Gli3 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Gli3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Gli3 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
ORa44171 NM_080405.2
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Rattus norvegicus GLI family zinc finger 3 (Gli3), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
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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 ORa44171
    Clone ID Related Accession (Same CDS sequence) NM_080405.2
    Accession Version NM_080405.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4749bp)
    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 2017-10-02
    Organism Rattus norvegicus(Norway rat)
    Product transcriptional activator GLI3
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AAHX01091592.1, AAHX01091591.1, AAHX01091588.1, AAHX01091585.1 and AAHX01091584.1. On Sep 25, 2014 this sequence version replaced NM_080405.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the Celera genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052296, SAMD00052297 [ECO:0000348] ##Evidence-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
    ATGGAGGCCC AGTCCCACAG CTCGACGACA ACTGAGAGGA AGAAAGCTGA AAGTTCCATT 
    GCGAAGTGTC CCACAAGAAC AGATGTCAGT GAGAAGGCCG TGGCCTCCAG TACCACTTCA
    AATGAGGATG AAAGTGCTGG ACAGATCTAT CACCGAGAGA GAAGAAACGC AATCACTATG
    CAGCCTCAGA GTGTGCAGGG TCTCAGCAAA ATCAGTGAGG AGCCCTCAAC ATCTAGTGAT
    GAGAGGGCCT CGTTGATCAA GAAAGAGATC CATGGATCTC TACCACATCT GGCTGAGCCC
    TCTCTCCCTT ATCGTGGGAC TGTGTTTGCC ATGGATCCCC GGAATGGTTA CATGGAGCCT
    CACTACCACC CTCCTCATCT TTTTCCTGCC TTCCATCCTC CTGTACCGAT TGATGCCAGA
    CATCACGAGG GCCGCTACCA TTATGATCCA TCTCCTATTC CTCCATTACA CGTGCCTTCT
    GCCTTATCTA GTAGTCCAAC GTATCCAGAC TTGCCTTTCA TTAGGATCTC CCCACACCGT
    AACCCCACTG CAGCTTCAGA GTCCCCCTTC AGCCCCCCAC ACCCCTACAT CAACCCATAT
    ATGGACTACA TCCGCTCCTT GCACAGCAGC CCATCCCTCT CCATGATCTC CGCTGCCCGA
    GGGCTGAGCC CCACAGATGC CCCCCATGCT GGAGTCAGCC CTGCGGAATA CTATCACCAG
    ATGGCTCTGC TGACAGGCCA GCGCAGCCCC TATGCAGACA TCCTTCCCTC AGCCGCCACT
    GCTGGTGCAG GGGCCATCCA TATGGAGTAC CTTCATGCCA TGGACAGCAC CAGATTTCCC
    AGCCCTAGAC TGTCAGCTAG GCCCAGCCGA AAGCGTACCC TGTCGATCTC TCCACTGTCA
    GATCATAGCT TCGACCTTCA GACCATGATA AGAACATCTC CTAACTCCTT GGTCACAATC
    CTCAATAATT CCCGTAGCAG TTCTTCAGCA AGTGGTTCCT ATGGGCACTT ATCTGCAAGT
    GCAATCAGCC CTGCTTTGAG CTTCACCTAC CCCTCCGCCC CCGTGTCTCT CCATATGCAT
    CAACAGATCC TAAGCCGACA GCAGAGCTTA GGTTCAGCAT TTGGACATAG CCCTCCCCTC
    ATCCACCCTG CTCCAACATT TCCAACGCAG AGACCCATCC CTGGGATTCC GACGGTTCTG
    AACCCTGTCC AGGTCAGCTC TGGCCCTTCT GAGTCTTCAC AGAGCAAACC CACAAGTGAG
    TCTGCAGTGA GTAGTACCGG TGACCCTATG CATAATAAGC GGTCCAAGAT CAAGCCCGAT
    GAAGACCTCC CCAGCCCAGG ATCACGGGGG CAGCAGGAAC AGCCGGAGGG AACAACCCTA
    GTCAAGGAGG AAGGGGACAA AGATGAAAGC AAGCAGGAGC CTGAAGTCAT CTATGAGACA
    AACTGCCACT GGGAAGGCTG CACAAGAGAG TTCGACACCC AGGATCAGCT TGTGCATCAT
    ATCAATAATG ACCACATTCA TGGAGAAAAG AAGGAGTTTG TGTGCCGCTG GCTTGATTGT
    TCAAGAGAGC AGAAACCGTT CAAAGCCCAG TACATGTTGG TAGTACATAT GAGAAGACAC
    ACCGGAGAGA AGCCTCACAA ATGTACATTT GAAGGTTGTA CAAAAGCCTA CTCAAGACTC
    GAAAACCTGA AAACCCACTT GAGATCTCAC ACTGGAGAGA AGCCATATGT CTGTGAGCAT
    GAGGGCTGCA ACAAGGCTTT CTCTAACGCT TCAGATCGGG CCAAGCACCA AAACAGAACA
    CATTCCAATG AGAAACCATA TGTATGCAAA ATCCCTGGCT GCACCAAGCG TTACACAGAC
    CCCAGCTCTC TCCGGAAACA TGTGAAGACT GTGCATGGCC CTGAGGCTCA TGTTACCAAG
    AAGCAGCGTG GGGACATGCA CCCTCGGCCT CCACCACCTA GAGATTCTGG CAGCCATTCA
    CAGTCCAGGT CCCCCGGCCG GCCGACTCAG GGAGCATTCG GTGAGCAGAA GGAGCTGAGC
    AACACTACCT CAAAGCGGGA AGAATGCCTC CAGGTGAAGA CTGTCAAGGC TGAAAAGCCC
    ATGACATCTC AGCCAAGCCC TGGTGGTCAG TCTTCATGCA GCAGCCAACA GTCCCCCATC
    AGCAACTATT CCAACAGTGG GCTCGAGCTT CCTCTGACTG ATGGAGGTAG TATAGCAGAC
    CTCAGTGCCA TCGATGAGAC CCCAATCATG GACTCGACCA TTTCCACGGC AACCACAGCC
    CTTGCTTTGC AAGGCAGGAG AAACCCAGCA GGGACCAAAT GGATGGAGCA TATCAAACTT
    GAAAGGCTAA AGCAAGTGAA TGGAATGTTT CCAAGACTGA ACCCTATTCT ACCCTCCAAA
    GCCCCTGCGG TATCTCCTCT CATAGGAAAT GGCACACAGT CAAATAACAA CTACAGTTCA
    GGCGGGCCCG GGACCCTTCT CCCGAGCAGA AGTGATCTGT CGGGTGTAGA CTTCACTGTG
    CTGAACACGC TCAACAGGAG GGACAGCAAC ACCAGCACCA TCAGCTCTGC CTACCTGAGC
    AGCCGCAGAT CCTCGGGCAT CTCCCCCTGC TTTTCCAGCC GCAGGTCCAG TGAGGCATCG
    CAGGCTGAAG GGCGACCCCA GAATGTGAGT GTGGCCGACT CCTACGATCC CATCTCCACA
    GATGCTTCAC GGAGGTCCAG CGAGGCCAGC CAGGGTGATG GGCTGCCCAG TCTGCTCAGC
    CTCACACCCG TGCAGCAGTA CCGCCTGAAG GCCAAGTATG CTGCTGCCAC GGGTGGCCCG
    CCACCCACAC CTCTGCCCCA CATGGAAAAG CTGAGCCTGA AGACCAGGAT GGCCCTGCTC
    GGGGAGGGGA GGGACTCAGG GGTGACTCTG CCTCCAGTCC ATCCTCCTCG GAGATGCAGT
    GATGGAGGAG GCCATACATA CAGCAGGCGT CACCTACTGC CTCATGATGC GCTAGCAAAC
    AGTGCGAGGA GAGCCAGCGA CCCTGTGAGG ACCGTCTCCG AGAACATGTC ACTTCCCAGG
    GTTCAACGCT TCAGCAGCCT GAATAGCTTT AATCCTCCAA ATTTGCCTCC ATCCGTGGAA
    AAGCGTAGTT TAGTGCTGCA AAATTATACC CGGCAGGAGA GCACCCATCC CCGGTACTTC
    CAAGCATCCC CTTGCCCTCC CAGCATCACA GAGAATGTTG CCCTGGAGGC CCTGACCATG
    GATGCTGATG CTAGCTTGAA TGATGAAGAT TTCCTGCCAG ATGATGTGGT ACAGTATTTG
    AATTCCCAGA ACCAAACAGG GTATGGGCAG CAATTACAGA GTTCCATCTC TGAAGATGGC
    AAAGTAGCCC GTGAGCCAGA GGACTTGGAC TTACCGGGGC TGCCAGACAG TCATGTTGGC
    CAGCAATACC CAGCTCTGGA GCAACCCTGC TCCGAGGGCA GTAAAACTGA TTTGCCCATC
    CAGTGGAATG AGGTCAGCTC TGGAAGTTCT GATCTGTCAT CCTCCAAGCT GAAGTGTGGT
    CAGCGCCCTA CCGTACAGCA GGCTCGAGGC TTTGGGTTAT ACAGCAATAT GGTGGTACAT
    CCACAGAACC TGTGGAAGGT TGGCACTGGC CCAGCTGGGG GATCTCAGAC CCTTGGGGAG
    AATGGCAGTT CCTACAGTGA CCCAGAGCAC TTTGCAGTCC ACAGTGGGGA TGGACTTGGC
    CCCAGTGGAG ATACTTTCCA TGAACAGGCC TATAAGACCC AGCAGTATGG GAGCCAGCTC
    AGCAGGCAGC CACTGACTTC CAGTGTTCTA GACAGTGCCT GTGGTGCTGG GATTCAAGGG
    TCCAAGCTGA AAGGCAACAG TTTGCAAGAG AATGGGGGTT TGCTAGATTT TGGCCTGTCC
    ATGGCACCAA ATGAGTTAGC TGACAACATA GTGAATGGCA TACAAACCCA AGAACAAATG
    GGGCAGGGGT ACATTGCTCC TCAGCTACTC AGTGGCAGCA TGCAACACCA GGGGCCCAGT
    CGCCCTGGTC AACAGGTACT AGGGCAGGTT GGTGCTACCT CACATATCAA CATCTATCAA
    GGGACAGAGA GCTGCCTACC AGGGACTCAG GACAAGATCA GCCAGCCATC AAGTATGGCA
    GTTATCAGGG GCTACCAGCC CTGTGCCAGC TATGGGGGCA GCAGGCGTCA GGCAATGCCA
    AGGGGCAGCC TCACTCTGCA ACAAGGACAG CTCAGTGACG TGAGTCAGAC CAGCAGGGTG
    AACAGCATCA AAATGGAGGC ACACGGGCAG TCCCATCAGC TCTGCTCTAG CATGCAGAAT
    TATTCCGGTC AGTTTTATGA CCAAACCATG GGCTTCAGTC AGCAAGACAG GAAAGCTGGC
    TCATTCTCCC TCTCAGAGGC CAACTGCCTG CTCCAGGAGA ATGGCTCTGA AAATTCTGAG
    TTACTTTCCC CAGGTGTTAA CCAGGTGACC AGCACAGTTG ACAGCTTTGA GAGTCATGAC
    CTAGAAGGCG TGCAGATTGA TTTTGATGCC ATCATAGATG ATGGGGACCA TACCAGCCTA
    ATGTCAGGGG CCTTGAGCCC CAGTATCATT CAGAACCTTT CCCACAGCTC CTCCCGTCTC
    ACCACACCTC GGGCATCCCT CCCATTCCCT TCTCTGTCCA TGAGCACCAC CAACATGGCT
    ATTGGGGATA TGAGTTCTTT GCTGACCTCC CTTGCAGAAG AAAGCAAGTT CCTTGCAGTT
    ATGCAGTAG

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

    RefSeq NP_536330.2
    CDS217..4965
    Translation

    Target ORF information:

    RefSeq Version NM_080405.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus GLI family zinc finger 3 (Gli3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_080405.2

    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
    ATGGAGGCCC AGTCCCACAG CTCGACGACA ACTGAGAGGA AGAAAGCTGA AAGTTCCATT 
    GCGAAGTGTC CCACAAGAAC AGATGTCAGT GAGAAGGCCG TGGCCTCCAG TACCACTTCA
    AATGAGGATG AAAGTGCTGG ACAGATCTAT CACCGAGAGA GAAGAAACGC AATCACTATG
    CAGCCTCAGA GTGTGCAGGG TCTCAGCAAA ATCAGTGAGG AGCCCTCAAC ATCTAGTGAT
    GAGAGGGCCT CGTTGATCAA GAAAGAGATC CATGGATCTC TACCACATCT GGCTGAGCCC
    TCTCTCCCTT ATCGTGGGAC TGTGTTTGCC ATGGATCCCC GGAATGGTTA CATGGAGCCT
    CACTACCACC CTCCTCATCT TTTTCCTGCC TTCCATCCTC CTGTACCGAT TGATGCCAGA
    CATCACGAGG GCCGCTACCA TTATGATCCA TCTCCTATTC CTCCATTACA CGTGCCTTCT
    GCCTTATCTA GTAGTCCAAC GTATCCAGAC TTGCCTTTCA TTAGGATCTC CCCACACCGT
    AACCCCACTG CAGCTTCAGA GTCCCCCTTC AGCCCCCCAC ACCCCTACAT CAACCCATAT
    ATGGACTACA TCCGCTCCTT GCACAGCAGC CCATCCCTCT CCATGATCTC CGCTGCCCGA
    GGGCTGAGCC CCACAGATGC CCCCCATGCT GGAGTCAGCC CTGCGGAATA CTATCACCAG
    ATGGCTCTGC TGACAGGCCA GCGCAGCCCC TATGCAGACA TCCTTCCCTC AGCCGCCACT
    GCTGGTGCAG GGGCCATCCA TATGGAGTAC CTTCATGCCA TGGACAGCAC CAGATTTCCC
    AGCCCTAGAC TGTCAGCTAG GCCCAGCCGA AAGCGTACCC TGTCGATCTC TCCACTGTCA
    GATCATAGCT TCGACCTTCA GACCATGATA AGAACATCTC CTAACTCCTT GGTCACAATC
    CTCAATAATT CCCGTAGCAG TTCTTCAGCA AGTGGTTCCT ATGGGCACTT ATCTGCAAGT
    GCAATCAGCC CTGCTTTGAG CTTCACCTAC CCCTCCGCCC CCGTGTCTCT CCATATGCAT
    CAACAGATCC TAAGCCGACA GCAGAGCTTA GGTTCAGCAT TTGGACATAG CCCTCCCCTC
    ATCCACCCTG CTCCAACATT TCCAACGCAG AGACCCATCC CTGGGATTCC GACGGTTCTG
    AACCCTGTCC AGGTCAGCTC TGGCCCTTCT GAGTCTTCAC AGAGCAAACC CACAAGTGAG
    TCTGCAGTGA GTAGTACCGG TGACCCTATG CATAATAAGC GGTCCAAGAT CAAGCCCGAT
    GAAGACCTCC CCAGCCCAGG ATCACGGGGG CAGCAGGAAC AGCCGGAGGG AACAACCCTA
    GTCAAGGAGG AAGGGGACAA AGATGAAAGC AAGCAGGAGC CTGAAGTCAT CTATGAGACA
    AACTGCCACT GGGAAGGCTG CACAAGAGAG TTCGACACCC AGGATCAGCT TGTGCATCAT
    ATCAATAATG ACCACATTCA TGGAGAAAAG AAGGAGTTTG TGTGCCGCTG GCTTGATTGT
    TCAAGAGAGC AGAAACCGTT CAAAGCCCAG TACATGTTGG TAGTACATAT GAGAAGACAC
    ACCGGAGAGA AGCCTCACAA ATGTACATTT GAAGGTTGTA CAAAAGCCTA CTCAAGACTC
    GAAAACCTGA AAACCCACTT GAGATCTCAC ACTGGAGAGA AGCCATATGT CTGTGAGCAT
    GAGGGCTGCA ACAAGGCTTT CTCTAACGCT TCAGATCGGG CCAAGCACCA AAACAGAACA
    CATTCCAATG AGAAACCATA TGTATGCAAA ATCCCTGGCT GCACCAAGCG TTACACAGAC
    CCCAGCTCTC TCCGGAAACA TGTGAAGACT GTGCATGGCC CTGAGGCTCA TGTTACCAAG
    AAGCAGCGTG GGGACATGCA CCCTCGGCCT CCACCACCTA GAGATTCTGG CAGCCATTCA
    CAGTCCAGGT CCCCCGGCCG GCCGACTCAG GGAGCATTCG GTGAGCAGAA GGAGCTGAGC
    AACACTACCT CAAAGCGGGA AGAATGCCTC CAGGTGAAGA CTGTCAAGGC TGAAAAGCCC
    ATGACATCTC AGCCAAGCCC TGGTGGTCAG TCTTCATGCA GCAGCCAACA GTCCCCCATC
    AGCAACTATT CCAACAGTGG GCTCGAGCTT CCTCTGACTG ATGGAGGTAG TATAGCAGAC
    CTCAGTGCCA TCGATGAGAC CCCAATCATG GACTCGACCA TTTCCACGGC AACCACAGCC
    CTTGCTTTGC AAGGCAGGAG AAACCCAGCA GGGACCAAAT GGATGGAGCA TATCAAACTT
    GAAAGGCTAA AGCAAGTGAA TGGAATGTTT CCAAGACTGA ACCCTATTCT ACCCTCCAAA
    GCCCCTGCGG TATCTCCTCT CATAGGAAAT GGCACACAGT CAAATAACAA CTACAGTTCA
    GGCGGGCCCG GGACCCTTCT CCCGAGCAGA AGTGATCTGT CGGGTGTAGA CTTCACTGTG
    CTGAACACGC TCAACAGGAG GGACAGCAAC ACCAGCACCA TCAGCTCTGC CTACCTGAGC
    AGCCGCAGAT CCTCGGGCAT CTCCCCCTGC TTTTCCAGCC GCAGGTCCAG TGAGGCATCG
    CAGGCTGAAG GGCGACCCCA GAATGTGAGT GTGGCCGACT CCTACGATCC CATCTCCACA
    GATGCTTCAC GGAGGTCCAG CGAGGCCAGC CAGGGTGATG GGCTGCCCAG TCTGCTCAGC
    CTCACACCCG TGCAGCAGTA CCGCCTGAAG GCCAAGTATG CTGCTGCCAC GGGTGGCCCG
    CCACCCACAC CTCTGCCCCA CATGGAAAAG CTGAGCCTGA AGACCAGGAT GGCCCTGCTC
    GGGGAGGGGA GGGACTCAGG GGTGACTCTG CCTCCAGTCC ATCCTCCTCG GAGATGCAGT
    GATGGAGGAG GCCATACATA CAGCAGGCGT CACCTACTGC CTCATGATGC GCTAGCAAAC
    AGTGCGAGGA GAGCCAGCGA CCCTGTGAGG ACCGTCTCCG AGAACATGTC ACTTCCCAGG
    GTTCAACGCT TCAGCAGCCT GAATAGCTTT AATCCTCCAA ATTTGCCTCC ATCCGTGGAA
    AAGCGTAGTT TAGTGCTGCA AAATTATACC CGGCAGGAGA GCACCCATCC CCGGTACTTC
    CAAGCATCCC CTTGCCCTCC CAGCATCACA GAGAATGTTG CCCTGGAGGC CCTGACCATG
    GATGCTGATG CTAGCTTGAA TGATGAAGAT TTCCTGCCAG ATGATGTGGT ACAGTATTTG
    AATTCCCAGA ACCAAACAGG GTATGGGCAG CAATTACAGA GTTCCATCTC TGAAGATGGC
    AAAGTAGCCC GTGAGCCAGA GGACTTGGAC TTACCGGGGC TGCCAGACAG TCATGTTGGC
    CAGCAATACC CAGCTCTGGA GCAACCCTGC TCCGAGGGCA GTAAAACTGA TTTGCCCATC
    CAGTGGAATG AGGTCAGCTC TGGAAGTTCT GATCTGTCAT CCTCCAAGCT GAAGTGTGGT
    CAGCGCCCTA CCGTACAGCA GGCTCGAGGC TTTGGGTTAT ACAGCAATAT GGTGGTACAT
    CCACAGAACC TGTGGAAGGT TGGCACTGGC CCAGCTGGGG GATCTCAGAC CCTTGGGGAG
    AATGGCAGTT CCTACAGTGA CCCAGAGCAC TTTGCAGTCC ACAGTGGGGA TGGACTTGGC
    CCCAGTGGAG ATACTTTCCA TGAACAGGCC TATAAGACCC AGCAGTATGG GAGCCAGCTC
    AGCAGGCAGC CACTGACTTC CAGTGTTCTA GACAGTGCCT GTGGTGCTGG GATTCAAGGG
    TCCAAGCTGA AAGGCAACAG TTTGCAAGAG AATGGGGGTT TGCTAGATTT TGGCCTGTCC
    ATGGCACCAA ATGAGTTAGC TGACAACATA GTGAATGGCA TACAAACCCA AGAACAAATG
    GGGCAGGGGT ACATTGCTCC TCAGCTACTC AGTGGCAGCA TGCAACACCA GGGGCCCAGT
    CGCCCTGGTC AACAGGTACT AGGGCAGGTT GGTGCTACCT CACATATCAA CATCTATCAA
    GGGACAGAGA GCTGCCTACC AGGGACTCAG GACAAGATCA GCCAGCCATC AAGTATGGCA
    GTTATCAGGG GCTACCAGCC CTGTGCCAGC TATGGGGGCA GCAGGCGTCA GGCAATGCCA
    AGGGGCAGCC TCACTCTGCA ACAAGGACAG CTCAGTGACG TGAGTCAGAC CAGCAGGGTG
    AACAGCATCA AAATGGAGGC ACACGGGCAG TCCCATCAGC TCTGCTCTAG CATGCAGAAT
    TATTCCGGTC AGTTTTATGA CCAAACCATG GGCTTCAGTC AGCAAGACAG GAAAGCTGGC
    TCATTCTCCC TCTCAGAGGC CAACTGCCTG CTCCAGGAGA ATGGCTCTGA AAATTCTGAG
    TTACTTTCCC CAGGTGTTAA CCAGGTGACC AGCACAGTTG ACAGCTTTGA GAGTCATGAC
    CTAGAAGGCG TGCAGATTGA TTTTGATGCC ATCATAGATG ATGGGGACCA TACCAGCCTA
    ATGTCAGGGG CCTTGAGCCC CAGTATCATT CAGAACCTTT CCCACAGCTC CTCCCGTCTC
    ACCACACCTC GGGCATCCCT CCCATTCCCT TCTCTGTCCA TGAGCACCAC CAACATGGCT
    ATTGGGGATA TGAGTTCTTT GCTGACCTCC CTTGCAGAAG AAAGCAAGTT CCTTGCAGTT
    ATGCAGTAG

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