Chd1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Chd1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Chd1 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
OMv34126 XM_021186043.1
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Mus caroli chromodomain helicase DNA binding protein 1 (Chd1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00

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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 OMv34126
    Clone ID Related Accession (Same CDS sequence) XM_021186043.1
    Accession Version XM_021186043.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5136bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product chromodomain-helicase-DNA-binding protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGAATGGAC ACAGTGATGA AGAAAGTGTT AGAAATGGCA GCGGAGAATC AAGTCAGTCA 
    GATGATGATT GTGGGTCAGC ATCAGGCTCT GGATCTGGCT CGAGTTCTGG CAGCAGCAGT
    GACGGAAGCA GCAGTCAATC CGGGAGCAGC GACTCTGATT CTGGCTCTGA CTCAGGAAGT
    CAATCAGAGT CTGAATCAGA CACATCCCGA GAGAACAAAG TTCAAGCAAA ACCACCAAAA
    GTCGATGGAG CCGAGTTTTG GAAATCTAGC CCCAGTATTC TGGCTGTTCA GAGATCTGCC
    ATGCTTAGGA AGCAGCCACA GCAGGCCCAG CAGCAGCGCC CAGCTTCATC TAATAGTGGA
    TCCGAAGAGG ACTCCTCCAG CACTGAAGAC TCAGACGACT CGTCCAGCGG TGCCAAGAGG
    AAGAAGCACA ATGATGAAGA CTGGCAGATG TCTGGGTCCG GATCTCCATC TCAGTCTGGT
    TCAGACTCAG ATTCTGAAGA AGAGCGAGAT AAAAGCAGCT GCGACGGCAC AGAGTCTGAC
    TACGAGCCGA AAAACAAAGT CAGAAGCCGA AAGCCTCAGA ATAGATCTAA GTCAAAAAAT
    GGGAAAAAAA TTCTTGGACA AAAAAAGAGA CAGATTGATT CATCTGAGGA TGAAGATGAT
    GAAGATTATG ATAATGATAA ACGAAGCTCT CGCCGCCAAG CCACCGTCAA TGTGAGCTAC
    AAGGAGGATG AAGAAATGAA AACCGACTCT GATGACCTGC TGGAGGTCTG CGGAGAGGAC
    GTCCCTCAGA CTGAGGACGA GGAGTTTGAG ACAATAGAGA GGGTTATGGA TTGCAGAGTT
    GGGCGGAAAG GAGCTACTGG TGCTACTACA ACCATTTATG CTGTCGAAGC AGATGGTGAC
    CCAAATGCAG GATTTGAAAG AAACAAAGAG CCAGGAGACA TACAGTATTT AATTAAGTGG
    AAAGGATGGT CTCACATCCA CAACACATGG GAGACAGAAG AGACCCTGAA GCAGCAGAAC
    GTTAGAGGGA TGAAAAAATT GGATAATTAT AAGAAAAAAG ATCAAGAGAC AAAACGATGG
    CTGAAAAATG CTTCTCCAGA AGATGTGGAA TATTATAATT GCCAGCAAGA ACTTACAGAT
    GATCTACACA AACAGTATCA GATAGTGGAG CGCATAATTG CTCATTCCAA TCAAAAATCA
    GCAGCTGGTC TTCCTGATTA TTATTGCAAA TGGCAGGGGC TTCCATACTC AGAGTGCAGC
    TGGGAGGATG GAGCTCTCAT TTCCAAAAAG TTTCAGACAT GCATCGATGA ATATTTTAGC
    AGGAATCAGT CAAAAACGAC ACCTTTTAAA GATTGCAAAG TATTGAAACA AAGACCAAGA
    TTTGTAGCTC TGAAGAAACA GCCATGCTAT ATCGGAGGAC ATGAGGGCTT AGAACTGAGA
    GACTATCAGC TGAATGGTTT AAACTGGCTC GCTCACTCTT GGTGCAAAGG AAATAGTTGC
    ATACTTGCTG ATGAAATGGG CCTTGGGAAA ACAATACAGA CGATCTCATT TTTGAACTAT
    TTGTTCCATG AACATCAGTT ATACGGGCCT TTTCTACTAG TTGTCCCGCT CTCCACACTG
    ACTTCCTGGC AAAGGGAGAT TCAGACGTGG GCGTCTCAGA TGAATGCTGT GGTTTACTTA
    GGCGACATTA ACAGCAGAAA CATGATAAGA ACTCATGAAT GGATGCATCC CCAGACCAAA
    CGGTTAAAAT TTAATATACT TTTAACAACG TATGAAATTT TATTGAAGGA TAAGGCATTC
    CTTGGTGGTC TGAATTGGGC ATTTATAGGT GTTGATGAAG CACATCGATT AAAAAATGAT
    GATTCCCTTC TGTATAAAAC TTTAATTGAC TTTAAATCTA ATCATCGCCT CCTGATCACT
    GGAACCCCTC TACAGAACTC CCTGAAAGAG CTCTGGTCGT TGCTGCACTT CATTATGCCG
    GAGAAGTTTT CTTCATGGGA AGATTTTGAA GAAGAACATG GCAAAGGCAG AGAATATGGT
    TATGCAAGCC TCCACAAGGA GCTTGAGCCA TTTCTGTTAC GCAGAGTTAA GAAAGATGTG
    GAAAAATCTC TTCCTGCCAA GGTGGAGCAG ATTTTAAGAA TGGAAATGAG TGCTTTACAG
    AAGCAATATT ACAAGTGGAT TTTAACTAGG AATTACAAAG CCCTCAGCAA AGGTTCCAAG
    GGCAGTACCT CAGGCTTTTT GAACATTATG ATGGAGCTAA AGAAATGTTG TAACCATTGC
    TACCTCATTA AACCACCAGA TAATAATGAA TTCTATAATA AACAGGAGGC CTTACAACAC
    TTAATCCGTA GTAGCGGAAA ACTCATTCTT CTCGACAAGC TGTTGATTCG CCTAAGAGAA
    AGAGGCAACC GAGTGCTCAT TTTCTCTCAG ATGGTGCGGA TGTTAGACAT ACTGGCAGAG
    TATTTGAAGT ACCGCCAGTT CCCCTTTCAA AGATTAGATG GATCAATAAA AGGGGAGCTG
    AGGAAACAGG CTCTGGATCA TTTTAATGCT GAGGGCTCAG AGGATTTCTG CTTTTTGCTT
    TCTACCCGAG CTGGGGGTTT AGGCATTAAC CTAGCCTCTG CTGACACTGT TGTTATATTT
    GATTCTGATT GGAATCCACA AAATGATCTT CAGGCGCAGG CAAGAGCTCA CCGAATTGGA
    CAGAAGAAAC AGGTGAATAT ATATCGCTTG GTTACAAAGG GATCAGTTGA AGAAGATATT
    CTTGAAAGGG CCAAAAAGAA AATGGTTTTG GATCATCTTG TTATTCAAAG AATGGATACC
    ACTGGGAAGA CAGTGTTACA CACAGGCTCA GCTCCATCAA GTTCCACCCC CTTCAATAAA
    GAGGAGTTAT CCGCCATTTT AAAATTCGGT GCTGAGGAGC TCTTTAAGGA GCCTGAAGGA
    GAGGAACAGG AGCCACAGGA AATGGATATC GATGAAATCC TGAAGAGAGC CGAGACTCAC
    GAGAACGAGC CAGGCCCACT GACCGTGGGG GATGAGCTGC TTTCTCAGTT TAAGGTTGCC
    AATTTTTCAA ATATGGATGA AGATGACATT GAATTGGAAC CTGAAAGAAA TTCAAAGAAC
    TGGGAGGAGA TCATTCCAGA AGAGCAAAGA CGGCGGCTAG AAGAGGAGGA GAGGCAGAAG
    GAGCTGGAGG AAATTTACAT GCTCCCGAGA ATGAGAAACT GTGCAAAGCA GATAAGTTTC
    AATGGAAGTG AAGGGAGGCG GAGTAGAAGC AGGAGATACT CAGGATCTGA TAGTGATTCA
    ATCTCGGAAA GGAAACGGCC GAAGAAACGC GGCCGACCAC GCACTATCCC TCGGGAGAAC
    ATTAAAGGAT TTAGTGATGC GGAGATTCGG CGGTTTATCA AGAGCTATAA GAAATTTGGT
    GGCCCTCTGG AGAGGTTAGA TGCAATTGCT CGAGATGCTG AATTGGTTGA TAAGTCAGAA
    ACAGATCTCA GAAGACTAGG AGAACTGGTG CATAATGGTT GTGTTAAAGC TTTAAAAGAC
    AGTTCTTCAG GAACAGAGCG AGCAGGTGGC AGACTTGGAA AAGTGAAGGG GCCAACATTC
    CGCATCTCTG GAGTCCAAGT GAATGCCAAG CTGGTCATTG CCCATGAGGA TGAGCTGATC
    CCTCTGCATA AGTCCATCCC TTCGGACCCG GAGGAGAGGA AGCAGTATAC AATCCCCTGC
    CATACAAAGG CTGCTCACTT TGATATAGAC TGGGGCAAAG AAGATGATTC TAATTTGTTA
    ATTGGTATCT ATGAGTATGG CTATGGAAGC TGGGAAATGA TTAAAATGGA TCCAGACCTC
    AGTTTAACAC ACAAGATTCT TCCAGATGAT CCTGATAAAA AACCACAAGC AAAACAGTTA
    CAGACCCGTG CAGACTACCT CATCAAACTA CTTAGCAGAG ACCTCGCAAA AAGAGAGGCT
    CAGAGACTTG GTGGTGCAGG AGGTTCAAAG CGGAGAAAAA CGAGAGCTAA AAAGAGTAAG
    GCAGTGAAAT CCATCAGAGT GAAAGAGGAG ATAAAGAGCG ACTCGTCGCC CCTGCCTTCA
    GAGAAGTCTG ACGAGGATGA TGATAAACTG AATGACTCCA AGCCTGAAAG TAAAGACCGA
    TCCAAAAAGT CTGTGGTGTC CGATGCTCCC GTCCATATCA CTGCAGGTGG AGAGCCAGTT
    CCCATAGCTG AAGAGTCTGA AGAGCTGGAT CAGAAGACAT TCAGTATTTG TAAAGAAAGA
    ATGAGACCGG TGAAAGCAGC TTTGAAACAA CTTGACAGGC CTGAGAAAGG CCTTTCAGAA
    AGAGAGCAGC TGGAACACAC TAGACAGTGC TTAATCAAGA TCGGAGACCA TATCACTGAA
    TGCTTGAAGG AATATTCCAA TCCTGAACAA ATTAAGCAGT GGAGGAAAAA CCTGTGGATT
    TTTGTATCTA AGTTTACTGA GTTTGATGCA AGGAAATTAC ATAAATTATA TAAGCATGCT
    ATTAAAAAAC GACAAGAATC TCAGCAAAAC AGTGACCAGA ATAGCAATGT TGCTACCACT
    CATGTGATTA GGAATCCAGA TATGGAAAGG TTAAAAGAGA ATACAAATCA TGATGACAGT
    AGCAGGGACA GCTATTCTTC TGACAGACAC TTATCTCAGT ACCATGATCA TCACAAGGAG
    CGCCATCAGG GAGATTCTTA TAAAAAGAGT GACTCTCGGA AGAGACCCTA CTCGTCATTT
    AGCAATGGCA AAGACCACCG CGAGTGGGAC CACTACAGGC AGGACAGCAG GTACTATAGT
    GACCGAGAGA AACACAGAAA ACTGGATGAC CACAGGAGTC GAGAGCACAG GCCAAGTTTG
    GAAGGAGGCT TAAAGGACAG GTGTCACTCT GACCACCGAT CTCACTCGGA CCATCGAATG
    CACTCAGACC ATCGCTCAAG CTCCGAGCAC ACACATCATA AATCCTCCAG GGATTATCGG
    TATCTCTCAG ATTGGCAGTT GGACCACCGA GCTGCCAGCA GTGGCCCTAG GTCACCTTTA
    GATCAGAGGT CTCCATATGG CTCCAGGTCC CCATTTGAAC ATTCAGCTGA ACACAGAAGT
    ACGCCTGAAC ACACCTGGAG TAGTCGGAAG ACATAA

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

    RefSeq XP_021041702.1
    CDS492..5627
    Translation

    Target ORF information:

    RefSeq Version XM_021186043.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli chromodomain helicase DNA binding protein 1 (Chd1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021186043.1

    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
    ATGAATGGAC ACAGTGATGA AGAAAGTGTT AGAAATGGCA GCGGAGAATC AAGTCAGTCA 
    GATGATGATT GTGGGTCAGC ATCAGGCTCT GGATCTGGCT CGAGTTCTGG CAGCAGCAGT
    GACGGAAGCA GCAGTCAATC CGGGAGCAGC GACTCTGATT CTGGCTCTGA CTCAGGAAGT
    CAATCAGAGT CTGAATCAGA CACATCCCGA GAGAACAAAG TTCAAGCAAA ACCACCAAAA
    GTCGATGGAG CCGAGTTTTG GAAATCTAGC CCCAGTATTC TGGCTGTTCA GAGATCTGCC
    ATGCTTAGGA AGCAGCCACA GCAGGCCCAG CAGCAGCGCC CAGCTTCATC TAATAGTGGA
    TCCGAAGAGG ACTCCTCCAG CACTGAAGAC TCAGACGACT CGTCCAGCGG TGCCAAGAGG
    AAGAAGCACA ATGATGAAGA CTGGCAGATG TCTGGGTCCG GATCTCCATC TCAGTCTGGT
    TCAGACTCAG ATTCTGAAGA AGAGCGAGAT AAAAGCAGCT GCGACGGCAC AGAGTCTGAC
    TACGAGCCGA AAAACAAAGT CAGAAGCCGA AAGCCTCAGA ATAGATCTAA GTCAAAAAAT
    GGGAAAAAAA TTCTTGGACA AAAAAAGAGA CAGATTGATT CATCTGAGGA TGAAGATGAT
    GAAGATTATG ATAATGATAA ACGAAGCTCT CGCCGCCAAG CCACCGTCAA TGTGAGCTAC
    AAGGAGGATG AAGAAATGAA AACCGACTCT GATGACCTGC TGGAGGTCTG CGGAGAGGAC
    GTCCCTCAGA CTGAGGACGA GGAGTTTGAG ACAATAGAGA GGGTTATGGA TTGCAGAGTT
    GGGCGGAAAG GAGCTACTGG TGCTACTACA ACCATTTATG CTGTCGAAGC AGATGGTGAC
    CCAAATGCAG GATTTGAAAG AAACAAAGAG CCAGGAGACA TACAGTATTT AATTAAGTGG
    AAAGGATGGT CTCACATCCA CAACACATGG GAGACAGAAG AGACCCTGAA GCAGCAGAAC
    GTTAGAGGGA TGAAAAAATT GGATAATTAT AAGAAAAAAG ATCAAGAGAC AAAACGATGG
    CTGAAAAATG CTTCTCCAGA AGATGTGGAA TATTATAATT GCCAGCAAGA ACTTACAGAT
    GATCTACACA AACAGTATCA GATAGTGGAG CGCATAATTG CTCATTCCAA TCAAAAATCA
    GCAGCTGGTC TTCCTGATTA TTATTGCAAA TGGCAGGGGC TTCCATACTC AGAGTGCAGC
    TGGGAGGATG GAGCTCTCAT TTCCAAAAAG TTTCAGACAT GCATCGATGA ATATTTTAGC
    AGGAATCAGT CAAAAACGAC ACCTTTTAAA GATTGCAAAG TATTGAAACA AAGACCAAGA
    TTTGTAGCTC TGAAGAAACA GCCATGCTAT ATCGGAGGAC ATGAGGGCTT AGAACTGAGA
    GACTATCAGC TGAATGGTTT AAACTGGCTC GCTCACTCTT GGTGCAAAGG AAATAGTTGC
    ATACTTGCTG ATGAAATGGG CCTTGGGAAA ACAATACAGA CGATCTCATT TTTGAACTAT
    TTGTTCCATG AACATCAGTT ATACGGGCCT TTTCTACTAG TTGTCCCGCT CTCCACACTG
    ACTTCCTGGC AAAGGGAGAT TCAGACGTGG GCGTCTCAGA TGAATGCTGT GGTTTACTTA
    GGCGACATTA ACAGCAGAAA CATGATAAGA ACTCATGAAT GGATGCATCC CCAGACCAAA
    CGGTTAAAAT TTAATATACT TTTAACAACG TATGAAATTT TATTGAAGGA TAAGGCATTC
    CTTGGTGGTC TGAATTGGGC ATTTATAGGT GTTGATGAAG CACATCGATT AAAAAATGAT
    GATTCCCTTC TGTATAAAAC TTTAATTGAC TTTAAATCTA ATCATCGCCT CCTGATCACT
    GGAACCCCTC TACAGAACTC CCTGAAAGAG CTCTGGTCGT TGCTGCACTT CATTATGCCG
    GAGAAGTTTT CTTCATGGGA AGATTTTGAA GAAGAACATG GCAAAGGCAG AGAATATGGT
    TATGCAAGCC TCCACAAGGA GCTTGAGCCA TTTCTGTTAC GCAGAGTTAA GAAAGATGTG
    GAAAAATCTC TTCCTGCCAA GGTGGAGCAG ATTTTAAGAA TGGAAATGAG TGCTTTACAG
    AAGCAATATT ACAAGTGGAT TTTAACTAGG AATTACAAAG CCCTCAGCAA AGGTTCCAAG
    GGCAGTACCT CAGGCTTTTT GAACATTATG ATGGAGCTAA AGAAATGTTG TAACCATTGC
    TACCTCATTA AACCACCAGA TAATAATGAA TTCTATAATA AACAGGAGGC CTTACAACAC
    TTAATCCGTA GTAGCGGAAA ACTCATTCTT CTCGACAAGC TGTTGATTCG CCTAAGAGAA
    AGAGGCAACC GAGTGCTCAT TTTCTCTCAG ATGGTGCGGA TGTTAGACAT ACTGGCAGAG
    TATTTGAAGT ACCGCCAGTT CCCCTTTCAA AGATTAGATG GATCAATAAA AGGGGAGCTG
    AGGAAACAGG CTCTGGATCA TTTTAATGCT GAGGGCTCAG AGGATTTCTG CTTTTTGCTT
    TCTACCCGAG CTGGGGGTTT AGGCATTAAC CTAGCCTCTG CTGACACTGT TGTTATATTT
    GATTCTGATT GGAATCCACA AAATGATCTT CAGGCGCAGG CAAGAGCTCA CCGAATTGGA
    CAGAAGAAAC AGGTGAATAT ATATCGCTTG GTTACAAAGG GATCAGTTGA AGAAGATATT
    CTTGAAAGGG CCAAAAAGAA AATGGTTTTG GATCATCTTG TTATTCAAAG AATGGATACC
    ACTGGGAAGA CAGTGTTACA CACAGGCTCA GCTCCATCAA GTTCCACCCC CTTCAATAAA
    GAGGAGTTAT CCGCCATTTT AAAATTCGGT GCTGAGGAGC TCTTTAAGGA GCCTGAAGGA
    GAGGAACAGG AGCCACAGGA AATGGATATC GATGAAATCC TGAAGAGAGC CGAGACTCAC
    GAGAACGAGC CAGGCCCACT GACCGTGGGG GATGAGCTGC TTTCTCAGTT TAAGGTTGCC
    AATTTTTCAA ATATGGATGA AGATGACATT GAATTGGAAC CTGAAAGAAA TTCAAAGAAC
    TGGGAGGAGA TCATTCCAGA AGAGCAAAGA CGGCGGCTAG AAGAGGAGGA GAGGCAGAAG
    GAGCTGGAGG AAATTTACAT GCTCCCGAGA ATGAGAAACT GTGCAAAGCA GATAAGTTTC
    AATGGAAGTG AAGGGAGGCG GAGTAGAAGC AGGAGATACT CAGGATCTGA TAGTGATTCA
    ATCTCGGAAA GGAAACGGCC GAAGAAACGC GGCCGACCAC GCACTATCCC TCGGGAGAAC
    ATTAAAGGAT TTAGTGATGC GGAGATTCGG CGGTTTATCA AGAGCTATAA GAAATTTGGT
    GGCCCTCTGG AGAGGTTAGA TGCAATTGCT CGAGATGCTG AATTGGTTGA TAAGTCAGAA
    ACAGATCTCA GAAGACTAGG AGAACTGGTG CATAATGGTT GTGTTAAAGC TTTAAAAGAC
    AGTTCTTCAG GAACAGAGCG AGCAGGTGGC AGACTTGGAA AAGTGAAGGG GCCAACATTC
    CGCATCTCTG GAGTCCAAGT GAATGCCAAG CTGGTCATTG CCCATGAGGA TGAGCTGATC
    CCTCTGCATA AGTCCATCCC TTCGGACCCG GAGGAGAGGA AGCAGTATAC AATCCCCTGC
    CATACAAAGG CTGCTCACTT TGATATAGAC TGGGGCAAAG AAGATGATTC TAATTTGTTA
    ATTGGTATCT ATGAGTATGG CTATGGAAGC TGGGAAATGA TTAAAATGGA TCCAGACCTC
    AGTTTAACAC ACAAGATTCT TCCAGATGAT CCTGATAAAA AACCACAAGC AAAACAGTTA
    CAGACCCGTG CAGACTACCT CATCAAACTA CTTAGCAGAG ACCTCGCAAA AAGAGAGGCT
    CAGAGACTTG GTGGTGCAGG AGGTTCAAAG CGGAGAAAAA CGAGAGCTAA AAAGAGTAAG
    GCAGTGAAAT CCATCAGAGT GAAAGAGGAG ATAAAGAGCG ACTCGTCGCC CCTGCCTTCA
    GAGAAGTCTG ACGAGGATGA TGATAAACTG AATGACTCCA AGCCTGAAAG TAAAGACCGA
    TCCAAAAAGT CTGTGGTGTC CGATGCTCCC GTCCATATCA CTGCAGGTGG AGAGCCAGTT
    CCCATAGCTG AAGAGTCTGA AGAGCTGGAT CAGAAGACAT TCAGTATTTG TAAAGAAAGA
    ATGAGACCGG TGAAAGCAGC TTTGAAACAA CTTGACAGGC CTGAGAAAGG CCTTTCAGAA
    AGAGAGCAGC TGGAACACAC TAGACAGTGC TTAATCAAGA TCGGAGACCA TATCACTGAA
    TGCTTGAAGG AATATTCCAA TCCTGAACAA ATTAAGCAGT GGAGGAAAAA CCTGTGGATT
    TTTGTATCTA AGTTTACTGA GTTTGATGCA AGGAAATTAC ATAAATTATA TAAGCATGCT
    ATTAAAAAAC GACAAGAATC TCAGCAAAAC AGTGACCAGA ATAGCAATGT TGCTACCACT
    CATGTGATTA GGAATCCAGA TATGGAAAGG TTAAAAGAGA ATACAAATCA TGATGACAGT
    AGCAGGGACA GCTATTCTTC TGACAGACAC TTATCTCAGT ACCATGATCA TCACAAGGAG
    CGCCATCAGG GAGATTCTTA TAAAAAGAGT GACTCTCGGA AGAGACCCTA CTCGTCATTT
    AGCAATGGCA AAGACCACCG CGAGTGGGAC CACTACAGGC AGGACAGCAG GTACTATAGT
    GACCGAGAGA AACACAGAAA ACTGGATGAC CACAGGAGTC GAGAGCACAG GCCAAGTTTG
    GAAGGAGGCT TAAAGGACAG GTGTCACTCT GACCACCGAT CTCACTCGGA CCATCGAATG
    CACTCAGACC ATCGCTCAAG CTCCGAGCAC ACACATCATA AATCCTCCAG GGATTATCGG
    TATCTCTCAG ATTGGCAGTT GGACCACCGA GCTGCCAGCA GTGGCCCTAG GTCACCTTTA
    GATCAGAGGT CTCCATATGG CTCCAGGTCC CCATTTGAAC ATTCAGCTGA ACACAGAAGT
    ACGCCTGAAC ACACCTGGAG TAGTCGGAAG ACATAA

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