CUX1 cDNA ORF clone, Apteryx australis mantelli

The following CUX1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CUX1 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
OAp25721 XM_013958219.1
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Apteryx australis mantelli cut-like homeobox 1 (CUX1), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
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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 OAp25721
    Clone ID Related Accession (Same CDS sequence) XM_013958219.1
    Accession Version XM_013958219.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5331bp)
    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 2015-09-08
    Organism Apteryx australis mantelli
    Product protein CASP
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014005459.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Apteryx australis mantelli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-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
    ATGGTTTTTC TTTCTCAGAG TAACTCAGAA AGTAAGAAGC CAGTATCTTC AGAAGGTAGT 
    CAGAGGGAGC TTGATGCCAC AGCAACAATA TTGGCTAACC GGCAAGATGA AAGTGAGCAG
    TCTAGGAAAA AACTTATTGA GCAAAGTCGC GAGTTCAAGA AAAACACTCC AGAGGACCTG
    CGCAAACAGG TAGCTCCATT ACTGAAGAGT TTCCAGGGAG AGATTGACGC GTTGGGCAAA
    AGAAGCAAAG AAGCAGAGGC AGCCTTCTTG AATGTGTATA AGAGATTAAT TGATGTTCCA
    GATCCGGTTC CAGCCTTGGA TTTAGGACAG CAGCTTCAGC TGAAGGTTCA GCGTATGCAC
    GATATTGAAA CAGAGAACCA GAAACTTAGG GAAACTCTAG AGGAGTACAA TAAGGAATTC
    GCTGAGGTGA AAAATCAGGA GGTTACAATA AAAGCACTTA AAGAGAAAAT CCGAGAATAT
    GAACAGACCC TGAAGAACCA AGCTGAGAAT ATAGCACTTG AGAAAGAACA AAAGTTACAA
    AATGATTTCG CGGAGAAGGA GAGAAAATTG CAGGAGACAC AGATGTCGAC AGCCTCAAAG
    CTGGAAGAAG CCGAGCACAA AGTTCAAGCT TTGCAAACAG CCTTGGAAAA AACCAGAACA
    GAACTATTTG ATCTGAAAAC AAAATACGAT GAAGAAACTA CTGCAAAGGC TGATGAAATT
    GAGATGATCA TGACAGACCT CGAAAGAGCA AATCAGAGGG CAGAGGTGGC TCAGAGAGAG
    GCAGAGACCT TAAGGGAGCA GCTCTCGTCA GCCAACAAAT CTCTCCAACT CGCTACGCAG
    ATCCAGAAGG CACCTGATGT GGAGCAGGCC ATCGAGGTGC TAACACGGTC CAGCTTGGAA
    GTAGAACTGG CTGCGAAGGA GCGGGAAATT GCCCAGCTCG TAGAAGACGT CCAGAGACTC
    CAGGGCAGCC TCACCAAACT GCGGGAGAAC TCCAGCAGCC AAATCTCGCA GCTGGAGCAG
    CAGCTGACTG CCAAGAACAG CACACTCAAA CAACTGGAAG AAAAACTGAA AGGACAGGCT
    GATTATGAAG AGGTTAAGAA AGAATTAAAT ATATTGAAAT CCATGGAGTT TGCACCATCT
    GAAAGCTCTG GTGCGCAGGA TGCATCTAAG CCCCTGGAGG TGCTGCTGCT GGAGAAGAAC
    CGCTCATTGC AGTCTGAGAA CGCCACGCTG CGTATCACTA ATAGTGACCT GAGTGGTAGG
    TTGACACGAT TTTCCGCTAT TACAGTTTGT TTGATATCTC AAGAAATAGA AAATAATTGT
    TTTTCTACCT TCCACAGTAT ATTGAAATCC ATGGAGTTTG CACCATCTGA AAGCTCTGGT
    GCGCAGGATG CATCTAAGCC CCTGGAGGTG CTGCTGCTGG AGAAGAACCG CTCATTGCAG
    TCTGAGAACG CCACGCTGCG TATCACTAAT AGTGACCTGA GTGGGTCAGC CAGGAGAAAA
    GGGAAAGACC AGCCTGAGAG TCAGCGTCCT GCAACCTTGC CGGCCTCCCC TCCTTCTCAG
    TTGCTCCGCA ACGCGGGGGA GCAGGCTTCC AATACTAATG GTACACACCA GTTCTCACCA
    ACGGGTTTAA GTCAAGACTT TTTCAGCTCA TCCCTGGCAA GCCCCAGCTT ACCCCTGGCC
    TCCACAGGAA AATTTGCACT AAACTCTCTC CTCCAGCGAC AGCTAATGCA GTCCTTCTAC
    TCCAAGGCAA TGCAGGAAGC AGGAAGCACA AGCATGATTT TTTCAACAGG TCCTTACAGC
    ACAAACTCCA TATCTTCCCA AAGTCCATTA CAACAAAGTC CGGATGTAAA TGGCATGGCC
    CCGTCTCCCA GCCAGTCAGA AAGTGCTGGG AGCATCTCTG AAGGCGAGGA GATAGACACG
    GCCGAAATTG CACGTCAGGT GAAAGAGCAG TTGATCAAGC ACAATATTGG ACAGCGGATA
    TTTGGACATT ATGTGTTGGG ACTGTCGCAA GGGTCTGTGA GTGAGATCCT AGCCCGGCCA
    AAGCCATGGA ATAAACTGAC TGTGAGAGGC AAGGAGCCAT TTCATAAGAT GAAGCAGTTC
    CTCTCGGACG AGCAGAACAT CTTGGCTCTT CGCAGCATCC AGGGTAGACA AAGAGGTAAT
    ATAACGACAA GGATCCGAAC CACAGAGACG GGCTCTGATG AAGCCATCAA ATCCATTCTA
    GAACAAGCCA AAAGGGAGCT GCAAGTACAG AAAACAGCTG AGCCGGCTCA GCCGCCTTCT
    GCATCTAGCA GTGGCAATTC TGATGATGCT ATTCGATCCA TTCTGCAACA AGCCCGACGC
    GAAATGGAGG CACAGCAGGC TGCCCTTGAA CCTGCCTTAA AAACACCACC TTTATCTCAA
    GCTGACATTT CTATCCTGTC CCCCAAACTA CCTACACCTG CAATGTCTTC GGTTTCCAGC
    TTTTCTCCTT TGGCCATGTC CCTGAAGAAA CATTCATCTG TCACTGATTC CAGTATCTCT
    GCATTGCAGA ACCTCTCTGG GCTCAAAAAG GAGCCTCAGG AGGCACCTGG TTTAGAGCTT
    CATGGAATAA GTGATTCTGC CCAGGGTATG TTGAGGCATG TTAAAAATGA GTTGGGACGT
    GGTGGTGTTT GGAAGGACCA CTGGTGGAAT ACTGTTCAGC ATGAGAGAAG AAACACAGCT
    CTTCCCGAAG ACACAAAAGT TGAGGAAGCC AGTGTTGGAA AAGAAAAGGT CAGCAATCAG
    ACTAGGCCAG ATCGTAGCCA GCTTCAAGGA CCATCTTCTT CAGAGTATTG GAAAGAGTGG
    CCAAACGCTG AATCTCCGTA CTCCCAGAGT TCTGAGTTGA GCATGACTGG GGCAAGTCGC
    AGCGAGACGC CACAAAATAG CCCCCTCCCT TCGTCCCCTA TTGTGTCTTT GTCAAAGCCA
    TCCAAACCTT CGGTTCCTCC ACTGACACCT GAGCAGTACG AGATTTATAT GTACCAGGAG
    GTGGATACGA TAGAACTAAC TCGTCAGGTC AAAGAAAAGC TAGCAAAGAA TGGCATCTGC
    CAAAGGATCT TTGGGGAAAA GAACCTCTCT GGGCTCAAAA AGGAGCCTCA GGAGGCACCT
    GGTTTAGAGC TTCATGGAAT AAGTGATTCT GCCCAGGGTA TGTTGAGGCA TGTTAAAAAT
    GAGTTGGGAC GTGGTGGTGT TTGGAAGGAC CACTGGTGGA ATACTGTTCA GCATGAGAGA
    AGAAACACAG CTCTTCCCGA AGACACAAAA GTTGAGGAAG CCAGTGTTGG AAAAGAAAAG
    GTCAGCAATC AGACTAGGCC AGATCGTAGC CAGCTTCAAG GACCATCTTC TTCAGAGTAT
    TGGAAAGAGT GGCCAAACGC TGAATCTCCG TACTCCCAGA GTTCTGAGTT GAGCATGACT
    GGGGCAAGTC GCAGCGAGAC GCCACAAAAT AGCCCCCTCC CTTCGTCCCC TATTGTGTCT
    TTGTCAAAGC CATCCAAACC TTCGGTTCCT CCACTGACAC CTGAGCAGTA CGAGATTTAT
    ATGTACCAGG AGGTGGATAC GATAGAACTA ACTCGTCAGG TCAAAGAAAA GCTAGCAAAG
    AATGGCATCT GCCAAAGGAT CTTTGGGGAA AAGGTATTGG GGCTGTCCCA AGGAAGTGTC
    AGTGACATGC TCTCCAGGCC AAAGCCATGG AGCAAATTGA CCCAAAAAGG CCGAGAACCA
    TTTATTCGTA TGCAGCTCTG GTTGAATGGT GAGCTGGGAC AGTGTGTCCT GCCCGCGCAA
    GGGCAGCAAC AAGGACAAGT CCTTCACTCT GTGACATCAT TGCAGGATTC CCTACAGCAG
    GGATGTGCAA GCTCAGAAAG CACTCCAAAG ACTTCTGCCA GTTGCAGTCC TGCTCCTGAA
    TCTCCTATGA GCTCCAGTGA ATCAGTGAAG AGCCTGACCG AATTGGTACA GCAACCCTGT
    CCTGCTATAG AGACAAGTAA GGATGGCAAA TCACAAGAAT CTAGTGAGCC ACCTGCCTCC
    GAATCCCAAT CTACAACACC TTTGCCTCTG TCTGGCCACT CAGCCCTCAG CATTCAAGAA
    CTGGTTGCTA TGTCACCTGA ATTGGATACG TATGGCATTA CAAAAAGGGT CAAAGAAGTG
    CTGACGGACA ACAATCTTGG TCAGCGTTTG TTTGGGGAGA CAATCCTAGG GCTAACACAA
    GGCTCTGTCT CAGACCTTCT GGCTCGCCCT AAGCCCTGGC ACAAGCTGAG TTTGAAGGGA
    CGGGAACCCT TTGTCCGCAT GCAGCTGTGG CTCAATGATC CCAACAACGT GGAGAAGTTG
    ATGGATATGA AACGAATGGA GAAAAAAGCC TACATGAAGC GACGGCACAG CTCCGTCAGC
    GACAGTCAGT CCTGCGAGTC CTCGTCGGCC GGCATAGACT ACAGCCAGGG AGCCAGCCCG
    CAGCCGCAGC ACCAGCTGAA GAAACCCCGC GTCGTGCTGG CGCCGGAGGA GAAGGAAGCT
    CTGAAACGAG CCTACCAGCA AAAGCCATAC CCATCACCAA AAACCATTGA GGAACTCGCG
    ACGCAGCTCA ACTTGAAAAC CAGCACGGTG ATCAACTGGT TCCACAATTA CAGGTCTCGC
    ATCCGTCGAG AGCTGTTCAT CGAAGAAATC CAAGCGGGAA GCCAGAGCCA GGCTGGGGCG
    AGCGATTCTC CTTCGGCTAG AAGCAACAGG GCGGCGCACA GCTCGGAGGG GGACAGCTGT
    GACGGCGTGG ACGCCGAAGG CCCACCTGAA GGGAAGCCGA GCGGCCCGGA GGCGGATGAG
    TACAGCAATG CAACCACAAA GTCTCAGGGA GGGCCAGCAG AGTCGGCTTT CGAAGCGGGG
    GAAGAGGCAC TGCAGGGCGC CAGGTCTTCA GAGAAAAGCG AGTCATTCCA CTTGGGAATG
    GAGAGCCTGG AGGATACTGA TGACGAGGGC AGGCTCAAAG CGCCGCGGCA AAGCTCTCCA
    CCAGGATCTC AGCGTTCAGG AGAAAGTCTG GAGACACTGC CAAACTCTGC TACGGAAGGG
    GATGCCTCTA CCTCAGCTGC CTCCACCTCA GTCCTTACAG GGGAGAGCTC CTACAAGCCG
    AAAGAAAGTT CGGAGAAAAT TCCCAGTGTG CCAAGTACGA GCTCGACGGT GGCCGCAGGC
    TCGCAGAAAG CCAACTCGAT TCAGAGCTTG TTCAGCTTCT CGGAGGCGGC GAGCTCCAAG
    AACACGCGAG ACAACTCCTT GAGGAAAAAG AAAGCCGCAA ACTTGAACAA CATAATCCAC
    CGCTTGGAGA AGGCCGCTAG TCGAGAAGAG GCCGTCGAGT GGGAGTTTTG A

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

    RefSeq XP_013813673.1
    CDS1..5331
    Translation

    Target ORF information:

    RefSeq Version XM_013958219.1
    Organism Apteryx australis mantelli
    Definition Apteryx australis mantelli cut-like homeobox 1 (CUX1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013958219.1

    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
    ATGGTTTTTC TTTCTCAGAG TAACTCAGAA AGTAAGAAGC CAGTATCTTC AGAAGGTAGT 
    CAGAGGGAGC TTGATGCCAC AGCAACAATA TTGGCTAACC GGCAAGATGA AAGTGAGCAG
    TCTAGGAAAA AACTTATTGA GCAAAGTCGC GAGTTCAAGA AAAACACTCC AGAGGACCTG
    CGCAAACAGG TAGCTCCATT ACTGAAGAGT TTCCAGGGAG AGATTGACGC GTTGGGCAAA
    AGAAGCAAAG AAGCAGAGGC AGCCTTCTTG AATGTGTATA AGAGATTAAT TGATGTTCCA
    GATCCGGTTC CAGCCTTGGA TTTAGGACAG CAGCTTCAGC TGAAGGTTCA GCGTATGCAC
    GATATTGAAA CAGAGAACCA GAAACTTAGG GAAACTCTAG AGGAGTACAA TAAGGAATTC
    GCTGAGGTGA AAAATCAGGA GGTTACAATA AAAGCACTTA AAGAGAAAAT CCGAGAATAT
    GAACAGACCC TGAAGAACCA AGCTGAGAAT ATAGCACTTG AGAAAGAACA AAAGTTACAA
    AATGATTTCG CGGAGAAGGA GAGAAAATTG CAGGAGACAC AGATGTCGAC AGCCTCAAAG
    CTGGAAGAAG CCGAGCACAA AGTTCAAGCT TTGCAAACAG CCTTGGAAAA AACCAGAACA
    GAACTATTTG ATCTGAAAAC AAAATACGAT GAAGAAACTA CTGCAAAGGC TGATGAAATT
    GAGATGATCA TGACAGACCT CGAAAGAGCA AATCAGAGGG CAGAGGTGGC TCAGAGAGAG
    GCAGAGACCT TAAGGGAGCA GCTCTCGTCA GCCAACAAAT CTCTCCAACT CGCTACGCAG
    ATCCAGAAGG CACCTGATGT GGAGCAGGCC ATCGAGGTGC TAACACGGTC CAGCTTGGAA
    GTAGAACTGG CTGCGAAGGA GCGGGAAATT GCCCAGCTCG TAGAAGACGT CCAGAGACTC
    CAGGGCAGCC TCACCAAACT GCGGGAGAAC TCCAGCAGCC AAATCTCGCA GCTGGAGCAG
    CAGCTGACTG CCAAGAACAG CACACTCAAA CAACTGGAAG AAAAACTGAA AGGACAGGCT
    GATTATGAAG AGGTTAAGAA AGAATTAAAT ATATTGAAAT CCATGGAGTT TGCACCATCT
    GAAAGCTCTG GTGCGCAGGA TGCATCTAAG CCCCTGGAGG TGCTGCTGCT GGAGAAGAAC
    CGCTCATTGC AGTCTGAGAA CGCCACGCTG CGTATCACTA ATAGTGACCT GAGTGGTAGG
    TTGACACGAT TTTCCGCTAT TACAGTTTGT TTGATATCTC AAGAAATAGA AAATAATTGT
    TTTTCTACCT TCCACAGTAT ATTGAAATCC ATGGAGTTTG CACCATCTGA AAGCTCTGGT
    GCGCAGGATG CATCTAAGCC CCTGGAGGTG CTGCTGCTGG AGAAGAACCG CTCATTGCAG
    TCTGAGAACG CCACGCTGCG TATCACTAAT AGTGACCTGA GTGGGTCAGC CAGGAGAAAA
    GGGAAAGACC AGCCTGAGAG TCAGCGTCCT GCAACCTTGC CGGCCTCCCC TCCTTCTCAG
    TTGCTCCGCA ACGCGGGGGA GCAGGCTTCC AATACTAATG GTACACACCA GTTCTCACCA
    ACGGGTTTAA GTCAAGACTT TTTCAGCTCA TCCCTGGCAA GCCCCAGCTT ACCCCTGGCC
    TCCACAGGAA AATTTGCACT AAACTCTCTC CTCCAGCGAC AGCTAATGCA GTCCTTCTAC
    TCCAAGGCAA TGCAGGAAGC AGGAAGCACA AGCATGATTT TTTCAACAGG TCCTTACAGC
    ACAAACTCCA TATCTTCCCA AAGTCCATTA CAACAAAGTC CGGATGTAAA TGGCATGGCC
    CCGTCTCCCA GCCAGTCAGA AAGTGCTGGG AGCATCTCTG AAGGCGAGGA GATAGACACG
    GCCGAAATTG CACGTCAGGT GAAAGAGCAG TTGATCAAGC ACAATATTGG ACAGCGGATA
    TTTGGACATT ATGTGTTGGG ACTGTCGCAA GGGTCTGTGA GTGAGATCCT AGCCCGGCCA
    AAGCCATGGA ATAAACTGAC TGTGAGAGGC AAGGAGCCAT TTCATAAGAT GAAGCAGTTC
    CTCTCGGACG AGCAGAACAT CTTGGCTCTT CGCAGCATCC AGGGTAGACA AAGAGGTAAT
    ATAACGACAA GGATCCGAAC CACAGAGACG GGCTCTGATG AAGCCATCAA ATCCATTCTA
    GAACAAGCCA AAAGGGAGCT GCAAGTACAG AAAACAGCTG AGCCGGCTCA GCCGCCTTCT
    GCATCTAGCA GTGGCAATTC TGATGATGCT ATTCGATCCA TTCTGCAACA AGCCCGACGC
    GAAATGGAGG CACAGCAGGC TGCCCTTGAA CCTGCCTTAA AAACACCACC TTTATCTCAA
    GCTGACATTT CTATCCTGTC CCCCAAACTA CCTACACCTG CAATGTCTTC GGTTTCCAGC
    TTTTCTCCTT TGGCCATGTC CCTGAAGAAA CATTCATCTG TCACTGATTC CAGTATCTCT
    GCATTGCAGA ACCTCTCTGG GCTCAAAAAG GAGCCTCAGG AGGCACCTGG TTTAGAGCTT
    CATGGAATAA GTGATTCTGC CCAGGGTATG TTGAGGCATG TTAAAAATGA GTTGGGACGT
    GGTGGTGTTT GGAAGGACCA CTGGTGGAAT ACTGTTCAGC ATGAGAGAAG AAACACAGCT
    CTTCCCGAAG ACACAAAAGT TGAGGAAGCC AGTGTTGGAA AAGAAAAGGT CAGCAATCAG
    ACTAGGCCAG ATCGTAGCCA GCTTCAAGGA CCATCTTCTT CAGAGTATTG GAAAGAGTGG
    CCAAACGCTG AATCTCCGTA CTCCCAGAGT TCTGAGTTGA GCATGACTGG GGCAAGTCGC
    AGCGAGACGC CACAAAATAG CCCCCTCCCT TCGTCCCCTA TTGTGTCTTT GTCAAAGCCA
    TCCAAACCTT CGGTTCCTCC ACTGACACCT GAGCAGTACG AGATTTATAT GTACCAGGAG
    GTGGATACGA TAGAACTAAC TCGTCAGGTC AAAGAAAAGC TAGCAAAGAA TGGCATCTGC
    CAAAGGATCT TTGGGGAAAA GAACCTCTCT GGGCTCAAAA AGGAGCCTCA GGAGGCACCT
    GGTTTAGAGC TTCATGGAAT AAGTGATTCT GCCCAGGGTA TGTTGAGGCA TGTTAAAAAT
    GAGTTGGGAC GTGGTGGTGT TTGGAAGGAC CACTGGTGGA ATACTGTTCA GCATGAGAGA
    AGAAACACAG CTCTTCCCGA AGACACAAAA GTTGAGGAAG CCAGTGTTGG AAAAGAAAAG
    GTCAGCAATC AGACTAGGCC AGATCGTAGC CAGCTTCAAG GACCATCTTC TTCAGAGTAT
    TGGAAAGAGT GGCCAAACGC TGAATCTCCG TACTCCCAGA GTTCTGAGTT GAGCATGACT
    GGGGCAAGTC GCAGCGAGAC GCCACAAAAT AGCCCCCTCC CTTCGTCCCC TATTGTGTCT
    TTGTCAAAGC CATCCAAACC TTCGGTTCCT CCACTGACAC CTGAGCAGTA CGAGATTTAT
    ATGTACCAGG AGGTGGATAC GATAGAACTA ACTCGTCAGG TCAAAGAAAA GCTAGCAAAG
    AATGGCATCT GCCAAAGGAT CTTTGGGGAA AAGGTATTGG GGCTGTCCCA AGGAAGTGTC
    AGTGACATGC TCTCCAGGCC AAAGCCATGG AGCAAATTGA CCCAAAAAGG CCGAGAACCA
    TTTATTCGTA TGCAGCTCTG GTTGAATGGT GAGCTGGGAC AGTGTGTCCT GCCCGCGCAA
    GGGCAGCAAC AAGGACAAGT CCTTCACTCT GTGACATCAT TGCAGGATTC CCTACAGCAG
    GGATGTGCAA GCTCAGAAAG CACTCCAAAG ACTTCTGCCA GTTGCAGTCC TGCTCCTGAA
    TCTCCTATGA GCTCCAGTGA ATCAGTGAAG AGCCTGACCG AATTGGTACA GCAACCCTGT
    CCTGCTATAG AGACAAGTAA GGATGGCAAA TCACAAGAAT CTAGTGAGCC ACCTGCCTCC
    GAATCCCAAT CTACAACACC TTTGCCTCTG TCTGGCCACT CAGCCCTCAG CATTCAAGAA
    CTGGTTGCTA TGTCACCTGA ATTGGATACG TATGGCATTA CAAAAAGGGT CAAAGAAGTG
    CTGACGGACA ACAATCTTGG TCAGCGTTTG TTTGGGGAGA CAATCCTAGG GCTAACACAA
    GGCTCTGTCT CAGACCTTCT GGCTCGCCCT AAGCCCTGGC ACAAGCTGAG TTTGAAGGGA
    CGGGAACCCT TTGTCCGCAT GCAGCTGTGG CTCAATGATC CCAACAACGT GGAGAAGTTG
    ATGGATATGA AACGAATGGA GAAAAAAGCC TACATGAAGC GACGGCACAG CTCCGTCAGC
    GACAGTCAGT CCTGCGAGTC CTCGTCGGCC GGCATAGACT ACAGCCAGGG AGCCAGCCCG
    CAGCCGCAGC ACCAGCTGAA GAAACCCCGC GTCGTGCTGG CGCCGGAGGA GAAGGAAGCT
    CTGAAACGAG CCTACCAGCA AAAGCCATAC CCATCACCAA AAACCATTGA GGAACTCGCG
    ACGCAGCTCA ACTTGAAAAC CAGCACGGTG ATCAACTGGT TCCACAATTA CAGGTCTCGC
    ATCCGTCGAG AGCTGTTCAT CGAAGAAATC CAAGCGGGAA GCCAGAGCCA GGCTGGGGCG
    AGCGATTCTC CTTCGGCTAG AAGCAACAGG GCGGCGCACA GCTCGGAGGG GGACAGCTGT
    GACGGCGTGG ACGCCGAAGG CCCACCTGAA GGGAAGCCGA GCGGCCCGGA GGCGGATGAG
    TACAGCAATG CAACCACAAA GTCTCAGGGA GGGCCAGCAG AGTCGGCTTT CGAAGCGGGG
    GAAGAGGCAC TGCAGGGCGC CAGGTCTTCA GAGAAAAGCG AGTCATTCCA CTTGGGAATG
    GAGAGCCTGG AGGATACTGA TGACGAGGGC AGGCTCAAAG CGCCGCGGCA AAGCTCTCCA
    CCAGGATCTC AGCGTTCAGG AGAAAGTCTG GAGACACTGC CAAACTCTGC TACGGAAGGG
    GATGCCTCTA CCTCAGCTGC CTCCACCTCA GTCCTTACAG GGGAGAGCTC CTACAAGCCG
    AAAGAAAGTT CGGAGAAAAT TCCCAGTGTG CCAAGTACGA GCTCGACGGT GGCCGCAGGC
    TCGCAGAAAG CCAACTCGAT TCAGAGCTTG TTCAGCTTCT CGGAGGCGGC GAGCTCCAAG
    AACACGCGAG ACAACTCCTT GAGGAAAAAG AAAGCCGCAA ACTTGAACAA CATAATCCAC
    CGCTTGGAGA AGGCCGCTAG TCGAGAAGAG GCCGTCGAGT GGGAGTTTTG A

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