LOC102792267 cDNA ORF clone, Neolamprologus brichardi

The following LOC102792267 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC102792267 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
ONe72486 XM_006790858.1
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Neolamprologus brichardi myosin-11-like (LOC102792267), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
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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)
    CloneID ONe72486
    Clone ID Related Accession (Same CDS sequence) XM_006790858.1
    Accession Version XM_006790858.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5718bp)
    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 2014-02-09
    Organism Neolamprologus brichardi
    Product myosin-11-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006272019.1) 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 :: Neolamprologus brichardi Annotation Release 100 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
    5581
    5641
    5701
    ATGTCCACGA AGGCCCCTAC CGAGGATGAG AAGTTCCTCT TTGTTGACAA AGACTTCCTC 
    AACAGCCCGA TGGCTCAGGC TGACTGGGCA GCCAAGAAGT TGGTATGGGT TCCATCAGAA
    AAGCATGGCT TTGAGGCAGC TAGTATAAAG GAGGAGCATG GCGACGAGGT GCTGGTGGAG
    CTGGCTGATA ATGCCAAGAA GATAACAGTC AATAAAGATG ACATCCAGAA GATGAACCCT
    CCCAAGTTCA GCAAGGTGGA GGACATGGCC GAGCTCACCT GTCTAAATGA GGCCTCTGTG
    TTGCACAATC TTCGCGAGAG GTACTTCTCT GGGCTCATTT ATACATACTC TGGCCTGTTC
    TGCGTGGTGG TGAATCCTTA CAAAATGCTG CCCATCTACT CAGAGAAGAT CATCGAAATG
    TACAAAGGAA AGAAACGACA TGAACTACCC CCTCATATCT ATTCCATCTC TGACAACGCC
    TATAGAAACA TGATGCAAGA TCGTGAAGAC CAGTCCATTC TCTGCACTGG AGAGTCTGGT
    GCTGGGAAGA CAGAAAACAC CAAGAAAGTC ATCCAGTATT TGGCTGTTGT GGCCTCCTCG
    CACAAAGGCA AGAAAGACAG CAGTGCTCAA CATGCAGGAT CACAGTTGGC TTACGGGGAG
    CTGGAGAAGC AACTCCTGCA GGCCAATCCT ATCCTGGAGG CCTTTGGAAA TGCTAAGACC
    ATCAAAAATG ACAACTCCTC AAGATTTGGA AAATTCATCC GCATCAACTT TGATGTGACC
    GGCTACATTG TTGGAGCCAA CATTGAGACT TATCTGCTGG AGAAGTCTCG CTGTATCAGA
    CAGGCAAAGA CAGAAAGAGC TTTTCACATC TTCTACTACA TGATTGCTGG TGCCAAGGAC
    AAACTGCGCG AGGAGCTACT TCTGGAGCCC TTCAGTAATT ACCGCTTCCT CAGCGCAGGC
    CACGTCCAGA TCCCTGGCCA GCAAGATGAT GAGATGTATG AGGAAACCAT GGAGGCCATG
    AATATCATGG GCATCACAGA AGAGGACAGA ATTGATATCC TGAAGGTGTG CTCCACAGTG
    ATGCAGCTGG GAAACATTGA ATTCAAGAAA GAGAGGAACC AGGAGCAGGC AACCATGCCA
    GACAACACTG CTGCGCAGAA GGTGTGTCAC CTGCAGGGCA TCAATGTGAC AGACTTTACA
    CGAGCCATCC TCACCCCTCG CATCAAAGTG GGCAGGGAGG TGGTGCAGAA GGCACAGACC
    AAAGAGCAGG CTGACTTTGC TATAGAAGCG TTGGCCAAAG CTGTCTTTGA GCGACTGTTC
    CGCTGGATCC TGGGCCGGGT TAACAAAGCC CTGGATAAGA CTAAACGCCA AGGAGCCTCC
    TTCCTGGGAA TCCTTGACAT TGCCGGTTTT GAGATCTTTG AGGATAACTC CTTTGAGCAG
    CTGTGCATCA ACTACACCAA TGAGAAGCTA CAGCAGCTTT TCAACCACAC CATGTTCATC
    CTGGAGCAGG AGGAGTACCA GAGAGAAGGC ATCGAGTGGA ACTTCATTGA CTTTGGCCTT
    GACCTCCAGC CCTGCATCGA GCTCATTGAG AGGCCAAACA ACCCTCCAGG CATCCTGGCC
    CTGCTGGATG AAGAGTGCTG GTTCCCCAAA GCCACAGATA TCTCCTTTGT GGAGAAACTT
    TTAAACACAC AGGGCAACCA CATGAAATTT GCCAAACCTA AACAGCTTAA AGACAAAACA
    GAGTTCTCCA TTCTTCATTA TGCTGGGAAG GTAGACTATA ACGCCACAGC CTGGCTGACA
    AAGAACATGG ACCCTCTAAA TGACAACGTT ACAGCACTGC TCTCCAATTC TTCTAACCAG
    TTTGTCCAAG ACCTCTGGAA AGATGCGGAC AGAGTCGTCG GCCTTGACAC ATTAGCTAAG
    ATGTCAGACA CCACCGGCCC GAGCGCCTCA AAGACCAAGA AGGGAATGTT CCGCACAGTG
    GGGCAGCTCT ACAAGGAGTC TTTGGCAAAA CTCATGACCA CGCTGCACAA CACCCAACCC
    AACTTCGTCA GATGTATCAT CCCGAACCAT GAGAAGAGGG CAGGGAAGCT GGATGCTAAC
    CTGGTCTTGG AGCAGCTCAG GTGTAACGGT GTGCTGGAAG GAATCAGGAT CTGTCGACAA
    GGCTTCCCCA ACCGAATCGT TTTCCAGGAG TTCCGCCAGC GTTATGAGAT CTTGGCTGCT
    AACGCTATTC CCAAAGGTTT CATGGACGGA AAGCAAGCCT GCTGCCTCAT GATCAAGCAT
    CTGGACTTGG ACCCCAACCT GTACAGAATC GGACAGAGTA AAATCTTCTT CCGCACGGGA
    GTGCTTGCTC AACTAGAGGA GGAGAGAGAT TTGAAGATCA CTGTGATCAT CATTGCTTTC
    CAGGCCCAAG CTAGAGGCTT CCTGGCCAGA AAGGCATTCG CCAAGAGACA GCAGCAGTTG
    ACGGCTATGA AAGTGATCCA GAGGAACTGT GCTGCCTACC TCAAACTGAG GAACTGGCAG
    TGGTGGAGGC TTTTCACAAA GGTTAAGCCT CTGTTGCAAG TGACCCGACA GGAAGAGGAG
    ATGGGTCTCA AGGAAGAAGA GCTACAGAAA GCCAAAGAAG TTGCCACAAA GTTTGAGTCA
    GAGCTAAAAG AAATCACCTT GAAACATACA CAGATTGTGG AGGAGAGAAA CACACTGCAG
    GAGCAGCTTC AGGCAGAGAC AGAGTTGTAT GCTGAGGCTG AGGAGATGAG GGTCCGTCTG
    GCAGCGAAGA AGCAGGAGTT GGAGGAAATC CTCCACGAGA TGGAGGCGAG GCTTGATGAA
    GAGGAGGAGC GTTCTCAGGG GCTGTTAGTG GAAAAGAAGA AGATGCAGCA GCAGATGCAG
    GAGTTGGAGG AACATTTGGA AGAGGAGGAA GACGCTCGTC AAAAACTGCA GCTCGAGAAG
    GTTGCCTGCG AGGGAAAGAT CAAAAAGCTG GATGATGATA TTCTCATAAT GGAGGACCAG
    AACAACAAGC TGCTGAAGGA GCGAAAGTTG CTAGAGGAGA GAGTTGCAGA CTTCAGTGCT
    AACCTGGCAG AGGAAGAAGA AAAATCTAAG AATCTCACTA AGCTCAAAAA TAAACACGAA
    TCCATGATCT CTGAATTAGA AGTCCGCTTG AAGAAAGAGG AGAAGACCCG TCAGGAGCTG
    GATAAAGCTA AGCGCAAACT GGAGGCGGAG TCAAATGACC TACAGGAACA GATCGCTGAC
    CTGCAGGCCC AGATCGCTGA CCTCAAAGCT CAGCTTGCAA AGAAGGAGGA GGAGTTACAG
    AACGCCTTAG CCAGGTTGGA AGATGAGTCT GCCCAGAAAA ACAACGCTCT GAAGAAGATC
    AGAGAGCTGG AAGGACACAT CTCCGACCTG CAGGAGGACC TAGACTCTGA GCGGGCTGCC
    AGGAACAAGG CCGAGAAGAT CAAACGGGAC CTTGGGGAGG AGCTGGAGGC CCTCAAGTCT
    GAGCTAGAGG ACACTCTGGA CACCACTGCC ACACAGCAGG AACTAAGAGC CAAACGTGAG
    CATGAAGTGA CCCAGCTGAA GAGAGCCATT GAGGAGGAGA ACCGGACCCA CGAGGCTCAA
    ATACATGAGA TGAGACAGAA ACACACACAG GCTGTTGAGG AGCTCAGTGA GCAGCTGGAA
    CAGTCAAAAC GAGTAAAGTC AAACCTGGAG AAAGCAAAAC AAGCTCTGGA GAAGGAAACG
    TCAGAGCTAA CTATGGAGGT GCGCTCACTG ACCCAGGCCA AGCAAGAGCT GCTGGCTGAG
    GAGACACGCC AGAAATTGCA GTTCTCCACA AAGCTGCGAC AGGCGGAAGA CGACAAGAAC
    AGCCTACAGG AGCAGCTTGA AGAGGAGGTG GAGGCAAAGA GGAACGTGGA GAGACACGTG
    TCCACTCTCA ACATCCAGCT ATCAGATGCA AAGAAGAAGA TGGATGAAAT GTCAGGCAAC
    ATTGAGCTGC TGGAGGAAGG AAAGAAGCGT CTGCAGAGAG ATTTGGAGGC AGCGAACACT
    CAGTATGAGG AGAAGGCCTC AGCATACGAC AAGCTGGAGA AGACCAAAAA TCGTCTGCAG
    CAGGAGCTGG AGGACACGCT GATGGATCTG GACAACCAGA GGCAGAACGT TTCAAACCTG
    GAGAAGAAAC AGAAGAAGTT TGACCAGATG CTGGCCGAAG AGAAGAGTGT CTCCAGTAAA
    TATGCAGATG AGCGAGACCG TGCTGAAGCT GAGGCCAGAG AGAAGGAGAC CAAAGCTCTG
    TCCCTGGCAA GGGCTCTAGA AGAGGCTCAG GATGCCAGAG AGGAGCTGGA GAGAGCCAAC
    AAGGCCCTAA AAGCAGAGAT GGAGGATCTG ATCAGCTCCA AGGATGATGT GGGAAAAAAT
    GTCCATGAGC TGGAGAAGTC CAAACGAGGC CTGGAAGCCC AGGTGGAGGA GATGAAGACG
    CAGCTGGAGG AGCTAGAGGA CGAACTGCAG GCGGCTGAGG ATGCCAAGTT GCGTCTGGAG
    GTCAACATGC AGGCTCTGAA GGCCCAGTTT GAGAGAGACC TCCAGGGAAG AGATGAGATG
    GGAGAGGAGA AGAAGAGGCA GCTGATCAAG CAGGTTCGTG AGTTGGAGAC GGAGTTGGAG
    GATGAACGTA AGCAGAGGGC CACAGCAGCA GCAGCCAAGA AGAAGCTGGA GATAGACATG
    AAAGATCTGG AGGGACAGAT CGAGACAGCC AATAAGGGAC GTGATGAGGC TATCAAGCAG
    CTCCGCAAGC TCCAGGCCCA GATGAAGGAC TACCAGAGGG AGCTGGAAGA TGCTCGTGCT
    GCTCGAGAAG AGGTGCTGAC CACCGCAAAG GAGAGCGAGA AGAAGGCCAA GAGTCTGGAG
    GCTGAGCTCA TGCAGCTACA GGAGGAACTG GCTGCAGCTG AGAGAGGACG GAAGCAAGCA
    GAGGCTGAAA GAGACGAACT GTCCGATGAG CTGGCGAGCA ACACCTCTGG AAAGTCAGCC
    TTGTCAGATG AGAAGCGTCG CCTTGAAGCT AAGATCGCCC AGCTAGAAGA GGAGCTGGAG
    GAGGAGCAAA GCAACATGGA GATCCTCAAT GACAGGCTGA GGAAGAGCAC ACAGCAGGTG
    GATCAGCTGA ACAATGAGCT GCAGACGGAG CGCACCACCT CCCAGAAGAA CGAGAGCGCT
    CGGCAGCAGT TGGACCGCCA GAACAAGGAG CTGAAGGCGA AGCTCCAGGA GATGGAGAAC
    CAGGTCAAGT CCAAGTTCAA GTCCTCCATC TCTGCCTTGG AGGCTAAAGT GGCACAGCTG
    GAGGAGCAGC TGGAGCAGGA GAACAGGGAT AAGCAGACAA CTGCCAAGAA TATGCGCCAG
    AAAGACAAGA AGCTCAAGGA CCTGATGTTG CAGGTGGAAG ACGAACGAAA ACAGGCAGAG
    CAGTACAAAG ACCAGGCGGA AAAGTCAAGC ACTCGCATGA AGCAGCTGAA GCGGCAGCTA
    GAGGAGTCGG AGGAGGAGTC TCAGCGCGCC ACAGCAGCCC GCAGGAAGCT GCAGCGGGAG
    CTGGATGAAG CCACTGAGGC CAACGACGCC ATGACCCGCG AGATCGGCTC TCTCAAGAAC
    AAACTCAGGC GTGGAAATGA GCCCTCCTTT AGCAGCGCAC CTCGGCGCAT AGGCGGAAGC
    CGAAGGGTGG TCGAGGATGC CTCAGAGGAC GACGCCGACT CCCAAAGCGA CTTCAATGGG
    ACAAAGTCCG CTGACTAA

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

    RefSeq XP_006790921.1
    CDS137..5854
    Translation

    Target ORF information:

    RefSeq Version XM_006790858.1
    Organism Neolamprologus brichardi
    Definition Neolamprologus brichardi myosin-11-like (LOC102792267), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006790858.1

    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
    ATGTCCACGA AGGCCCCTAC CGAGGATGAG AAGTTCCTCT TTGTTGACAA AGACTTCCTC 
    AACAGCCCGA TGGCTCAGGC TGACTGGGCA GCCAAGAAGT TGGTATGGGT TCCATCAGAA
    AAGCATGGCT TTGAGGCAGC TAGTATAAAG GAGGAGCATG GCGACGAGGT GCTGGTGGAG
    CTGGCTGATA ATGCCAAGAA GATAACAGTC AATAAAGATG ACATCCAGAA GATGAACCCT
    CCCAAGTTCA GCAAGGTGGA GGACATGGCC GAGCTCACCT GTCTAAATGA GGCCTCTGTG
    TTGCACAATC TTCGCGAGAG GTACTTCTCT GGGCTCATTT ATACATACTC TGGCCTGTTC
    TGCGTGGTGG TGAATCCTTA CAAAATGCTG CCCATCTACT CAGAGAAGAT CATCGAAATG
    TACAAAGGAA AGAAACGACA TGAACTACCC CCTCATATCT ATTCCATCTC TGACAACGCC
    TATAGAAACA TGATGCAAGA TCGTGAAGAC CAGTCCATTC TCTGCACTGG AGAGTCTGGT
    GCTGGGAAGA CAGAAAACAC CAAGAAAGTC ATCCAGTATT TGGCTGTTGT GGCCTCCTCG
    CACAAAGGCA AGAAAGACAG CAGTGCTCAA CATGCAGGAT CACAGTTGGC TTACGGGGAG
    CTGGAGAAGC AACTCCTGCA GGCCAATCCT ATCCTGGAGG CCTTTGGAAA TGCTAAGACC
    ATCAAAAATG ACAACTCCTC AAGATTTGGA AAATTCATCC GCATCAACTT TGATGTGACC
    GGCTACATTG TTGGAGCCAA CATTGAGACT TATCTGCTGG AGAAGTCTCG CTGTATCAGA
    CAGGCAAAGA CAGAAAGAGC TTTTCACATC TTCTACTACA TGATTGCTGG TGCCAAGGAC
    AAACTGCGCG AGGAGCTACT TCTGGAGCCC TTCAGTAATT ACCGCTTCCT CAGCGCAGGC
    CACGTCCAGA TCCCTGGCCA GCAAGATGAT GAGATGTATG AGGAAACCAT GGAGGCCATG
    AATATCATGG GCATCACAGA AGAGGACAGA ATTGATATCC TGAAGGTGTG CTCCACAGTG
    ATGCAGCTGG GAAACATTGA ATTCAAGAAA GAGAGGAACC AGGAGCAGGC AACCATGCCA
    GACAACACTG CTGCGCAGAA GGTGTGTCAC CTGCAGGGCA TCAATGTGAC AGACTTTACA
    CGAGCCATCC TCACCCCTCG CATCAAAGTG GGCAGGGAGG TGGTGCAGAA GGCACAGACC
    AAAGAGCAGG CTGACTTTGC TATAGAAGCG TTGGCCAAAG CTGTCTTTGA GCGACTGTTC
    CGCTGGATCC TGGGCCGGGT TAACAAAGCC CTGGATAAGA CTAAACGCCA AGGAGCCTCC
    TTCCTGGGAA TCCTTGACAT TGCCGGTTTT GAGATCTTTG AGGATAACTC CTTTGAGCAG
    CTGTGCATCA ACTACACCAA TGAGAAGCTA CAGCAGCTTT TCAACCACAC CATGTTCATC
    CTGGAGCAGG AGGAGTACCA GAGAGAAGGC ATCGAGTGGA ACTTCATTGA CTTTGGCCTT
    GACCTCCAGC CCTGCATCGA GCTCATTGAG AGGCCAAACA ACCCTCCAGG CATCCTGGCC
    CTGCTGGATG AAGAGTGCTG GTTCCCCAAA GCCACAGATA TCTCCTTTGT GGAGAAACTT
    TTAAACACAC AGGGCAACCA CATGAAATTT GCCAAACCTA AACAGCTTAA AGACAAAACA
    GAGTTCTCCA TTCTTCATTA TGCTGGGAAG GTAGACTATA ACGCCACAGC CTGGCTGACA
    AAGAACATGG ACCCTCTAAA TGACAACGTT ACAGCACTGC TCTCCAATTC TTCTAACCAG
    TTTGTCCAAG ACCTCTGGAA AGATGCGGAC AGAGTCGTCG GCCTTGACAC ATTAGCTAAG
    ATGTCAGACA CCACCGGCCC GAGCGCCTCA AAGACCAAGA AGGGAATGTT CCGCACAGTG
    GGGCAGCTCT ACAAGGAGTC TTTGGCAAAA CTCATGACCA CGCTGCACAA CACCCAACCC
    AACTTCGTCA GATGTATCAT CCCGAACCAT GAGAAGAGGG CAGGGAAGCT GGATGCTAAC
    CTGGTCTTGG AGCAGCTCAG GTGTAACGGT GTGCTGGAAG GAATCAGGAT CTGTCGACAA
    GGCTTCCCCA ACCGAATCGT TTTCCAGGAG TTCCGCCAGC GTTATGAGAT CTTGGCTGCT
    AACGCTATTC CCAAAGGTTT CATGGACGGA AAGCAAGCCT GCTGCCTCAT GATCAAGCAT
    CTGGACTTGG ACCCCAACCT GTACAGAATC GGACAGAGTA AAATCTTCTT CCGCACGGGA
    GTGCTTGCTC AACTAGAGGA GGAGAGAGAT TTGAAGATCA CTGTGATCAT CATTGCTTTC
    CAGGCCCAAG CTAGAGGCTT CCTGGCCAGA AAGGCATTCG CCAAGAGACA GCAGCAGTTG
    ACGGCTATGA AAGTGATCCA GAGGAACTGT GCTGCCTACC TCAAACTGAG GAACTGGCAG
    TGGTGGAGGC TTTTCACAAA GGTTAAGCCT CTGTTGCAAG TGACCCGACA GGAAGAGGAG
    ATGGGTCTCA AGGAAGAAGA GCTACAGAAA GCCAAAGAAG TTGCCACAAA GTTTGAGTCA
    GAGCTAAAAG AAATCACCTT GAAACATACA CAGATTGTGG AGGAGAGAAA CACACTGCAG
    GAGCAGCTTC AGGCAGAGAC AGAGTTGTAT GCTGAGGCTG AGGAGATGAG GGTCCGTCTG
    GCAGCGAAGA AGCAGGAGTT GGAGGAAATC CTCCACGAGA TGGAGGCGAG GCTTGATGAA
    GAGGAGGAGC GTTCTCAGGG GCTGTTAGTG GAAAAGAAGA AGATGCAGCA GCAGATGCAG
    GAGTTGGAGG AACATTTGGA AGAGGAGGAA GACGCTCGTC AAAAACTGCA GCTCGAGAAG
    GTTGCCTGCG AGGGAAAGAT CAAAAAGCTG GATGATGATA TTCTCATAAT GGAGGACCAG
    AACAACAAGC TGCTGAAGGA GCGAAAGTTG CTAGAGGAGA GAGTTGCAGA CTTCAGTGCT
    AACCTGGCAG AGGAAGAAGA AAAATCTAAG AATCTCACTA AGCTCAAAAA TAAACACGAA
    TCCATGATCT CTGAATTAGA AGTCCGCTTG AAGAAAGAGG AGAAGACCCG TCAGGAGCTG
    GATAAAGCTA AGCGCAAACT GGAGGCGGAG TCAAATGACC TACAGGAACA GATCGCTGAC
    CTGCAGGCCC AGATCGCTGA CCTCAAAGCT CAGCTTGCAA AGAAGGAGGA GGAGTTACAG
    AACGCCTTAG CCAGGTTGGA AGATGAGTCT GCCCAGAAAA ACAACGCTCT GAAGAAGATC
    AGAGAGCTGG AAGGACACAT CTCCGACCTG CAGGAGGACC TAGACTCTGA GCGGGCTGCC
    AGGAACAAGG CCGAGAAGAT CAAACGGGAC CTTGGGGAGG AGCTGGAGGC CCTCAAGTCT
    GAGCTAGAGG ACACTCTGGA CACCACTGCC ACACAGCAGG AACTAAGAGC CAAACGTGAG
    CATGAAGTGA CCCAGCTGAA GAGAGCCATT GAGGAGGAGA ACCGGACCCA CGAGGCTCAA
    ATACATGAGA TGAGACAGAA ACACACACAG GCTGTTGAGG AGCTCAGTGA GCAGCTGGAA
    CAGTCAAAAC GAGTAAAGTC AAACCTGGAG AAAGCAAAAC AAGCTCTGGA GAAGGAAACG
    TCAGAGCTAA CTATGGAGGT GCGCTCACTG ACCCAGGCCA AGCAAGAGCT GCTGGCTGAG
    GAGACACGCC AGAAATTGCA GTTCTCCACA AAGCTGCGAC AGGCGGAAGA CGACAAGAAC
    AGCCTACAGG AGCAGCTTGA AGAGGAGGTG GAGGCAAAGA GGAACGTGGA GAGACACGTG
    TCCACTCTCA ACATCCAGCT ATCAGATGCA AAGAAGAAGA TGGATGAAAT GTCAGGCAAC
    ATTGAGCTGC TGGAGGAAGG AAAGAAGCGT CTGCAGAGAG ATTTGGAGGC AGCGAACACT
    CAGTATGAGG AGAAGGCCTC AGCATACGAC AAGCTGGAGA AGACCAAAAA TCGTCTGCAG
    CAGGAGCTGG AGGACACGCT GATGGATCTG GACAACCAGA GGCAGAACGT TTCAAACCTG
    GAGAAGAAAC AGAAGAAGTT TGACCAGATG CTGGCCGAAG AGAAGAGTGT CTCCAGTAAA
    TATGCAGATG AGCGAGACCG TGCTGAAGCT GAGGCCAGAG AGAAGGAGAC CAAAGCTCTG
    TCCCTGGCAA GGGCTCTAGA AGAGGCTCAG GATGCCAGAG AGGAGCTGGA GAGAGCCAAC
    AAGGCCCTAA AAGCAGAGAT GGAGGATCTG ATCAGCTCCA AGGATGATGT GGGAAAAAAT
    GTCCATGAGC TGGAGAAGTC CAAACGAGGC CTGGAAGCCC AGGTGGAGGA GATGAAGACG
    CAGCTGGAGG AGCTAGAGGA CGAACTGCAG GCGGCTGAGG ATGCCAAGTT GCGTCTGGAG
    GTCAACATGC AGGCTCTGAA GGCCCAGTTT GAGAGAGACC TCCAGGGAAG AGATGAGATG
    GGAGAGGAGA AGAAGAGGCA GCTGATCAAG CAGGTTCGTG AGTTGGAGAC GGAGTTGGAG
    GATGAACGTA AGCAGAGGGC CACAGCAGCA GCAGCCAAGA AGAAGCTGGA GATAGACATG
    AAAGATCTGG AGGGACAGAT CGAGACAGCC AATAAGGGAC GTGATGAGGC TATCAAGCAG
    CTCCGCAAGC TCCAGGCCCA GATGAAGGAC TACCAGAGGG AGCTGGAAGA TGCTCGTGCT
    GCTCGAGAAG AGGTGCTGAC CACCGCAAAG GAGAGCGAGA AGAAGGCCAA GAGTCTGGAG
    GCTGAGCTCA TGCAGCTACA GGAGGAACTG GCTGCAGCTG AGAGAGGACG GAAGCAAGCA
    GAGGCTGAAA GAGACGAACT GTCCGATGAG CTGGCGAGCA ACACCTCTGG AAAGTCAGCC
    TTGTCAGATG AGAAGCGTCG CCTTGAAGCT AAGATCGCCC AGCTAGAAGA GGAGCTGGAG
    GAGGAGCAAA GCAACATGGA GATCCTCAAT GACAGGCTGA GGAAGAGCAC ACAGCAGGTG
    GATCAGCTGA ACAATGAGCT GCAGACGGAG CGCACCACCT CCCAGAAGAA CGAGAGCGCT
    CGGCAGCAGT TGGACCGCCA GAACAAGGAG CTGAAGGCGA AGCTCCAGGA GATGGAGAAC
    CAGGTCAAGT CCAAGTTCAA GTCCTCCATC TCTGCCTTGG AGGCTAAAGT GGCACAGCTG
    GAGGAGCAGC TGGAGCAGGA GAACAGGGAT AAGCAGACAA CTGCCAAGAA TATGCGCCAG
    AAAGACAAGA AGCTCAAGGA CCTGATGTTG CAGGTGGAAG ACGAACGAAA ACAGGCAGAG
    CAGTACAAAG ACCAGGCGGA AAAGTCAAGC ACTCGCATGA AGCAGCTGAA GCGGCAGCTA
    GAGGAGTCGG AGGAGGAGTC TCAGCGCGCC ACAGCAGCCC GCAGGAAGCT GCAGCGGGAG
    CTGGATGAAG CCACTGAGGC CAACGACGCC ATGACCCGCG AGATCGGCTC TCTCAAGAAC
    AAACTCAGGC GTGGAAATGA GCCCTCCTTT AGCAGCGCAC CTCGGCGCAT AGGCGGAAGC
    CGAAGGGTGG TCGAGGATGC CTCAGAGGAC GACGCCGACT CCCAAAGCGA CTTCAATGGG
    ACAAAGTCCG CTGACTAA

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