Kat6a cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Kat6a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Kat6a 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
ORa46428 NM_001100570.2
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Rattus norvegicus lysine acetyltransferase 6A (Kat6a), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $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 ORa46428
    Clone ID Related Accession (Same CDS sequence) NM_001100570.2
    Accession Version NM_001100570.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5997bp)
    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 2019-12-27
    Organism Rattus norvegicus(Norway rat)
    Product histone acetyltransferase KAT6A
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AABR07026361.1 and AB195309.1. On Sep 23, 2014 this sequence version replaced NM_001100570.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript 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## Transcript exon combination :: AB195309.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    5881
    5941
    ATGGTAAAGC TCGCTAACCC GCTGTACACG CAGTGGATTT TGGAGGCCAT CAAAAAAGTC 
    AAGAAGCAGA AACAGCGACC TTCAGAAGAA AGAATATGCA ATGCAGTGTC GTCCTCCCAC
    GGCTTAGATC GGAAAACTGT CCTGGAGCAG TTGGAGCTGA GTGTTAAAGA TGGCACGATC
    CTAAAAGTCT CAAACAAAGG TCTCAACTCC TATAAAGATC CTGATAATCC TGGGCGAATA
    GCACTTCCTA AACCTCGAAA CCATGGAAAG TTGGATAATA AACAAAGTGT GGATTGGAAT
    AAATTACTCA AGCGGGCATT TGAGGGCTTG GCAGAGTCTG GTGGCTCAAC TTTGAAAAGT
    ATTGAACGCT TTTTGAAAAG CCAGAAGGAT GTGTCTGCTG CCTGTGGAGG CACTGCTGCC
    TCTGGGTTTC ACCAGCAGCT GCGGTTGGCG ATCAAGCGTG CCGTTGGTCA TGGCCGACTC
    CTTAAAGATG GACCTCTCTA CCGGCTCAAC ACCAAGGCAG CCAATGCTGA AGGGAAAGAG
    GGCTGCGAGT CGCTCTCGTG TTTACCTCCT GTGTCACTGC TTCCACACGA GAAAGATAAG
    CCGGTTGCTG AACCAATCCC CATCTGTAGT TTCTGTCTTG GTACAAAAGA ACAAAACCGG
    GAAAAGAAGC CTGAGGACCT CATCTCCTGC GCAGACTGTG GCAATAGCGG TCACCCATCC
    TGCTTAAAGT TCTCCCCAGA ACTCACAGTG AGAGTGAGGG CCCTGCGGTG GCAGTGCATC
    GAGTGCAAAA CGTGCAGCTC CTGTCGCGAT CAAGGCAAAA ACGCAGATAA CATGCTCTTT
    TGTGATTCAT GTGACCGAGG TTTTCACATG GAGTGTTGTG ACCCACCCCT CACACGGATG
    CCAAAAGGCA TGTGGATATG TCAGATATGC CGACCCAGGA AAAAAGGACG GAAACTGCTA
    CAAAAGAAGG CAGCACAGAT AAAACGGCGC TATGCTAATC CAATAGGACG TCCAAAAAAC
    AGGTTAAAGA AACAAAGCAC GGTATCAAAA GGTCCCTTTA GCAAAGTTCG AACTGGTCCT
    GGAAGGGGTC GGAAACGTAA AATCACTGTA TCCAGCCAGT CTGCGTCATC CTCAGAAGAA
    GGCTATTTAG AGCGGATAGA TGGCTTGGAC TTCTGCAGAG ATAGCAGTGC CCCCTTGAAG
    TTCAACAAGA AAACCAAAGG GCTCATTGAT GGCCTTACCA AATTCTTCAC CCCTTCTCCT
    GATGGGCGGA AAGCCCGAGG GGAGGCGGTA GACTACTCTG AGCTCAGAAT CAGGAAAAAG
    GGCAACAGAA AATCAAGTAC TTCACATTGG CCCACAGACA ATCAGGACGG CTGGGAAAGC
    AAACAGGAAA GTGAGGAGCG GCTTTTTGGG AGCCAAGAAA TCATGACGGA AAGAGATATG
    GAATTATTTC GTGATATCCA AGAACAAGCA CTGCAGAAAG TTGGAGTAAC TGGGCCCCCT
    GATCCACAAG TCCGCTGTCC CTCCGTCATT GAGTTTGGGA AGTATGAAAT CCACACCTGG
    TATTCCTCTC CATATCCTCA AGAATACTCA AGGCTGCCTA AATTGTATCT TTGTGAGTTC
    TGTCTAAAAT ATATGAAAAG TAGAACTATT CTCCAGCAGC ACATGAAGAA ATGTGGTTGG
    TTCCATCCTC CCGCCAATGA GATTTACCGA AAGAATAATA TTTCTGTCTT TGAGGTTGAT
    GGGAATGTGA GTACCATTTA TTGTCAAAAT CTGTGTCTCT TGGCAAAGTT GTTTCTTGAC
    CACAAAACAC TCTATTATGA CGTGGAGCCA TTTCTCTTCT ATGTTTTAAC ACAGAATGAT
    GTCAAGGGCT GCCACCTTGT TGGCTACTTT TCTAAAGAAA AGCACTGCCA ACAGAAATAC
    AATGTCTCCT GTATAATGAT TCTTCCCCAA TACCAACGTA AGGGCTACGG CAGGTTTCTC
    ATCGATTTCA GTTATTTGTT ATCAAAGCGT GAAGGCCAAG CAGGCTCTCC TGAGAAACCA
    CTATCAGATC TAGGTCGTCT TTCCTACATG GCTTATTGGA AAAGTGTAAT CTTGGAGTGC
    CTTTATCACC AGAATGACAA ACAGATCAGC ATTAAGAAGC TGAGTAAGCT GACTGGAGTC
    TGCCCGCAAG ACATTACTTC CACACTCCAC CACCTACGGA TGCTGGACTT CCGAAGTGAC
    CAATTTGTGA TTATCCGCCG GGAAAAACTT ATCCAGGATC ACATGGCGAA GCTCCAGCTG
    AATCTTCGAC CTGTCGATGT AGATCCAGAA TGCTTACGCT GGACTCCAGT CATAGTCTCC
    AACTCTGTCG TCTCAGAGGA GGAGGATGAG GAGGCTGATG ACGGAGAGAA AGAAGAGCCC
    CAAGGCCAAG AAAGAGAGTT AGAGACCAGG GAAAGGGTGG GAAAGTCTGT GTCTCGGGAG
    AACAAAGATC AGGATTCTTC CTCTTTAATA GAAAGTGAAA AGAAACCAGA AGTCAAGGAA
    CTAGCCAGCT CTTCACGTCT GAGCAAACAG GCCCTTGTCC GGGACAGTCT TCCTGCAAAT
    AGCCAGCCAC CTCGGAGGGG CCGCTGTGGG AGGAAGAACA GAAAGACACA GGAACGTTTT
    GGTGATAAAG ATTCTAAGAT GCTTGTGGGT GAGACGTTAT CCACTTCTCA GGAGCAATAT
    GGAGAATGCG AGGAGAAGTC AGCAGCCTCC CGAGAGCGTT ACACTGAGGT GGGAGAGCAG
    CCAGCAGCCC CTCAGGCACA AGCAGACGGG AACCCAGACA TCCCCAAGGG CAGGTTCAGT
    GAGAGCGCGG ATTTGTGGCG AGGACAGCTG AAGAAAAGCC CTGAGACCCT GAAGTGCCGA
    TTGCCAGAAG GGAATGACAG ACTTCCGTGC TGCTACACCG ATGGTGACAG GGCTGTCTTT
    AGGGGCTTCA GCGAAAGTAG TGAGGAAGAG GAGGAGCCAG AAAGTCCTCG GTCAAACTCG
    CCACCAGTGC TCACAAAGCC CACGCTGAAA AGAAAGAAAC CAATTCTTCA CCGAAGAAGG
    AGAGTCCGCA AGCGGAAACA CCACAATAGC AGTGTCGTCA CAGAAACGAT CTCTGAGACC
    ACTGAGGTGT TAGATGAGCC TTTTGAAGAC TCTGACTCTG AGAGACCAAT GCCAAGACTG
    GAACCTACAT TCGAGATTGA GGAGGAGGAG GAGGAGGAGG ATGAAAATGA GCTCTTCCCC
    AGAGGGTACT TTCATTGCTT GTCCTCACAG GACATCCTTA GGTGTCAGGC TTCCTCCAAG
    AGGACGGCGT CTAAAGATGA GGAGGAAGAA GAGGAGGAGT CAGACGATGC AGATGACACT
    CCTGTCCTAA AGCCAGTATC TCTCTTGAGA AAATGTGATG TGAACAGTGC TTCACTTGAG
    CCAGATACCT CTACACCTAT GAAAAAGAAA AAGGGATGGC CCAAAGGCAA GAGCCGAAAA
    CCTATCCACT GGAAGAAAAG GCCTGGGCGG AAACCAGGAT TTAAATTGAA TCAGGACATC
    ATAGCTGTTT CTACACAGGA ATGCATAGTT GAGCCCATAG TCCCCATTAA ACCAGGACGT
    AAACCCAGAA CTCAAGAGAG TGAAGAACTT GTTGAGGTGA AGGAGGGCCT GGTGGAAGAA
    AGGAAGGAGG AAATGCATAC AGAAGCAGAC GAAGAGGCCG AGGAGGAAGA GGATGCAGCC
    AGCAGTGACA TTAGAGCCAT GTCCCCATTG GACAGCAGCA ATAGCCCTGA TGCAGACCCG
    AAAGAACCTG AGGCAGAAGA GGAAGAGGAG AAGCCGTTGG ACGATCCGAG GCAATCAGAG
    GAAGAGCCTC AAGAGCTGGA AGAACAGGAG CAAGAGGAAG AGGACGAGGT GACTGCAGAG
    GCAAACCAGA ATGAAGACCA TGATGCTGAC GATGAGGACG ACGGCCACCT GGATTCACTG
    AAGACAAAAG AGCCAGAGGG GCAGCCGGCT AGAGAAGACG GCACAGAGGA GCCCGGCACC
    CAGGAGTCTT TTTTAGATGC AAGCATACAG GACAGCAGGG AGAACGCGAA GGATAAAGAT
    GAAACTGAAG CGGATTCTGA AGAGGAACAG CCTTCCCATG AGGCTTCTGT GGGATCAGAG
    ACCATGCCAG GCTCTGAGGA GGACCATGAG GAGGACTCAA ACACTAAGGA AGAATTAATT
    GAGCTAAAAG AGGAGGAAGA GATCCCACAC AGTGAACTGG ATCTGGAAAC TGTACAGGCA
    GTGCAGTCTT TGACTCAAGA AGAAAGCAGT GAGCATGAAG GAGCCTACCA GGACTGTGAG
    GAAACTCTTG CGGCTTGCCA GACTCTACAG AGTTACACCC ACACTGACGA GGACCCTCAG
    ATGTCAATGG TTGAAGACTG CCATGCCTCA GAGCATAATA GCCCAATATC CTCCATTCCG
    TCTCATCCTA GCCAGTCAGT CCGCTCCGTC AGCAGCCCCA GCATGCCTGC CCTGGAGAGT
    GGCTACACAC AGATCAGCCC AGAGCAAGGA TCCCTGTCCG CACCCTCTAT GCAGAACATG
    GAGACCAGCC CCATGATGGA TGTGCCTTCC GTATCAGACC ACTCTCAGCA GGTGGTAGAC
    AGTGGCTTCA GTGACCTGGG CAGCATCGAG AGCACCACAG AGAACTATGA GAACCCAAGC
    AGCTATGACT CTACCATGGG CAGCAGTATT TGTGGGAATA ACTCCTCTCA GAGCAGCTGC
    TCCTACGGTG GCCTGTCATC TTCAAGCAGC CTCACCCAGA ACAGTTGTGT TGTCACTCAG
    CAAATGGCAA GCATGGGCAA CAGCTGTAGC ATGCTGCAGC AAAACAGCGT CCAACCAGCT
    ACCAACTGCA ACATCAAGTC GCCTCAGACC TGTGTGGTGG AAAGGCCTCC CAGTAACCAG
    CAGCCGCCGC CACCACCACC ACCCCCGCCG CCACCACAGC AGCCGCAGCC GCAGCCGCAG
    CAGCAGGCAG CCCCACAGCC TCCCCCACCA CAGCCGCAGC AGCAGCCGCC CCCTCCACCG
    CAGCAGCAGC CCCAGCCCCC ACCTCCACCC CAGCAGCAGC CCCCTCTGTC GCAGTGTAGC
    ATGAACAACA GCTTCACTGC CGCGCCAATG ATAATGGAGA TACCAGAGTC CGGGGGTACT
    GGGAACATCA GCATCTACGA GAGGATTCCA GGGGATTTTG GCGCTGGCAG CTACTCTCAA
    CCGTCAGCCA CCTTCAGTCT CGCCAAGTTG CAGCAGCTGA CTAACACCAT TATGGACCCT
    CATGCCATGC CTTACAGTCA TTCTCCGGCC GTGACTTCCT ATGCAACCAG TGTTTCTCTG
    TCTAATACGG GACTGGCTCA GCTAGCTCCA TCTCATCCCT TAGCCGGGAC CCCTCAAGCA
    CAAGCCACCA TGACGCCACC CCCAAACTTG GCACCTACTA CTATGAACCT CACGTCACCT
    CTGCTGCAGT GCAACATGTC TGCCACCAAC ATTGGGATCC CTCACACGCA GAGGTTGCAG
    GGGCAGATGC CAGTCAAGGG GCACATTTCT ATCCGTTCCA AGTCTGCACC TTTACCCTCT
    GCAACTGCAC ACCAACAGCA GCTCTATGGC CGCAGCCCCC CAGCAGTTGC CATGCAGGCT
    GGCCCTCGTG CACTGGCCGT TCAGCGTGGC ATGAACATGG GGGTTAACTT AATGCCCACT
    CCAGCCTATA ATGTCAATTC CATGAATATG AACACCTTGA ATGCCATGAA CAGCTATCGA
    ATGACACAGC CCATGATGAA CAGCAGTTAC CATAGTAACC CTGCCTACAT GAACCAGACA
    GCACAGTATC CTATGCAGAT GCAGATGGGA ATGATGGGGA GCCAGGCCTA TACCCAGCAG
    CCTATGCAGC CAAACCCTCA TGGAAACATG ATGTACACTG GCCCCTCCCA TCACAGCTAC
    ATGAATGCTG CCGGCGTCCC CAAGCAGTCA CTTAATGGAC CTTACATGAG AAGATGA

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

    RefSeq NP_001094040.1
    CDS314..6310
    Translation

    Target ORF information:

    RefSeq Version NM_001100570.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus lysine acetyltransferase 6A (Kat6a), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001100570.2

    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
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    ATGGTAAAGC TCGCTAACCC GCTGTACACG CAGTGGATTT TGGAGGCCAT CAAAAAAGTC 
    AAGAAGCAGA AACAGCGACC TTCAGAAGAA AGAATATGCA ATGCAGTGTC GTCCTCCCAC
    GGCTTAGATC GGAAAACTGT CCTGGAGCAG TTGGAGCTGA GTGTTAAAGA TGGCACGATC
    CTAAAAGTCT CAAACAAAGG TCTCAACTCC TATAAAGATC CTGATAATCC TGGGCGAATA
    GCACTTCCTA AACCTCGAAA CCATGGAAAG TTGGATAATA AACAAAGTGT GGATTGGAAT
    AAATTACTCA AGCGGGCATT TGAGGGCTTG GCAGAGTCTG GTGGCTCAAC TTTGAAAAGT
    ATTGAACGCT TTTTGAAAAG CCAGAAGGAT GTGTCTGCTG CCTGTGGAGG CACTGCTGCC
    TCTGGGTTTC ACCAGCAGCT GCGGTTGGCG ATCAAGCGTG CCGTTGGTCA TGGCCGACTC
    CTTAAAGATG GACCTCTCTA CCGGCTCAAC ACCAAGGCAG CCAATGCTGA AGGGAAAGAG
    GGCTGCGAGT CGCTCTCGTG TTTACCTCCT GTGTCACTGC TTCCACACGA GAAAGATAAG
    CCGGTTGCTG AACCAATCCC CATCTGTAGT TTCTGTCTTG GTACAAAAGA ACAAAACCGG
    GAAAAGAAGC CTGAGGACCT CATCTCCTGC GCAGACTGTG GCAATAGCGG TCACCCATCC
    TGCTTAAAGT TCTCCCCAGA ACTCACAGTG AGAGTGAGGG CCCTGCGGTG GCAGTGCATC
    GAGTGCAAAA CGTGCAGCTC CTGTCGCGAT CAAGGCAAAA ACGCAGATAA CATGCTCTTT
    TGTGATTCAT GTGACCGAGG TTTTCACATG GAGTGTTGTG ACCCACCCCT CACACGGATG
    CCAAAAGGCA TGTGGATATG TCAGATATGC CGACCCAGGA AAAAAGGACG GAAACTGCTA
    CAAAAGAAGG CAGCACAGAT AAAACGGCGC TATGCTAATC CAATAGGACG TCCAAAAAAC
    AGGTTAAAGA AACAAAGCAC GGTATCAAAA GGTCCCTTTA GCAAAGTTCG AACTGGTCCT
    GGAAGGGGTC GGAAACGTAA AATCACTGTA TCCAGCCAGT CTGCGTCATC CTCAGAAGAA
    GGCTATTTAG AGCGGATAGA TGGCTTGGAC TTCTGCAGAG ATAGCAGTGC CCCCTTGAAG
    TTCAACAAGA AAACCAAAGG GCTCATTGAT GGCCTTACCA AATTCTTCAC CCCTTCTCCT
    GATGGGCGGA AAGCCCGAGG GGAGGCGGTA GACTACTCTG AGCTCAGAAT CAGGAAAAAG
    GGCAACAGAA AATCAAGTAC TTCACATTGG CCCACAGACA ATCAGGACGG CTGGGAAAGC
    AAACAGGAAA GTGAGGAGCG GCTTTTTGGG AGCCAAGAAA TCATGACGGA AAGAGATATG
    GAATTATTTC GTGATATCCA AGAACAAGCA CTGCAGAAAG TTGGAGTAAC TGGGCCCCCT
    GATCCACAAG TCCGCTGTCC CTCCGTCATT GAGTTTGGGA AGTATGAAAT CCACACCTGG
    TATTCCTCTC CATATCCTCA AGAATACTCA AGGCTGCCTA AATTGTATCT TTGTGAGTTC
    TGTCTAAAAT ATATGAAAAG TAGAACTATT CTCCAGCAGC ACATGAAGAA ATGTGGTTGG
    TTCCATCCTC CCGCCAATGA GATTTACCGA AAGAATAATA TTTCTGTCTT TGAGGTTGAT
    GGGAATGTGA GTACCATTTA TTGTCAAAAT CTGTGTCTCT TGGCAAAGTT GTTTCTTGAC
    CACAAAACAC TCTATTATGA CGTGGAGCCA TTTCTCTTCT ATGTTTTAAC ACAGAATGAT
    GTCAAGGGCT GCCACCTTGT TGGCTACTTT TCTAAAGAAA AGCACTGCCA ACAGAAATAC
    AATGTCTCCT GTATAATGAT TCTTCCCCAA TACCAACGTA AGGGCTACGG CAGGTTTCTC
    ATCGATTTCA GTTATTTGTT ATCAAAGCGT GAAGGCCAAG CAGGCTCTCC TGAGAAACCA
    CTATCAGATC TAGGTCGTCT TTCCTACATG GCTTATTGGA AAAGTGTAAT CTTGGAGTGC
    CTTTATCACC AGAATGACAA ACAGATCAGC ATTAAGAAGC TGAGTAAGCT GACTGGAGTC
    TGCCCGCAAG ACATTACTTC CACACTCCAC CACCTACGGA TGCTGGACTT CCGAAGTGAC
    CAATTTGTGA TTATCCGCCG GGAAAAACTT ATCCAGGATC ACATGGCGAA GCTCCAGCTG
    AATCTTCGAC CTGTCGATGT AGATCCAGAA TGCTTACGCT GGACTCCAGT CATAGTCTCC
    AACTCTGTCG TCTCAGAGGA GGAGGATGAG GAGGCTGATG ACGGAGAGAA AGAAGAGCCC
    CAAGGCCAAG AAAGAGAGTT AGAGACCAGG GAAAGGGTGG GAAAGTCTGT GTCTCGGGAG
    AACAAAGATC AGGATTCTTC CTCTTTAATA GAAAGTGAAA AGAAACCAGA AGTCAAGGAA
    CTAGCCAGCT CTTCACGTCT GAGCAAACAG GCCCTTGTCC GGGACAGTCT TCCTGCAAAT
    AGCCAGCCAC CTCGGAGGGG CCGCTGTGGG AGGAAGAACA GAAAGACACA GGAACGTTTT
    GGTGATAAAG ATTCTAAGAT GCTTGTGGGT GAGACGTTAT CCACTTCTCA GGAGCAATAT
    GGAGAATGCG AGGAGAAGTC AGCAGCCTCC CGAGAGCGTT ACACTGAGGT GGGAGAGCAG
    CCAGCAGCCC CTCAGGCACA AGCAGACGGG AACCCAGACA TCCCCAAGGG CAGGTTCAGT
    GAGAGCGCGG ATTTGTGGCG AGGACAGCTG AAGAAAAGCC CTGAGACCCT GAAGTGCCGA
    TTGCCAGAAG GGAATGACAG ACTTCCGTGC TGCTACACCG ATGGTGACAG GGCTGTCTTT
    AGGGGCTTCA GCGAAAGTAG TGAGGAAGAG GAGGAGCCAG AAAGTCCTCG GTCAAACTCG
    CCACCAGTGC TCACAAAGCC CACGCTGAAA AGAAAGAAAC CAATTCTTCA CCGAAGAAGG
    AGAGTCCGCA AGCGGAAACA CCACAATAGC AGTGTCGTCA CAGAAACGAT CTCTGAGACC
    ACTGAGGTGT TAGATGAGCC TTTTGAAGAC TCTGACTCTG AGAGACCAAT GCCAAGACTG
    GAACCTACAT TCGAGATTGA GGAGGAGGAG GAGGAGGAGG ATGAAAATGA GCTCTTCCCC
    AGAGGGTACT TTCATTGCTT GTCCTCACAG GACATCCTTA GGTGTCAGGC TTCCTCCAAG
    AGGACGGCGT CTAAAGATGA GGAGGAAGAA GAGGAGGAGT CAGACGATGC AGATGACACT
    CCTGTCCTAA AGCCAGTATC TCTCTTGAGA AAATGTGATG TGAACAGTGC TTCACTTGAG
    CCAGATACCT CTACACCTAT GAAAAAGAAA AAGGGATGGC CCAAAGGCAA GAGCCGAAAA
    CCTATCCACT GGAAGAAAAG GCCTGGGCGG AAACCAGGAT TTAAATTGAA TCAGGACATC
    ATAGCTGTTT CTACACAGGA ATGCATAGTT GAGCCCATAG TCCCCATTAA ACCAGGACGT
    AAACCCAGAA CTCAAGAGAG TGAAGAACTT GTTGAGGTGA AGGAGGGCCT GGTGGAAGAA
    AGGAAGGAGG AAATGCATAC AGAAGCAGAC GAAGAGGCCG AGGAGGAAGA GGATGCAGCC
    AGCAGTGACA TTAGAGCCAT GTCCCCATTG GACAGCAGCA ATAGCCCTGA TGCAGACCCG
    AAAGAACCTG AGGCAGAAGA GGAAGAGGAG AAGCCGTTGG ACGATCCGAG GCAATCAGAG
    GAAGAGCCTC AAGAGCTGGA AGAACAGGAG CAAGAGGAAG AGGACGAGGT GACTGCAGAG
    GCAAACCAGA ATGAAGACCA TGATGCTGAC GATGAGGACG ACGGCCACCT GGATTCACTG
    AAGACAAAAG AGCCAGAGGG GCAGCCGGCT AGAGAAGACG GCACAGAGGA GCCCGGCACC
    CAGGAGTCTT TTTTAGATGC AAGCATACAG GACAGCAGGG AGAACGCGAA GGATAAAGAT
    GAAACTGAAG CGGATTCTGA AGAGGAACAG CCTTCCCATG AGGCTTCTGT GGGATCAGAG
    ACCATGCCAG GCTCTGAGGA GGACCATGAG GAGGACTCAA ACACTAAGGA AGAATTAATT
    GAGCTAAAAG AGGAGGAAGA GATCCCACAC AGTGAACTGG ATCTGGAAAC TGTACAGGCA
    GTGCAGTCTT TGACTCAAGA AGAAAGCAGT GAGCATGAAG GAGCCTACCA GGACTGTGAG
    GAAACTCTTG CGGCTTGCCA GACTCTACAG AGTTACACCC ACACTGACGA GGACCCTCAG
    ATGTCAATGG TTGAAGACTG CCATGCCTCA GAGCATAATA GCCCAATATC CTCCATTCCG
    TCTCATCCTA GCCAGTCAGT CCGCTCCGTC AGCAGCCCCA GCATGCCTGC CCTGGAGAGT
    GGCTACACAC AGATCAGCCC AGAGCAAGGA TCCCTGTCCG CACCCTCTAT GCAGAACATG
    GAGACCAGCC CCATGATGGA TGTGCCTTCC GTATCAGACC ACTCTCAGCA GGTGGTAGAC
    AGTGGCTTCA GTGACCTGGG CAGCATCGAG AGCACCACAG AGAACTATGA GAACCCAAGC
    AGCTATGACT CTACCATGGG CAGCAGTATT TGTGGGAATA ACTCCTCTCA GAGCAGCTGC
    TCCTACGGTG GCCTGTCATC TTCAAGCAGC CTCACCCAGA ACAGTTGTGT TGTCACTCAG
    CAAATGGCAA GCATGGGCAA CAGCTGTAGC ATGCTGCAGC AAAACAGCGT CCAACCAGCT
    ACCAACTGCA ACATCAAGTC GCCTCAGACC TGTGTGGTGG AAAGGCCTCC CAGTAACCAG
    CAGCCGCCGC CACCACCACC ACCCCCGCCG CCACCACAGC AGCCGCAGCC GCAGCCGCAG
    CAGCAGGCAG CCCCACAGCC TCCCCCACCA CAGCCGCAGC AGCAGCCGCC CCCTCCACCG
    CAGCAGCAGC CCCAGCCCCC ACCTCCACCC CAGCAGCAGC CCCCTCTGTC GCAGTGTAGC
    ATGAACAACA GCTTCACTGC CGCGCCAATG ATAATGGAGA TACCAGAGTC CGGGGGTACT
    GGGAACATCA GCATCTACGA GAGGATTCCA GGGGATTTTG GCGCTGGCAG CTACTCTCAA
    CCGTCAGCCA CCTTCAGTCT CGCCAAGTTG CAGCAGCTGA CTAACACCAT TATGGACCCT
    CATGCCATGC CTTACAGTCA TTCTCCGGCC GTGACTTCCT ATGCAACCAG TGTTTCTCTG
    TCTAATACGG GACTGGCTCA GCTAGCTCCA TCTCATCCCT TAGCCGGGAC CCCTCAAGCA
    CAAGCCACCA TGACGCCACC CCCAAACTTG GCACCTACTA CTATGAACCT CACGTCACCT
    CTGCTGCAGT GCAACATGTC TGCCACCAAC ATTGGGATCC CTCACACGCA GAGGTTGCAG
    GGGCAGATGC CAGTCAAGGG GCACATTTCT ATCCGTTCCA AGTCTGCACC TTTACCCTCT
    GCAACTGCAC ACCAACAGCA GCTCTATGGC CGCAGCCCCC CAGCAGTTGC CATGCAGGCT
    GGCCCTCGTG CACTGGCCGT TCAGCGTGGC ATGAACATGG GGGTTAACTT AATGCCCACT
    CCAGCCTATA ATGTCAATTC CATGAATATG AACACCTTGA ATGCCATGAA CAGCTATCGA
    ATGACACAGC CCATGATGAA CAGCAGTTAC CATAGTAACC CTGCCTACAT GAACCAGACA
    GCACAGTATC CTATGCAGAT GCAGATGGGA ATGATGGGGA GCCAGGCCTA TACCCAGCAG
    CCTATGCAGC CAAACCCTCA TGGAAACATG ATGTACACTG GCCCCTCCCA TCACAGCTAC
    ATGAATGCTG CCGGCGTCCC CAAGCAGTCA CTTAATGGAC CTTACATGAG AAGATGA

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