LOC102792001 cDNA ORF clone, Neolamprologus brichardi

The following LOC102792001 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC102792001 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
ONe77826 XM_006796773.1
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Neolamprologus brichardi nucleoporin NUP188 homolog (LOC102792001), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
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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 ONe77826
    Clone ID Related Accession (Same CDS sequence) XM_006796773.1
    Accession Version XM_006796773.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5241bp)
    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 nucleoporin NUP188 homolog
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006272047.1) 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
    ATGGCGGAAT CGGAGATGAG CGTCAGGAGC TGTAGGGAAT TATGGACCAT ATTGCTGGGG 
    AGGTCTGCGT TGAGAGAGCC GGCTCAGATA GAGGTAGAGC TCGACAGACA CTGGGATAGA
    CTCCATCAAG GACTTAGTTA CTACAAGCCA CCCAGCTCAT CCTCTGCTGA GAAAGTAAAA
    GAGAACAAAG ATGTTGCACA GCCCCTGAAG GACTTTGGTC TAAGGATCAG TAAATTATTG
    AGTCTCGATG AACAGCAGAG CGTTCAGCTT TTGCAGTGCT ACCTACAGGA AGACTACAGA
    GGAACCCGTG ATTCATTAAA GGTTGTACTC AAGGATGAGC GGCAAAGCCA GGCACTACTG
    CTTAAGATAG CAGACTATTA CTATGAGGAA CGCATGTGTT TGCTCAGATG TGTCCTTCTC
    CTGCTCACAT ACTTTCAGGA TGAACGACAT CCCTACAGGG CTGAGTACAG TGACTGTGTC
    AAAAAGCTGG AGAAAGACCT GGTGAGCAAA TACCAGTTGC AGTTTGAGAG TCTCTTCAAG
    GCAGAGGCAC CAACATGGGA AACTCACGGA AACCTCATGA CGGAGCGGCA GGTGTCAAGA
    TGGTTCCTGC AGTGTCTGAG AGAACAGTCT CTGCTGCTTG AGATCATCTT TCTGTATTAT
    GCTTACTTTG AGATGAACCC ATCTGACCTT CTGAACTTCA CCAAGATGTT CAAAGAACAA
    GGCTTCGGTT TGCGGCAGAC TAACAGACAC CTGGTAGATA AGAGCATGGA TGCGCTGGTT
    GACCGGATCG GATACCTGAG CGCGCTCATC CTGGTTGAAG GAATGGACAT AGACTTCCTG
    CACAAGTGTG CTCTTGAGGA TTGTACAGAT CAGCACCAGT TCTCTAGTGC TCCTGACGTG
    GTTAAGGAAA TGGATCAGCT GCTGCTGACA TTTGGTGACA TCCCTCATCA CGCACCGGTA
    TTGTTGGCCT GGGTCCTGCT AAGACACACA CTTAGACCAG ATGATACCAG CCCTGTAATC
    AGAAGGATAG GCAACACCGC CCTCCAGCTG GGTGTTTTCA AGTACCTTTC AACCATGCTC
    AAAGGTCTTG GAGTCTCAGG GAACAATTGT ACAGCAAGCA CAGCAAAAAT GTGCGTCTAT
    GGTCTCCTCT CATTTGTGAT CACCTCTTTT GAAGAAGAAA GTTTACAGAC TGATGGTGTG
    GCGACTCAGA GCTCCCACCT TATCGATGCT GCCTGTGAGG TCCTTTCTGC TCCAAGTCTG
    GCTGAAATCT TTTGGGAATT GAAGCCAAAC ATGGGGTTGG GAATGATCCT GGACAGCGCA
    GTGGGGATGT TTCCTCATAA GATCGGACCC TTGCTGCAGC TTCTAACTGC ACTGCTTTCA
    AACAAGTCGA CTGTTAAAAA GGTGTACAAC TTCTTGGATA AAATGTCCTT CTACACTCAA
    GTTTACAAAC ATAAGTCTAA TGACATCATC TCCAATGACG ACGAGACACT GTGGAGGAGG
    CAAGCTCCCA AACTCCTCTA TCCTCTCGGC ACAGGCCAGA CAAACCTGTG GATGCCACAG
    GGAGTGCTGG GCCAGGTGAT GAGTCCAGGT GAGCAAGGCT ACGTGGTACG ATGGGAGTAT
    TCCTACAGCT CCTGGACTCT CTTCACATGC GAGGTGGAGA TGCTGCTCCA TGTTGTTTCC
    ACTGCAGATG TTTTAGCCCA CTGTGCCCGC GTGAAGCCCA TCTTGGATCT AGTCCATAAG
    ATCATAAGCA CAGACTGGAC AGTGTCTGAC TGCCTCCTGC CTCTCACCTC ACGCATTTAC
    ATGTTGCTGC AGAGGTTAAC ATCCGTCATC AACCCCCCAG TGGATGTGAT TGCTTCCTGT
    GTAAACTGCC TTTCTGTGCT GGCTGCAAGG ATGCCAGGGA AGGTGTGGTC CAGTCTGCAC
    CACACTGGCT TCCTCCCCTT TGCCTCCAAC CCTCTGACAA GCATGGCCCA GTGCATAAGT
    GCTGAGGGGA TGAAGGCAGG TAACTATGGC AACCTGCTAG TTCAGATTGA GCAGCCCAGG
    GGAGAATATG CTGTGACTAT TGCCTTTCTT CGTCTCATTA CAACTCTGGT TAAGGGTCAG
    CTCGGCAGCA CTCAGAACAA AGGTCTGATC CCCTGTGTGC TGCTGGTGTT GAAGGAGATG
    CTGCCCACGT ACCATAAGTG GCGTTACAAC ACCTATGGTG TCAGAGAGAG GATAGGTTGT
    CTTATTTTGG AGCTGATCCA TGCCATTCTC AATCTGAGCC CAGAGGGAGA GGACCAAGGC
    AGCGCTCCCA GCCTGCAGTC TCTGTGTATC TACAGCCTTG CAAATACAGA AGCTGGACAG
    GCAGTTGTCA ATATAATGGG AGTTGGAGTT GACACCATAG ATGTGGTCCT GGCTGCACAA
    CCCAGCAGCT GTGGCTCTGA GGGTCCTGGT CAGATGCTCA TCCAGACTGT CAAACTGGCC
    TTTTCTGTCA CAAACAACGT AATCCGTTTG AAACCGCCTT CGGACACAGT GTCCCCACTG
    GAGCAGGCGC TGACACAGCA CGGTGGCCAC GGCAATAACC TAATAGTCGT CCTAGCTAAA
    TATATCTACC ACAAACACGA TCCAGCACTC CCTCGTCTCG CAATCCAGCT GCTCAAAAGG
    CTCGCCACAG TGGCTCCCAT GTCGGTCTAC GCTTGTCTCG GGAGCGATGC AGCAGCCATC
    CGCGATGCAT TCCTCACTCG GCTGCAGAGC AAGACGGAAG ACATGAGGAT CAAAGTCATG
    ATCCTTGAGT TTCTCACTGT CGCTGTGGAA ACCCAGCCTG GCCTCATTGA GCTTTTTCTC
    AACCTGGAAG TCAAAGATGG AAACGAAGGA TCAAAGGAGT TCCTGCTGGG TGAGTGGAGC
    TGTCTTCATG TCGTGTTGGA CCTGATCGAC TCCAAACAGC AGGGCAAGTA CTGGTGCCCC
    CCGCTGCTAC ACCGAGCAGG TCTGGCCTTC CTCCTGGCCC TCTGGCAGGA TCGCAGGGAT
    AGTGCCATCT CTGTCTTACG TACAAAAGAG AGGTTTTGGG AGAATTTGAC GACGCCTCTT
    TTTGGAACCC TCACCCCACC TTCAGACACC ACAGAGCCTT GCGTTCTGGA GACCTGCGCT
    TTTGTCATGA AAATCATCGG CCTGGAGATC TACTATGTTG TCAGCGGCTC TTTGGAACAG
    TCCTTGAAGG ACGGGCTTCA GAAGTTCTCC AACGCACGAC GCTATGAGTA CTGGTCACAG
    TACGTCAAGT CACTGGTGTG CCATGTGGCA GAGATGGAGG AAGAAGGCAT CTGCTACTTC
    ACAGAGGCCC AGATGTTGAT CTCTGCCTGG CGGATGTTGC TGATTCTTTC CACTAACCAC
    TCTGATGTGA TGCACTTAAC TGAGGACTCA ACTAAGCTGA CCCTTTTCAT GGATGTCCTA
    GATGGGACTA AAGCTGCTTT GACAACTCCC ACGTCTGCGC CTTGTCTTCG ACTTGGATCC
    ATGATGGCCA CTTTACTTCT CATCCTCCTT AAACAGTGGA GAAGTGTGGT AGCTTCAGCT
    CCGGACATCC TGTCTCCCCT CTCCCTTATC CTGGAGAGTG TCCTGCAGGC TGACCAGCAG
    CTGATGGAGA GGACCAAAGC CAAAATCTTC TCCGCACTCA TTTCTGTGCT GCAGATTCAG
    GGACTGGACG GTGGAGATAT TTCCCAGCTG CCCCAGTTGT TGCTGTCTGT ATGTGAGACG
    GTGAAAGATG AGGCCCTGGC ACTTATTGAC AACATGCGAC ACACGAGCCA GTTGGGAGAC
    ACGGTGGAGG ACGAGGACAG CATGGAGACG GACTCTCCTC GGGGCCCACA GAAGGACCAG
    AGAGACGGGG TGTGTGTTTT GGCTCTCCAC TTGGCGAAGG AGCTGTGCCG CACTGATGAG
    GATGGTGAGC ACTGGGTCTC AGTGATGAGG AAGGTCCCCC TCCTCCCCTC AGTGCTCAGT
    GCCGTTGAAC TGAGCCTTCG CATGAAACGC AACCTGTACT TTACTGAGGC TGCACTTCAC
    CTGCTGCTCA CGCTGGCCCG TACTCCGCAG GGGGCAGCAG CTGTGGCAGG AGCGGGAGTC
    ACTCAGACCA TCTGCCTCCC TCTTTTGAGT GTGTATGAGG TCTCACCAAA TGGCACATCA
    CAGAGCTTCT CCCGGAAGTC CCAGGATTTG GCCTGCTGGC CCGGGGTGTA CCGCCTCTGC
    ATGTCTCTAA TGGAGAGTCT GCTTAAGACG CTGCGCTACA ATTTCATCAA CGAAGCCCTG
    GACTTTGTCG GAGTGCATCA GGAACGTATA CTACAGTGTC TGAATGCAGT GAGGACCGTG
    CAGAGCCTGG CCTGCCTGGA TGAGGCCGAT CACACAGTTG GTTTTCTGCT GCAGCTCTCG
    AGCTTCTGTA AGGAGTGGCA GTTTCACCTG CCCAAACTGC TCAGAGATGT TCAGGTAAAC
    CTTTGTTATC TGTGCCAGAC CTGCACCCAT CTGCTCCACA GCAAAAAGAT GCTTCATCAC
    TACCTCCAGG CTAAAAACGG TGAGGCTTTG CCCCCTGGTC CCTTACCCAG GACACAGCGG
    CCCACTCAAA CATCAACTAA AGAAGCAGCA GGTGGAGGGG AAAGGGAGGA GGCGGAGCAG
    AAGGCACTGC TAGCTGTGCA GTGCAGTCTT CTAAAGATCC TCAGCAAAAC CCTGGCAACT
    CTGCAGCACT TCACCCCAGA CTGCTGCCAG ATACTCCTGG ACCAGTCTAT GGACCTGGCC
    GAGTACAGCA CGCTCTTCGT GCTTAGCTTC ACAACTCCGG CTTTTGACCC TGACGTGGCT
    CCTTCATTTG GGACCCTGCT GGCCACCATC AATGTCAGCC TGAGCATGTT GAGCGAGATG
    GAGAAGAAGA AGGAACCGGT TTCCCTGAGT ATAGCATCAC TAGCTTCATC AGAGGAGATC
    CAAGCGCTGA AGTCACTCCT CATGTTCACC ATGGAGAACT GTTTCTACGT GTTGATCTCT
    CAGGCTGTTC GGTGCCTCAA AGATCCTTCC ATCCTCCCTC GAGACAAACA GAGGCTCAAG
    CAAGAGCTCA GCTCAGAACT GAGCACTCTT CTCTCAAGCC TCTCCCGCCA TTTCCGGAGG
    GGCTCGCCAT CATCTCCTGC CAGTGCCATC CTCCCCTCTA CCCAGTCCAA ACCACCTACG
    CCGGGCTCCA AGGCGAGTCA TGAGGGTCAG GAGCCATTCA TCCAGCTTGT TCAGGCCTTC
    GTCAGACTTG TGCAGAGATA G

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

    RefSeq XP_006796836.1
    CDS25..5265
    Translation

    Target ORF information:

    RefSeq Version XM_006796773.1
    Organism Neolamprologus brichardi
    Definition Neolamprologus brichardi nucleoporin NUP188 homolog (LOC102792001), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006796773.1

    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
    ATGGCGGAAT CGGAGATGAG CGTCAGGAGC TGTAGGGAAT TATGGACCAT ATTGCTGGGG 
    AGGTCTGCGT TGAGAGAGCC GGCTCAGATA GAGGTAGAGC TCGACAGACA CTGGGATAGA
    CTCCATCAAG GACTTAGTTA CTACAAGCCA CCCAGCTCAT CCTCTGCTGA GAAAGTAAAA
    GAGAACAAAG ATGTTGCACA GCCCCTGAAG GACTTTGGTC TAAGGATCAG TAAATTATTG
    AGTCTCGATG AACAGCAGAG CGTTCAGCTT TTGCAGTGCT ACCTACAGGA AGACTACAGA
    GGAACCCGTG ATTCATTAAA GGTTGTACTC AAGGATGAGC GGCAAAGCCA GGCACTACTG
    CTTAAGATAG CAGACTATTA CTATGAGGAA CGCATGTGTT TGCTCAGATG TGTCCTTCTC
    CTGCTCACAT ACTTTCAGGA TGAACGACAT CCCTACAGGG CTGAGTACAG TGACTGTGTC
    AAAAAGCTGG AGAAAGACCT GGTGAGCAAA TACCAGTTGC AGTTTGAGAG TCTCTTCAAG
    GCAGAGGCAC CAACATGGGA AACTCACGGA AACCTCATGA CGGAGCGGCA GGTGTCAAGA
    TGGTTCCTGC AGTGTCTGAG AGAACAGTCT CTGCTGCTTG AGATCATCTT TCTGTATTAT
    GCTTACTTTG AGATGAACCC ATCTGACCTT CTGAACTTCA CCAAGATGTT CAAAGAACAA
    GGCTTCGGTT TGCGGCAGAC TAACAGACAC CTGGTAGATA AGAGCATGGA TGCGCTGGTT
    GACCGGATCG GATACCTGAG CGCGCTCATC CTGGTTGAAG GAATGGACAT AGACTTCCTG
    CACAAGTGTG CTCTTGAGGA TTGTACAGAT CAGCACCAGT TCTCTAGTGC TCCTGACGTG
    GTTAAGGAAA TGGATCAGCT GCTGCTGACA TTTGGTGACA TCCCTCATCA CGCACCGGTA
    TTGTTGGCCT GGGTCCTGCT AAGACACACA CTTAGACCAG ATGATACCAG CCCTGTAATC
    AGAAGGATAG GCAACACCGC CCTCCAGCTG GGTGTTTTCA AGTACCTTTC AACCATGCTC
    AAAGGTCTTG GAGTCTCAGG GAACAATTGT ACAGCAAGCA CAGCAAAAAT GTGCGTCTAT
    GGTCTCCTCT CATTTGTGAT CACCTCTTTT GAAGAAGAAA GTTTACAGAC TGATGGTGTG
    GCGACTCAGA GCTCCCACCT TATCGATGCT GCCTGTGAGG TCCTTTCTGC TCCAAGTCTG
    GCTGAAATCT TTTGGGAATT GAAGCCAAAC ATGGGGTTGG GAATGATCCT GGACAGCGCA
    GTGGGGATGT TTCCTCATAA GATCGGACCC TTGCTGCAGC TTCTAACTGC ACTGCTTTCA
    AACAAGTCGA CTGTTAAAAA GGTGTACAAC TTCTTGGATA AAATGTCCTT CTACACTCAA
    GTTTACAAAC ATAAGTCTAA TGACATCATC TCCAATGACG ACGAGACACT GTGGAGGAGG
    CAAGCTCCCA AACTCCTCTA TCCTCTCGGC ACAGGCCAGA CAAACCTGTG GATGCCACAG
    GGAGTGCTGG GCCAGGTGAT GAGTCCAGGT GAGCAAGGCT ACGTGGTACG ATGGGAGTAT
    TCCTACAGCT CCTGGACTCT CTTCACATGC GAGGTGGAGA TGCTGCTCCA TGTTGTTTCC
    ACTGCAGATG TTTTAGCCCA CTGTGCCCGC GTGAAGCCCA TCTTGGATCT AGTCCATAAG
    ATCATAAGCA CAGACTGGAC AGTGTCTGAC TGCCTCCTGC CTCTCACCTC ACGCATTTAC
    ATGTTGCTGC AGAGGTTAAC ATCCGTCATC AACCCCCCAG TGGATGTGAT TGCTTCCTGT
    GTAAACTGCC TTTCTGTGCT GGCTGCAAGG ATGCCAGGGA AGGTGTGGTC CAGTCTGCAC
    CACACTGGCT TCCTCCCCTT TGCCTCCAAC CCTCTGACAA GCATGGCCCA GTGCATAAGT
    GCTGAGGGGA TGAAGGCAGG TAACTATGGC AACCTGCTAG TTCAGATTGA GCAGCCCAGG
    GGAGAATATG CTGTGACTAT TGCCTTTCTT CGTCTCATTA CAACTCTGGT TAAGGGTCAG
    CTCGGCAGCA CTCAGAACAA AGGTCTGATC CCCTGTGTGC TGCTGGTGTT GAAGGAGATG
    CTGCCCACGT ACCATAAGTG GCGTTACAAC ACCTATGGTG TCAGAGAGAG GATAGGTTGT
    CTTATTTTGG AGCTGATCCA TGCCATTCTC AATCTGAGCC CAGAGGGAGA GGACCAAGGC
    AGCGCTCCCA GCCTGCAGTC TCTGTGTATC TACAGCCTTG CAAATACAGA AGCTGGACAG
    GCAGTTGTCA ATATAATGGG AGTTGGAGTT GACACCATAG ATGTGGTCCT GGCTGCACAA
    CCCAGCAGCT GTGGCTCTGA GGGTCCTGGT CAGATGCTCA TCCAGACTGT CAAACTGGCC
    TTTTCTGTCA CAAACAACGT AATCCGTTTG AAACCGCCTT CGGACACAGT GTCCCCACTG
    GAGCAGGCGC TGACACAGCA CGGTGGCCAC GGCAATAACC TAATAGTCGT CCTAGCTAAA
    TATATCTACC ACAAACACGA TCCAGCACTC CCTCGTCTCG CAATCCAGCT GCTCAAAAGG
    CTCGCCACAG TGGCTCCCAT GTCGGTCTAC GCTTGTCTCG GGAGCGATGC AGCAGCCATC
    CGCGATGCAT TCCTCACTCG GCTGCAGAGC AAGACGGAAG ACATGAGGAT CAAAGTCATG
    ATCCTTGAGT TTCTCACTGT CGCTGTGGAA ACCCAGCCTG GCCTCATTGA GCTTTTTCTC
    AACCTGGAAG TCAAAGATGG AAACGAAGGA TCAAAGGAGT TCCTGCTGGG TGAGTGGAGC
    TGTCTTCATG TCGTGTTGGA CCTGATCGAC TCCAAACAGC AGGGCAAGTA CTGGTGCCCC
    CCGCTGCTAC ACCGAGCAGG TCTGGCCTTC CTCCTGGCCC TCTGGCAGGA TCGCAGGGAT
    AGTGCCATCT CTGTCTTACG TACAAAAGAG AGGTTTTGGG AGAATTTGAC GACGCCTCTT
    TTTGGAACCC TCACCCCACC TTCAGACACC ACAGAGCCTT GCGTTCTGGA GACCTGCGCT
    TTTGTCATGA AAATCATCGG CCTGGAGATC TACTATGTTG TCAGCGGCTC TTTGGAACAG
    TCCTTGAAGG ACGGGCTTCA GAAGTTCTCC AACGCACGAC GCTATGAGTA CTGGTCACAG
    TACGTCAAGT CACTGGTGTG CCATGTGGCA GAGATGGAGG AAGAAGGCAT CTGCTACTTC
    ACAGAGGCCC AGATGTTGAT CTCTGCCTGG CGGATGTTGC TGATTCTTTC CACTAACCAC
    TCTGATGTGA TGCACTTAAC TGAGGACTCA ACTAAGCTGA CCCTTTTCAT GGATGTCCTA
    GATGGGACTA AAGCTGCTTT GACAACTCCC ACGTCTGCGC CTTGTCTTCG ACTTGGATCC
    ATGATGGCCA CTTTACTTCT CATCCTCCTT AAACAGTGGA GAAGTGTGGT AGCTTCAGCT
    CCGGACATCC TGTCTCCCCT CTCCCTTATC CTGGAGAGTG TCCTGCAGGC TGACCAGCAG
    CTGATGGAGA GGACCAAAGC CAAAATCTTC TCCGCACTCA TTTCTGTGCT GCAGATTCAG
    GGACTGGACG GTGGAGATAT TTCCCAGCTG CCCCAGTTGT TGCTGTCTGT ATGTGAGACG
    GTGAAAGATG AGGCCCTGGC ACTTATTGAC AACATGCGAC ACACGAGCCA GTTGGGAGAC
    ACGGTGGAGG ACGAGGACAG CATGGAGACG GACTCTCCTC GGGGCCCACA GAAGGACCAG
    AGAGACGGGG TGTGTGTTTT GGCTCTCCAC TTGGCGAAGG AGCTGTGCCG CACTGATGAG
    GATGGTGAGC ACTGGGTCTC AGTGATGAGG AAGGTCCCCC TCCTCCCCTC AGTGCTCAGT
    GCCGTTGAAC TGAGCCTTCG CATGAAACGC AACCTGTACT TTACTGAGGC TGCACTTCAC
    CTGCTGCTCA CGCTGGCCCG TACTCCGCAG GGGGCAGCAG CTGTGGCAGG AGCGGGAGTC
    ACTCAGACCA TCTGCCTCCC TCTTTTGAGT GTGTATGAGG TCTCACCAAA TGGCACATCA
    CAGAGCTTCT CCCGGAAGTC CCAGGATTTG GCCTGCTGGC CCGGGGTGTA CCGCCTCTGC
    ATGTCTCTAA TGGAGAGTCT GCTTAAGACG CTGCGCTACA ATTTCATCAA CGAAGCCCTG
    GACTTTGTCG GAGTGCATCA GGAACGTATA CTACAGTGTC TGAATGCAGT GAGGACCGTG
    CAGAGCCTGG CCTGCCTGGA TGAGGCCGAT CACACAGTTG GTTTTCTGCT GCAGCTCTCG
    AGCTTCTGTA AGGAGTGGCA GTTTCACCTG CCCAAACTGC TCAGAGATGT TCAGGTAAAC
    CTTTGTTATC TGTGCCAGAC CTGCACCCAT CTGCTCCACA GCAAAAAGAT GCTTCATCAC
    TACCTCCAGG CTAAAAACGG TGAGGCTTTG CCCCCTGGTC CCTTACCCAG GACACAGCGG
    CCCACTCAAA CATCAACTAA AGAAGCAGCA GGTGGAGGGG AAAGGGAGGA GGCGGAGCAG
    AAGGCACTGC TAGCTGTGCA GTGCAGTCTT CTAAAGATCC TCAGCAAAAC CCTGGCAACT
    CTGCAGCACT TCACCCCAGA CTGCTGCCAG ATACTCCTGG ACCAGTCTAT GGACCTGGCC
    GAGTACAGCA CGCTCTTCGT GCTTAGCTTC ACAACTCCGG CTTTTGACCC TGACGTGGCT
    CCTTCATTTG GGACCCTGCT GGCCACCATC AATGTCAGCC TGAGCATGTT GAGCGAGATG
    GAGAAGAAGA AGGAACCGGT TTCCCTGAGT ATAGCATCAC TAGCTTCATC AGAGGAGATC
    CAAGCGCTGA AGTCACTCCT CATGTTCACC ATGGAGAACT GTTTCTACGT GTTGATCTCT
    CAGGCTGTTC GGTGCCTCAA AGATCCTTCC ATCCTCCCTC GAGACAAACA GAGGCTCAAG
    CAAGAGCTCA GCTCAGAACT GAGCACTCTT CTCTCAAGCC TCTCCCGCCA TTTCCGGAGG
    GGCTCGCCAT CATCTCCTGC CAGTGCCATC CTCCCCTCTA CCCAGTCCAA ACCACCTACG
    CCGGGCTCCA AGGCGAGTCA TGAGGGTCAG GAGCCATTCA TCCAGCTTGT TCAGGCCTTC
    GTCAGACTTG TGCAGAGATA G

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