brca1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following brca1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the brca1 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
OXa50150 XM_012952508.3
Latest version!
Xenopus tropicalis breast cancer 1 (brca1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa21202 NM_001114491.1
Latest version!
Xenopus tropicalis breast cancer 1 (brca1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OXa28504 XM_012952508.2
Latest version!
Xenopus tropicalis breast cancer 1 (brca1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00

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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 OXa50150
    Clone ID Related Accession (Same CDS sequence) XM_012952508.3
    Accession Version XM_012952508.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4968bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product breast cancer type 1 susceptibility protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012952508.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGCAGCGT GTCGTTCGTC AGTTCGCATA GGGGAAGGCT GCCATTGGTT GGCTGAGGCG 
    CATGCGCGGG CAGTCGTCAC TGTGGCGCGA GTTGTGCAAA TGGATTTGGC GTGTTGGAAG
    GAAGTTCGGT TTCCTCAGCG AATGAATTGT GTTTCAGGGA AAGGACAAAG TAAATTGAGC
    TGCTCGAGAA TGGATATTGA AGGGATTCGT AATGTAATTT CTGTCATGCA GAAGAATCTG
    GAGTGCCCAA TCTGCTTAGA GCTGATGAAG GAACCAGTTG CAACAAAATG TGATCACATA
    TTCTGCAAAT TTTGTATGTT GCAACTTCTC AGCAAAAAGA AGAAAGAAAA TGTTCCGTGC
    CCTTTGTGCA AGACCGAAGT AACCAGAAGG AGTCTTCAGG AGAGCCACAG ATTCAAACTG
    CTGGTTGAAG GGCTACTAAA GATAATAAAA GCCTTTGAGC TTGACTCTGG ATGCAAATTT
    TTTCCAAGTC AAGAAAACAC AGTCAGTGGG TTTGAGTCCA CAATCAAGGA TGTGTTGATT
    AAAGAAGATC AGCCCGTAGT GCATTGCAAA GGTTACAGAA ACCGTAAAAA AGGGATCTTG
    AAAAGTAAAA CATTTGAAGT AACTGGAACT TTACTGGAAT CCAAACCCGA GGCACAATTT
    GCTAAACTAG TTACGAGACT GACTTCTTGC AGACAGAAGA AGCATAGGAA AGAGGCCTCA
    CCCATTTTCG TTAATTGTGT GCCCGATTCT TCTGAATGTC ATTTATTAAA TAATGAAAGT
    GGCTCAGGAA ATGACCGCTC TCCACTCTGT GAGAAAGAAG ACACGCTGAA TCCAGATATG
    GAAGCAATGG TGGGATCAGA CCAAGCTGAA TGTGAATTTT CTGAAACCGC TGAAAGGACA
    GGAAGCAATT TACCGGGGTC TGATGGTCCT GGGTGCATTA CTGAAACATC AGCAGAAACC
    AACGTCAACA CCGCTGCTAA TTCTAACATT TATGCAAGAG AAGCAGAGCA GTACCTTAAT
    GAGCATCTTT GCAGGTTCAA GCAAGATATC GCAGACAGAG TGCATCAAAG AAATCAGCAT
    TGTGGCAATG TTCCTTTTGT ACCAAATCTG GAGACCAATT TTGATGAAGA GGAAACCATA
    GAAACTGACT TTGATAACCA GTATGATGAC TCTAACCCTC AGAATATTGA CCCTTTATGC
    AAAGTTGCTA AACTAATGAG ACGGAGTACA GAAAGGGTCA ATGAGTGGTT GCTAAAAACA
    AATGAGGAGT CAAGCACTTT GTTAGCAGAG GAAGATTCTT CCTTCAGTGT CTTCCCTTTG
    CAAAATAAAG AGCCCTCTGA GAAAGGGTCT TGTTCCTCAA ATGACTTGAT GCCTGTACTC
    CATAAACATG CAGAGCAGGG TACATCAGGC AGTGTTTTTG ACAAACAAGC AGTCGGCGTT
    AAGGACAAAA TATTCTGCAA AGTCTATAAG AGACAGCAAA AATCTTTGCC TCCTAATAAT
    ATAACCTGCG TTGTTGAGGT CCATCGTGAT AGTTCTTTTG GGACTGGTAC AGAAAATAAG
    ACATTGAGAA TGGATCAGTT AATGTGCAAA AGGAAAATTG CCCATGGTCT AAATCCTGAA
    AACCTAGCTA TTACAAATGG AAGCATTAAC ATTTATCCCG ATGACTGTAT ATCTGAGGCA
    GATGTAGAGC AAGATGCCCA ATCAAAGGCT TGCTCTGAAT TAGCTGATGC GGATCAGTCT
    GAGTTGGTTC ATTGCACATA TACAGTAGAT GGAAACACTC CAAAAAAACG CTGTGTAGAG
    TCTTTGGCAA ATGCACTTGA AACCAGAGAA GAGCAAAAAA AATTGTCTTG TGAAAGAAGC
    CAAAAAAAAA AATGCTGTAC ATGGGCAGTC CAGTCTGTAG CTTCAGAACC TGAAACACGC
    TTACTGCAAA GTTCTTGTGG GCACTTGGAT CTACTTTTAG TAAGTTCTCA AAGTATTGAT
    GATCCCAAAA ATGTAATTAA CCAGGTAAGG AGGAGCAGAA GGCTTCAGAT GTTGCCAGGA
    CTGTTGGAAA AAGCAATTTC TAATGCAGGT TTTGAGCCTA AAATTAAGAA TGCGAATCAA
    CAGCAGAATG GTATTCAGAG TTCAAAATTT AAGGTGAAGG AAAAAAATCC AATGTCTGAT
    ACAGTTCCCT CTCAAATGAA AAAGAAAGAC ATGTTTTGTC TGCCTTTTAC TTCAGATGAT
    ACTGACACCT CAATGAATGA CGGATCAGAG GAAGGGGTTC CCATGAGAAA AGGCAGTACC
    CGGAATCATG ATAAAGTCCA TTGTAATGAT GGAGATTGTG ACACCTTGCT CTGTGTTACA
    GAGAGTGATG TCCAACCAAA TGACAAGGAA ACCGAAGAAT CTGAACTGGA AACCCAACAA
    ATTGTTAAAA TGTTTAAAAC TTCTAAGCGG ACATCCTTCA TATTAGACTC CAGGGCAGCA
    GAAGCTGTAG CAGAAGTCAC TCTATCCTCA GATATCCTAC AGGTCAAAGC TTCCTATGAT
    GTTGAATACA GGGATGTGTC CTCATTAGGT TCAGCAAAAG AACAAAGCAG TGCATTGACG
    AACGAAAGTA GTCCTAGTAG TGAGCCTAAA AAAAGCAGCT CATTACCCTG GCACAAGAAA
    AGGAAGCAAC AAGCTAAATC AAAACATGGC AAAATGTGCA GAAGTAGGAG AGAGAACAGT
    AAACCAACAG ATAATCGTGC CAAAAGCCCC ATAATAAATA TGAGTCATTC TTCAAATACT
    ATTGGCCAGC CAGCTGATTT AAACAGCCCC ATCCACGGGG GCACTGGTAG CATATATAAA
    CAAGTAATCA ACCATTGTCC TACAAGGCCC AACATTGATG GAGAATATAT AAACGCATCC
    GCTAATGGTA GCCAAAGTTC AGTGACAGAT AAATCCCCAG CACATTTTAA TATCAATACC
    AACTTCATTT GTGATGTCAA TTCTGCCACT CCTGATGGAT TGTTGCACTC CATGGATAAC
    GCTGAAGGAA ACTCAAGCCT TGGTGATACA ACTGTTCATG ATGAAGGCAA AAATGCAGCA
    CATCCTGAGA GTTTTCTCCC CTCGTCTGTC CATAGATCAG TTGGGTTAAC TGGGGAAAAA
    AAATGCATAC CAAAGGTGCA ATCATCAGAG GAAGGGTCAA GTGGTGATGA CTTGCTTGGT
    TCTCAGGGTC TGTTTTGTCA AAAGTCAAAG TGCGTATCCT CTGGTGCCAC AGATCAGAAA
    AATTCTAAGA ATCCAGGCAA TGCTCAGCGG AGGAACTTGC CAGATTTCAG TGGCAGCAGC
    AATAGTGGCA AATACAATTC ACGGGAAATG TTATGCAAGG CTGTTTTCCC TTCTCTGAGC
    CAAGAATCTC AGTGTTCGGT GAGCTTGTTC TCCTCTCTGT CAAATATGTC TCAGCAGTCT
    GCAAACGAAG ACCACAAGCT CCAGGGTGGT GGTCTAGGCA GTCCAAGTAG AACTGAAGAG
    ACAACCATCA GTAGTGATGA AGAGACACTG ACTGCTGCCC CTCAGGACCA CAATCAGAAT
    CCTGACATAG CTGAAGCATC AGAATGTGAG AGTGAAGCAA GTCATACAGG AGATTCCTCT
    TTATTGTCCT CCCAGGATGA GCTCCTGAAC ACCCAGCAGC GGGATTACAT GAAGGACAGC
    TTAAAGAAAC TGCAGCAAGA AATGGCTGCT TTGGAAGCAG TACTGGAGCA GCATGGGACC
    CAGAACCTTT CAGCAGGGAC AGCATGCATC CCTTCAGCTG AACATGTCAC ATATAGGCAG
    GAGGAGGCTG TAGAAAAAGA AATAGCTCAA GGAGATAACT CAATTGTACG AACTCCTCCA
    AAGCCTGATG CAAATGGGTC AGCTTTGATA GGGCAGAGCA CGGACAATGG CTTGCAGAGC
    AGGAATAGGT CAATGTCTCC AGCCCCACCA CATTTTCTTT CCCAGACCAG AGCTGAGAAG
    AATACTCAAG AAAGAGTAGG CCCAGCAATG GGCATATCGA AAGTCTTGAA AAAATCTTTG
    GTTACAGAGC ATAAACTGGA AGTCAGACCT GATCTTGAGA CAGCAAATGT TATGCCAGCC
    AACCCAATGG ATGCTAAAGA ATCTTCAGGG CAAAGCAGTG AAAACAAGAG TGAGAACCCT
    ATCTTGCGCA ATAAATGTTC CACATCTCAC CAAGGCTTAT TTTCTTATTC TATGGAAGAG
    GCAGTCTCTC CACACAACCC AAAACAAAGC AGGGCAGAGT TTGGCATTGC AAGGAAATCT
    ACCTCCCCAA CTTTTGCATC CCCCAGTCGA GCTAAAGTCC TTTCTGTTGG CATTAAATCT
    CCTGTTGTGT CATCAAGGAG GAATCTGTCC TTTGTGGCTT CTGGGCTAAA TCAAAGTGAA
    CTGGCAGTAG TACAAAGGTT TTCAAGAACG ACCCAGAGTA TTTTATCCAC ACGAATTACA
    GATTCGACAA CTCACGTCAT TATGAAAACA GATGCAGAGC TTGTGTGCGA GAGAACTCTA
    AAGTATTTCC AAGGAATTGC CGGTAGAAAA TGGGTTGTAA GCTATGAATG GGTTGTACAG
    TCATTCAAAG AGGGACAAGT CCTTGATGAG TATGACTTTG AAGTGAAGGG AGATGTGATC
    AATGGAAGAA ATCATAGAGG CCCAAGAAGA TCACGGCTGG GATCCGATGG ATTGCTGCTA
    AAAGATTTTG AAATTTGCTT CTCCGGATTA TTCACTGACA TGACGCTAGA TGACCTGGAG
    TGGATGGTGT CTGAGTGTGG GTCCACTGTG GTGAGAGATC TTCAGTTCCC AAAAAACAAA
    CTTAATACAA CGTCGCTTGT GATTGTGCAA ACCGATGCTA ATACAACGGA AATCAGAGAT
    TATTTTGCCA TCCGGAAGAA CCACAAGGCC ATAGTAGTGA CGCGGGAGTG GTTGCTGGAC
    AGCATTGCTA CTTACAGACT TCAGAAATTT GATACTTACC TTGCATAA

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

    RefSeq XP_012807962.2
    CDS43..5010
    Translation

    Target ORF information:

    RefSeq Version XM_012952508.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis breast cancer 1 (brca1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012952508.3

    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
    ATGGCAGCGT GTCGTTCGTC AGTTCGCATA GGGGAAGGCT GCCATTGGTT GGCTGAGGCG 
    CATGCGCGGG CAGTCGTCAC TGTGGCGCGA GTTGTGCAAA TGGATTTGGC GTGTTGGAAG
    GAAGTTCGGT TTCCTCAGCG AATGAATTGT GTTTCAGGGA AAGGACAAAG TAAATTGAGC
    TGCTCGAGAA TGGATATTGA AGGGATTCGT AATGTAATTT CTGTCATGCA GAAGAATCTG
    GAGTGCCCAA TCTGCTTAGA GCTGATGAAG GAACCAGTTG CAACAAAATG TGATCACATA
    TTCTGCAAAT TTTGTATGTT GCAACTTCTC AGCAAAAAGA AGAAAGAAAA TGTTCCGTGC
    CCTTTGTGCA AGACCGAAGT AACCAGAAGG AGTCTTCAGG AGAGCCACAG ATTCAAACTG
    CTGGTTGAAG GGCTACTAAA GATAATAAAA GCCTTTGAGC TTGACTCTGG ATGCAAATTT
    TTTCCAAGTC AAGAAAACAC AGTCAGTGGG TTTGAGTCCA CAATCAAGGA TGTGTTGATT
    AAAGAAGATC AGCCCGTAGT GCATTGCAAA GGTTACAGAA ACCGTAAAAA AGGGATCTTG
    AAAAGTAAAA CATTTGAAGT AACTGGAACT TTACTGGAAT CCAAACCCGA GGCACAATTT
    GCTAAACTAG TTACGAGACT GACTTCTTGC AGACAGAAGA AGCATAGGAA AGAGGCCTCA
    CCCATTTTCG TTAATTGTGT GCCCGATTCT TCTGAATGTC ATTTATTAAA TAATGAAAGT
    GGCTCAGGAA ATGACCGCTC TCCACTCTGT GAGAAAGAAG ACACGCTGAA TCCAGATATG
    GAAGCAATGG TGGGATCAGA CCAAGCTGAA TGTGAATTTT CTGAAACCGC TGAAAGGACA
    GGAAGCAATT TACCGGGGTC TGATGGTCCT GGGTGCATTA CTGAAACATC AGCAGAAACC
    AACGTCAACA CCGCTGCTAA TTCTAACATT TATGCAAGAG AAGCAGAGCA GTACCTTAAT
    GAGCATCTTT GCAGGTTCAA GCAAGATATC GCAGACAGAG TGCATCAAAG AAATCAGCAT
    TGTGGCAATG TTCCTTTTGT ACCAAATCTG GAGACCAATT TTGATGAAGA GGAAACCATA
    GAAACTGACT TTGATAACCA GTATGATGAC TCTAACCCTC AGAATATTGA CCCTTTATGC
    AAAGTTGCTA AACTAATGAG ACGGAGTACA GAAAGGGTCA ATGAGTGGTT GCTAAAAACA
    AATGAGGAGT CAAGCACTTT GTTAGCAGAG GAAGATTCTT CCTTCAGTGT CTTCCCTTTG
    CAAAATAAAG AGCCCTCTGA GAAAGGGTCT TGTTCCTCAA ATGACTTGAT GCCTGTACTC
    CATAAACATG CAGAGCAGGG TACATCAGGC AGTGTTTTTG ACAAACAAGC AGTCGGCGTT
    AAGGACAAAA TATTCTGCAA AGTCTATAAG AGACAGCAAA AATCTTTGCC TCCTAATAAT
    ATAACCTGCG TTGTTGAGGT CCATCGTGAT AGTTCTTTTG GGACTGGTAC AGAAAATAAG
    ACATTGAGAA TGGATCAGTT AATGTGCAAA AGGAAAATTG CCCATGGTCT AAATCCTGAA
    AACCTAGCTA TTACAAATGG AAGCATTAAC ATTTATCCCG ATGACTGTAT ATCTGAGGCA
    GATGTAGAGC AAGATGCCCA ATCAAAGGCT TGCTCTGAAT TAGCTGATGC GGATCAGTCT
    GAGTTGGTTC ATTGCACATA TACAGTAGAT GGAAACACTC CAAAAAAACG CTGTGTAGAG
    TCTTTGGCAA ATGCACTTGA AACCAGAGAA GAGCAAAAAA AATTGTCTTG TGAAAGAAGC
    CAAAAAAAAA AATGCTGTAC ATGGGCAGTC CAGTCTGTAG CTTCAGAACC TGAAACACGC
    TTACTGCAAA GTTCTTGTGG GCACTTGGAT CTACTTTTAG TAAGTTCTCA AAGTATTGAT
    GATCCCAAAA ATGTAATTAA CCAGGTAAGG AGGAGCAGAA GGCTTCAGAT GTTGCCAGGA
    CTGTTGGAAA AAGCAATTTC TAATGCAGGT TTTGAGCCTA AAATTAAGAA TGCGAATCAA
    CAGCAGAATG GTATTCAGAG TTCAAAATTT AAGGTGAAGG AAAAAAATCC AATGTCTGAT
    ACAGTTCCCT CTCAAATGAA AAAGAAAGAC ATGTTTTGTC TGCCTTTTAC TTCAGATGAT
    ACTGACACCT CAATGAATGA CGGATCAGAG GAAGGGGTTC CCATGAGAAA AGGCAGTACC
    CGGAATCATG ATAAAGTCCA TTGTAATGAT GGAGATTGTG ACACCTTGCT CTGTGTTACA
    GAGAGTGATG TCCAACCAAA TGACAAGGAA ACCGAAGAAT CTGAACTGGA AACCCAACAA
    ATTGTTAAAA TGTTTAAAAC TTCTAAGCGG ACATCCTTCA TATTAGACTC CAGGGCAGCA
    GAAGCTGTAG CAGAAGTCAC TCTATCCTCA GATATCCTAC AGGTCAAAGC TTCCTATGAT
    GTTGAATACA GGGATGTGTC CTCATTAGGT TCAGCAAAAG AACAAAGCAG TGCATTGACG
    AACGAAAGTA GTCCTAGTAG TGAGCCTAAA AAAAGCAGCT CATTACCCTG GCACAAGAAA
    AGGAAGCAAC AAGCTAAATC AAAACATGGC AAAATGTGCA GAAGTAGGAG AGAGAACAGT
    AAACCAACAG ATAATCGTGC CAAAAGCCCC ATAATAAATA TGAGTCATTC TTCAAATACT
    ATTGGCCAGC CAGCTGATTT AAACAGCCCC ATCCACGGGG GCACTGGTAG CATATATAAA
    CAAGTAATCA ACCATTGTCC TACAAGGCCC AACATTGATG GAGAATATAT AAACGCATCC
    GCTAATGGTA GCCAAAGTTC AGTGACAGAT AAATCCCCAG CACATTTTAA TATCAATACC
    AACTTCATTT GTGATGTCAA TTCTGCCACT CCTGATGGAT TGTTGCACTC CATGGATAAC
    GCTGAAGGAA ACTCAAGCCT TGGTGATACA ACTGTTCATG ATGAAGGCAA AAATGCAGCA
    CATCCTGAGA GTTTTCTCCC CTCGTCTGTC CATAGATCAG TTGGGTTAAC TGGGGAAAAA
    AAATGCATAC CAAAGGTGCA ATCATCAGAG GAAGGGTCAA GTGGTGATGA CTTGCTTGGT
    TCTCAGGGTC TGTTTTGTCA AAAGTCAAAG TGCGTATCCT CTGGTGCCAC AGATCAGAAA
    AATTCTAAGA ATCCAGGCAA TGCTCAGCGG AGGAACTTGC CAGATTTCAG TGGCAGCAGC
    AATAGTGGCA AATACAATTC ACGGGAAATG TTATGCAAGG CTGTTTTCCC TTCTCTGAGC
    CAAGAATCTC AGTGTTCGGT GAGCTTGTTC TCCTCTCTGT CAAATATGTC TCAGCAGTCT
    GCAAACGAAG ACCACAAGCT CCAGGGTGGT GGTCTAGGCA GTCCAAGTAG AACTGAAGAG
    ACAACCATCA GTAGTGATGA AGAGACACTG ACTGCTGCCC CTCAGGACCA CAATCAGAAT
    CCTGACATAG CTGAAGCATC AGAATGTGAG AGTGAAGCAA GTCATACAGG AGATTCCTCT
    TTATTGTCCT CCCAGGATGA GCTCCTGAAC ACCCAGCAGC GGGATTACAT GAAGGACAGC
    TTAAAGAAAC TGCAGCAAGA AATGGCTGCT TTGGAAGCAG TACTGGAGCA GCATGGGACC
    CAGAACCTTT CAGCAGGGAC AGCATGCATC CCTTCAGCTG AACATGTCAC ATATAGGCAG
    GAGGAGGCTG TAGAAAAAGA AATAGCTCAA GGAGATAACT CAATTGTACG AACTCCTCCA
    AAGCCTGATG CAAATGGGTC AGCTTTGATA GGGCAGAGCA CGGACAATGG CTTGCAGAGC
    AGGAATAGGT CAATGTCTCC AGCCCCACCA CATTTTCTTT CCCAGACCAG AGCTGAGAAG
    AATACTCAAG AAAGAGTAGG CCCAGCAATG GGCATATCGA AAGTCTTGAA AAAATCTTTG
    GTTACAGAGC ATAAACTGGA AGTCAGACCT GATCTTGAGA CAGCAAATGT TATGCCAGCC
    AACCCAATGG ATGCTAAAGA ATCTTCAGGG CAAAGCAGTG AAAACAAGAG TGAGAACCCT
    ATCTTGCGCA ATAAATGTTC CACATCTCAC CAAGGCTTAT TTTCTTATTC TATGGAAGAG
    GCAGTCTCTC CACACAACCC AAAACAAAGC AGGGCAGAGT TTGGCATTGC AAGGAAATCT
    ACCTCCCCAA CTTTTGCATC CCCCAGTCGA GCTAAAGTCC TTTCTGTTGG CATTAAATCT
    CCTGTTGTGT CATCAAGGAG GAATCTGTCC TTTGTGGCTT CTGGGCTAAA TCAAAGTGAA
    CTGGCAGTAG TACAAAGGTT TTCAAGAACG ACCCAGAGTA TTTTATCCAC ACGAATTACA
    GATTCGACAA CTCACGTCAT TATGAAAACA GATGCAGAGC TTGTGTGCGA GAGAACTCTA
    AAGTATTTCC AAGGAATTGC CGGTAGAAAA TGGGTTGTAA GCTATGAATG GGTTGTACAG
    TCATTCAAAG AGGGACAAGT CCTTGATGAG TATGACTTTG AAGTGAAGGG AGATGTGATC
    AATGGAAGAA ATCATAGAGG CCCAAGAAGA TCACGGCTGG GATCCGATGG ATTGCTGCTA
    AAAGATTTTG AAATTTGCTT CTCCGGATTA TTCACTGACA TGACGCTAGA TGACCTGGAG
    TGGATGGTGT CTGAGTGTGG GTCCACTGTG GTGAGAGATC TTCAGTTCCC AAAAAACAAA
    CTTAATACAA CGTCGCTTGT GATTGTGCAA ACCGATGCTA ATACAACGGA AATCAGAGAT
    TATTTTGCCA TCCGGAAGAA CCACAAGGCC ATAGTAGTGA CGCGGGAGTG GTTGCTGGAC
    AGCATTGCTA CTTACAGACT TCAGAAATTT GATACTTACC TTGCATAA

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

    CloneID OXa21202
    Clone ID Related Accession (Same CDS sequence) NM_001114491.1
    Accession Version NM_001114491.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4779bp)
    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 2019-12-21
    Organism Xenopus tropicalis(tropical clawed frog)
    Product breast cancer type 1 susceptibility protein
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC159159.1. ##Evidence-Data-START## Transcript exon combination :: BC159159.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMD00028290, SAMD00028291 [ECO:0000350] ##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
    ATGGATATTG AAGGGATTCG TAATGTAATT TCTGTCATGC AGAAGAATCT GGAGTGCCCA 
    ATCTGCTTAG AGCTGATGAA GGAACCAGTT GCAACAAAAT GTGATCACAT ATTCTGCAAA
    TTTTGTATGT TGCAACTTCT CAGCAAAAAG AAGAAAGAAA ATGTTCCGTG CCCTTTGTGC
    AAGACCGAAG TAACCAGAAG GAGTCTTCAG GAGAGCCACA GATTCAAACT GCTGGTTGAA
    GGGCTACTAA AGATAATAAA AGCCTTTGAG CTTGACTCTG GATGCAAATT TTTTCCAAGT
    CAAGAAAACA CAGTCAGTGG GTTTGAGTCC ACAATCAAGG ATGTGTTGAT TAAAGAAGAT
    CAGCCCGTAG TGCATTGCAA AGGTTACAGA AACCGTAAAA AAGGGATCTT GAAAAGTAAA
    ACATTTGAAG TAACTGGAAC TTTACTGGAA TCCAAACCCG AGGCACAATT TGCTAAACTA
    GTTACGAGAC TGACTTCTTG CAGACAGAAG AAGCATAGGA AAGAGGCCTC ACCCATTTTC
    GTTAATTGTG TGCCCGATTC TTCTGAATGT CATTTATTAA ATAATGAAAG TGGCTCAGGA
    AATGACCGCT CTCCACTCTG TGAGAAAGAA GACACGCTGA ATCCAGATAT GGAAGCAATG
    GTGGGATCAG ACCAAGCTGA ATGTGAATTT TCTGAAACCG CTGAAAGGAC AGGAAGCAAT
    TTACCGGGGT CTGATGGTCC TGGGTGCATT ACTGAAACAT CAGCAGAAAC CAACGTCAAC
    ACCGCTGCTA ATTCTAACAT TTATGCAAGA GAAGCAGAGC AGTACCTTAA TGAGCATCTT
    TGCAGGTTCA AGCAAGATAT CGCAGACAGA GTGCATCAAA GAAATCAGCA TTGTGGCAAT
    GTTCCTTTTG TACCAAATCT GGAGACCAAT TTTGATGAAG AGGAAACCAT AGAAACTGAC
    TTTGATAACC AGTATGATGA CTCTAACCCT CAGAATATTG ACCCTTTATG CAAAGTTGCT
    AAACTAATGA GACGGAGTAC AGAAAGGGTC AATGAGTGGT TGCTAAAAAC AAATGAGGAG
    TCAAGCACTT TGTTAGCAGA GGAAGATTCT TCCTTCAGTG TCTTCCCTTT GCAAAATAAA
    GAGCCCTCTG AGAAAGGGTC TTGTTCCTCA AATGACTTGA TGCCTGTACT CCATAAACAT
    GCAGAGCAGG GTACATCAGG CAGTGTTTTT GACAAACAAG CAGTCGGCGT TAAGGACAAA
    ATATTCTGCA AAGTCTATAA GAGACAGCAA AAATCTTTGC CTCCTAATAA TATAACCTGC
    GTTGTTGAGG TCCATCGTGA TAGTTCTTTT GGGACTGGTA CAGAAAATAA GACATTGAGA
    ATGGATCAGT TAATGTGCAA AAGGAAAATT GCCCATGGTC TAAATCCTGA AAACCTAGCT
    ATTACAAATG GAAGCATTAA CATTTATCCC GATGACTGTA TATCTGAGGC AGATGTAGAG
    CAAGATGCCC AATCAAAGGC TTGCTCTGAA TTAGCTGATG CGGATCAGTC TGAGTTGGTT
    CATTGCACAT ATACAGTAGA TGGAAACACT CCAAAAAAAC GCTGTGTAGA GTCTTTGGCA
    AATGCACTTG AAACCAGAGA AGAGCAAAAA AAATTGTCTT GTGAAAGAAG CCAAAAAAAA
    AAATGCTGTA CATGGGCAGT CCAGTCTGTA GCTTCAGAAC CTGAAACACG CTTACTGCAA
    AGTTCTTGTG GGCACTTGGA TCTACTTTTA GTAAGTTCTC AAAGTATTGA TGATCCCAAA
    AATGTAATTA ACCAGGTAAG GAGGAGCAGA AGGCTTCAGA TGTTGCCAGG ACTGTTGGAA
    AAAGCAATTT CTAATGCAGG TTTTGAGCCT AAAATTAAGA ATGCGAATCA ACAGCAGAAT
    GGTATTCAGA GTTCAAAATT TAAGGTGAAG GAAAAAAATC CAATGTCTGA TACAGTTCCC
    TCTCAAATGA AAAAGAAAGA CATGTTTTGT CTGCCTTTTA CTTCAGATGA TACTGACACC
    TCAATGAATG ACGGATCAGA GGAAGGGGTT CCCATGAGAA AAGGCAGTAC CCGGAATCAT
    GATAAAGTCC ATTGTAATGA TGGAGATTGT GACACCTTGC TCTGTGTTAC AGAGAGTGAT
    GTCCAACCAA ATGACAAGGA AACCGAAGAA TCTGAACTGG AAACCCAACA AATTGTTAAA
    ATGTTTAAAA CTTCTAAGCG GACATCCTTC ATATTAGACT CCAGGGCAGC AGAAGCTGTA
    GCAGAAGTCA CTCTATCCTC AGATATCCTA CAGGTCAAAG CTTCCTATGA TGTTGAATAC
    AGGGATGTGT CCTCATTAGG TTCAGCAAAA GAACAAAGCA GTGCATTGAC GAACGAAAGT
    AGTCCTAGTA GTGAGCCTAA AAAAAGCAGC TCATTACCCT GGCACAAGAA AAGGAAGCAA
    CAAGCTAAAT CAAAACATGG CAAAATGTGC AGAAGTAGGA GAGAGAACAG TAAACCAACA
    GATAATCGTG CCAAAAGCCC CATAATAAAT ATGAGTCATT CTTCAAATAC TATTGGCCAG
    CCAGCTGATT TAAACAGCCC CATCCACGGG GGCACTGGTA GCATATATAA ACAAGTAATC
    AACCATTGTC CTACAAGGCC CAACATTGAT GGAGAATATA TAAACGCATC CGCTAATGGT
    AGCCAAAGTT CAGTGACAGA TAAATCCCCA GCACATTTTA ATATCAATAC CAACTTCATT
    TGTGATGTCA ATTCTGCCAC TCCTGATGGA TTGTTGCACT CCATGGATAA CGCTGAAGGA
    AACTCAAGCC TTGGTGATAC AACTGTTCAT GATGAAGGCA AAAATGCAGC ACATCCTGAG
    AGTTTTCTCC CCTCGTCTGT CCATAGATCA GTTGGGTTAA CTGGGGAAAA AAAATGCATA
    CCAAAGGTGC AATCATCAGA GGAAGGGTCA AGTGGTGATG ACTTGCTTGG TTCTCAGGGT
    CTGTTTTGTC AAAAGTCAAA GTGCGTATCC TCTGGTGCCA CAGATCAGAA AAATTCTAAG
    AATCCAGGCA ATGCTCAGCG GAGGAACTTG CCAGATTTCA GTGGCAGCAG CAATAGTGGC
    AAATACAATT CACGGGAAAT GTTATGCAAG GCTGTTTTCC CTTCTCTGAG CCAAGAATCT
    CAGTGTTCGG TGAGCTTGTT CTCCTCTCTG TCAAATATGT CTCAGCAGTC TGCAAACGAA
    GACCACAAGC TCCAGGGTGG TGGTCTAGGC AGTCCAAGTA GAACTGAAGA GACAACCATC
    AGTAGTGATG AAGAGACACT GACTGCTGCC CCTCAGGACC ACAATCAGAA TCCTGACATA
    GCTGAAGCAT CAGAATGTGA GAGTGAAGCA AGTCATACAG GAGATTCCTC TTTATTGTCC
    TCCCAGGATG AGCTCCTGAA CACCCAGCAG CGGGATTACA TGAAGGACAG CTTAAAGAAA
    CTGCAGCAAG AAATGGCTGC TTTGGAAGCA GTACTGGAGC AGCATGGGAC CCAGAACCTT
    GCAGCAGGGA CAGCATGCAT CCCTTCAGCT GAACATGTCA CATATAGGCA GGAGGAGGCT
    GTAGAAAAAG AAATAGCTCA AGGAGATAAC TCAATTGTAC GAACTCCTCC AAAGCCTGAT
    GCAAATGGGT CAGCTTTGAT AGGGCAGAGC ACGGACAATG GCTTGCAGAG CAGGAATAGG
    TCAATGTCTC CAGCCCCACC ACATTTTCTT TCCCAGACCA GAGCTGAGAA GAATACTCAA
    GAAAGAGTAG GCCCAGCAAT GGGCATATCG AAAGTCTTGA AAAAATCTTT GGTTACAGAG
    CATAAACTGG AAGTCAGACC TGATCTTGAG ACAGCAAATG TTATGCCAGC CAACCCAATG
    GATGCTAAAG AATCTTCAGG GCAAAGCAGT GAAAACAAGA GTGAGAACCC TATCTTGCGC
    AATAAATGTT CCACATCTCA CCAAGGCTTA TTTTCTTATT CTATGGAAGA GGCAGTCTCT
    CCACACAACC CAAAACAAAG CAGGGCAGAG TTTGGCATTG CAAGGAAATC TACCTCCCCA
    ACTTTTGCAT CCCCCAGTCG AGCTAAAGTC CTTTCTGTTG GCATTAAATC TCCTGTTGTG
    TCATCAAGGA GGAATCTGTC CTTTGTGGCT TCTGGGCTAA ATCAAAGTGA ACTGGCATTA
    GTACAAAGGT TTTCAAGAAC GACCCAGAGT ATTTTATCCA CACGAATTAC AGATTCGACA
    ACTCACGTCA TTATGAAAAC AGATGCAGAG CTTGTGTGCG AGAGAACTCT AAAGTATTTC
    CAAGGAATTG CCGGTAGAAA ATGGGTTGTA AGCTATGAAT GGGTTGTACA GTCATTCAAA
    GAGGGACAAG TCCTTGATGA GTATGACTTT GAAGTGAAGG GAGATGTGAT CAATGGAAGA
    AATCATAGAG GCCCAAGAAG ATCACGGCTG GGATCCGATG GATTGCTGCT AAAAGATTTT
    GAAATTTGCT TCTCCGGATT ATTCACTGAC ATGACGCTAG ATGACCTGGA GTGGATGGTG
    TCTGAGTGTG GGTCCACTGT GGTGAGAGAT CTTCAGTTCC CAAAAAACAA ACTTAATACA
    ACGTCGCTTG TGATTGTGCA AACCGATGCT AATACAACGG AAATCAGAGA TTATTTTGCC
    ATCCGGAAGA ACCACAAGGC CATAGTAGTG ACGCGGGAGT GGTTGCTGGA CAGCATTGCT
    ACTTACAGAC TTCAGAAATT TGATACTTAC CTTGCATAA

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

    RefSeq NP_001107963.1
    CDS206..4984
    Translation

    Target ORF information:

    RefSeq Version NM_001114491.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis breast cancer 1 (brca1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001114491.1

    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
    ATGGATATTG AAGGGATTCG TAATGTAATT TCTGTCATGC AGAAGAATCT GGAGTGCCCA 
    ATCTGCTTAG AGCTGATGAA GGAACCAGTT GCAACAAAAT GTGATCACAT ATTCTGCAAA
    TTTTGTATGT TGCAACTTCT CAGCAAAAAG AAGAAAGAAA ATGTTCCGTG CCCTTTGTGC
    AAGACCGAAG TAACCAGAAG GAGTCTTCAG GAGAGCCACA GATTCAAACT GCTGGTTGAA
    GGGCTACTAA AGATAATAAA AGCCTTTGAG CTTGACTCTG GATGCAAATT TTTTCCAAGT
    CAAGAAAACA CAGTCAGTGG GTTTGAGTCC ACAATCAAGG ATGTGTTGAT TAAAGAAGAT
    CAGCCCGTAG TGCATTGCAA AGGTTACAGA AACCGTAAAA AAGGGATCTT GAAAAGTAAA
    ACATTTGAAG TAACTGGAAC TTTACTGGAA TCCAAACCCG AGGCACAATT TGCTAAACTA
    GTTACGAGAC TGACTTCTTG CAGACAGAAG AAGCATAGGA AAGAGGCCTC ACCCATTTTC
    GTTAATTGTG TGCCCGATTC TTCTGAATGT CATTTATTAA ATAATGAAAG TGGCTCAGGA
    AATGACCGCT CTCCACTCTG TGAGAAAGAA GACACGCTGA ATCCAGATAT GGAAGCAATG
    GTGGGATCAG ACCAAGCTGA ATGTGAATTT TCTGAAACCG CTGAAAGGAC AGGAAGCAAT
    TTACCGGGGT CTGATGGTCC TGGGTGCATT ACTGAAACAT CAGCAGAAAC CAACGTCAAC
    ACCGCTGCTA ATTCTAACAT TTATGCAAGA GAAGCAGAGC AGTACCTTAA TGAGCATCTT
    TGCAGGTTCA AGCAAGATAT CGCAGACAGA GTGCATCAAA GAAATCAGCA TTGTGGCAAT
    GTTCCTTTTG TACCAAATCT GGAGACCAAT TTTGATGAAG AGGAAACCAT AGAAACTGAC
    TTTGATAACC AGTATGATGA CTCTAACCCT CAGAATATTG ACCCTTTATG CAAAGTTGCT
    AAACTAATGA GACGGAGTAC AGAAAGGGTC AATGAGTGGT TGCTAAAAAC AAATGAGGAG
    TCAAGCACTT TGTTAGCAGA GGAAGATTCT TCCTTCAGTG TCTTCCCTTT GCAAAATAAA
    GAGCCCTCTG AGAAAGGGTC TTGTTCCTCA AATGACTTGA TGCCTGTACT CCATAAACAT
    GCAGAGCAGG GTACATCAGG CAGTGTTTTT GACAAACAAG CAGTCGGCGT TAAGGACAAA
    ATATTCTGCA AAGTCTATAA GAGACAGCAA AAATCTTTGC CTCCTAATAA TATAACCTGC
    GTTGTTGAGG TCCATCGTGA TAGTTCTTTT GGGACTGGTA CAGAAAATAA GACATTGAGA
    ATGGATCAGT TAATGTGCAA AAGGAAAATT GCCCATGGTC TAAATCCTGA AAACCTAGCT
    ATTACAAATG GAAGCATTAA CATTTATCCC GATGACTGTA TATCTGAGGC AGATGTAGAG
    CAAGATGCCC AATCAAAGGC TTGCTCTGAA TTAGCTGATG CGGATCAGTC TGAGTTGGTT
    CATTGCACAT ATACAGTAGA TGGAAACACT CCAAAAAAAC GCTGTGTAGA GTCTTTGGCA
    AATGCACTTG AAACCAGAGA AGAGCAAAAA AAATTGTCTT GTGAAAGAAG CCAAAAAAAA
    AAATGCTGTA CATGGGCAGT CCAGTCTGTA GCTTCAGAAC CTGAAACACG CTTACTGCAA
    AGTTCTTGTG GGCACTTGGA TCTACTTTTA GTAAGTTCTC AAAGTATTGA TGATCCCAAA
    AATGTAATTA ACCAGGTAAG GAGGAGCAGA AGGCTTCAGA TGTTGCCAGG ACTGTTGGAA
    AAAGCAATTT CTAATGCAGG TTTTGAGCCT AAAATTAAGA ATGCGAATCA ACAGCAGAAT
    GGTATTCAGA GTTCAAAATT TAAGGTGAAG GAAAAAAATC CAATGTCTGA TACAGTTCCC
    TCTCAAATGA AAAAGAAAGA CATGTTTTGT CTGCCTTTTA CTTCAGATGA TACTGACACC
    TCAATGAATG ACGGATCAGA GGAAGGGGTT CCCATGAGAA AAGGCAGTAC CCGGAATCAT
    GATAAAGTCC ATTGTAATGA TGGAGATTGT GACACCTTGC TCTGTGTTAC AGAGAGTGAT
    GTCCAACCAA ATGACAAGGA AACCGAAGAA TCTGAACTGG AAACCCAACA AATTGTTAAA
    ATGTTTAAAA CTTCTAAGCG GACATCCTTC ATATTAGACT CCAGGGCAGC AGAAGCTGTA
    GCAGAAGTCA CTCTATCCTC AGATATCCTA CAGGTCAAAG CTTCCTATGA TGTTGAATAC
    AGGGATGTGT CCTCATTAGG TTCAGCAAAA GAACAAAGCA GTGCATTGAC GAACGAAAGT
    AGTCCTAGTA GTGAGCCTAA AAAAAGCAGC TCATTACCCT GGCACAAGAA AAGGAAGCAA
    CAAGCTAAAT CAAAACATGG CAAAATGTGC AGAAGTAGGA GAGAGAACAG TAAACCAACA
    GATAATCGTG CCAAAAGCCC CATAATAAAT ATGAGTCATT CTTCAAATAC TATTGGCCAG
    CCAGCTGATT TAAACAGCCC CATCCACGGG GGCACTGGTA GCATATATAA ACAAGTAATC
    AACCATTGTC CTACAAGGCC CAACATTGAT GGAGAATATA TAAACGCATC CGCTAATGGT
    AGCCAAAGTT CAGTGACAGA TAAATCCCCA GCACATTTTA ATATCAATAC CAACTTCATT
    TGTGATGTCA ATTCTGCCAC TCCTGATGGA TTGTTGCACT CCATGGATAA CGCTGAAGGA
    AACTCAAGCC TTGGTGATAC AACTGTTCAT GATGAAGGCA AAAATGCAGC ACATCCTGAG
    AGTTTTCTCC CCTCGTCTGT CCATAGATCA GTTGGGTTAA CTGGGGAAAA AAAATGCATA
    CCAAAGGTGC AATCATCAGA GGAAGGGTCA AGTGGTGATG ACTTGCTTGG TTCTCAGGGT
    CTGTTTTGTC AAAAGTCAAA GTGCGTATCC TCTGGTGCCA CAGATCAGAA AAATTCTAAG
    AATCCAGGCA ATGCTCAGCG GAGGAACTTG CCAGATTTCA GTGGCAGCAG CAATAGTGGC
    AAATACAATT CACGGGAAAT GTTATGCAAG GCTGTTTTCC CTTCTCTGAG CCAAGAATCT
    CAGTGTTCGG TGAGCTTGTT CTCCTCTCTG TCAAATATGT CTCAGCAGTC TGCAAACGAA
    GACCACAAGC TCCAGGGTGG TGGTCTAGGC AGTCCAAGTA GAACTGAAGA GACAACCATC
    AGTAGTGATG AAGAGACACT GACTGCTGCC CCTCAGGACC ACAATCAGAA TCCTGACATA
    GCTGAAGCAT CAGAATGTGA GAGTGAAGCA AGTCATACAG GAGATTCCTC TTTATTGTCC
    TCCCAGGATG AGCTCCTGAA CACCCAGCAG CGGGATTACA TGAAGGACAG CTTAAAGAAA
    CTGCAGCAAG AAATGGCTGC TTTGGAAGCA GTACTGGAGC AGCATGGGAC CCAGAACCTT
    GCAGCAGGGA CAGCATGCAT CCCTTCAGCT GAACATGTCA CATATAGGCA GGAGGAGGCT
    GTAGAAAAAG AAATAGCTCA AGGAGATAAC TCAATTGTAC GAACTCCTCC AAAGCCTGAT
    GCAAATGGGT CAGCTTTGAT AGGGCAGAGC ACGGACAATG GCTTGCAGAG CAGGAATAGG
    TCAATGTCTC CAGCCCCACC ACATTTTCTT TCCCAGACCA GAGCTGAGAA GAATACTCAA
    GAAAGAGTAG GCCCAGCAAT GGGCATATCG AAAGTCTTGA AAAAATCTTT GGTTACAGAG
    CATAAACTGG AAGTCAGACC TGATCTTGAG ACAGCAAATG TTATGCCAGC CAACCCAATG
    GATGCTAAAG AATCTTCAGG GCAAAGCAGT GAAAACAAGA GTGAGAACCC TATCTTGCGC
    AATAAATGTT CCACATCTCA CCAAGGCTTA TTTTCTTATT CTATGGAAGA GGCAGTCTCT
    CCACACAACC CAAAACAAAG CAGGGCAGAG TTTGGCATTG CAAGGAAATC TACCTCCCCA
    ACTTTTGCAT CCCCCAGTCG AGCTAAAGTC CTTTCTGTTG GCATTAAATC TCCTGTTGTG
    TCATCAAGGA GGAATCTGTC CTTTGTGGCT TCTGGGCTAA ATCAAAGTGA ACTGGCATTA
    GTACAAAGGT TTTCAAGAAC GACCCAGAGT ATTTTATCCA CACGAATTAC AGATTCGACA
    ACTCACGTCA TTATGAAAAC AGATGCAGAG CTTGTGTGCG AGAGAACTCT AAAGTATTTC
    CAAGGAATTG CCGGTAGAAA ATGGGTTGTA AGCTATGAAT GGGTTGTACA GTCATTCAAA
    GAGGGACAAG TCCTTGATGA GTATGACTTT GAAGTGAAGG GAGATGTGAT CAATGGAAGA
    AATCATAGAG GCCCAAGAAG ATCACGGCTG GGATCCGATG GATTGCTGCT AAAAGATTTT
    GAAATTTGCT TCTCCGGATT ATTCACTGAC ATGACGCTAG ATGACCTGGA GTGGATGGTG
    TCTGAGTGTG GGTCCACTGT GGTGAGAGAT CTTCAGTTCC CAAAAAACAA ACTTAATACA
    ACGTCGCTTG TGATTGTGCA AACCGATGCT AATACAACGG AAATCAGAGA TTATTTTGCC
    ATCCGGAAGA ACCACAAGGC CATAGTAGTG ACGCGGGAGT GGTTGCTGGA CAGCATTGCT
    ACTTACAGAC TTCAGAAATT TGATACTTAC CTTGCATAA

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

    CloneID OXa28504
    Clone ID Related Accession (Same CDS sequence) XM_012952508.2
    Accession Version XM_012952508.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4968bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product breast cancer type 1 susceptibility protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012952508.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGGCAGCGT GTCGTTCGTC AGTTCGCATA GGGGAAGGCT GCCATTGGTT GGCTGAGGCG 
    CATGCGCGGG CAGTCGTCAC TGTGGCGCGA GTTGTGCAAA TGGATTTGGC GTGTTGGAAG
    GAAGTTCGGT TTCCTCAGCG AATGAATTGT GTTTCAGGGA AAGGACAAAG TAAATTGAGC
    TGCTCGAGAA TGGATATTGA AGGGATTCGT AATGTAATTT CTGTCATGCA GAAGAATCTG
    GAGTGCCCAA TCTGCTTAGA GCTGATGAAG GAACCAGTTG CAACAAAATG TGATCACATA
    TTCTGCAAAT TTTGTATGTT GCAACTTCTC AGCAAAAAGA AGAAAGAAAA TGTTCCGTGC
    CCTTTGTGCA AGACCGAAGT AACCAGAAGG AGTCTTCAGG AGAGCCACAG ATTCAAACTG
    CTGGTTGAAG GGCTACTAAA GATAATAAAA GCCTTTGAGC TTGACTCTGG ATGCAAATTT
    TTTCCAAGTC AAGAAAACAC AGTCAGTGGG TTTGAGTCCA CAATCAAGGA TGTGTTGATT
    AAAGAAGATC AGCCCGTAGT GCATTGCAAA GGTTACAGAA ACCGTAAAAA AGGGATCTTG
    AAAAGTAAAA CATTTGAAGT AACTGGAACT TTACTGGAAT CCAAACCCGA GGCACAATTT
    GCTAAACTAG TTACGAGACT GACTTCTTGC AGACAGAAGA AGCATAGGAA AGAGGCCTCA
    CCCATTTTCG TTAATTGTGT GCCCGATTCT TCTGAATGTC ATTTATTAAA TAATGAAAGT
    GGCTCAGGAA ATGACCGCTC TCCACTCTGT GAGAAAGAAG ACACGCTGAA TCCAGATATG
    GAAGCAATGG TGGGATCAGA CCAAGCTGAA TGTGAATTTT CTGAAACCGC TGAAAGGACA
    GGAAGCAATT TACCGGGGTC TGATGGTCCT GGGTGCATTA CTGAAACATC AGCAGAAACC
    AACGTCAACA CCGCTGCTAA TTCTAACATT TATGCAAGAG AAGCAGAGCA GTACCTTAAT
    GAGCATCTTT GCAGGTTCAA GCAAGATATC GCAGACAGAG TGCATCAAAG AAATCAGCAT
    TGTGGCAATG TTCCTTTTGT ACCAAATCTG GAGACCAATT TTGATGAAGA GGAAACCATA
    GAAACTGACT TTGATAACCA GTATGATGAC TCTAACCCTC AGAATATTGA CCCTTTATGC
    AAAGTTGCTA AACTAATGAG ACGGAGTACA GAAAGGGTCA ATGAGTGGTT GCTAAAAACA
    AATGAGGAGT CAAGCACTTT GTTAGCAGAG GAAGATTCTT CCTTCAGTGT CTTCCCTTTG
    CAAAATAAAG AGCCCTCTGA GAAAGGGTCT TGTTCCTCAA ATGACTTGAT GCCTGTACTC
    CATAAACATG CAGAGCAGGG TACATCAGGC AGTGTTTTTG ACAAACAAGC AGTCGGCGTT
    AAGGACAAAA TATTCTGCAA AGTCTATAAG AGACAGCAAA AATCTTTGCC TCCTAATAAT
    ATAACCTGCG TTGTTGAGGT CCATCGTGAT AGTTCTTTTG GGACTGGTAC AGAAAATAAG
    ACATTGAGAA TGGATCAGTT AATGTGCAAA AGGAAAATTG CCCATGGTCT AAATCCTGAA
    AACCTAGCTA TTACAAATGG AAGCATTAAC ATTTATCCCG ATGACTGTAT ATCTGAGGCA
    GATGTAGAGC AAGATGCCCA ATCAAAGGCT TGCTCTGAAT TAGCTGATGC GGATCAGTCT
    GAGTTGGTTC ATTGCACATA TACAGTAGAT GGAAACACTC CAAAAAAACG CTGTGTAGAG
    TCTTTGGCAA ATGCACTTGA AACCAGAGAA GAGCAAAAAA AATTGTCTTG TGAAAGAAGC
    CAAAAAAAAA AATGCTGTAC ATGGGCAGTC CAGTCTGTAG CTTCAGAACC TGAAACACGC
    TTACTGCAAA GTTCTTGTGG GCACTTGGAT CTACTTTTAG TAAGTTCTCA AAGTATTGAT
    GATCCCAAAA ATGTAATTAA CCAGGTAAGG AGGAGCAGAA GGCTTCAGAT GTTGCCAGGA
    CTGTTGGAAA AAGCAATTTC TAATGCAGGT TTTGAGCCTA AAATTAAGAA TGCGAATCAA
    CAGCAGAATG GTATTCAGAG TTCAAAATTT AAGGTGAAGG AAAAAAATCC AATGTCTGAT
    ACAGTTCCCT CTCAAATGAA AAAGAAAGAC ATGTTTTGTC TGCCTTTTAC TTCAGATGAT
    ACTGACACCT CAATGAATGA CGGATCAGAG GAAGGGGTTC CCATGAGAAA AGGCAGTACC
    CGGAATCATG ATAAAGTCCA TTGTAATGAT GGAGATTGTG ACACCTTGCT CTGTGTTACA
    GAGAGTGATG TCCAACCAAA TGACAAGGAA ACCGAAGAAT CTGAACTGGA AACCCAACAA
    ATTGTTAAAA TGTTTAAAAC TTCTAAGCGG ACATCCTTCA TATTAGACTC CAGGGCAGCA
    GAAGCTGTAG CAGAAGTCAC TCTATCCTCA GATATCCTAC AGGTCAAAGC TTCCTATGAT
    GTTGAATACA GGGATGTGTC CTCATTAGGT TCAGCAAAAG AACAAAGCAG TGCATTGACG
    AACGAAAGTA GTCCTAGTAG TGAGCCTAAA AAAAGCAGCT CATTACCCTG GCACAAGAAA
    AGGAAGCAAC AAGCTAAATC AAAACATGGC AAAATGTGCA GAAGTAGGAG AGAGAACAGT
    AAACCAACAG ATAATCGTGC CAAAAGCCCC ATAATAAATA TGAGTCATTC TTCAAATACT
    ATTGGCCAGC CAGCTGATTT AAACAGCCCC ATCCACGGGG GCACTGGTAG CATATATAAA
    CAAGTAATCA ACCATTGTCC TACAAGGCCC AACATTGATG GAGAATATAT AAACGCATCC
    GCTAATGGTA GCCAAAGTTC AGTGACAGAT AAATCCCCAG CACATTTTAA TATCAATACC
    AACTTCATTT GTGATGTCAA TTCTGCCACT CCTGATGGAT TGTTGCACTC CATGGATAAC
    GCTGAAGGAA ACTCAAGCCT TGGTGATACA ACTGTTCATG ATGAAGGCAA AAATGCAGCA
    CATCCTGAGA GTTTTCTCCC CTCGTCTGTC CATAGATCAG TTGGGTTAAC TGGGGAAAAA
    AAATGCATAC CAAAGGTGCA ATCATCAGAG GAAGGGTCAA GTGGTGATGA CTTGCTTGGT
    TCTCAGGGTC TGTTTTGTCA AAAGTCAAAG TGCGTATCCT CTGGTGCCAC AGATCAGAAA
    AATTCTAAGA ATCCAGGCAA TGCTCAGCGG AGGAACTTGC CAGATTTCAG TGGCAGCAGC
    AATAGTGGCA AATACAATTC ACGGGAAATG TTATGCAAGG CTGTTTTCCC TTCTCTGAGC
    CAAGAATCTC AGTGTTCGGT GAGCTTGTTC TCCTCTCTGT CAAATATGTC TCAGCAGTCT
    GCAAACGAAG ACCACAAGCT CCAGGGTGGT GGTCTAGGCA GTCCAAGTAG AACTGAAGAG
    ACAACCATCA GTAGTGATGA AGAGACACTG ACTGCTGCCC CTCAGGACCA CAATCAGAAT
    CCTGACATAG CTGAAGCATC AGAATGTGAG AGTGAAGCAA GTCATACAGG AGATTCCTCT
    TTATTGTCCT CCCAGGATGA GCTCCTGAAC ACCCAGCAGC GGGATTACAT GAAGGACAGC
    TTAAAGAAAC TGCAGCAAGA AATGGCTGCT TTGGAAGCAG TACTGGAGCA GCATGGGACC
    CAGAACCTTT CAGCAGGGAC AGCATGCATC CCTTCAGCTG AACATGTCAC ATATAGGCAG
    GAGGAGGCTG TAGAAAAAGA AATAGCTCAA GGAGATAACT CAATTGTACG AACTCCTCCA
    AAGCCTGATG CAAATGGGTC AGCTTTGATA GGGCAGAGCA CGGACAATGG CTTGCAGAGC
    AGGAATAGGT CAATGTCTCC AGCCCCACCA CATTTTCTTT CCCAGACCAG AGCTGAGAAG
    AATACTCAAG AAAGAGTAGG CCCAGCAATG GGCATATCGA AAGTCTTGAA AAAATCTTTG
    GTTACAGAGC ATAAACTGGA AGTCAGACCT GATCTTGAGA CAGCAAATGT TATGCCAGCC
    AACCCAATGG ATGCTAAAGA ATCTTCAGGG CAAAGCAGTG AAAACAAGAG TGAGAACCCT
    ATCTTGCGCA ATAAATGTTC CACATCTCAC CAAGGCTTAT TTTCTTATTC TATGGAAGAG
    GCAGTCTCTC CACACAACCC AAAACAAAGC AGGGCAGAGT TTGGCATTGC AAGGAAATCT
    ACCTCCCCAA CTTTTGCATC CCCCAGTCGA GCTAAAGTCC TTTCTGTTGG CATTAAATCT
    CCTGTTGTGT CATCAAGGAG GAATCTGTCC TTTGTGGCTT CTGGGCTAAA TCAAAGTGAA
    CTGGCAGTAG TACAAAGGTT TTCAAGAACG ACCCAGAGTA TTTTATCCAC ACGAATTACA
    GATTCGACAA CTCACGTCAT TATGAAAACA GATGCAGAGC TTGTGTGCGA GAGAACTCTA
    AAGTATTTCC AAGGAATTGC CGGTAGAAAA TGGGTTGTAA GCTATGAATG GGTTGTACAG
    TCATTCAAAG AGGGACAAGT CCTTGATGAG TATGACTTTG AAGTGAAGGG AGATGTGATC
    AATGGAAGAA ATCATAGAGG CCCAAGAAGA TCACGGCTGG GATCCGATGG ATTGCTGCTA
    AAAGATTTTG AAATTTGCTT CTCCGGATTA TTCACTGACA TGACGCTAGA TGACCTGGAG
    TGGATGGTGT CTGAGTGTGG GTCCACTGTG GTGAGAGATC GTCAGTTCCC AAAAAACAAA
    CTTAATACAA CGTCGCTTGT GATTGTGCAA ACCGATGCTA ATACAACGGA AATCAGAGAT
    TATTTTGCCA TCCGGAAGAA CCACAAGGCC ATAGTAGTGA CGCGGGAGTG GTTGCTGGAC
    AGCATTGCTA CTTACAGACT TCAGAAATTT GATACTTACC TTGCATAA

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

    RefSeq XP_012807962.1
    CDS27..4994
    Translation

    Target ORF information:

    RefSeq Version XM_012952508.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis breast cancer 1 (brca1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012952508.2

    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
    ATGGCAGCGT GTCGTTCGTC AGTTCGCATA GGGGAAGGCT GCCATTGGTT GGCTGAGGCG 
    CATGCGCGGG CAGTCGTCAC TGTGGCGCGA GTTGTGCAAA TGGATTTGGC GTGTTGGAAG
    GAAGTTCGGT TTCCTCAGCG AATGAATTGT GTTTCAGGGA AAGGACAAAG TAAATTGAGC
    TGCTCGAGAA TGGATATTGA AGGGATTCGT AATGTAATTT CTGTCATGCA GAAGAATCTG
    GAGTGCCCAA TCTGCTTAGA GCTGATGAAG GAACCAGTTG CAACAAAATG TGATCACATA
    TTCTGCAAAT TTTGTATGTT GCAACTTCTC AGCAAAAAGA AGAAAGAAAA TGTTCCGTGC
    CCTTTGTGCA AGACCGAAGT AACCAGAAGG AGTCTTCAGG AGAGCCACAG ATTCAAACTG
    CTGGTTGAAG GGCTACTAAA GATAATAAAA GCCTTTGAGC TTGACTCTGG ATGCAAATTT
    TTTCCAAGTC AAGAAAACAC AGTCAGTGGG TTTGAGTCCA CAATCAAGGA TGTGTTGATT
    AAAGAAGATC AGCCCGTAGT GCATTGCAAA GGTTACAGAA ACCGTAAAAA AGGGATCTTG
    AAAAGTAAAA CATTTGAAGT AACTGGAACT TTACTGGAAT CCAAACCCGA GGCACAATTT
    GCTAAACTAG TTACGAGACT GACTTCTTGC AGACAGAAGA AGCATAGGAA AGAGGCCTCA
    CCCATTTTCG TTAATTGTGT GCCCGATTCT TCTGAATGTC ATTTATTAAA TAATGAAAGT
    GGCTCAGGAA ATGACCGCTC TCCACTCTGT GAGAAAGAAG ACACGCTGAA TCCAGATATG
    GAAGCAATGG TGGGATCAGA CCAAGCTGAA TGTGAATTTT CTGAAACCGC TGAAAGGACA
    GGAAGCAATT TACCGGGGTC TGATGGTCCT GGGTGCATTA CTGAAACATC AGCAGAAACC
    AACGTCAACA CCGCTGCTAA TTCTAACATT TATGCAAGAG AAGCAGAGCA GTACCTTAAT
    GAGCATCTTT GCAGGTTCAA GCAAGATATC GCAGACAGAG TGCATCAAAG AAATCAGCAT
    TGTGGCAATG TTCCTTTTGT ACCAAATCTG GAGACCAATT TTGATGAAGA GGAAACCATA
    GAAACTGACT TTGATAACCA GTATGATGAC TCTAACCCTC AGAATATTGA CCCTTTATGC
    AAAGTTGCTA AACTAATGAG ACGGAGTACA GAAAGGGTCA ATGAGTGGTT GCTAAAAACA
    AATGAGGAGT CAAGCACTTT GTTAGCAGAG GAAGATTCTT CCTTCAGTGT CTTCCCTTTG
    CAAAATAAAG AGCCCTCTGA GAAAGGGTCT TGTTCCTCAA ATGACTTGAT GCCTGTACTC
    CATAAACATG CAGAGCAGGG TACATCAGGC AGTGTTTTTG ACAAACAAGC AGTCGGCGTT
    AAGGACAAAA TATTCTGCAA AGTCTATAAG AGACAGCAAA AATCTTTGCC TCCTAATAAT
    ATAACCTGCG TTGTTGAGGT CCATCGTGAT AGTTCTTTTG GGACTGGTAC AGAAAATAAG
    ACATTGAGAA TGGATCAGTT AATGTGCAAA AGGAAAATTG CCCATGGTCT AAATCCTGAA
    AACCTAGCTA TTACAAATGG AAGCATTAAC ATTTATCCCG ATGACTGTAT ATCTGAGGCA
    GATGTAGAGC AAGATGCCCA ATCAAAGGCT TGCTCTGAAT TAGCTGATGC GGATCAGTCT
    GAGTTGGTTC ATTGCACATA TACAGTAGAT GGAAACACTC CAAAAAAACG CTGTGTAGAG
    TCTTTGGCAA ATGCACTTGA AACCAGAGAA GAGCAAAAAA AATTGTCTTG TGAAAGAAGC
    CAAAAAAAAA AATGCTGTAC ATGGGCAGTC CAGTCTGTAG CTTCAGAACC TGAAACACGC
    TTACTGCAAA GTTCTTGTGG GCACTTGGAT CTACTTTTAG TAAGTTCTCA AAGTATTGAT
    GATCCCAAAA ATGTAATTAA CCAGGTAAGG AGGAGCAGAA GGCTTCAGAT GTTGCCAGGA
    CTGTTGGAAA AAGCAATTTC TAATGCAGGT TTTGAGCCTA AAATTAAGAA TGCGAATCAA
    CAGCAGAATG GTATTCAGAG TTCAAAATTT AAGGTGAAGG AAAAAAATCC AATGTCTGAT
    ACAGTTCCCT CTCAAATGAA AAAGAAAGAC ATGTTTTGTC TGCCTTTTAC TTCAGATGAT
    ACTGACACCT CAATGAATGA CGGATCAGAG GAAGGGGTTC CCATGAGAAA AGGCAGTACC
    CGGAATCATG ATAAAGTCCA TTGTAATGAT GGAGATTGTG ACACCTTGCT CTGTGTTACA
    GAGAGTGATG TCCAACCAAA TGACAAGGAA ACCGAAGAAT CTGAACTGGA AACCCAACAA
    ATTGTTAAAA TGTTTAAAAC TTCTAAGCGG ACATCCTTCA TATTAGACTC CAGGGCAGCA
    GAAGCTGTAG CAGAAGTCAC TCTATCCTCA GATATCCTAC AGGTCAAAGC TTCCTATGAT
    GTTGAATACA GGGATGTGTC CTCATTAGGT TCAGCAAAAG AACAAAGCAG TGCATTGACG
    AACGAAAGTA GTCCTAGTAG TGAGCCTAAA AAAAGCAGCT CATTACCCTG GCACAAGAAA
    AGGAAGCAAC AAGCTAAATC AAAACATGGC AAAATGTGCA GAAGTAGGAG AGAGAACAGT
    AAACCAACAG ATAATCGTGC CAAAAGCCCC ATAATAAATA TGAGTCATTC TTCAAATACT
    ATTGGCCAGC CAGCTGATTT AAACAGCCCC ATCCACGGGG GCACTGGTAG CATATATAAA
    CAAGTAATCA ACCATTGTCC TACAAGGCCC AACATTGATG GAGAATATAT AAACGCATCC
    GCTAATGGTA GCCAAAGTTC AGTGACAGAT AAATCCCCAG CACATTTTAA TATCAATACC
    AACTTCATTT GTGATGTCAA TTCTGCCACT CCTGATGGAT TGTTGCACTC CATGGATAAC
    GCTGAAGGAA ACTCAAGCCT TGGTGATACA ACTGTTCATG ATGAAGGCAA AAATGCAGCA
    CATCCTGAGA GTTTTCTCCC CTCGTCTGTC CATAGATCAG TTGGGTTAAC TGGGGAAAAA
    AAATGCATAC CAAAGGTGCA ATCATCAGAG GAAGGGTCAA GTGGTGATGA CTTGCTTGGT
    TCTCAGGGTC TGTTTTGTCA AAAGTCAAAG TGCGTATCCT CTGGTGCCAC AGATCAGAAA
    AATTCTAAGA ATCCAGGCAA TGCTCAGCGG AGGAACTTGC CAGATTTCAG TGGCAGCAGC
    AATAGTGGCA AATACAATTC ACGGGAAATG TTATGCAAGG CTGTTTTCCC TTCTCTGAGC
    CAAGAATCTC AGTGTTCGGT GAGCTTGTTC TCCTCTCTGT CAAATATGTC TCAGCAGTCT
    GCAAACGAAG ACCACAAGCT CCAGGGTGGT GGTCTAGGCA GTCCAAGTAG AACTGAAGAG
    ACAACCATCA GTAGTGATGA AGAGACACTG ACTGCTGCCC CTCAGGACCA CAATCAGAAT
    CCTGACATAG CTGAAGCATC AGAATGTGAG AGTGAAGCAA GTCATACAGG AGATTCCTCT
    TTATTGTCCT CCCAGGATGA GCTCCTGAAC ACCCAGCAGC GGGATTACAT GAAGGACAGC
    TTAAAGAAAC TGCAGCAAGA AATGGCTGCT TTGGAAGCAG TACTGGAGCA GCATGGGACC
    CAGAACCTTT CAGCAGGGAC AGCATGCATC CCTTCAGCTG AACATGTCAC ATATAGGCAG
    GAGGAGGCTG TAGAAAAAGA AATAGCTCAA GGAGATAACT CAATTGTACG AACTCCTCCA
    AAGCCTGATG CAAATGGGTC AGCTTTGATA GGGCAGAGCA CGGACAATGG CTTGCAGAGC
    AGGAATAGGT CAATGTCTCC AGCCCCACCA CATTTTCTTT CCCAGACCAG AGCTGAGAAG
    AATACTCAAG AAAGAGTAGG CCCAGCAATG GGCATATCGA AAGTCTTGAA AAAATCTTTG
    GTTACAGAGC ATAAACTGGA AGTCAGACCT GATCTTGAGA CAGCAAATGT TATGCCAGCC
    AACCCAATGG ATGCTAAAGA ATCTTCAGGG CAAAGCAGTG AAAACAAGAG TGAGAACCCT
    ATCTTGCGCA ATAAATGTTC CACATCTCAC CAAGGCTTAT TTTCTTATTC TATGGAAGAG
    GCAGTCTCTC CACACAACCC AAAACAAAGC AGGGCAGAGT TTGGCATTGC AAGGAAATCT
    ACCTCCCCAA CTTTTGCATC CCCCAGTCGA GCTAAAGTCC TTTCTGTTGG CATTAAATCT
    CCTGTTGTGT CATCAAGGAG GAATCTGTCC TTTGTGGCTT CTGGGCTAAA TCAAAGTGAA
    CTGGCAGTAG TACAAAGGTT TTCAAGAACG ACCCAGAGTA TTTTATCCAC ACGAATTACA
    GATTCGACAA CTCACGTCAT TATGAAAACA GATGCAGAGC TTGTGTGCGA GAGAACTCTA
    AAGTATTTCC AAGGAATTGC CGGTAGAAAA TGGGTTGTAA GCTATGAATG GGTTGTACAG
    TCATTCAAAG AGGGACAAGT CCTTGATGAG TATGACTTTG AAGTGAAGGG AGATGTGATC
    AATGGAAGAA ATCATAGAGG CCCAAGAAGA TCACGGCTGG GATCCGATGG ATTGCTGCTA
    AAAGATTTTG AAATTTGCTT CTCCGGATTA TTCACTGACA TGACGCTAGA TGACCTGGAG
    TGGATGGTGT CTGAGTGTGG GTCCACTGTG GTGAGAGATC GTCAGTTCCC AAAAAACAAA
    CTTAATACAA CGTCGCTTGT GATTGTGCAA ACCGATGCTA ATACAACGGA AATCAGAGAT
    TATTTTGCCA TCCGGAAGAA CCACAAGGCC ATAGTAGTGA CGCGGGAGTG GTTGCTGGAC
    AGCATTGCTA CTTACAGACT TCAGAAATTT GATACTTACC TTGCATAA

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