCAGT GGGGACTTCG
    GGGCCACCAA CTCTGTTGGC TGCACTGCAG CTGTGGGGCA CAACACAGCC TAAGGCCCCC
    TGCCTGACTG CCTTGGATAC ATCGGGGAAA GCCATCTGCA CCCTCACCTA TGGCAAACTC
    TGGAGTCGGA GCTTAAAATT AGCTTATACT CTGCTCAGTA AGCTGACTAG TAAGAATGAG
    CCACTGCTTA ACCCTGGAGA CAGGGTGGCA CTCGTGTTTC CAAATAGTGA CCCTGTAATG
    TTTATGGTTG CGTTTTACGG GTGTCTCCTG GCGGAGCTGG TCCCTGTCCC TATAGAAGTA
    CCATTAACGA GAAAGGATGC AGGCAGCCAG CATGTTGGCT TTCTCCTGGG CAGCTGCGGG
    GTGACCCTGG CCCTGACCAC AGATGCTTGT CAGAAGGGCC TGCCCAAGGC GCCGACAGGA
    GAGGTGGCAA CTTTCAAAGG TTGGCCCCCC CTGGCCTGGC TGGTGATTGA TGGGAAGCAT
    CTGACCAAGC CTCCGAAGGA CTGGTACCCG CTGGCCCAGG ACACAGGGTC CAGGACCGCC
    TACATTGAGT ATAAAACCAG CAAGGACGGC AGCACAGTAG GGGTCACCGT ACCCCACTCA
    TCCCTGCTGG CGCAGTGCCA GGCCCTGACC CAGGTGTGTG GGTACACGGA AGCCGAAACA
    TTAACGAATG TGCTGGACTT CAAAAGGGAT GCTGGTCTGT GGCATGGAGT CTTAACAAGT
    GTCATGAACA GGATGCACGT TATCAGCATC CCCTACGCCC TAATGAAGGT CAACCCCCTC
    TCCTGGATCC AGAAAGTGTG TTCCTATAAA GCCCGGGCTG CCCTGGTGAA GTCCCGAGAT
    ATGCACTGGT CACTCTTGGC ACAGCGAGGT CAGAGGGACG TCTGTCTCAG CTCTCTGCGT
    ATGTTGATTG TGGCGGATGG CGCAAACCCA TGGTCAATAT CTTCCTGCGA TGCCTTCCTC
    AACGTCTTCC AGTCTAGAGG TCTGAGGCCA GAGGTCATCT GTCCTTGTGC CAGTTCTCCT
    GAGGCGCTAA CAGTAGCCAT CCGCAGGCCC CCAGACCTGG GAGGACCTCC ACCAAGGAAA
    GCTGTCCTGT CCATGAACGG CCTGAGCTAC GGTGTGATCA GAGTTGACAC CGAGGAGAAG
    CTGTCGGTCC TCACTGTTCA GGATGTCGGC CAGGTGATGC CTGGAGCTAG TGTCTGTGTC
    GTGAAGGTAG ACGGTGTCCC TTACCTCTGT AAAACTGATG AAATCGGAGA GATCTGTGTC
    AGTTCTGTGG CCACTGGGAC AGCATATTAC GGGCTGCTTG GCATCACAAA GAATGTCTTT
    GAGACCGTCC CGGTCACTGC GGATGGAGTC CCTGTCTCTG ACCGGCCTTT CACCCGGACA
    GGTCTTCTGG GGTTTATTGG GCCTGAGAAC CTGGTCTTCG TCGTGGGCAA GCTGGACGGG
    CTGACGGTCG TAGGAGCACG CAGACATAAT GCAGATGACA TTGTGGCTAC TGCCCTGGCT
    GTGGAACCCA TGAAGTTTGT CTACAGAGGC AGGATCGCCG TGTTCTCTGT GACTGTTCTG
    CACGATGACC GGATTGTCTT GGTGGCCGAA CAGCGGCCCG ACTCTTCGGA GGAAGACAGC
    TTCCAGTGGA TGAGCCGTGT GCTACAGGCC ATTGACAGCA TCCACCAGGT GGGCGTGTAC
    TGTTTGGCCC TGGTTCCCGC CAACACCTTG CCCAAGGCTC CTCTTGGAGG AATTCACATT
    TCTGAAACGA AGCAACGCTT CCTGGAAGGG ACGCTACACC CATGTAACGT GTTGATGTGC
    CCTCACACAT GCGTTACCAA CCTTCCCAAG CCTCGCCAGA AACAGCCAGA AGTCGGACCA
    GCCTCCATGA TTGTTGGGAA CCTGGTTGCC GGAAAGAGGA TCGCACAGGC CTCTGGGAGA
    GAGCTGGCCC ACCTGGAGGA CAGTGACCAG GCTCGCAAGG TACGTGCGAG GCTTCCTCTC
    TCTCTGCAGT TCCTGTTCCT GGCGGACGTG CTGCAGTGGA GGGCTCACAC CACTCCCGAC
    CACCCGCTGT TCTTGCTCCT GAATGCTAAG GGCACAGTCA CCAGCACGGC AACCTGCATC
    CAGCTGCACA AAAGGGCTGA GAGAGTGGCT GCCGCGCTGA TGGAGAAGGG CCGACTAGAT
    GCTGGGGACC ATGTGGCTTT GGTGTATCCT CCAGGGGTGG ATCTTATTGC TGCGTTCTAT
    GGCTGCCTGT ACTGTGGCTG TGTGCCCGTC ACTGTGCGAC CCCCACACCC CCAGAACCTA
    GGCACCACAC TGCCCACTGT GAAGATGATT GTCGAGGTCA GCAAATCTGC ATGTGTCCTT
    AGCACACAGG CCATTACACG GCTGCTCAAG TCCAAAGAAG CAGCTGCGGC TGTAGATGTC
    AGGACCTGGC CAACCATCCT AGATACAGAT GACATTCCAA AAAAGAAGGT AGCTAGCATT
    TTCAGACCAC CCTCCCCAGA TGTGCTTGCA TACTTGGACT TCAGTGTGTC GACGACAGGG
    ATCTTAGCGG GAGTTAAGAT GTCACACGCA GCCACAAGTG CCTTGTGCCG CTCTATAAAG
    CTTCAGTGTG AGCTGTACCC CTCACGGCAG ATTGCCATCT GCCTGGACCC CTACTGTGGC
    CTTGGCTTCG CCCTGTGGTG TCTGTGCAGC GTGTACTCTG GACACCAGTC GGTACTCGTC
    CCCCCACTGG AGCTGGAGAG CAATGTGTCT CTCTGGCTGT CCGCCGTCAG CCAGTACAAG
    GCCCGAGTCA CCTTCTGTTC CTACTCAGTG ATGGAAATGT GCACCAAGGG CCTTGGTGCT
    CAGACAGGCG CCCTCAGGAT GAAGGGGGTG AACCTGTCGT GTGTGCGCAC GTGCATGGTG
    GTGGCTGAGG AGCGGCCCCG GATCTCGTTG ACACAGTCCT TCTCCAAGCT ATTCAAAGAC
    CTGGGCCTCC CTGCTCGCGC TGTGAGCACC ACCTTCGGGT GCAGGGTCAA CGTGGCCATC
    TGCCTCCAGG GCACAACAGG CCCAGATCCC ACGACGGTCT ATGTGGACAT GCGGGCACTG
    CGCCATGACA GAGTTCGTCT GGTGGAACGG GGTTCTCCGC ACAGTCTGCC GCTGATGGAG
    TCTGGGAAGA TTCTTCCAGG AGTGAAGGTC ATCATCGCAC ACACTGAGAC CAAAGGGCCC
    CTCGGAGACT CACACCTGGG TGAGATCTGG GTGAGCAGCC CCCACAATGC CACTGGGTAC
    TACACGGTCT ATGGGGAGGA GGCACTTCAT GCTGACCACT TCAGTGCCCG GCTGAGCTTT
    GGAGACACCC AGACCATTTG GGCAAGGACT GGCTACCTTG GCTTCCTTCG CAGGACAGAG
    CTGACTGATG CCAGTGGAGA GCGACACGAT GCGCTGTATG TTGTCGGCTC TCTGGACGAG
    ACGCTGGAGC TGAGGGGCAT GCGCTATCAC CCCATCGACA TCGAGACCTC TGTGATCCGG
    GCACACAGGA GCATCGCGGA GTGTGCCGTG TTCACCTGGA CCAACCTGCT GGTGGTGGTG
    GTGGAGCTCG ATGGTCTGGA GCAGGATGCC CTGGACCTGG TGGCCCTGGT GACCAATGTC
    GTGCTGGAGG AGCACTACCT TGTGGTGGGC GTGGTGGTCA TTGTGGACCC TGGAGTGATC
    CCCATCAACT CCCGGGGCGA GAAGCAGCGC ATGCACCTGC GCGACGGCTT CCTGGCCGAC
    CAGCTGGACC CCATCTATGT GGCCTACAAT ATGTGA

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