Arhgap21 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Arhgap21 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Arhgap21 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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ORa25610 NM_001191693.1
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Rattus norvegicus Rho GTPase activating protein 21 (Arhgap21), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00

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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 ORa25610
    Clone ID Related Accession (Same CDS sequence) NM_001191693.1
    Accession Version NM_001191693.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5859bp)
    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 2018-05-30
    Organism Rattus norvegicus(Norway rat)
    Product rho GTPase-activating protein 21
    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 AAHX01093275.1, AAHX01093273.1, AAHX01093271.1 and AAHX01093270.1. On Jul 17, 2010 this sequence version replaced XM_225628.5. 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. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350] ##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
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGATGGCCA CACATTGGAC TGGTCTGCCT GAGGGAGATG GTGACAAACT CAAGGCCTGT 
    GGAGCCGCCT GTGAGGTGTC AAAAAATAAA GATGGAAAGG AACAGGGTGA ACCCGTGTCA
    CCGTCCGAAG ACGAATCGTT CTCCTGGCCA GGTCCCAAGA CAGTCATGCT GAAGAGAACA
    TCTCAAGGAT TCGGCTTCAC ACTGCGACAC TTCATCGTCT ATCCCCCGGA GTCTGCAATC
    CAGTTCTCAT ACAAGGATGA AGAGAATGGA AACAGAGGAG GAAAGCAAAG GAACCGATTG
    GAGCCGATGG ACACCATATT TGTTAAACAA GTGAAGGAAG GAGGGCCAGC CTTCGAGGCT
    GGGTTATGCA CAGGTGACAG AATTATAAAA GTCAATGGAG AAAGTGTCAT AGGAAAGACC
    TATTCTCAAG TAATTGCTCT CATTCAGAAC AGTGACACCA CACTGGAGCT CAGTGTTATG
    CCAAAGGATG AAGACATTCT CCAAGTGCTA CAGTTTACAA AGGATGTCAC AGCACTGGCG
    TACTCTCAAG ATGCCTACCT GAAAGGCAAC GGAGCTTACA GCGGCAATGC CCGTGACATT
    CCCGAGCCTC CACCAGTTTG CTATCCCTGG CTCCCGGCTA CTCCGTCAGC CACGGCACAG
    CCAGTTGAAG TGTCTCCTCC CGACTCGTTA CTGAATAAAC AGCAAACCAG TACACCAGTC
    CTGACACAAC CGGGCAGGGC CTATAGAATG GAAATACAAG TGCCTCCATC ACCAACAGAT
    GTTGCAAAGT CAAACACGGC CGTGTGTGTT TGCAGTGAGA GTGTGAGGAC CGTCATTGTG
    CCTTCTGAGA AGGTGGTGGA CTTGCTAGCC AATAGAAACA GCCCTTCAGG CCCTGCACAT
    AGAACGGAAG AGGTAAGGTA TGGTGTAAGT GACCAGGCCT CTGCAAAAGC AGCAGCCAGG
    ACCACGCCTC CGCCATCTGC TCCCACTGCC CGTCTGAGTC ATCAGACCAT AGGCTCCAGG
    TCACTGGAAC CTTCTGGAAT TTTACTTAAA TCTGGAAATT ACAGCGGACA TTCAGAAGGA
    ATCTCAAGTA GTAGATCACA AGCTGTGGAT TCTCCCCCTG TGTCTGTCAA TCACTATTCC
    GCAAACTCCC ATCAGCACAT AGACTGGAAA AACTATAAGA CTTACAAAGA ATACATTGAT
    AACAGGAGAT TGCACATAGG TTGTCGGACA ATCCAGGAGA GGTTGGACAG CTTGCGAGCT
    GCATCTCAGA GCGCAGCAGA CTATAACCAG GTGGTGCCCG CCCGCACCGC CCTGCAGGTA
    CGACGTCGAA GCACCTCTCA TGACCGGGTG CCCCAGTCCA TTCAGATCCG GCAGCGCAGT
    GTATCTCAGG AAAGACTGGA AGATTCCGTG CTGATGAAGT ATTGCCCGAG GAGCGCATCT
    CAAGGAGCGC TGACCTCCCC TCCTGTTAGC TTCAGCAACC ATAGAACTCG CTCGTGGGAT
    TACATCGAGG GGCAGAGTGA AGCCACTGCC ACTGTCAATT CTGAAAGTCA GACGCCCGAC
    TCAAACGGGG AACGAAAACA GACTTACAAG TGGAGTGGCT TCACCGAGCA GGATGACCGA
    CGGGGCATTC ATGAGAGACC CAGGCAGCAA GAAATGCACA AACCTTTCCG AGGCTCAAAT
    TTGACTGTGG CCCCCGTTGT TAATTCTGAT AACAGGCGAC TGGGTGGGAG AGGGGTGGGA
    CCTGTTTCAC AGTTTAAAAA AATCCCACCG GACCTAAGAC CACCACATTC CAACAGAAAT
    TTTCCAACCA CGAGTGGGAT GTCACTGCCA CGAGGTATTG CACAAGACAG GTCTCCACTT
    GTGAAAGTCC GAAGTAATTC TCTGAAAGCG CTGCCTCCAC CTGTCCCAAA GCCATCCTTC
    AGCCAGCACT CCCTGGCCTC CACGAAAGAC CAAAGGCCTG TCAACCATCT GCACCAACAC
    GGCCTGCTGA GTCAGCAGAC ACGGGGCCGA CCCGAAAGCA CCTTCCCTCA CCTCGAGCTG
    CAGACCGACG TCTCCCCGAG CTTACCAGGA ACCTCTGCCA AGACCAGTCC TCAGCTCAGT
    GAGAACCTGG GGACGTCAGA CTTAGACTTA CATGCCAGTC CACGGAATGG AGATGTAGAC
    TCACAGGAGG CTGACGTTCA GCCGTCAGAT GTACCAGATA ATAAAGAGTC TGTCATCCTG
    AGAGAGAAAC CTCAGCCTGG CCGCCAGACG CCACAGCCTT TAAGACATCA GTCTTACATC
    TTGGCAGTGA ATGACCAGGA GACCGGGTCA GACCCCACCT GCTGGCTGCC AAATGATGCT
    CGCAGAGAGG TCCACATCAA AAGAATGGAG GAGAGGAAGG CCTCCTGCAC CAGCCCTCCT
    GGCGATTCCC TGGCTTCCAT ACCTTTTATA GACGAACCGA CCAGCCCTAG CATCGACCAC
    GAGGTCGCAC ACATCCCTGC CTCTGCTGTC ATCTCTGCCT CTACCTCCCA GGTCCCCTCC
    ATTGCAACTG TTCCCCCCAG CCTCACCACC TCTGCTCCTC TGATTCGACG TCAGCTCTCC
    CATGACCAAG AATCTGTTGG ACCTCCCAGC CTGGATGGCC AGCACACCTC AAAGACAGAA
    AGATCAAAAT CCTATGATGA AGGCCTGGAT GATTACAGAG AAGACGCAAA GTTATCCTTT
    AAGCACGTGT CTAGCCTGAA GGGAATCAAG ATTGCAGACA GCCAGAAGTC ATCAGAAGAC
    TCTGGGTCCA GAAAGGATTC TTCCTCCGAG GTCTTCAGTG ATGCAGCCAA AGAAGGGTGG
    CTCCAGTTCC GGCCGCTCGT CACCGATAAG GGCAAGAGAG TCGGTGGCAG TATTCGGCCA
    TGGAAACAGA TGTATGTTGT CCTTCGGGGA CATTCACTTT ACTTGTACAA AGACAGACGA
    GAGCAGACGA CGCCATCAGA AGAGGAGCAG CCCATCAGTG TCAACGCTTG CCTGATAGAC
    ATCTCGTACA GTGAGACCAA GAGGAGGAAC GTGTTCCGAC TCACCACGTC CGACTGCGAA
    TGCTTGTTCC AGGCTGAAGA CAGAGACGAT ATGTTAGCAT GGATCAAGAC TATTCAGGAG
    AGTAGCAACC TAAATGAAGA GGACACTGGA GTGACCAACA GAGATCTAAT TAGTCGAAGA
    ATCAAAGAGT ATAACAGTCT GCTGAGCAAA ACAGAACAGT TGCCAAAAAC ACCTCGCCAG
    AGTCTTAGCA TCCGGCAAAC TCTGCTCGGC GCTAAATCAG AGCCAAAGAC TCAAAGCCCA
    CATTCTCCAA AGGAGGAGTC GGAGAGGAAG CTTCTCAGTA AAGATGATAC CAGTCCTCCG
    AAAGACAAAG GTACTTGGAG AAGAGGCATT CCGAGCATCG TGAGGAAGAC GTTTGAGAAA
    AAGCCGGCTG CCACAGGGAC CTTCGGAGTT AGGCTGGACG ATTGCCCGCC TGCCCACACC
    AACCGGTATA TTCCATTAAT CGTTGACATA TGTTGCAAAT TGGTTGAAGA AAGGGGTCTT
    GAATATACAG GTATTTACCG AGTTCCCGGC AACAACGCAG CCATTTCAAG CATGCAGGAA
    GAGCTCAACA AGGGGATGGC AGACATTGAC ATACAAGATG ACAAATGGCG AGATTTGAAT
    GTGATCAGCA GTTTACTAAA ATCCTTCTTC AGAAAGCTCC CCGAGCCTCT CTTTACTAAC
    GACAAATATG CTGACTTCAT CGAGGCCAAT CGCAAGGAGG ACCCTCTAGA TCGGCTGAGG
    ACGCTAAAGA GACTAATTCA CGATCTGCCT GAGCATCATT TCGAGACACT GAAGTTTCTC
    TCGGCCCATC TGAAGACAGT GGCAGAAAAC TCAGAAAAAA ATAAGATGGA ACCCAGAAAC
    CTAGCGATTG TTTTCGGTCC AACTCTAGTG AGAACATCAG AAGACAACAT GACCCACATG
    GTCACACACA TGCCTGACCA GTACAAGATC GTAGAGACCC TCATCCAGCA CCATGACTGG
    TTTTTCACAG AAGAGGGTGC TGAAGAGCCT CTCACAGCAG TGCAGGAGGA GAACACAGTA
    GACTCCCAGC CAGTACCAAA CATAGATCAC TTACTCACCA ACATTGGAAG GACAGGCGTG
    CTCCCTGGAG ATGTATCAGA TTCAGCCACT AGTGACTCGA CAAAATCGAA GGGCTCTTGG
    GGATCGGGGA AGGATCAGTA TAGCAGGGAA CTGCTTGTGT CCTCCATCTT CGCAGCCGCT
    AGTCGCAAGA GGAAAAAGCC CAAAGAGAAA GCCCAGCCCA GCAGCTCGGA AGACGAGCTG
    GACAGTGTGT TCTTTAAGAA GGAGAACATG GAACCGAGTC ACAGTGAGAT TAAAGAAGAG
    TCCAAAAGAG AAAGTGAGAC ACCAGGTAGA AAGCAGAGGG TTGTCGTTGC CAAAGACAGT
    AACACTAAGA AAGACACGGG TACAACGAAG GAGGAGAAGA AGATGCCATC GGACGAACCA
    TCCCCACCAC ACAGCTCCAA ACGCAACAGG TCACCAACGC TCAGCTGTCG CCTGGCCATG
    CTGAAGGAGA GCCCCAGATC ACTTCTGACA CAGAAGCCCC ACTGTGAAGA GACAGGGTCT
    GACTCGGGCA CTCTGTCTTC CCAGGCTTCA CTAGCCAGGT CCTCCACTAA AAAATCCACC
    AGTCCAGAAA CCAGGCACAC TGAGTTTTTG TCCAATGCTG GTACCATCAC CTCAGACTAT
    TCTACCACAT CATCCACTAC CTACTTGACC AGCCTGGACT CCAGCCGCCT GAGCCCTGAG
    GTGCAGTCAG TGGCAGAGAG CAAGGGCGAC GAGGCTGATG ACGAGAGGAG CGAACTGGTG
    AGTGAGGGGC GGCCCGTGGA GACGGACAGT GAGAGCGAGT TCCCGGTGTT CCCCTCCGCC
    CTGACTTCAG GGCAGTTCAG AGGAAAGCTA CAGGAGGTCG CCAGGTCGAG CCGCAGAAAC
    TCGGAAGGCA GTGAAGCCAG CTGCACCGAG GGAAGCCTCA CACCAAGCTT AGACAGCCGC
    AGACAGCAGT TCAGCTCCCA CAGGCTGATC GAATGCGACA CGCTGTCCAG GAAGAAGTCT
    GCTCGCTTCA AGTCGGACAG TGGGAGCCCC GGAGACACCA GGACGGAGAA AGAAACGCCT
    GCCCTGGCCA AGATGTTTGA TGTCATGAAG AAAGGCAAGT CGACGGGGAG CCTCTTGACA
    CCCAGCAGAA GTGAATCCGA AAAGCAGGAG GCCACTTGGA AAACAAAAAT AGCAGATCGC
    TTAAAACTGA GACCCAGGGC ACCCGCAGAT GACATGTTTG GAGTTGGGAA TCAAAAACCT
    ACTGCCGAGA CAGCAAAAAG GAAAAACATC AAACGCAGAC ACACGCTCGG AGGCCACAGA
    GATGCTACAG AAATCAGCGT CCTGAGCTTC TGGAAAGCGC AAGAGCAGAG TGCGGACAAA
    GAGTCCGAAC TTTCAGCTGT GAACCGGTTA AAACCCAAAT GCTCAGCCCA GGACCTCTCC
    ATCTCAGACT GGCTGGCCAG GGAGCGCATC CGCTCCAGCG CCTCCGACCT CAGCCGAAGC
    GAAGGCTGCG AGCCCCAGGC CGAGAGCCCC AGCGTGCTGG GAACACCCAC CAGCACCCAC
    ACACCGCCGC CCTCTCAGCA GCCTGAAGCT AGGGCTGCTG CCAGCACCTC GGCTTCAACC
    AGCCAGCCCC CTCTTTCCAC ACCACCACAG TCACCTGACC AAATAAACGG AGACAGCTTC
    CAGAACACGA GCCAAAATGC TAGTTCTGCG GCCAACGCCC ACCCTCACAA ACTGTCTGAA
    AGTCCCAACA CTAAAACAGA GTCTCCTCCC TGCCTTTAA

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

    RefSeq NP_001178622.1
    CDS1..5859
    Translation

    Target ORF information:

    RefSeq Version NM_001191693.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus Rho GTPase activating protein 21 (Arhgap21), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001191693.1

    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
    5761
    5821
    ATGATGGCCA CACATTGGAC TGGTCTGCCT GAGGGAGATG GTGACAAACT CAAGGCCTGT 
    GGAGCCGCCT GTGAGGTGTC AAAAAATAAA GATGGAAAGG AACAGGGTGA ACCCGTGTCA
    CCGTCCGAAG ACGAATCGTT CTCCTGGCCA GGTCCCAAGA CAGTCATGCT GAAGAGAACA
    TCTCAAGGAT TCGGCTTCAC ACTGCGACAC TTCATCGTCT ATCCCCCGGA GTCTGCAATC
    CAGTTCTCAT ACAAGGATGA AGAGAATGGA AACAGAGGAG GAAAGCAAAG GAACCGATTG
    GAGCCGATGG ACACCATATT TGTTAAACAA GTGAAGGAAG GAGGGCCAGC CTTCGAGGCT
    GGGTTATGCA CAGGTGACAG AATTATAAAA GTCAATGGAG AAAGTGTCAT AGGAAAGACC
    TATTCTCAAG TAATTGCTCT CATTCAGAAC AGTGACACCA CACTGGAGCT CAGTGTTATG
    CCAAAGGATG AAGACATTCT CCAAGTGCTA CAGTTTACAA AGGATGTCAC AGCACTGGCG
    TACTCTCAAG ATGCCTACCT GAAAGGCAAC GGAGCTTACA GCGGCAATGC CCGTGACATT
    CCCGAGCCTC CACCAGTTTG CTATCCCTGG CTCCCGGCTA CTCCGTCAGC CACGGCACAG
    CCAGTTGAAG TGTCTCCTCC CGACTCGTTA CTGAATAAAC AGCAAACCAG TACACCAGTC
    CTGACACAAC CGGGCAGGGC CTATAGAATG GAAATACAAG TGCCTCCATC ACCAACAGAT
    GTTGCAAAGT CAAACACGGC CGTGTGTGTT TGCAGTGAGA GTGTGAGGAC CGTCATTGTG
    CCTTCTGAGA AGGTGGTGGA CTTGCTAGCC AATAGAAACA GCCCTTCAGG CCCTGCACAT
    AGAACGGAAG AGGTAAGGTA TGGTGTAAGT GACCAGGCCT CTGCAAAAGC AGCAGCCAGG
    ACCACGCCTC CGCCATCTGC TCCCACTGCC CGTCTGAGTC ATCAGACCAT AGGCTCCAGG
    TCACTGGAAC CTTCTGGAAT TTTACTTAAA TCTGGAAATT ACAGCGGACA TTCAGAAGGA
    ATCTCAAGTA GTAGATCACA AGCTGTGGAT TCTCCCCCTG TGTCTGTCAA TCACTATTCC
    GCAAACTCCC ATCAGCACAT AGACTGGAAA AACTATAAGA CTTACAAAGA ATACATTGAT
    AACAGGAGAT TGCACATAGG TTGTCGGACA ATCCAGGAGA GGTTGGACAG CTTGCGAGCT
    GCATCTCAGA GCGCAGCAGA CTATAACCAG GTGGTGCCCG CCCGCACCGC CCTGCAGGTA
    CGACGTCGAA GCACCTCTCA TGACCGGGTG CCCCAGTCCA TTCAGATCCG GCAGCGCAGT
    GTATCTCAGG AAAGACTGGA AGATTCCGTG CTGATGAAGT ATTGCCCGAG GAGCGCATCT
    CAAGGAGCGC TGACCTCCCC TCCTGTTAGC TTCAGCAACC ATAGAACTCG CTCGTGGGAT
    TACATCGAGG GGCAGAGTGA AGCCACTGCC ACTGTCAATT CTGAAAGTCA GACGCCCGAC
    TCAAACGGGG AACGAAAACA GACTTACAAG TGGAGTGGCT TCACCGAGCA GGATGACCGA
    CGGGGCATTC ATGAGAGACC CAGGCAGCAA GAAATGCACA AACCTTTCCG AGGCTCAAAT
    TTGACTGTGG CCCCCGTTGT TAATTCTGAT AACAGGCGAC TGGGTGGGAG AGGGGTGGGA
    CCTGTTTCAC AGTTTAAAAA AATCCCACCG GACCTAAGAC CACCACATTC CAACAGAAAT
    TTTCCAACCA CGAGTGGGAT GTCACTGCCA CGAGGTATTG CACAAGACAG GTCTCCACTT
    GTGAAAGTCC GAAGTAATTC TCTGAAAGCG CTGCCTCCAC CTGTCCCAAA GCCATCCTTC
    AGCCAGCACT CCCTGGCCTC CACGAAAGAC CAAAGGCCTG TCAACCATCT GCACCAACAC
    GGCCTGCTGA GTCAGCAGAC ACGGGGCCGA CCCGAAAGCA CCTTCCCTCA CCTCGAGCTG
    CAGACCGACG TCTCCCCGAG CTTACCAGGA ACCTCTGCCA AGACCAGTCC TCAGCTCAGT
    GAGAACCTGG GGACGTCAGA CTTAGACTTA CATGCCAGTC CACGGAATGG AGATGTAGAC
    TCACAGGAGG CTGACGTTCA GCCGTCAGAT GTACCAGATA ATAAAGAGTC TGTCATCCTG
    AGAGAGAAAC CTCAGCCTGG CCGCCAGACG CCACAGCCTT TAAGACATCA GTCTTACATC
    TTGGCAGTGA ATGACCAGGA GACCGGGTCA GACCCCACCT GCTGGCTGCC AAATGATGCT
    CGCAGAGAGG TCCACATCAA AAGAATGGAG GAGAGGAAGG CCTCCTGCAC CAGCCCTCCT
    GGCGATTCCC TGGCTTCCAT ACCTTTTATA GACGAACCGA CCAGCCCTAG CATCGACCAC
    GAGGTCGCAC ACATCCCTGC CTCTGCTGTC ATCTCTGCCT CTACCTCCCA GGTCCCCTCC
    ATTGCAACTG TTCCCCCCAG CCTCACCACC TCTGCTCCTC TGATTCGACG TCAGCTCTCC
    CATGACCAAG AATCTGTTGG ACCTCCCAGC CTGGATGGCC AGCACACCTC AAAGACAGAA
    AGATCAAAAT CCTATGATGA AGGCCTGGAT GATTACAGAG AAGACGCAAA GTTATCCTTT
    AAGCACGTGT CTAGCCTGAA GGGAATCAAG ATTGCAGACA GCCAGAAGTC ATCAGAAGAC
    TCTGGGTCCA GAAAGGATTC TTCCTCCGAG GTCTTCAGTG ATGCAGCCAA AGAAGGGTGG
    CTCCAGTTCC GGCCGCTCGT CACCGATAAG GGCAAGAGAG TCGGTGGCAG TATTCGGCCA
    TGGAAACAGA TGTATGTTGT CCTTCGGGGA CATTCACTTT ACTTGTACAA AGACAGACGA
    GAGCAGACGA CGCCATCAGA AGAGGAGCAG CCCATCAGTG TCAACGCTTG CCTGATAGAC
    ATCTCGTACA GTGAGACCAA GAGGAGGAAC GTGTTCCGAC TCACCACGTC CGACTGCGAA
    TGCTTGTTCC AGGCTGAAGA CAGAGACGAT ATGTTAGCAT GGATCAAGAC TATTCAGGAG
    AGTAGCAACC TAAATGAAGA GGACACTGGA GTGACCAACA GAGATCTAAT TAGTCGAAGA
    ATCAAAGAGT ATAACAGTCT GCTGAGCAAA ACAGAACAGT TGCCAAAAAC ACCTCGCCAG
    AGTCTTAGCA TCCGGCAAAC TCTGCTCGGC GCTAAATCAG AGCCAAAGAC TCAAAGCCCA
    CATTCTCCAA AGGAGGAGTC GGAGAGGAAG CTTCTCAGTA AAGATGATAC CAGTCCTCCG
    AAAGACAAAG GTACTTGGAG AAGAGGCATT CCGAGCATCG TGAGGAAGAC GTTTGAGAAA
    AAGCCGGCTG CCACAGGGAC CTTCGGAGTT AGGCTGGACG ATTGCCCGCC TGCCCACACC
    AACCGGTATA TTCCATTAAT CGTTGACATA TGTTGCAAAT TGGTTGAAGA AAGGGGTCTT
    GAATATACAG GTATTTACCG AGTTCCCGGC AACAACGCAG CCATTTCAAG CATGCAGGAA
    GAGCTCAACA AGGGGATGGC AGACATTGAC ATACAAGATG ACAAATGGCG AGATTTGAAT
    GTGATCAGCA GTTTACTAAA ATCCTTCTTC AGAAAGCTCC CCGAGCCTCT CTTTACTAAC
    GACAAATATG CTGACTTCAT CGAGGCCAAT CGCAAGGAGG ACCCTCTAGA TCGGCTGAGG
    ACGCTAAAGA GACTAATTCA CGATCTGCCT GAGCATCATT TCGAGACACT GAAGTTTCTC
    TCGGCCCATC TGAAGACAGT GGCAGAAAAC TCAGAAAAAA ATAAGATGGA ACCCAGAAAC
    CTAGCGATTG TTTTCGGTCC AACTCTAGTG AGAACATCAG AAGACAACAT GACCCACATG
    GTCACACACA TGCCTGACCA GTACAAGATC GTAGAGACCC TCATCCAGCA CCATGACTGG
    TTTTTCACAG AAGAGGGTGC TGAAGAGCCT CTCACAGCAG TGCAGGAGGA GAACACAGTA
    GACTCCCAGC CAGTACCAAA CATAGATCAC TTACTCACCA ACATTGGAAG GACAGGCGTG
    CTCCCTGGAG ATGTATCAGA TTCAGCCACT AGTGACTCGA CAAAATCGAA GGGCTCTTGG
    GGATCGGGGA AGGATCAGTA TAGCAGGGAA CTGCTTGTGT CCTCCATCTT CGCAGCCGCT
    AGTCGCAAGA GGAAAAAGCC CAAAGAGAAA GCCCAGCCCA GCAGCTCGGA AGACGAGCTG
    GACAGTGTGT TCTTTAAGAA GGAGAACATG GAACCGAGTC ACAGTGAGAT TAAAGAAGAG
    TCCAAAAGAG AAAGTGAGAC ACCAGGTAGA AAGCAGAGGG TTGTCGTTGC CAAAGACAGT
    AACACTAAGA AAGACACGGG TACAACGAAG GAGGAGAAGA AGATGCCATC GGACGAACCA
    TCCCCACCAC ACAGCTCCAA ACGCAACAGG TCACCAACGC TCAGCTGTCG CCTGGCCATG
    CTGAAGGAGA GCCCCAGATC ACTTCTGACA CAGAAGCCCC ACTGTGAAGA GACAGGGTCT
    GACTCGGGCA CTCTGTCTTC CCAGGCTTCA CTAGCCAGGT CCTCCACTAA AAAATCCACC
    AGTCCAGAAA CCAGGCACAC TGAGTTTTTG TCCAATGCTG GTACCATCAC CTCAGACTAT
    TCTACCACAT CATCCACTAC CTACTTGACC AGCCTGGACT CCAGCCGCCT GAGCCCTGAG
    GTGCAGTCAG TGGCAGAGAG CAAGGGCGAC GAGGCTGATG ACGAGAGGAG CGAACTGGTG
    AGTGAGGGGC GGCCCGTGGA GACGGACAGT GAGAGCGAGT TCCCGGTGTT CCCCTCCGCC
    CTGACTTCAG GGCAGTTCAG AGGAAAGCTA CAGGAGGTCG CCAGGTCGAG CCGCAGAAAC
    TCGGAAGGCA GTGAAGCCAG CTGCACCGAG GGAAGCCTCA CACCAAGCTT AGACAGCCGC
    AGACAGCAGT TCAGCTCCCA CAGGCTGATC GAATGCGACA CGCTGTCCAG GAAGAAGTCT
    GCTCGCTTCA AGTCGGACAG TGGGAGCCCC GGAGACACCA GGACGGAGAA AGAAACGCCT
    GCCCTGGCCA AGATGTTTGA TGTCATGAAG AAAGGCAAGT CGACGGGGAG CCTCTTGACA
    CCCAGCAGAA GTGAATCCGA AAAGCAGGAG GCCACTTGGA AAACAAAAAT AGCAGATCGC
    TTAAAACTGA GACCCAGGGC ACCCGCAGAT GACATGTTTG GAGTTGGGAA TCAAAAACCT
    ACTGCCGAGA CAGCAAAAAG GAAAAACATC AAACGCAGAC ACACGCTCGG AGGCCACAGA
    GATGCTACAG AAATCAGCGT CCTGAGCTTC TGGAAAGCGC AAGAGCAGAG TGCGGACAAA
    GAGTCCGAAC TTTCAGCTGT GAACCGGTTA AAACCCAAAT GCTCAGCCCA GGACCTCTCC
    ATCTCAGACT GGCTGGCCAG GGAGCGCATC CGCTCCAGCG CCTCCGACCT CAGCCGAAGC
    GAAGGCTGCG AGCCCCAGGC CGAGAGCCCC AGCGTGCTGG GAACACCCAC CAGCACCCAC
    ACACCGCCGC CCTCTCAGCA GCCTGAAGCT AGGGCTGCTG CCAGCACCTC GGCTTCAACC
    AGCCAGCCCC CTCTTTCCAC ACCACCACAG TCACCTGACC AAATAAACGG AGACAGCTTC
    CAGAACACGA GCCAAAATGC TAGTTCTGCG GCCAACGCCC ACCCTCACAA ACTGTCTGAA
    AGTCCCAACA CTAAAACAGA GTCTCCTCCC TGCCTTTAA

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