TNKS1BP1 cDNA ORF clone, Calidris pugnax(ruff)

The following TNKS1BP1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TNKS1BP1 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
OCa64112 XM_014940694.1
Latest version!
Calidris pugnax tankyrase 1 binding protein 1 (TNKS1BP1), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $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 OCa64112
    Clone ID Related Accession (Same CDS sequence) XM_014940694.1
    Accession Version XM_014940694.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5418bp)
    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 2015-12-08
    Organism Calidris pugnax(ruff)
    Product 182 kDa tankyrase-1-binding protein
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015090829.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Calidris pugnax Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    5161
    5221
    5281
    5341
    5401
    ATGGCCTCGC AGCCGCAGCC CCTGCGCCCC GCCGTGCCCT GTGCCTCCCC CACGGGCACC 
    GGTGGGGCTG GGCTGGGGGC TGGCAGCCCT GAGAAAGGCC CCGCTCGCAC CAAGCCACCG
    GTGCGGCCCA AGCCCCGGGT GCTGCCCAAG CCGGCCGTGC CCGCCAAGCC CTCCCTGCCA
    CAGCCCCCGC TGGGGCCTCG GCACCCTCGC CCGGAGCTGC CCTCCGCTGA GAAGATGAAC
    CGCCTGGCTG GACCCCAGCC CTACAGTGGG GGCGGCTCGG GGGGGCCCCT CAGGCGCCCC
    TCCTTCACCC TCAAGTCTCC TGAGACCCCC AATGGGAAGG GGCTCCCGTC CGCTCCGGTT
    GCAGCCACTG AGGACCGAGG TCCAGCCCCC GCTGAGGAGG TGCCCCCCGC CCCGCCGACC
    CCTTCTCGCA AAGGCCTGGC TCCCTTCAAG GTGACACCGG TGCCGGTGGC GACCAAACCG
    GAGCGATTTC CAGGCACCAC CGTGGAGGAG ATCTTGGCCA AAATGGACAG CAGGGAGGGC
    CCGGGCAGCC CAGACCGAGC CCGGCTCTCA CCCTTTTGCC CCGATTCCTC CTCTCGCTTC
    GGCTCCAAGA CTTTCACCGC CTTCCGGAGA CGTCCCAGCG GGGAGGCGGA TGGAGCCCCC
    CCCGGTGAAG CCCGCCAGAC ACCCCAACCC ACGGCGGGCG AGCTGGGGAC GGGGGATGGC
    GAGCACCCCA TTGCCGAGAC GAGCGGCTCC CCCCCAGCCG GCCCGAGCTG TGCCGGGGAC
    CCCCGTGGAC GCCGGAGGCC GCCTTCCCCC CCTGACCTTT CCTCTCTCCA GCCGGGTACC
    CTCGGACCCC CTGGGTCTCC AAGGCCCCCC ACCTGCCCAG CCCCAGGAGC TCCTTTCCAG
    CCTTCAGCCT CGGCCCCCGG CTCTCCTGAT GCCCCCCCAG AGCTCCCGGC CCCTGGGTCC
    CCCACCCGGG CCCCCGGCTC CCCCGAATCT CCCCCTCAGC CTCCAGCCGA GGTCTCGGCC
    GCCTCCATCC AGGCCCCGGG TGCTCCCTCC TCCTCTGCAG CCGAACCCCG GCTCAGCGTC
    TCCCGTTCCC CCGGCTCCCC CCACACTCCT GGAGAGGGAT CCCCCGATAC TGCCAGCCCC
    CCCAGCACTC CAGAACTGCC CCCCAGAGTC ACCTGTCCCC CCGGCTCTCC TGAGGCTGCC
    ACTGAGTACC CGGGTTCCCC CAGCCCACCC CCTGAGCCCT CTGCCAAAGC CTCTCGTCCC
    CCGGGCTCCC CAGAGGGACC CGATGACTCC CCAGTGTCCC CACAGTCCTC TGAGGGTCCT
    GATTTCAGCC CCCCTCGCTC TTGCAGGGAC TCCGGGCTCC GGCGCTCTTC GGAGGGGGTG
    CTGCAGCCCC CGGCGGTGGG GCAGGGCATG GGGGAGCTGG GGGGCTCGCT GAGCGCCCTG
    CCCTGTTCTG GGGACCCACC GCCAGAGCCG TCTCTGGGCA GTGAGTCCGG CTGGAGCCTC
    TCCCAGTCCT TTGAGTGGAC GTTCCCCTCG CGGGGGGCAC GGCGGCTGGC GTCTCCCCCC
    CAGTCCCCCA TCCAGGAGAC GGCCGACTCG GGGCTCTCTG CAGAGGGGGA GTCAGATGGG
    GAGGACCTGG TCCCAGGCCC CCCATGTTCC TGGGGGGACA GTGGGTCCCA AGGGCCTGGC
    AGCCGGGGAG CGGAGGGGGC TCCGTGTCCA GGGGGGCCTA TGCCCCAGCG AGAGGCCGAG
    GGCTCGGCGG AGGAGGAGGA GGAGGAGGAA GGGGAGACAG AGCAGGATGC CACTGTTCCC
    TGCTTCCCTC TCTGTGTGGT GGAGCCCGAC CAGGACCCAG CCGAGCCTGA GCACCCTGTG
    CAGCCCGGGC CCTTCACCGA GACCACCCTG CCGCGTCCGG GAACCGTGGA CAACTGCCCC
    GCCAGCCCAC AGGGTCCTGG TGGGCCGGGC CAGGCCGAGG CACCCCCGAG GGACCCCCAG
    CCCCATGGTG ACCCGGGCTG GCTGGAGGAG CTGCTGTCCT CGCCCGGGGC CCACAGCTCT
    CCGCAGGACC TGCTCGGCTG GTCGCGGAAG GACCTGTGCA GTGAGTTCGG CATTGGCAGA
    CCTCAGCAGC CCCGCACCTT CGACTGGACC CCAGAGGCTG TGGTCAGGGA GAGAGACTGG
    CCTGGTGACA CGGTGCAGGA CCGGGAATTT GGGACCAAAT TGAGCTGGGA CAGCAGCCGC
    AGCGTCAGGG ATGGGGACCG GCAGGACAGC CCCTTCGGCA GCGCAGGGAA GGACTGGGGC
    AGCGGTTACA AAGGGACGGA GCTGATGGGG GAAGCGAGAC GGGGCTGCAG CGACTGGCCC
    GAGTCCCGTG GCACCCAGGA AAGCTGCCTG CGGGATCAAG CCTTCGGTGC CGGCCAGCCC
    CAGTGGGGCA CGGGCTACGG CTTGGAGAGT GCAGGCAGCA GGGAGGAGAT GGGCTCTGGG
    AAGGCCAACT GGACCCGCAG CTACGGCGTG GGACACGGCC AGCAGCAGCA GGAGCAGACA
    AGCTCCAGGC AGCCCAGCTG GGCTGGCAGG TACAGCTCTG GGGACACGGA GAGCCGGGAC
    GGGGACATCG CTCCTGCCTG GGCTGGTCGA TACAGCACCG GCGAGGCAGA GGCAAAGGAC
    AGGGAGCTCA CCCCAGACTG GACCAGCAAA TACAGCAGCA GGGATGCTGA GAGCAAGGAA
    GAGGATTTTA CGCTGGGCTG GGCTGGCAGA TCCAGCACTG GGGACACTGG GACCCCAGAG
    AAGGAGTTCA GCCCCAGCAG GCCAGCCTGG GACAGCAAAT ACAGCAGCAG GGACATGGAG
    AGCCAGGACA GGGAGTTTAG CCCCAGCAGA CCAGCTTGGA CTGGTGAGTA CAGCACCCGA
    GACATGGAGA GCCAGGACAG GGAGTTCAGC CCCAGCAGGC CGGCTGAGGC TGGTGGATAC
    ACCTCCAGGG ATGTAGAGAG CCAGGACAGG GAGTTCCAGC CCAGGAGATC AGCTTGGGAT
    GATGGATACA GCAGCAGAGA GATGAAGACC CAGGAGAAGG AGTTCAAGCC CAGCAGATCA
    ACCTGGGATG ACGAACACAA CACCAGGGAT GTGGAGAGGC AGGACAGGGA GTTCAGCCCC
    AGCAGACCCG CCTGGGACAG CAAATACAGC AGCAGGGACA CGGAGACCCA GGACCGGGAG
    TTCAGCCCCA GCAGAACGGC CTGGGATAGT GAGTACCACA GCAGGGATGT GGAGAGCCAG
    GATGAGGAAT TCAAACCCAG GAGATCGGCA TGGGATGATG AACGCAGCAC CAGGGACATG
    GAGACCCAGG ATGAGGAGTT CCAACCCAGG AGATCGACAT GGGATGATGA ACGCAGCACC
    AGGGCCATGG AGACCCAGGA TGGGGAGTTC CAACCCAGGA GATCGACATG GGATGATGAG
    CGCAGCACCA GGGACGTGGA GACACAAGAC CAGGAGTTCA GCCTCAGCAG AGCAGCCTGG
    GATAGTGGGT ACCGCAGCGG GGACACAGAG AGCCAGGACA GGGAATTCAG CCCCAGCAGA
    CAGGCCGTAG CCAGCGAGTG CAGCACCAGG GATGTGGAGA CCCGGGATGG GGAGTTCCAG
    CCCAGGAGAT CGGGATGGGA TGATGAGCGC AGCACCAGGG ACGTGGAGAC CCAGGACGAG
    GAGTTCAGCC CCAGCAGATT GCCCTGGGCC AGTGAGTACA GCAGCAGGGA GGTGGAGAGC
    CAGGAGCAGG AGTTGAGCCC CAGCAGAGCG GCCGTGGCCA GCGAGTGCAG CAGCAGGGAG
    ATGGAGAGCC AGGACAGCGG CTTCGAGCCC AGCAGACCCA TGTGGGAGGA CAGCTACGGC
    ACCAGGGACA TGGAGAGCCA GGATGGGGAG TTCAGCCCCA GCAGACCGGC CTGGGCCAGC
    GAGTTCAGCT CTGCAAACAC CACAAAGGAA GACGAAGAGT TCAGTCCTGC CCGGCTGAGC
    TGGGCTGGTG AGTGCAACGT TGGCCAAAAG GAGCTGGTTG ATGTGTTTGG TGTCAGGAAG
    GGTGACTTGC CCGGCTCTGG TGCCCCTGAT GCCCCGGTGC AGGAGCCCGG CTGGGTCAGC
    GCTGGCCAGC AGGAGCACAG TGCCACCCAC AGCAAGGGCT GGGCTGAAGA GCTTGGGGGA
    GCCGAGTGCC ACAACCAATT TGGCATCATT GGGACAGAGC GAGTGCCGGA TCCCTGCAGC
    GCCGGAGGCT CATCGGATGG CTTGATGTCC TGGGCTGGAG GAACGAGTTC CGGGGGGCAG
    CAGGAGCCCC GCGGGGACTG GGAGAGGGAT GATGCCAGCT GTGTGGGCAC CGGTGATGCC
    AGTAGGGTCA GACCGGGCCA GACGGCCTGG GGTGAGGGCC TGGGCCACCT GCCTGCCCCG
    AGCAGCTCTG CCCAGCCCCG GGAGGCCGGG CTGGAGGAGC GGGGCTGGAG CCAGGACGCG
    GAGGTGTCTG GCTGGAGCGT GGAGCTGTGC GACACCGAGG CCACGCACCA GGAGTGGGCC
    AGTGCCTTTG GCGCCCGCTG CGCCGCCCGC AGCCGGGACT TCAGCGCTGA GGAGCAGAGC
    CCGGGGGACG ACGCTGGCTC CACGGACAGA AGCGTCCCTC TCTTGGACCC CAGCCCACCC
    ACGGGTGGTG CTCCGGCTGC CCCCCCTGCT GCAGCATCCC CCTGGAGTGA GCCCCCCAAC
    CCCACCGAGG AGGAGAGGAA CCTCCCTGAG CTGACCACTG TCCCGCCGAG CCCTGGGGCC
    TGCCATCTGC TGCCGGAGGC TGCCGGCGGG ACTCTGCCCG ACATGGGGAG TGAAGATGCC
    CCCTCGGACC ACCCGGATGG GCAGAGACCA CCGAGCCGGG AGGAGAAGCG GCTCTCCCTG
    GCCCCGGCTC AGTCCGAGGG ACCCACGGAC CAGGCCGGGC AGGAATTCAC CTTCCTGGAG
    GACACGGAGG TCCTGGACAG CAGCGTGTAC CGCACCAAGG CCAACCTGGG CCGCAAGCGC
    CGGCACCGGG CCCCAGCCCT CCGTCCCGGG GCCACCGCCG AGGGGGACAG CTGGATCTTC
    CGTGACTCCA CAGAGCCCCG GCCAGCCCCG GCAGCGTCCT CCGACGAGGA GACAGTGGAG
    GAACCCAAGA GCCGGCGTGT GCGGGCGTCC CTCTCGAGCA AGGGGGTGAA GGTGCCGCTC
    TTCCCTGGCC TCAGCACCTC TGCCCTCAAG GCCAAGCTGA GGGGCCGAAA CCGCTCAGCT
    GAGGAGGGGG CAGCACCAGG GGACAGCAAG GTCACCCCCC CCAAGGACCC CCACGTGCAG
    CGCTCCAAGT CCTGCAAGAT TCCCGGCTTG AGTGGGAAAC CCCTGTCGCT GCCCCCCAAG
    CCGGAGAAGT CCTCGGGGTC CGAGGCCTCG CCCCCGCACT GGCTGCAGGC GCTGAAGCTG
    AAAAAGAAGA AACCTTGA

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

    RefSeq XP_014796180.1
    CDS44..5461
    Translation

    Target ORF information:

    RefSeq Version XM_014940694.1
    Organism Calidris pugnax(ruff)
    Definition Calidris pugnax tankyrase 1 binding protein 1 (TNKS1BP1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014940694.1

    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
    ATGGCCTCGC AGCCGCAGCC CCTGCGCCCC GCCGTGCCCT GTGCCTCCCC CACGGGCACC 
    GGTGGGGCTG GGCTGGGGGC TGGCAGCCCT GAGAAAGGCC CCGCTCGCAC CAAGCCACCG
    GTGCGGCCCA AGCCCCGGGT GCTGCCCAAG CCGGCCGTGC CCGCCAAGCC CTCCCTGCCA
    CAGCCCCCGC TGGGGCCTCG GCACCCTCGC CCGGAGCTGC CCTCCGCTGA GAAGATGAAC
    CGCCTGGCTG GACCCCAGCC CTACAGTGGG GGCGGCTCGG GGGGGCCCCT CAGGCGCCCC
    TCCTTCACCC TCAAGTCTCC TGAGACCCCC AATGGGAAGG GGCTCCCGTC CGCTCCGGTT
    GCAGCCACTG AGGACCGAGG TCCAGCCCCC GCTGAGGAGG TGCCCCCCGC CCCGCCGACC
    CCTTCTCGCA AAGGCCTGGC TCCCTTCAAG GTGACACCGG TGCCGGTGGC GACCAAACCG
    GAGCGATTTC CAGGCACCAC CGTGGAGGAG ATCTTGGCCA AAATGGACAG CAGGGAGGGC
    CCGGGCAGCC CAGACCGAGC CCGGCTCTCA CCCTTTTGCC CCGATTCCTC CTCTCGCTTC
    GGCTCCAAGA CTTTCACCGC CTTCCGGAGA CGTCCCAGCG GGGAGGCGGA TGGAGCCCCC
    CCCGGTGAAG CCCGCCAGAC ACCCCAACCC ACGGCGGGCG AGCTGGGGAC GGGGGATGGC
    GAGCACCCCA TTGCCGAGAC GAGCGGCTCC CCCCCAGCCG GCCCGAGCTG TGCCGGGGAC
    CCCCGTGGAC GCCGGAGGCC GCCTTCCCCC CCTGACCTTT CCTCTCTCCA GCCGGGTACC
    CTCGGACCCC CTGGGTCTCC AAGGCCCCCC ACCTGCCCAG CCCCAGGAGC TCCTTTCCAG
    CCTTCAGCCT CGGCCCCCGG CTCTCCTGAT GCCCCCCCAG AGCTCCCGGC CCCTGGGTCC
    CCCACCCGGG CCCCCGGCTC CCCCGAATCT CCCCCTCAGC CTCCAGCCGA GGTCTCGGCC
    GCCTCCATCC AGGCCCCGGG TGCTCCCTCC TCCTCTGCAG CCGAACCCCG GCTCAGCGTC
    TCCCGTTCCC CCGGCTCCCC CCACACTCCT GGAGAGGGAT CCCCCGATAC TGCCAGCCCC
    CCCAGCACTC CAGAACTGCC CCCCAGAGTC ACCTGTCCCC CCGGCTCTCC TGAGGCTGCC
    ACTGAGTACC CGGGTTCCCC CAGCCCACCC CCTGAGCCCT CTGCCAAAGC CTCTCGTCCC
    CCGGGCTCCC CAGAGGGACC CGATGACTCC CCAGTGTCCC CACAGTCCTC TGAGGGTCCT
    GATTTCAGCC CCCCTCGCTC TTGCAGGGAC TCCGGGCTCC GGCGCTCTTC GGAGGGGGTG
    CTGCAGCCCC CGGCGGTGGG GCAGGGCATG GGGGAGCTGG GGGGCTCGCT GAGCGCCCTG
    CCCTGTTCTG GGGACCCACC GCCAGAGCCG TCTCTGGGCA GTGAGTCCGG CTGGAGCCTC
    TCCCAGTCCT TTGAGTGGAC GTTCCCCTCG CGGGGGGCAC GGCGGCTGGC GTCTCCCCCC
    CAGTCCCCCA TCCAGGAGAC GGCCGACTCG GGGCTCTCTG CAGAGGGGGA GTCAGATGGG
    GAGGACCTGG TCCCAGGCCC CCCATGTTCC TGGGGGGACA GTGGGTCCCA AGGGCCTGGC
    AGCCGGGGAG CGGAGGGGGC TCCGTGTCCA GGGGGGCCTA TGCCCCAGCG AGAGGCCGAG
    GGCTCGGCGG AGGAGGAGGA GGAGGAGGAA GGGGAGACAG AGCAGGATGC CACTGTTCCC
    TGCTTCCCTC TCTGTGTGGT GGAGCCCGAC CAGGACCCAG CCGAGCCTGA GCACCCTGTG
    CAGCCCGGGC CCTTCACCGA GACCACCCTG CCGCGTCCGG GAACCGTGGA CAACTGCCCC
    GCCAGCCCAC AGGGTCCTGG TGGGCCGGGC CAGGCCGAGG CACCCCCGAG GGACCCCCAG
    CCCCATGGTG ACCCGGGCTG GCTGGAGGAG CTGCTGTCCT CGCCCGGGGC CCACAGCTCT
    CCGCAGGACC TGCTCGGCTG GTCGCGGAAG GACCTGTGCA GTGAGTTCGG CATTGGCAGA
    CCTCAGCAGC CCCGCACCTT CGACTGGACC CCAGAGGCTG TGGTCAGGGA GAGAGACTGG
    CCTGGTGACA CGGTGCAGGA CCGGGAATTT GGGACCAAAT TGAGCTGGGA CAGCAGCCGC
    AGCGTCAGGG ATGGGGACCG GCAGGACAGC CCCTTCGGCA GCGCAGGGAA GGACTGGGGC
    AGCGGTTACA AAGGGACGGA GCTGATGGGG GAAGCGAGAC GGGGCTGCAG CGACTGGCCC
    GAGTCCCGTG GCACCCAGGA AAGCTGCCTG CGGGATCAAG CCTTCGGTGC CGGCCAGCCC
    CAGTGGGGCA CGGGCTACGG CTTGGAGAGT GCAGGCAGCA GGGAGGAGAT GGGCTCTGGG
    AAGGCCAACT GGACCCGCAG CTACGGCGTG GGACACGGCC AGCAGCAGCA GGAGCAGACA
    AGCTCCAGGC AGCCCAGCTG GGCTGGCAGG TACAGCTCTG GGGACACGGA GAGCCGGGAC
    GGGGACATCG CTCCTGCCTG GGCTGGTCGA TACAGCACCG GCGAGGCAGA GGCAAAGGAC
    AGGGAGCTCA CCCCAGACTG GACCAGCAAA TACAGCAGCA GGGATGCTGA GAGCAAGGAA
    GAGGATTTTA CGCTGGGCTG GGCTGGCAGA TCCAGCACTG GGGACACTGG GACCCCAGAG
    AAGGAGTTCA GCCCCAGCAG GCCAGCCTGG GACAGCAAAT ACAGCAGCAG GGACATGGAG
    AGCCAGGACA GGGAGTTTAG CCCCAGCAGA CCAGCTTGGA CTGGTGAGTA CAGCACCCGA
    GACATGGAGA GCCAGGACAG GGAGTTCAGC CCCAGCAGGC CGGCTGAGGC TGGTGGATAC
    ACCTCCAGGG ATGTAGAGAG CCAGGACAGG GAGTTCCAGC CCAGGAGATC AGCTTGGGAT
    GATGGATACA GCAGCAGAGA GATGAAGACC CAGGAGAAGG AGTTCAAGCC CAGCAGATCA
    ACCTGGGATG ACGAACACAA CACCAGGGAT GTGGAGAGGC AGGACAGGGA GTTCAGCCCC
    AGCAGACCCG CCTGGGACAG CAAATACAGC AGCAGGGACA CGGAGACCCA GGACCGGGAG
    TTCAGCCCCA GCAGAACGGC CTGGGATAGT GAGTACCACA GCAGGGATGT GGAGAGCCAG
    GATGAGGAAT TCAAACCCAG GAGATCGGCA TGGGATGATG AACGCAGCAC CAGGGACATG
    GAGACCCAGG ATGAGGAGTT CCAACCCAGG AGATCGACAT GGGATGATGA ACGCAGCACC
    AGGGCCATGG AGACCCAGGA TGGGGAGTTC CAACCCAGGA GATCGACATG GGATGATGAG
    CGCAGCACCA GGGACGTGGA GACACAAGAC CAGGAGTTCA GCCTCAGCAG AGCAGCCTGG
    GATAGTGGGT ACCGCAGCGG GGACACAGAG AGCCAGGACA GGGAATTCAG CCCCAGCAGA
    CAGGCCGTAG CCAGCGAGTG CAGCACCAGG GATGTGGAGA CCCGGGATGG GGAGTTCCAG
    CCCAGGAGAT CGGGATGGGA TGATGAGCGC AGCACCAGGG ACGTGGAGAC CCAGGACGAG
    GAGTTCAGCC CCAGCAGATT GCCCTGGGCC AGTGAGTACA GCAGCAGGGA GGTGGAGAGC
    CAGGAGCAGG AGTTGAGCCC CAGCAGAGCG GCCGTGGCCA GCGAGTGCAG CAGCAGGGAG
    ATGGAGAGCC AGGACAGCGG CTTCGAGCCC AGCAGACCCA TGTGGGAGGA CAGCTACGGC
    ACCAGGGACA TGGAGAGCCA GGATGGGGAG TTCAGCCCCA GCAGACCGGC CTGGGCCAGC
    GAGTTCAGCT CTGCAAACAC CACAAAGGAA GACGAAGAGT TCAGTCCTGC CCGGCTGAGC
    TGGGCTGGTG AGTGCAACGT TGGCCAAAAG GAGCTGGTTG ATGTGTTTGG TGTCAGGAAG
    GGTGACTTGC CCGGCTCTGG TGCCCCTGAT GCCCCGGTGC AGGAGCCCGG CTGGGTCAGC
    GCTGGCCAGC AGGAGCACAG TGCCACCCAC AGCAAGGGCT GGGCTGAAGA GCTTGGGGGA
    GCCGAGTGCC ACAACCAATT TGGCATCATT GGGACAGAGC GAGTGCCGGA TCCCTGCAGC
    GCCGGAGGCT CATCGGATGG CTTGATGTCC TGGGCTGGAG GAACGAGTTC CGGGGGGCAG
    CAGGAGCCCC GCGGGGACTG GGAGAGGGAT GATGCCAGCT GTGTGGGCAC CGGTGATGCC
    AGTAGGGTCA GACCGGGCCA GACGGCCTGG GGTGAGGGCC TGGGCCACCT GCCTGCCCCG
    AGCAGCTCTG CCCAGCCCCG GGAGGCCGGG CTGGAGGAGC GGGGCTGGAG CCAGGACGCG
    GAGGTGTCTG GCTGGAGCGT GGAGCTGTGC GACACCGAGG CCACGCACCA GGAGTGGGCC
    AGTGCCTTTG GCGCCCGCTG CGCCGCCCGC AGCCGGGACT TCAGCGCTGA GGAGCAGAGC
    CCGGGGGACG ACGCTGGCTC CACGGACAGA AGCGTCCCTC TCTTGGACCC CAGCCCACCC
    ACGGGTGGTG CTCCGGCTGC CCCCCCTGCT GCAGCATCCC CCTGGAGTGA GCCCCCCAAC
    CCCACCGAGG AGGAGAGGAA CCTCCCTGAG CTGACCACTG TCCCGCCGAG CCCTGGGGCC
    TGCCATCTGC TGCCGGAGGC TGCCGGCGGG ACTCTGCCCG ACATGGGGAG TGAAGATGCC
    CCCTCGGACC ACCCGGATGG GCAGAGACCA CCGAGCCGGG AGGAGAAGCG GCTCTCCCTG
    GCCCCGGCTC AGTCCGAGGG ACCCACGGAC CAGGCCGGGC AGGAATTCAC CTTCCTGGAG
    GACACGGAGG TCCTGGACAG CAGCGTGTAC CGCACCAAGG CCAACCTGGG CCGCAAGCGC
    CGGCACCGGG CCCCAGCCCT CCGTCCCGGG GCCACCGCCG AGGGGGACAG CTGGATCTTC
    CGTGACTCCA CAGAGCCCCG GCCAGCCCCG GCAGCGTCCT CCGACGAGGA GACAGTGGAG
    GAACCCAAGA GCCGGCGTGT GCGGGCGTCC CTCTCGAGCA AGGGGGTGAA GGTGCCGCTC
    TTCCCTGGCC TCAGCACCTC TGCCCTCAAG GCCAAGCTGA GGGGCCGAAA CCGCTCAGCT
    GAGGAGGGGG CAGCACCAGG GGACAGCAAG GTCACCCCCC CCAAGGACCC CCACGTGCAG
    CGCTCCAAGT CCTGCAAGAT TCCCGGCTTG AGTGGGAAAC CCCTGTCGCT GCCCCCCAAG
    CCGGAGAAGT CCTCGGGGTC CGAGGCCTCG CCCCCGCACT GGCTGCAGGC GCTGAAGCTG
    AAAAAGAAGA AACCTTGA

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

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