Ankrd12 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Ankrd12 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ankrd12 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
ORa06945 NM_001108238.1
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Rattus norvegicus ankyrin repeat domain 12 (Ankrd12), mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $1805.30
$2579.00

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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 ORa06945
    Clone ID Related Accession (Same CDS sequence) NM_001108238.1
    Accession Version NM_001108238.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6144bp)
    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 2016-07-30
    Organism Rattus norvegicus(Norway rat)
    Product ankyrin repeat domain-containing protein 12
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH473997.2. On or before Oct 4, 2007 this sequence version replaced XM_237588.4, XM_001072549.1. ##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
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    ATGCCCAAAT CTGGGTTCAC AAAACCAGTG CAGAGTGAAA ATTCTGACAG TGACAGCAGT 
    ATGGTGGAGA GGCCATATGG AAGAAAGAGT AAAGACAAGA TTGCGTCTTA CAGCAAAACT
    TCAAAAATTG ACCGAGGTGA TATGGGCAAA GAAATAAGAG AGAAATCATC CATGAAGCGT
    AAACTGCCTT TTACACTCAG CCCATCGAGA AATGAAGAGC GAGATTCAGA CACAGATTCA
    GACCCAGGAC ATACAAGTGA AAATTGGGGG GAGAGACTTA TATCTTCTTA CAGGACATAC
    TCAGAGAAAG AAGGTCCAGA AAAGAAGAAA ACAAGAAAAG AAGCTGGAAC TAAGAAGTCC
    ACCCCAGTGA GCATTCTTTT TGGTTACCCA CTCTCTGAAC GAAAGCAGAT GGCGCTCCTA
    ATGCAGATGA CAGCAAGGGA CAACAGCCCA GATTCCACAC CAAGTCATCC ATCACAAGCA
    ACACCAGCCC AGAAGAAAAC TCCCAGTTCT TCATCTCGAC AAAAAGATAA AATTAATAAA
    AGAAATGAAC GTGGCGAGAC TCCTTTACAC ATGGCAGCTA TTCGAGGAGA TGTGAAACAA
    GTCAAAGAGT TAATTAGCTT AGGGGCAGAT GTGAACGTGA AAGACTTTGC CGGTTGGACA
    CCTCTGCATG AAGCTTGCAA TGTTGGGTAT TATGATGTTG CTAAAATACT CATCGCAGCG
    GGAGCAGACG TTAACACGCA AGGGCTGGAC GACGACACGC CCCTCCATGA CTCCGCCAGC
    AGTGGGCACA GAGATATAGT GAAATTGTTG CTTCGTCATG GCGGGAATCC ATTCCAAGCC
    AATAAGCATG GAGAACGGCC AGTGGATGTG GCAGAGACAG AGGAGTTGGA GTTGCTGCTA
    AAAAGAGAGG TGCCTTTGTC TGGTGATGAC GAAAGTTATA CAGATTCAGA AGAGGCGCAG
    TCTGTAAATC CTTCCAGCGT TGATGAAAAC ATCGACTCAG AGACAGAGAA GGACTCTTTC
    GTCTGTGGAA GCCAAAGCCT CCCAAGCAAA GCCCCACTGC CCTCTGCCCT GGACGAGTAC
    GAGTTCAAGG ATGACGATGG AGAGGAGATC AGTAAGATGA TCGATGGCAG GCACATTCTC
    AGGAGAGAGC AACGGAAAGA GAATGAGTCA GAAGCAGAAA GGAGTGGTCT GTTTGCAAAA
    CAGGAAAAAC CCTTCTATTC TAAGTCATTT AAAACTAAAA AACAGAAGCC GTCACGGGTT
    CTGTACTCCA GTACTGAAAG TTCTGATGAA GAAGTTCTTC AGAACAGAAA GATTTCTACT
    GCATGTTCTG TTGCCGAAAC ATCACATTCT GATGTGCAAG CCAAAAGAGA GTATGAGTAC
    AAACAGAAAG GCAAAGTTAA GAGAAAATTA AAGAATCAGA ATAAAAATAA AGAGAATCAA
    GAGCTGAAAC AAGAAAAGGA GGGGAAAGAA AATAGCAGGA TTGCAAACCT GGCAGTTAAC
    ACTGCGCTGG ATTGTTCAGA GAGAAACAGA GAGGACGGGG CCTTCAGAAG ATCGTTTAGC
    CCCAAAGACG ATGCCTCTCT GCACTTACTT CATATGCCCA CTGGTAAATC TCCTAAGCAT
    CCTTGTGGAT TGAGTGAAAA ACAGGCAACA CCACTGAAGC AAGACCACAT GAAGACGTGC
    ATATCCCCAG GAAGTTCTGA AACGTCACTG CAGCCTGAGC TCTCTCGGTA TGAGAATGCA
    GAACCTGAGT TCTTGCCGGA AAGCTCAAAT GTCAAACCTT ATAAGCACAA GGAAAAAAAC
    AAACATCAGA AAGATTTTCA CCTGGAATTT GGTGAAAAGT CAAATGCCAA AATAAAAGAT
    GAAGACCATA GTGCAGCGTT TGAAAACTCA GACTGCACAC TGAAGAAGAT GGACAAAGAG
    GGCAAAACAT TAAAGAAGCA TAAACTAAAG CATAAAGAGA GGGATAAGGA GAAACACAGA
    AAGGAAGCCG AAGGTGAAAA GGAAAAATAT AAAAGCAGGG ATAATGCCAA AGAGCCACAG
    AGGAGCATTG AGTTTGACAG AGAGTTTTGG AAAGAAAACT TCTTTAAAAG TGATGAAACC
    GAGGATCTCT TCTTAAATAT GGAACATGAG TCCCTAACAG AAAAGAAGTC CAAAGTGGAG
    AAAACCGTGA AAGATGATAG ATTAGCCAAG GACAAGCACG CCTCAAAAGA GAGGAACTGT
    AAAGAAGAAC GGGAAAAGAC TAAAAGAGAA AACGAAAAGT CCCTTAAGGA AGAAAGGCTG
    AAAGATCCGA AAGAAGAAAA AGATGGTGTA TCGGCAGAGA AGGAAGCAGA GGGCAGTTCC
    ATGGCTGTCA GTGCAAACCA GGAAACTTCA GGGCCACACT CTTCAGAACG GGAAGTAGAC
    ATTGAAAAGC AAGAGCGGCA CTCGAAAGAA AGGGAAAAAT CTGACAGACG CTTTCAGACT
    AAGGAAAAAG AGCTTGACAG GACAGAAAGA AAAGTTTCTG AAAAAGAAAA GAAGCTAAAA
    CATGAGCATA AGTCAGAAAG AGAGAAGCTG GATTTTAGTG ACTGTACTGA CAGAGTGAAA
    GAGAAGGACA GGCTGTACTC ACCTCAGACA GAACGGTGCC ATAAGGAAGG TGAGAAGATG
    AGAAACACTG TCAGAAAAGC TGAAGACAGG GAGCGGGCCA GGGAAAAGAC AGACAGAAAG
    CATGACAGAG AGAAACCTGA GCGAGAGAGG TGTTTAGCAG AAAGCAAAGA AAAGTACTTA
    GAGAAAAGAA AGCAGTCGGA CAACAGTGAG TACTCTAAGT CAGAGAAGGT CAGAAATAGA
    GATAGAGACA GGGAAGGAGA GAAGAAGGAG AAACTCAGAG ATAAAGAAAG TGTAAATGTA
    GCCAACTTGA GACATTTACA GGAGGAGAGA AAGTCAAGTA CAGGAGAGGG CAGTAGTAAA
    ACCCAGCATG AGAAAGCCCT GTCCCTTAAA GAAAGGGTAA GAGATGAGCC TTTGAAAATC
    CCAGATGGGA AAGAGAAAGA TAAAAAGGAT ATAGATAGAT ACAAAGAGCG AGACAAGCGT
    AAGGAGAAAG CCCAGCTAAG CACTTTAATC AGACTAAAAT CGGAAACAGA GAAGCTTAAA
    CCTAAATTGT CACCAGCATC AAAAGATGCT CGACCTAAAG AAAAGAGGCT AGTAAATGAT
    GACTTGATGC AGACGAGCTT TGAACGGATG CTCAGCCTTA AAGACCTAGA AATAGAACAG
    TGGCACAAAA AACATAAGGA AAAAATTAAG CAAAAAGAAA AAGAACGATT ACGGAATCGT
    TCTTGTTTAG AACTTAAAGT AAAAGATAAA GAAAAAACAA AACATACACC CAGTGAATCC
    AAAAATAAAG AACTTACCAG GTCAAGAAGT TCAGAGTTAA CCGATGTTTA TAACAAGGAG
    AAACAATCTA AAGATGTTGG AAGTAATCGC TCGCAATCTG TTGATAACAA AAGTGTATTG
    AGTTTAGGAA AGCTACCCTA CGTTTCAGAG AATAGCTCAA GCCGGTCTCC TAGGTCAGAA
    GGTGAGAAGC TGGGTCTCAG CTCCAGGTCT GTGTCCATGC TCTCTGTTGC TAGTTCAGAA
    GACTCCTGCC ACACAGTCAC AACCCCAAGG CCCCTCGTCG AGTATGACTC TGACTTCATG
    TTAGAGGGCT CAGAATCTCA GTTGTCATTT TCTCAGTCAC CTTTTTTGCC GAATGCCAAA
    TCTCCAGCTC TTTATGAAAG AGAGCTGGAG AGTCTCGCTG AACTGCCAGA ACGACTTAAA
    CCACCGTATG CAAACAGACT TCCAGTATGC CATCTCAGGT CATCGTCTGT GGAAGACGTT
    AAACTGATCA CAAATGAGGT AAGACCTGCT GTAGAAATCA GAAGATGTAG CATGCCCTCA
    GTCATTTGCG AACCCATAAA ACATTTCCAA GTATCAGAAG ACAGCAGTCA AGGCAACTTA
    GCTGTGCCAA GAGAGACTTC TCTGTCTCCC AGACCTGAAG TGTCTTTAGT ACCTGAAAGA
    GGCCTTTCGC ACGTGTCTGA CTTACATCCT CGCTGTACAG ACTCCCCAGT GAGGTCTGTA
    GACAGCAGCT CTGTTTCATC TGACGTACAT GTAATCAAGA GTGCTGCTCT TGTGGGTACA
    CTGATTGACA CGTCAATGCA TTTGGAAACA TCCAATCAGG TTGGAGTAAT CCAAAGTAAA
    TCATGGGAGA CGCCTGTTGA CAAACTGGAG TCTTTAAGCA CCAATGACTT TATCTGTCCA
    GATTCTAGTA CATCTGATCA AGATTCCTCT GCTCAGAGTT TTTATCATTC AGAAAACAAA
    ATGTTAAGAG AACAAAATGC TGATTGCTTA CCTGTACACC AGACTGAACT GCCAGGAAAC
    TCGTGTGCTC AGGACCCAGC ATCCTTCACC CTGTCTTCAC CCCAGCCCTG CTCTTTTACC
    AACCAGTCAC TCTCAGACGC TGAATCTCTT CCTAAACCTG TGTCTTTGTC TTACGGTGCC
    AGTCAAGAGC CAGGTGTTTT ACAACAGAGA AGTGCAGCTC ACATGATCAG TTCTGTTTTA
    GAGAGTGATA ATAACTTTAC AAAGGAGGTG GAAAGTTCGT TTGTCTTAGC AGACATTCAG
    AAGACGAATT CTTTTGTACC AGCTTACTCT GAAAGCACTG TGCAGGAAAC ACTCCCAAAC
    TTTGAGAAGG CCAATACCTT GCTTGTGTTG CCATCAGAAA AGGATTTCAG TGGGAGTGAC
    GCTGCTTCTC AGCTAAACAC ACATTATGCC TTTAGCAAAC TTACATACAA GTCTTCCAGC
    AGCCATGAGA TTGAGAAGGG CCCAGATGAT ACTCAAGTCA TTTCCCATGA AAAAGAAAAC
    AAACTGCAAA GTTTGGTCTT AACGCCATTG AGTAAGTGTG ATTCTGATTT GTATGAAGTG
    AATGCAGGGA TGCCGAAAGG AAACCTGAAT GAACAGGATA ACCCAAAGCA CGGTCCTGAC
    AGCGAAAAGG ATTCGCTTTC CACTGAGGAT GAGGAATCTC AGCAGAGCAC TTTATCAAGT
    GTGGAAAACC ATTCACAGCA GTCAGCCCAA CCAGAAATAC AGAAATATGA CCAGATGGTT
    AAAGGAGAAT TAGAGGAAAA TGCTGAGGAC GATAAAACTG AAAACCAAAC CCCTCAAAGA
    ATGACTAGAA ACAAAGCAAG TGCACTGGTC AGTCAAAGCA AGCAGGTTCT TGCTGGCTGT
    ACACTTTTAC CAGAGAAAGA TAATGACTCC TCCCCTCGGG GGAGAATCAG ACTCACCGAA
    GAAGACGATC CTCAGATCCA CCATCCACGG AAAAGGAAAG TGTCACGGGT CCCTCAGCCT
    GTGCAAGTGA GTCCCTCTCT ACTACAAGCA AAGGAGAAGA CGCAGCAGTC CCTAGCAGCT
    CTCGTAGACT CTCTGAAGCT AGACGAGATC GAGCCGTACA GTTCCGAGAG AGCAAATCCA
    TATTTTGAAT ATTTGCACAT AAGGAAAAAA ATTGAAGAAA AACGCAAGTT GCTATGTAGT
    GTTATTCCTC AAGCTCCTCA GTATTATGAT GAATATGTAA CGTTTAATGG ATCATATCTC
    CTGGATGGAA ACCCCTTAAG CAAGATTTGT ATTCCTACAA TCACACCGCC ACCTTCGCTG
    TCAGATCCAC TTAAAGAGCT CTTTCGGCAA CAGGAAGTAG TAAGGATGAA ACTGCGTTTG
    CAACATAGTA TTGAAAGGGA AAAACTTATT GTATCGAATG AACAAGAGGT TCTGCGAGTT
    CATTACAGAG CTGCAAGAAC ACTGGCCAAT CAAACACTGC CATTCAGTGC TTGCACTGTT
    TTACTGGATG CCGAAGTGTA CAATGTGCCC CTGGACTCAC AGTCTGATGA CAGCAAAACT
    TCTGTGAGAG ATCGATTTAA TGCAAGACAG TTCATGTCCT GGTTGCAAGA TGTGGATGAT
    AAATTTGACA AGCTAAAGAC CTGTCTGTTA ATGAGGCAGC AACATGAGGC TGCAGCTCTA
    AATGCCGTCC AGAGACTAGA GTGGCAGCTC AAACTCCAGG AACTGGACCC TGCCACCTAT
    AAATCTATCA GTATTTACGA GATCCAGGAG TTCTATGTTC CGCTTGTTGA TGTTAATGAT
    GATTTTGAAT TGACTCCTAT ATAG

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

    RefSeq NP_001101708.1
    CDS138..6281
    Translation

    Target ORF information:

    RefSeq Version NM_001108238.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus ankyrin repeat domain 12 (Ankrd12), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001108238.1

    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
    5881
    5941
    6001
    6061
    6121
    ATGCCCAAAT CTGGGTTCAC AAAACCAGTG CAGAGTGAAA ATTCTGACAG TGACAGCAGT 
    ATGGTGGAGA GGCCATATGG AAGAAAGAGT AAAGACAAGA TTGCGTCTTA CAGCAAAACT
    TCAAAAATTG ACCGAGGTGA TATGGGCAAA GAAATAAGAG AGAAATCATC CATGAAGCGT
    AAACTGCCTT TTACACTCAG CCCATCGAGA AATGAAGAGC GAGATTCAGA CACAGATTCA
    GACCCAGGAC ATACAAGTGA AAATTGGGGG GAGAGACTTA TATCTTCTTA CAGGACATAC
    TCAGAGAAAG AAGGTCCAGA AAAGAAGAAA ACAAGAAAAG AAGCTGGAAC TAAGAAGTCC
    ACCCCAGTGA GCATTCTTTT TGGTTACCCA CTCTCTGAAC GAAAGCAGAT GGCGCTCCTA
    ATGCAGATGA CAGCAAGGGA CAACAGCCCA GATTCCACAC CAAGTCATCC ATCACAAGCA
    ACACCAGCCC AGAAGAAAAC TCCCAGTTCT TCATCTCGAC AAAAAGATAA AATTAATAAA
    AGAAATGAAC GTGGCGAGAC TCCTTTACAC ATGGCAGCTA TTCGAGGAGA TGTGAAACAA
    GTCAAAGAGT TAATTAGCTT AGGGGCAGAT GTGAACGTGA AAGACTTTGC CGGTTGGACA
    CCTCTGCATG AAGCTTGCAA TGTTGGGTAT TATGATGTTG CTAAAATACT CATCGCAGCG
    GGAGCAGACG TTAACACGCA AGGGCTGGAC GACGACACGC CCCTCCATGA CTCCGCCAGC
    AGTGGGCACA GAGATATAGT GAAATTGTTG CTTCGTCATG GCGGGAATCC ATTCCAAGCC
    AATAAGCATG GAGAACGGCC AGTGGATGTG GCAGAGACAG AGGAGTTGGA GTTGCTGCTA
    AAAAGAGAGG TGCCTTTGTC TGGTGATGAC GAAAGTTATA CAGATTCAGA AGAGGCGCAG
    TCTGTAAATC CTTCCAGCGT TGATGAAAAC ATCGACTCAG AGACAGAGAA GGACTCTTTC
    GTCTGTGGAA GCCAAAGCCT CCCAAGCAAA GCCCCACTGC CCTCTGCCCT GGACGAGTAC
    GAGTTCAAGG ATGACGATGG AGAGGAGATC AGTAAGATGA TCGATGGCAG GCACATTCTC
    AGGAGAGAGC AACGGAAAGA GAATGAGTCA GAAGCAGAAA GGAGTGGTCT GTTTGCAAAA
    CAGGAAAAAC CCTTCTATTC TAAGTCATTT AAAACTAAAA AACAGAAGCC GTCACGGGTT
    CTGTACTCCA GTACTGAAAG TTCTGATGAA GAAGTTCTTC AGAACAGAAA GATTTCTACT
    GCATGTTCTG TTGCCGAAAC ATCACATTCT GATGTGCAAG CCAAAAGAGA GTATGAGTAC
    AAACAGAAAG GCAAAGTTAA GAGAAAATTA AAGAATCAGA ATAAAAATAA AGAGAATCAA
    GAGCTGAAAC AAGAAAAGGA GGGGAAAGAA AATAGCAGGA TTGCAAACCT GGCAGTTAAC
    ACTGCGCTGG ATTGTTCAGA GAGAAACAGA GAGGACGGGG CCTTCAGAAG ATCGTTTAGC
    CCCAAAGACG ATGCCTCTCT GCACTTACTT CATATGCCCA CTGGTAAATC TCCTAAGCAT
    CCTTGTGGAT TGAGTGAAAA ACAGGCAACA CCACTGAAGC AAGACCACAT GAAGACGTGC
    ATATCCCCAG GAAGTTCTGA AACGTCACTG CAGCCTGAGC TCTCTCGGTA TGAGAATGCA
    GAACCTGAGT TCTTGCCGGA AAGCTCAAAT GTCAAACCTT ATAAGCACAA GGAAAAAAAC
    AAACATCAGA AAGATTTTCA CCTGGAATTT GGTGAAAAGT CAAATGCCAA AATAAAAGAT
    GAAGACCATA GTGCAGCGTT TGAAAACTCA GACTGCACAC TGAAGAAGAT GGACAAAGAG
    GGCAAAACAT TAAAGAAGCA TAAACTAAAG CATAAAGAGA GGGATAAGGA GAAACACAGA
    AAGGAAGCCG AAGGTGAAAA GGAAAAATAT AAAAGCAGGG ATAATGCCAA AGAGCCACAG
    AGGAGCATTG AGTTTGACAG AGAGTTTTGG AAAGAAAACT TCTTTAAAAG TGATGAAACC
    GAGGATCTCT TCTTAAATAT GGAACATGAG TCCCTAACAG AAAAGAAGTC CAAAGTGGAG
    AAAACCGTGA AAGATGATAG ATTAGCCAAG GACAAGCACG CCTCAAAAGA GAGGAACTGT
    AAAGAAGAAC GGGAAAAGAC TAAAAGAGAA AACGAAAAGT CCCTTAAGGA AGAAAGGCTG
    AAAGATCCGA AAGAAGAAAA AGATGGTGTA TCGGCAGAGA AGGAAGCAGA GGGCAGTTCC
    ATGGCTGTCA GTGCAAACCA GGAAACTTCA GGGCCACACT CTTCAGAACG GGAAGTAGAC
    ATTGAAAAGC AAGAGCGGCA CTCGAAAGAA AGGGAAAAAT CTGACAGACG CTTTCAGACT
    AAGGAAAAAG AGCTTGACAG GACAGAAAGA AAAGTTTCTG AAAAAGAAAA GAAGCTAAAA
    CATGAGCATA AGTCAGAAAG AGAGAAGCTG GATTTTAGTG ACTGTACTGA CAGAGTGAAA
    GAGAAGGACA GGCTGTACTC ACCTCAGACA GAACGGTGCC ATAAGGAAGG TGAGAAGATG
    AGAAACACTG TCAGAAAAGC TGAAGACAGG GAGCGGGCCA GGGAAAAGAC AGACAGAAAG
    CATGACAGAG AGAAACCTGA GCGAGAGAGG TGTTTAGCAG AAAGCAAAGA AAAGTACTTA
    GAGAAAAGAA AGCAGTCGGA CAACAGTGAG TACTCTAAGT CAGAGAAGGT CAGAAATAGA
    GATAGAGACA GGGAAGGAGA GAAGAAGGAG AAACTCAGAG ATAAAGAAAG TGTAAATGTA
    GCCAACTTGA GACATTTACA GGAGGAGAGA AAGTCAAGTA CAGGAGAGGG CAGTAGTAAA
    ACCCAGCATG AGAAAGCCCT GTCCCTTAAA GAAAGGGTAA GAGATGAGCC TTTGAAAATC
    CCAGATGGGA AAGAGAAAGA TAAAAAGGAT ATAGATAGAT ACAAAGAGCG AGACAAGCGT
    AAGGAGAAAG CCCAGCTAAG CACTTTAATC AGACTAAAAT CGGAAACAGA GAAGCTTAAA
    CCTAAATTGT CACCAGCATC AAAAGATGCT CGACCTAAAG AAAAGAGGCT AGTAAATGAT
    GACTTGATGC AGACGAGCTT TGAACGGATG CTCAGCCTTA AAGACCTAGA AATAGAACAG
    TGGCACAAAA AACATAAGGA AAAAATTAAG CAAAAAGAAA AAGAACGATT ACGGAATCGT
    TCTTGTTTAG AACTTAAAGT AAAAGATAAA GAAAAAACAA AACATACACC CAGTGAATCC
    AAAAATAAAG AACTTACCAG GTCAAGAAGT TCAGAGTTAA CCGATGTTTA TAACAAGGAG
    AAACAATCTA AAGATGTTGG AAGTAATCGC TCGCAATCTG TTGATAACAA AAGTGTATTG
    AGTTTAGGAA AGCTACCCTA CGTTTCAGAG AATAGCTCAA GCCGGTCTCC TAGGTCAGAA
    GGTGAGAAGC TGGGTCTCAG CTCCAGGTCT GTGTCCATGC TCTCTGTTGC TAGTTCAGAA
    GACTCCTGCC ACACAGTCAC AACCCCAAGG CCCCTCGTCG AGTATGACTC TGACTTCATG
    TTAGAGGGCT CAGAATCTCA GTTGTCATTT TCTCAGTCAC CTTTTTTGCC GAATGCCAAA
    TCTCCAGCTC TTTATGAAAG AGAGCTGGAG AGTCTCGCTG AACTGCCAGA ACGACTTAAA
    CCACCGTATG CAAACAGACT TCCAGTATGC CATCTCAGGT CATCGTCTGT GGAAGACGTT
    AAACTGATCA CAAATGAGGT AAGACCTGCT GTAGAAATCA GAAGATGTAG CATGCCCTCA
    GTCATTTGCG AACCCATAAA ACATTTCCAA GTATCAGAAG ACAGCAGTCA AGGCAACTTA
    GCTGTGCCAA GAGAGACTTC TCTGTCTCCC AGACCTGAAG TGTCTTTAGT ACCTGAAAGA
    GGCCTTTCGC ACGTGTCTGA CTTACATCCT CGCTGTACAG ACTCCCCAGT GAGGTCTGTA
    GACAGCAGCT CTGTTTCATC TGACGTACAT GTAATCAAGA GTGCTGCTCT TGTGGGTACA
    CTGATTGACA CGTCAATGCA TTTGGAAACA TCCAATCAGG TTGGAGTAAT CCAAAGTAAA
    TCATGGGAGA CGCCTGTTGA CAAACTGGAG TCTTTAAGCA CCAATGACTT TATCTGTCCA
    GATTCTAGTA CATCTGATCA AGATTCCTCT GCTCAGAGTT TTTATCATTC AGAAAACAAA
    ATGTTAAGAG AACAAAATGC TGATTGCTTA CCTGTACACC AGACTGAACT GCCAGGAAAC
    TCGTGTGCTC AGGACCCAGC ATCCTTCACC CTGTCTTCAC CCCAGCCCTG CTCTTTTACC
    AACCAGTCAC TCTCAGACGC TGAATCTCTT CCTAAACCTG TGTCTTTGTC TTACGGTGCC
    AGTCAAGAGC CAGGTGTTTT ACAACAGAGA AGTGCAGCTC ACATGATCAG TTCTGTTTTA
    GAGAGTGATA ATAACTTTAC AAAGGAGGTG GAAAGTTCGT TTGTCTTAGC AGACATTCAG
    AAGACGAATT CTTTTGTACC AGCTTACTCT GAAAGCACTG TGCAGGAAAC ACTCCCAAAC
    TTTGAGAAGG CCAATACCTT GCTTGTGTTG CCATCAGAAA AGGATTTCAG TGGGAGTGAC
    GCTGCTTCTC AGCTAAACAC ACATTATGCC TTTAGCAAAC TTACATACAA GTCTTCCAGC
    AGCCATGAGA TTGAGAAGGG CCCAGATGAT ACTCAAGTCA TTTCCCATGA AAAAGAAAAC
    AAACTGCAAA GTTTGGTCTT AACGCCATTG AGTAAGTGTG ATTCTGATTT GTATGAAGTG
    AATGCAGGGA TGCCGAAAGG AAACCTGAAT GAACAGGATA ACCCAAAGCA CGGTCCTGAC
    AGCGAAAAGG ATTCGCTTTC CACTGAGGAT GAGGAATCTC AGCAGAGCAC TTTATCAAGT
    GTGGAAAACC ATTCACAGCA GTCAGCCCAA CCAGAAATAC AGAAATATGA CCAGATGGTT
    AAAGGAGAAT TAGAGGAAAA TGCTGAGGAC GATAAAACTG AAAACCAAAC CCCTCAAAGA
    ATGACTAGAA ACAAAGCAAG TGCACTGGTC AGTCAAAGCA AGCAGGTTCT TGCTGGCTGT
    ACACTTTTAC CAGAGAAAGA TAATGACTCC TCCCCTCGGG GGAGAATCAG ACTCACCGAA
    GAAGACGATC CTCAGATCCA CCATCCACGG AAAAGGAAAG TGTCACGGGT CCCTCAGCCT
    GTGCAAGTGA GTCCCTCTCT ACTACAAGCA AAGGAGAAGA CGCAGCAGTC CCTAGCAGCT
    CTCGTAGACT CTCTGAAGCT AGACGAGATC GAGCCGTACA GTTCCGAGAG AGCAAATCCA
    TATTTTGAAT ATTTGCACAT AAGGAAAAAA ATTGAAGAAA AACGCAAGTT GCTATGTAGT
    GTTATTCCTC AAGCTCCTCA GTATTATGAT GAATATGTAA CGTTTAATGG ATCATATCTC
    CTGGATGGAA ACCCCTTAAG CAAGATTTGT ATTCCTACAA TCACACCGCC ACCTTCGCTG
    TCAGATCCAC TTAAAGAGCT CTTTCGGCAA CAGGAAGTAG TAAGGATGAA ACTGCGTTTG
    CAACATAGTA TTGAAAGGGA AAAACTTATT GTATCGAATG AACAAGAGGT TCTGCGAGTT
    CATTACAGAG CTGCAAGAAC ACTGGCCAAT CAAACACTGC CATTCAGTGC TTGCACTGTT
    TTACTGGATG CCGAAGTGTA CAATGTGCCC CTGGACTCAC AGTCTGATGA CAGCAAAACT
    TCTGTGAGAG ATCGATTTAA TGCAAGACAG TTCATGTCCT GGTTGCAAGA TGTGGATGAT
    AAATTTGACA AGCTAAAGAC CTGTCTGTTA ATGAGGCAGC AACATGAGGC TGCAGCTCTA
    AATGCCGTCC AGAGACTAGA GTGGCAGCTC AAACTCCAGG AACTGGACCC TGCCACCTAT
    AAATCTATCA GTATTTACGA GATCCAGGAG TTCTATGTTC CGCTTGTTGA TGTTAATGAT
    GATTTTGAAT TGACTCCTAT ATAG

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