tnrc6a cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following tnrc6a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the tnrc6a 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
OXa32890 XM_031893835.1
Latest version!
Xenopus tropicalis trinucleotide repeat containing 6A (tnrc6a), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa46701 XM_018097256.1
Latest version!
Xenopus tropicalis trinucleotide repeat containing 6A (tnrc6a), 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 OXa32890
    Clone ID Related Accession (Same CDS sequence) XM_031893835.1
    Accession Version XM_031893835.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5661bp)
    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 trinucleotide repeat-containing gene 6A protein
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##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## ##RefSeq-Attributes-START## ab initio :: 1% 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
    5341
    5401
    5461
    5521
    5581
    5641
    ATGGGTGAGC CCACTTTGCA GGCCCTTGTA CTTCAGACAT ACGCTTTCTA CATAAATACA 
    GCATTGTATT CATTCAGCAA CTATGTATTC ATGAGAGAGA CTTGGAAGCT GCAGCTACCA
    AAGACGTTGA AGGAGATCCT AGCAGTGCCA GATCAAATAA TAAGCCAGCC TTCGTCTGTC
    AACCAGAATA TCGGTATTTC CACAGCAACC AGCATTCAAC ATAATAATGC CAAGCGGCCC
    TCATCAATCA GTCCGCAGCA GCAGCAACCA GTGCCTCATT ACCCTCTTTG TGAAATACCA
    CCGCAGTTCC GACACCAGGA ACAGAAGCAT CTTGTGAAGT GTGGTCAGCA GTTACCTAGC
    ATTGCAGCCA ACCTGGGGTT AGCCACTAAA GTATTGAACA GATCCAGAAG CAGCACTGTG
    GTTTACCAGG AGGGACCCGT GACAGAAGTG CAGGGAAGTT CTAAAGAACA TCCAGAGCTC
    AATCATGGTA GCCTAGGCTC TCACTATGAA AACACCCACT GGGGGCCGGT CTCTTCCAAT
    GGTGATTCTA GCACTACCTG GGAAAAAGTC ATTGTAGACG GCACAGAAAA AGTGTGGCCA
    TCGATCACAG GCACTAGCTC CGAGTTGACC TCAGAATGTA TGGATATTGA CTCTTCCCCC
    AGCTCTGGGG CAGGAAAGAG CCACCTAGTG CCGTTTGGGG ATACCACAGA GGAAATGGAT
    ACTATGAGAA ATGGCATTGG ACATAGTTCT CAGAGCAAAC TTTTGGTTGG CAACAACAGC
    AATAATGCAG GCAATGGAAG TATTAATGGG CCGTGGGCCG TGACCCATGG AACTGTAATA
    AGCACATGTC AAGATGGCCC CGATAGCAAT TCAGATAGTA GGCACAACAG GATTAATGCT
    TGGGGCACCG TGAATACTTC AGTGAACGGA GTTCTAAATC CAAGCACTTT GAATATGAAT
    GGCAACCATG GTGCCTGGCC CATTTTGGAT AGCAATGGAC ATGCCCTTAA AGGGTCAAAT
    AATTCTGGCA CAAATGTTCC AAGCAGTACT ATAGGTCAGG TGTCTAACAA TCGGAGTATT
    AACCCTAAAA TGGGCAGCTC AGCCCCTGGC TCCTGGGGAA ATCTTCAGGA GAATGGGGAT
    CCTGAACTCA GTGGAACACG GAAGGCTTCT TTTAGTGGGC GACCTCAAAA CCTTAACACT
    GAAATGACTG GACCAAATAA CACTACTAAC TTTATGACCT CTAGTTTACC AAACTCTGCT
    GGCTTATTGC AGACAAATGA ACTCCCTAAT TCTACAGGGC ATGGGGCTTG GAGTGTGAGC
    AATATGAATC ATTCTCCTCT TCACACCCCT TCAGTTACAA ATGGCACTTC CATTCCTCAC
    CTAAGTAACG GTGAGGAAAA AAACAGCGGA TCATACGGTA CTACATGGGG TACTTCCGGC
    TCCTCTTATT CTGGAGATAA GATTTCAGTC CCTAAAGGGC AAGCTAATGG TGACACTGTG
    AATGCGACTA TAATGCAGCC AGGCCTATAT GGGCCCAATG GCCCAAACAA TAAAATAAAC
    GGGAATAAAG GAGGATTGTG GGAGTCAGGG ACTGTAAACT CCCAAAATAT GCATTGGGGA
    AGTGGAAATG CAGGAACTTC TGGTGGAAGT CAACGAGGAT GGGGAAACGC AGCACAAAAC
    ACTGGCACTA ATCTTTCAAA TGGTGGTTGG AACAAATTGC CTAACAATCA GCATTCCAAT
    GAGGGGGAAA ACAAAGAAAA TGGTAGGAAA ACGTCAAATA CGTGGAAGTC TGCTGAGGAA
    GAGAATGCAG GGCAAATTTC AGCAGGATCC AAAGGCATTG AGGCAAATGT ATGGGCCAAA
    ACTACAGGTA CGGGGGAAAG TGAAGGTAGT GTAGACAGCA CTGGAAGTCA GAGTGAATAT
    GGGACCGGAC ACGGGCTTCA GGAAATAAGG AAGACGGACC AGCAAACTTT ACTCCAAAGT
    ATTGTAAATA AAGGCGACCT AGATCCACGG GTCTTGTGCA ACACTGGCTG GGGACAGATT
    CCAATTAAAC AGAACACTGC CTGGGACACT GATGCTGCTT CGTCTCTGAG CAACAGAAAA
    ACTGACAATG GAACAGAAGC TTGGGGATGC TCTGTATCAA AGACTTCTAA CTCAGGGGGA
    TGGGTGGATA AGCCCAACCC TAACAGCAAT GATACCTCAT CAGTATCTGG GTGGGGAGAT
    CCAAAGTCTG CTACAGGGTG GGGTGATGCC AAAGGCGCAG TAAGCCAAGG GGAATGGGAA
    GATCAATTTG CTGCTACTAC TGGAATGGTC AAGAGCAATC AATCATGGGG GAATAATAAA
    GAGGACAAAT CCAATTGGAA TGATGCACAA AAGGTCAAAC AGGGGTGGGG GTCACACAGT
    GGTGACAGCT GGGGAGAGAA TTCAAAGAGT AATCACTGGG GAACAGCAAA GTCAAGTTCT
    AGCAGCGACA GCGAGAGATC TGTATCTGGT TGGAGTGAGC CTAGTCGTTC CAACTCCTGG
    GGAAGCGGAA ATCAAAATAA TGCATCAAGC TGGGCTGAAC CCTCCAAGTC AACTTCAGCT
    CAAGGGTGGG GTGAGCCAAA AAAGCCTAAC CAGGGGAATG GGGATGTTTC CAAATGTGGC
    CCGAACCACA TGGAGAGCGA ACATCTGCAA GCAAGCTCTG CAGAATGGAA CAAAAAGCAA
    GAAAGTGGGT CATGGGGGGC ACAGCCAGCC ACCAATAAGT CTTCTGGGTG GTCGGGTGGA
    TCACTGTCAA CTCCAACAAA GGAAGATGAG CCAACTGGTT GGCAAGAGCC ATCACCAGAA
    TCCGTACGGC GCAAAATGGA AATTGATGAT GGGACTGCAG CCTGGGGTGA TCCCAACCAA
    TACAAATTCA AGAATGTGAA CATGTGGGAT AAAAATACAT CTAAAAACAT GAGTGCTGAG
    GAACACCAAG GCCAGGTTTA TGCATTGCCC CCAACTTCAA GTACTATGCC AAATAAGGAA
    AGCAGCAGCA GCAACAGCAA CAGCTCTGGC TGGGGTGAAA CGTGGTCAGA AAGCAGAGCT
    CCTGTTGTGG ATAATGGTAC TGCAGCATGG GGTAAACCTG TGGAATCTAG TGGTGGTTGG
    GGTAATCGCA GCACCAACGG TGTGACATCG GGTTGGAACC ACACTCCCAT TGGCCAACAA
    GCTCCTGGAA AACCTGGTCC CAAATCTATG CAAGATAGTG GCTGGTGTGG TGATGATACG
    TCCGGGCCCG GGAGCAGACA TGGTAGTTGG GGTGAGGATG AAGATGTGGA AATTGGGATG
    TGGACCAGCG GTTCATCACA GGAGACCAAC CAATCAGTTA ACTGGCCGCC TTATATGAAG
    AAAATGCCTA CAAAGGGACC CTTAAAGAAT GGAAATAAGC AAGAGGAGAA CTGGATGAAT
    CCATTTGTAA AACAATTCAG CAATCTGGGA TTTTCAAGAG AGTCACCGGA GGACTCCTTG
    CAGAGCAATA AGATGGAGCT GTCTGGAGGG ATTTTGCCCG ACAAACGGAT GGAAATGGAC
    AAATCCGGCC TTGGCATAGG GGATTACAGT CGTGTGATTG GCAAAGTTCC AGGTCCTCGG
    CACCATCCTA AAGAGTCTTC CATGGATTTC AATGCTTACT TTGATAAGGA TGGTATTGTA
    TCAGAAGAGC CGCAAAGCAT GCAGTTTATT TCCAATCAGA ACACGAAGCT TCCCCCTTTG
    AATAGTGCAC TATCTTCTCA GTCCCTCAGC TCTTTCCCAG GGCTGGGAAT GCCAAACGTC
    AATTCTGTGA GACAGAATGG CAATCCCAGT ATGTTTGGTG TTGGCAATGC AGCACAAGCC
    AGGGGCGCAC AGCAGCCTCC AGCACAATCT CTTAACTCAT CTCAGCCTAA CCTTCGTGCG
    CAAGTGCCTC CTCCCATTAT ACCCCCTCAG GTTCCTCCTT CTTTACTGAA GTATCCGCCA
    GCCAATGGTG GTCTGAACCC CCTTTTTGGC CCCCAGCACG TAGCCATGTT GAACCAGCTT
    TCCCAATTAA ACCAGCTTTC CCAGCTGCAA AGGTTATTGA ATCAGCAGCA GAAGATTCAG
    AACCAGAGGG GGGTGCCTTC AGGAGGTCGC CAACAACATG AGCAGGCCCG GTCTCTTGGT
    ACGCAGCAGC CGGCACGTCA GCTTGATCCC AACCTGCTGA TGAAGCAGAG CATTTCTCAA
    TCACAGCAGC AAATGCTTCA CCAGCCTCCC ATGAAATCCT TTCTGGAGAA TGTGCTGCCC
    CACTCTGCCC CTGAGCTACC AAAAGTCCCT TCACCAATCA GTTCTTTTGG TGGCTTCCCT
    TCAGGCTTGA ACTCAAATTC GAATGTAAAT ATGGATCTCG GAGTTGTAAA GGAGCCACAG
    TCACGACTGA GGAAGTGGAC AACAGTTGAC AGCATGTCTT CTAATACTTC TCTGGATCAA
    AATTCCAGTA ACCATGGTGC TATTTCAAGT GGTTTCAGGC TTGAAGATTC TCCTTTTGGT
    TCTTATGACT TTATGAACAG CAGTAACTCT CCATCCAGCC CTCCAGGATC TATTGGGGAT
    GGCTGGCCTA GTGCCAAATC GCCAAATGGC TCCAGCAGTG TCAACTGGCC CCCTGAATTC
    CGTCCGGGTG AGCCATGGAA AGGATATCCA AACATTGACC CAGAAACTGA CCCTTATGTC
    ACTCCTGGCA GTGTCATCAA CAATTTGTCA ATTAATACTG TGCGGGGTGT TGACCACCTC
    AGGGACAGAA ACAGTGGGTC ATCCTCATCT TTGAACACCA CGCTGCCTTC AACTAGTGCC
    TGGTCCTCCA TTCGTGCCTC CAACTACAGT GTCTCCCACA GCAGTACAGC ACAAAGCACT
    TCAGTAAGAA ACAGTGACCC CAAACCTGCT TGGTCTCCTG GTTCCGTCGC TAACACTTCT
    CTGGCTCATG AACTGTGGAA AGTCCCTTTG CCATCTAAAA ACATCAGTGC TCCGTCCAGG
    CCTCCCCCAG GGCTGACTGG TCAGAAGCCA CCTTTATCCA CCTGGGATAC CAACTCCCTG
    CGTCTTGGTG GGTGGGGAAG TTCTGACTCA AGATACACAC CAGGTTCTAC CTGGAGTGAA
    AACAGCTCAG GGAGAATAAC AAATTGGCTC GTTCTGAAAA ACCTAACACC TCAGATTGAT
    GGCTCTACTC TGCGTACTTT GTGCATGCAG CATGGGCCTT TGATAACATT CCACCTGAAC
    CTGCCCCATG GTACTGCTCT TGTCCGTTAC AGTTCCAAGG AAGAGGTAGT GAAGGCACAA
    AAGTCTCTGC ACATGTGTGT TTTAGGGAAC ACTACTATAC TTGCTGAGTT TGCCAGTGAA
    GAGGAGATAA GTCGTTTCTT TGCACAAGGC CAGTCTCTGA CTCCTTCCCC TGGCTGGCAG
    TCCCTTGGGT CTGGGCACAG CCGACTGGGA TCCCTAGACA GTCCTCACAG CATCTCGAAC
    CGTGGAGATA TCAATCACTG GAACAGTCCA GGAGCTTCTG GCTCTAGCTC TGGAGACCTT
    CATGGCACTT CTCTCTGGGG CACCCCAAAT TATTCAACAA GCTTATGGGG TAACCCCAGT
    AATGAGGGCA GGGGCTTGAG CAGTCCATCA CCTGTCCCCG CTTTCCTTTC TGTTGATCAG
    TTAAACGGAG AGCCCATGTA G

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

    RefSeq XP_031749695.1
    CDS1..5661
    Translation

    Target ORF information:

    RefSeq Version XM_031893835.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis trinucleotide repeat containing 6A (tnrc6a), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031893835.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    ATGGGTGAGC CCACTTTGCA GGCCCTTGTA CTTCAGACAT ACGCTTTCTA CATAAATACA 
    GCATTGTATT CATTCAGCAA CTATGTATTC ATGAGAGAGA CTTGGAAGCT GCAGCTACCA
    AAGACGTTGA AGGAGATCCT AGCAGTGCCA GATCAAATAA TAAGCCAGCC TTCGTCTGTC
    AACCAGAATA TCGGTATTTC CACAGCAACC AGCATTCAAC ATAATAATGC CAAGCGGCCC
    TCATCAATCA GTCCGCAGCA GCAGCAACCA GTGCCTCATT ACCCTCTTTG TGAAATACCA
    CCGCAGTTCC GACACCAGGA ACAGAAGCAT CTTGTGAAGT GTGGTCAGCA GTTACCTAGC
    ATTGCAGCCA ACCTGGGGTT AGCCACTAAA GTATTGAACA GATCCAGAAG CAGCACTGTG
    GTTTACCAGG AGGGACCCGT GACAGAAGTG CAGGGAAGTT CTAAAGAACA TCCAGAGCTC
    AATCATGGTA GCCTAGGCTC TCACTATGAA AACACCCACT GGGGGCCGGT CTCTTCCAAT
    GGTGATTCTA GCACTACCTG GGAAAAAGTC ATTGTAGACG GCACAGAAAA AGTGTGGCCA
    TCGATCACAG GCACTAGCTC CGAGTTGACC TCAGAATGTA TGGATATTGA CTCTTCCCCC
    AGCTCTGGGG CAGGAAAGAG CCACCTAGTG CCGTTTGGGG ATACCACAGA GGAAATGGAT
    ACTATGAGAA ATGGCATTGG ACATAGTTCT CAGAGCAAAC TTTTGGTTGG CAACAACAGC
    AATAATGCAG GCAATGGAAG TATTAATGGG CCGTGGGCCG TGACCCATGG AACTGTAATA
    AGCACATGTC AAGATGGCCC CGATAGCAAT TCAGATAGTA GGCACAACAG GATTAATGCT
    TGGGGCACCG TGAATACTTC AGTGAACGGA GTTCTAAATC CAAGCACTTT GAATATGAAT
    GGCAACCATG GTGCCTGGCC CATTTTGGAT AGCAATGGAC ATGCCCTTAA AGGGTCAAAT
    AATTCTGGCA CAAATGTTCC AAGCAGTACT ATAGGTCAGG TGTCTAACAA TCGGAGTATT
    AACCCTAAAA TGGGCAGCTC AGCCCCTGGC TCCTGGGGAA ATCTTCAGGA GAATGGGGAT
    CCTGAACTCA GTGGAACACG GAAGGCTTCT TTTAGTGGGC GACCTCAAAA CCTTAACACT
    GAAATGACTG GACCAAATAA CACTACTAAC TTTATGACCT CTAGTTTACC AAACTCTGCT
    GGCTTATTGC AGACAAATGA ACTCCCTAAT TCTACAGGGC ATGGGGCTTG GAGTGTGAGC
    AATATGAATC ATTCTCCTCT TCACACCCCT TCAGTTACAA ATGGCACTTC CATTCCTCAC
    CTAAGTAACG GTGAGGAAAA AAACAGCGGA TCATACGGTA CTACATGGGG TACTTCCGGC
    TCCTCTTATT CTGGAGATAA GATTTCAGTC CCTAAAGGGC AAGCTAATGG TGACACTGTG
    AATGCGACTA TAATGCAGCC AGGCCTATAT GGGCCCAATG GCCCAAACAA TAAAATAAAC
    GGGAATAAAG GAGGATTGTG GGAGTCAGGG ACTGTAAACT CCCAAAATAT GCATTGGGGA
    AGTGGAAATG CAGGAACTTC TGGTGGAAGT CAACGAGGAT GGGGAAACGC AGCACAAAAC
    ACTGGCACTA ATCTTTCAAA TGGTGGTTGG AACAAATTGC CTAACAATCA GCATTCCAAT
    GAGGGGGAAA ACAAAGAAAA TGGTAGGAAA ACGTCAAATA CGTGGAAGTC TGCTGAGGAA
    GAGAATGCAG GGCAAATTTC AGCAGGATCC AAAGGCATTG AGGCAAATGT ATGGGCCAAA
    ACTACAGGTA CGGGGGAAAG TGAAGGTAGT GTAGACAGCA CTGGAAGTCA GAGTGAATAT
    GGGACCGGAC ACGGGCTTCA GGAAATAAGG AAGACGGACC AGCAAACTTT ACTCCAAAGT
    ATTGTAAATA AAGGCGACCT AGATCCACGG GTCTTGTGCA ACACTGGCTG GGGACAGATT
    CCAATTAAAC AGAACACTGC CTGGGACACT GATGCTGCTT CGTCTCTGAG CAACAGAAAA
    ACTGACAATG GAACAGAAGC TTGGGGATGC TCTGTATCAA AGACTTCTAA CTCAGGGGGA
    TGGGTGGATA AGCCCAACCC TAACAGCAAT GATACCTCAT CAGTATCTGG GTGGGGAGAT
    CCAAAGTCTG CTACAGGGTG GGGTGATGCC AAAGGCGCAG TAAGCCAAGG GGAATGGGAA
    GATCAATTTG CTGCTACTAC TGGAATGGTC AAGAGCAATC AATCATGGGG GAATAATAAA
    GAGGACAAAT CCAATTGGAA TGATGCACAA AAGGTCAAAC AGGGGTGGGG GTCACACAGT
    GGTGACAGCT GGGGAGAGAA TTCAAAGAGT AATCACTGGG GAACAGCAAA GTCAAGTTCT
    AGCAGCGACA GCGAGAGATC TGTATCTGGT TGGAGTGAGC CTAGTCGTTC CAACTCCTGG
    GGAAGCGGAA ATCAAAATAA TGCATCAAGC TGGGCTGAAC CCTCCAAGTC AACTTCAGCT
    CAAGGGTGGG GTGAGCCAAA AAAGCCTAAC CAGGGGAATG GGGATGTTTC CAAATGTGGC
    CCGAACCACA TGGAGAGCGA ACATCTGCAA GCAAGCTCTG CAGAATGGAA CAAAAAGCAA
    GAAAGTGGGT CATGGGGGGC ACAGCCAGCC ACCAATAAGT CTTCTGGGTG GTCGGGTGGA
    TCACTGTCAA CTCCAACAAA GGAAGATGAG CCAACTGGTT GGCAAGAGCC ATCACCAGAA
    TCCGTACGGC GCAAAATGGA AATTGATGAT GGGACTGCAG CCTGGGGTGA TCCCAACCAA
    TACAAATTCA AGAATGTGAA CATGTGGGAT AAAAATACAT CTAAAAACAT GAGTGCTGAG
    GAACACCAAG GCCAGGTTTA TGCATTGCCC CCAACTTCAA GTACTATGCC AAATAAGGAA
    AGCAGCAGCA GCAACAGCAA CAGCTCTGGC TGGGGTGAAA CGTGGTCAGA AAGCAGAGCT
    CCTGTTGTGG ATAATGGTAC TGCAGCATGG GGTAAACCTG TGGAATCTAG TGGTGGTTGG
    GGTAATCGCA GCACCAACGG TGTGACATCG GGTTGGAACC ACACTCCCAT TGGCCAACAA
    GCTCCTGGAA AACCTGGTCC CAAATCTATG CAAGATAGTG GCTGGTGTGG TGATGATACG
    TCCGGGCCCG GGAGCAGACA TGGTAGTTGG GGTGAGGATG AAGATGTGGA AATTGGGATG
    TGGACCAGCG GTTCATCACA GGAGACCAAC CAATCAGTTA ACTGGCCGCC TTATATGAAG
    AAAATGCCTA CAAAGGGACC CTTAAAGAAT GGAAATAAGC AAGAGGAGAA CTGGATGAAT
    CCATTTGTAA AACAATTCAG CAATCTGGGA TTTTCAAGAG AGTCACCGGA GGACTCCTTG
    CAGAGCAATA AGATGGAGCT GTCTGGAGGG ATTTTGCCCG ACAAACGGAT GGAAATGGAC
    AAATCCGGCC TTGGCATAGG GGATTACAGT CGTGTGATTG GCAAAGTTCC AGGTCCTCGG
    CACCATCCTA AAGAGTCTTC CATGGATTTC AATGCTTACT TTGATAAGGA TGGTATTGTA
    TCAGAAGAGC CGCAAAGCAT GCAGTTTATT TCCAATCAGA ACACGAAGCT TCCCCCTTTG
    AATAGTGCAC TATCTTCTCA GTCCCTCAGC TCTTTCCCAG GGCTGGGAAT GCCAAACGTC
    AATTCTGTGA GACAGAATGG CAATCCCAGT ATGTTTGGTG TTGGCAATGC AGCACAAGCC
    AGGGGCGCAC AGCAGCCTCC AGCACAATCT CTTAACTCAT CTCAGCCTAA CCTTCGTGCG
    CAAGTGCCTC CTCCCATTAT ACCCCCTCAG GTTCCTCCTT CTTTACTGAA GTATCCGCCA
    GCCAATGGTG GTCTGAACCC CCTTTTTGGC CCCCAGCACG TAGCCATGTT GAACCAGCTT
    TCCCAATTAA ACCAGCTTTC CCAGCTGCAA AGGTTATTGA ATCAGCAGCA GAAGATTCAG
    AACCAGAGGG GGGTGCCTTC AGGAGGTCGC CAACAACATG AGCAGGCCCG GTCTCTTGGT
    ACGCAGCAGC CGGCACGTCA GCTTGATCCC AACCTGCTGA TGAAGCAGAG CATTTCTCAA
    TCACAGCAGC AAATGCTTCA CCAGCCTCCC ATGAAATCCT TTCTGGAGAA TGTGCTGCCC
    CACTCTGCCC CTGAGCTACC AAAAGTCCCT TCACCAATCA GTTCTTTTGG TGGCTTCCCT
    TCAGGCTTGA ACTCAAATTC GAATGTAAAT ATGGATCTCG GAGTTGTAAA GGAGCCACAG
    TCACGACTGA GGAAGTGGAC AACAGTTGAC AGCATGTCTT CTAATACTTC TCTGGATCAA
    AATTCCAGTA ACCATGGTGC TATTTCAAGT GGTTTCAGGC TTGAAGATTC TCCTTTTGGT
    TCTTATGACT TTATGAACAG CAGTAACTCT CCATCCAGCC CTCCAGGATC TATTGGGGAT
    GGCTGGCCTA GTGCCAAATC GCCAAATGGC TCCAGCAGTG TCAACTGGCC CCCTGAATTC
    CGTCCGGGTG AGCCATGGAA AGGATATCCA AACATTGACC CAGAAACTGA CCCTTATGTC
    ACTCCTGGCA GTGTCATCAA CAATTTGTCA ATTAATACTG TGCGGGGTGT TGACCACCTC
    AGGGACAGAA ACAGTGGGTC ATCCTCATCT TTGAACACCA CGCTGCCTTC AACTAGTGCC
    TGGTCCTCCA TTCGTGCCTC CAACTACAGT GTCTCCCACA GCAGTACAGC ACAAAGCACT
    TCAGTAAGAA ACAGTGACCC CAAACCTGCT TGGTCTCCTG GTTCCGTCGC TAACACTTCT
    CTGGCTCATG AACTGTGGAA AGTCCCTTTG CCATCTAAAA ACATCAGTGC TCCGTCCAGG
    CCTCCCCCAG GGCTGACTGG TCAGAAGCCA CCTTTATCCA CCTGGGATAC CAACTCCCTG
    CGTCTTGGTG GGTGGGGAAG TTCTGACTCA AGATACACAC CAGGTTCTAC CTGGAGTGAA
    AACAGCTCAG GGAGAATAAC AAATTGGCTC GTTCTGAAAA ACCTAACACC TCAGATTGAT
    GGCTCTACTC TGCGTACTTT GTGCATGCAG CATGGGCCTT TGATAACATT CCACCTGAAC
    CTGCCCCATG GTACTGCTCT TGTCCGTTAC AGTTCCAAGG AAGAGGTAGT GAAGGCACAA
    AAGTCTCTGC ACATGTGTGT TTTAGGGAAC ACTACTATAC TTGCTGAGTT TGCCAGTGAA
    GAGGAGATAA GTCGTTTCTT TGCACAAGGC CAGTCTCTGA CTCCTTCCCC TGGCTGGCAG
    TCCCTTGGGT CTGGGCACAG CCGACTGGGA TCCCTAGACA GTCCTCACAG CATCTCGAAC
    CGTGGAGATA TCAATCACTG GAACAGTCCA GGAGCTTCTG GCTCTAGCTC TGGAGACCTT
    CATGGCACTT CTCTCTGGGG CACCCCAAAT TATTCAACAA GCTTATGGGG TAACCCCAGT
    AATGAGGGCA GGGGCTTGAG CAGTCCATCA CCTGTCCCCG CTTTCCTTTC TGTTGATCAG
    TTAAACGGAG AGCCCATGTA G

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

    CloneID OXa46701
    Clone ID Related Accession (Same CDS sequence) XM_018097256.1
    Accession Version XM_018097256.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5586bp)
    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 trinucleotide repeat-containing gene 6A protein
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##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## ##RefSeq-Attributes-START## ab initio :: 1% 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
    5341
    5401
    5461
    5521
    5581
    ATGTTTACAA GTGTACAGTG GCAGACTTGG AAGCTGCAGC TACCAAAGAC GTTGAAGGAG 
    ATCCTAGCAG TGCCAGATCA AATAATAAGC CAGCCTTCGT CTGTCAACCA GAATATCGGT
    ATTTCCACAG CAACCAGCAT TCAACATAAT AATGCCAAGC GGCCCTCATC AATCAGTCCG
    CAGCAGCAGC AACCAGTGCC TCATTACCCT CTTTGTGAAA TACCACCGCA GTTCCGACAC
    CAGGAACAGA AGCATCTTGT GAAGTGTGGT CAGCAGTTAC CTAGCATTGC AGCCAACCTG
    GGGTTAGCCA CTAAAGTATT GAACAGATCC AGAAGCAGCA CTGTGGTTTA CCAGGAGGGA
    CCCGTGACAG AAGTGCAGGG AAGTTCTAAA GAACATCCAG AGCTCAATCA TGGTAGCCTA
    GGCTCTCACT ATGAAAACAC CCACTGGGGG CCGGTCTCTT CCAATGGTGA TTCTAGCACT
    ACCTGGGAAA AAGTCATTGT AGACGGCACA GAAAAAGTGT GGCCATCGAT CACAGGCACT
    AGCTCCGAGT TGACCTCAGA ATGTATGGAT ATTGACTCTT CCCCCAGCTC TGGGGCAGGA
    AAGAGCCACC TAGTGCCGTT TGGGGATACC ACAGAGGAAA TGGATACTAT GAGAAATGGC
    ATTGGACATA GTTCTCAGAG CAAACTTTTG GTTGGCAACA ACAGCAATAA TGCAGGCAAT
    GGAAGTATTA ATGGGCCGTG GGCCGTGACC CATGGAACTG TAATAAGCAC ATGTCAAGAT
    GGCCCCGATA GCAATTCAGA TAGTAGGCAC AACAGGATTA ATGCTTGGGG CACCGTGAAT
    ACTTCAGTGA ACGGAGTTCT AAATCCAAGC ACTTTGAATA TGAATGGCAA CCATGGTGCC
    TGGCCCATTT TGGATAGCAA TGGACATGCC CTTAAAGGGT CAAATAATTC TGGCACAAAT
    GTTCCAAGCA GTACTATAGG TCAGGTGTCT AACAATCGGA GTATTAACCC TAAAATGGGC
    AGCTCAGCCC CTGGCTCCTG GGGAAATCTT CAGGAGAATG GGGATCCTGA ACTCAGTGGA
    ACACGGAAGG CTTCTTTTAG TGGGCGACCT CAAAACCTTA ACACTGAAAT GACTGGACCA
    AATAACACTA CTAACTTTAT GACCTCTAGT TTACCAAACT CTGCTGGCTT ATTGCAGACA
    AATGAACTCC CTAATTCTAC AGGGCATGGG GCTTGGAGTG TGAGCAATAT GAATCATTCT
    CCTCTTCACA CCCCTTCAGT TACAAATGGC ACTTCCATTC CTCACCTAAG TAACGGTGAG
    GAAAAAAACA GCGGATCATA CGGTACTACA TGGGGTACTT CCGGCTCCTC TTATTCTGGA
    GATAAGATTT CAGTCCCTAA AGGGCAAGCT AATGGTGACA CTGTGAATGC GACTATAATG
    CAGCCAGGCC TATATGGGCC CAATGGCCCA AACAATAAAA TAAACGGGAA TAAAGGAGGA
    TTGTGGGAGT CAGGGACTGT AAACTCCCAA AATATGCATT GGGGAAGTGG AAATGCAGGA
    ACTTCTGGTG GAAGTCAACG AGGATGGGGA AACGCAGCAC AAAACACTGG CACTAATCTT
    TCAAATGGTG GTTGGAACAA ATTGCCTAAC AATCAGCATT CCAATGAGGG GGAAAACAAA
    GAAAATGGTA GGAAAACGTC AAATACGTGG AAGTCTGCTG AGGAAGAGAA TGCAGGGCAA
    ATTTCAGCAG GATCCAAAGG CATTGAGGCA AATGTATGGG CCAAAACTAC AGGTACGGGG
    GAAAGTGAAG GTAGTGTAGA CAGCACTGGA AGTCAGAGTG AATATGGGAC CGGACACGGG
    CTTCAGGAAA TAAGGAAGAC GGACCAGCAA ACTTTACTCC AAAGTATTGT AAATAAAGGC
    GACCTAGATC CACGGGTCTT GTGCAACACT GGCTGGGGAC AGATTCCAAT TAAACAGAAC
    ACTGCCTGGG ACACTGATGC TGCTTCGTCT CTGAGCAACA GAAAAACTGA CAATGGAACA
    GAAGCTTGGG GATGCTCTGT ATCAAAGACT TCTAACTCAG GGGGATGGGT GGATAAGCCC
    AACCCTAACA GCAATGATAC CTCATCAGTA TCTGGGTGGG GAGATCCAAA GTCTGCTACA
    GGGTGGGGTG ATGCCAAAGG CGCAGTAAGC CAAGGGGAAT GGGAAGATCA ATTTGCTGCT
    ACTACTGGAA TGGTCAAGAG CAATCAATCA TGGGGGAATA ATAAAGAGGA CAAATCCAAT
    TGGAATGATG CACAAAAGGT CAAACAGGGG TGGGGGTCAC ACAGTGGTGA CAGCTGGGGA
    GAGAATTCAA AGAGTAATCA CTGGGGAACA GCAAAGTCAA GTTCTAGCAG CGACAGCGAG
    AGATCTGTAT CTGGTTGGAG TGAGCCTAGT CGTTCCAACT CCTGGGGAAG CGGAAATCAA
    AATAATGCAT CAAGCTGGGC TGAACCCTCC AAGTCAACTT CAGCTCAAGG GTGGGGTGAG
    CCAAAAAAGC CTAACCAGGG GAATGGGGAT GTTTCCAAAT GTGGCCCGAA CCACATGGAG
    AGCGAACATC TGCAAGCAAG CTCTGCAGAA TGGAACAAAA AGCAAGAAAG TGGGTCATGG
    GGGGCACAGC CAGCCACCAA TAAGTCTTCT GGGTGGTCGG GTGGATCACT GTCAACTCCA
    ACAAAGGAAG ATGAGCCAAC TGGTTGGCAA GAGCCATCAC CAGAATCCGT ACGGCGCAAA
    ATGGAAATTG ATGATGGGAC TGCAGCCTGG GGTGATCCCA ACCAATACAA ATTCAAGAAT
    GTGAACATGT GGGATAAAAA TACATCTAAA AACATGAGTG CTGAGGAACA CCAAGGCCAG
    GTTTATGCAT TGCCCCCAAC TTCAAGTACT ATGCCAAATA AGGAAAGCAG CAGCAGCAAC
    AGCAACAGCT CTGGCTGGGG TGAAACGTGG TCAGAAAGCA GAGCTCCTGT TGTGGATAAT
    GGTACTGCAG CATGGGGTAA ACCTGTGGAA TCTAGTGGTG GTTGGGGTAA TCGCAGCACC
    AACGGTGTGA CATCGGGTTG GAACCACACT CCCATTGGCC AACAAGCTCC TGGAAAACCT
    GGTCCCAAAT CTATGCAAGA TAGTGGCTGG TGTGGTGATG ATACGTCCGG GCCCGGGAGC
    AGACATGGTA GTTGGGGTGA GGATGAAGAT GTGGAAATTG GGATGTGGAC CAGCGGTTCA
    TCACAGGAGA CCAACCAATC AGTTAACTGG CCGCCTTATA TGAAGAAAAT GCCTACAAAG
    GGACCCTTAA AGAATGGAAA TAAGCAAGAG GAGAACTGGA TGAATCCATT TGTAAAACAA
    TTCAGCAATC TGGGATTTTC AAGAGAGTCA CCGGAGGACT CCTTGCAGAG CAATAAGATG
    GAGCTGTCTG GAGGGATTTT GCCCGACAAA CGGATGGAAA TGGACAAATC CGGCCTTGGC
    ATAGGGGATT ACAGTCGTGT GATTGGCAAA GTTCCAGGTC CTCGGCACCA TCCTAAAGAG
    TCTTCCATGG ATTTCAATGC TTACTTTGAT AAGGATGGTA TTGTATCAGA AGAGCCGCAA
    AGCATGCAGT TTATTTCCAA TCAGAACACG AAGCTTCCCC CTTTGAATAG TGCACTATCT
    TCTCAGTCCC TCAGCTCTTT CCCAGGGCTG GGAATGCCAA ACGTCAATTC TGTGAGACAG
    AATGGCAATC CCAGTATGTT TGGTGTTGGC AATGCAGCAC AAGCCAGGGG CGCACAGCAG
    CCTCCAGCAC AATCTCTTAA CTCATCTCAG CCTAACCTTC GTGCGCAAGT GCCTCCTCCC
    ATTATACCCC CTCAGGTTCC TCCTTCTTTA CTGAAGTATC CGCCAGCCAA TGGTGGTCTG
    AACCCCCTTT TTGGCCCCCA GCACGTAGCC ATGTTGAACC AGCTTTCCCA ATTAAACCAG
    CTTTCCCAGC TGCAAAGGTT ATTGAATCAG CAGCAGAAGA TTCAGAACCA GAGGGGGGTG
    CCTTCAGGAG GTCGCCAACA ACATGAGCAG GCCCGGTCTC TTGGTACGCA GCAGCCGGCA
    CGTCAGCTTG ATCCCAACCT GCTGATGAAG CAGAGCATTT CTCAATCACA GCAGCAAATG
    CTTCACCAGC CTCCCATGAA ATCCTTTCTG GAGAATGTGC TGCCCCACTC TGCCCCTGAG
    CTACCAAAAG TCCCTTCACC AATCAGTTCT TTTGGTGGCT TCCCTTCAGG CTTGAACTCA
    AATTCGAATG TAAATATGGA TCTCGGAGTT GTAAAGGAGC CACAGTCACG ACTGAGGAAG
    TGGACAACAG TTGACAGCAT GTCTTCTAAT ACTTCTCTGG ATCAAAATTC CAGTAACCAT
    GGTGCTATTT CAAGTGGTTT CAGGCTTGAA GATTCTCCTT TTGGTTCTTA TGACTTTATG
    AACAGCAGTA ACTCTCCATC CAGCCCTCCA GGATCTATTG GGGATGGCTG GCCTAGTGCC
    AAATCGCCAA ATGGCTCCAG CAGTGTCAAC TGGCCCCCTG AATTCCGTCC GGGTGAGCCA
    TGGAAAGGAT ATCCAAACAT TGACCCAGAA ACTGACCCTT ATGTCACTCC TGGCAGTGTC
    ATCAACAATT TGTCAATTAA TACTGTGCGG GGTGTTGACC ACCTCAGGGA CAGAAACAGT
    GGGTCATCCT CATCTTTGAA CACCACGCTG CCTTCAACTA GTGCCTGGTC CTCCATTCGT
    GCCTCCAACT ACAGTGTCTC CCACAGCAGT ACAGCACAAA GCACTTCAGT AAGAAACAGT
    GACCCCAAAC CTGCTTGGTC TCCTGGTTCC GTCGCTAACA CTTCTCTGGC TCATGAACTG
    TGGAAAGTCC CTTTGCCATC TAAAAACATC AGTGCTCCGT CCAGGCCTCC CCCAGGGCTG
    ACTGGTCAGA AGCCACCTTT ATCCACCTGG GATACCAACT CCCTGCGTCT TGGTGGGTGG
    GGAAGTTCTG ACTCAAGATA CACACCAGGT TCTACCTGGA GTGAAAACAG CTCAGGGAGA
    ATAACAAATT GGCTCGTTCT GAAAAACCTA ACACCTCAGA TTGATGGCTC TACTCTGCGT
    ACTTTGTGCA TGCAGCATGG GCCTTTGATA ACATTCCACC TGAACCTGCC CCATGGTACT
    GCTCTTGTCC GTTACAGTTC CAAGGAAGAG GTAGTGAAGG CACAAAAGTC TCTGCACATG
    TGTGTTTTAG GGAACACTAC TATACTTGCT GAGTTTGCCA GTGAAGAGGA GATAAGTCGT
    TTCTTTGCAC AAGGCCAGTC TCTGACTCCT TCCCCTGGCT GGCAGTCCCT TGGGTCTGGG
    CACAGCCGAC TGGGATCCCT AGACAGTCCT CACAGCATCT CGAACCGTGG AGATATCAAT
    CACTGGAACA GTCCAGGAGC TTCTGGCTCT AGCTCTGGAG ACCTTCATGG CACTTCTCTC
    TGGGGCACCC CAAATTATTC AACAAGCTTA TGGGGTAACC CCAGTAATGA GGGCAGGGGC
    TTGAGCAGTC CATCACCTGT CCCCGCTTTC CTTTCTGTTG ATCAGTTAAA CGGAGAGCCC
    ATGTAG

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

    RefSeq XP_017952745.1
    CDS1..5586
    Translation

    Target ORF information:

    RefSeq Version XM_018097256.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis trinucleotide repeat containing 6A (tnrc6a), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018097256.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGTTTACAA GTGTACAGTG GCAGACTTGG AAGCTGCAGC TACCAAAGAC GTTGAAGGAG 
    ATCCTAGCAG TGCCAGATCA AATAATAAGC CAGCCTTCGT CTGTCAACCA GAATATCGGT
    ATTTCCACAG CAACCAGCAT TCAACATAAT AATGCCAAGC GGCCCTCATC AATCAGTCCG
    CAGCAGCAGC AACCAGTGCC TCATTACCCT CTTTGTGAAA TACCACCGCA GTTCCGACAC
    CAGGAACAGA AGCATCTTGT GAAGTGTGGT CAGCAGTTAC CTAGCATTGC AGCCAACCTG
    GGGTTAGCCA CTAAAGTATT GAACAGATCC AGAAGCAGCA CTGTGGTTTA CCAGGAGGGA
    CCCGTGACAG AAGTGCAGGG AAGTTCTAAA GAACATCCAG AGCTCAATCA TGGTAGCCTA
    GGCTCTCACT ATGAAAACAC CCACTGGGGG CCGGTCTCTT CCAATGGTGA TTCTAGCACT
    ACCTGGGAAA AAGTCATTGT AGACGGCACA GAAAAAGTGT GGCCATCGAT CACAGGCACT
    AGCTCCGAGT TGACCTCAGA ATGTATGGAT ATTGACTCTT CCCCCAGCTC TGGGGCAGGA
    AAGAGCCACC TAGTGCCGTT TGGGGATACC ACAGAGGAAA TGGATACTAT GAGAAATGGC
    ATTGGACATA GTTCTCAGAG CAAACTTTTG GTTGGCAACA ACAGCAATAA TGCAGGCAAT
    GGAAGTATTA ATGGGCCGTG GGCCGTGACC CATGGAACTG TAATAAGCAC ATGTCAAGAT
    GGCCCCGATA GCAATTCAGA TAGTAGGCAC AACAGGATTA ATGCTTGGGG CACCGTGAAT
    ACTTCAGTGA ACGGAGTTCT AAATCCAAGC ACTTTGAATA TGAATGGCAA CCATGGTGCC
    TGGCCCATTT TGGATAGCAA TGGACATGCC CTTAAAGGGT CAAATAATTC TGGCACAAAT
    GTTCCAAGCA GTACTATAGG TCAGGTGTCT AACAATCGGA GTATTAACCC TAAAATGGGC
    AGCTCAGCCC CTGGCTCCTG GGGAAATCTT CAGGAGAATG GGGATCCTGA ACTCAGTGGA
    ACACGGAAGG CTTCTTTTAG TGGGCGACCT CAAAACCTTA ACACTGAAAT GACTGGACCA
    AATAACACTA CTAACTTTAT GACCTCTAGT TTACCAAACT CTGCTGGCTT ATTGCAGACA
    AATGAACTCC CTAATTCTAC AGGGCATGGG GCTTGGAGTG TGAGCAATAT GAATCATTCT
    CCTCTTCACA CCCCTTCAGT TACAAATGGC ACTTCCATTC CTCACCTAAG TAACGGTGAG
    GAAAAAAACA GCGGATCATA CGGTACTACA TGGGGTACTT CCGGCTCCTC TTATTCTGGA
    GATAAGATTT CAGTCCCTAA AGGGCAAGCT AATGGTGACA CTGTGAATGC GACTATAATG
    CAGCCAGGCC TATATGGGCC CAATGGCCCA AACAATAAAA TAAACGGGAA TAAAGGAGGA
    TTGTGGGAGT CAGGGACTGT AAACTCCCAA AATATGCATT GGGGAAGTGG AAATGCAGGA
    ACTTCTGGTG GAAGTCAACG AGGATGGGGA AACGCAGCAC AAAACACTGG CACTAATCTT
    TCAAATGGTG GTTGGAACAA ATTGCCTAAC AATCAGCATT CCAATGAGGG GGAAAACAAA
    GAAAATGGTA GGAAAACGTC AAATACGTGG AAGTCTGCTG AGGAAGAGAA TGCAGGGCAA
    ATTTCAGCAG GATCCAAAGG CATTGAGGCA AATGTATGGG CCAAAACTAC AGGTACGGGG
    GAAAGTGAAG GTAGTGTAGA CAGCACTGGA AGTCAGAGTG AATATGGGAC CGGACACGGG
    CTTCAGGAAA TAAGGAAGAC GGACCAGCAA ACTTTACTCC AAAGTATTGT AAATAAAGGC
    GACCTAGATC CACGGGTCTT GTGCAACACT GGCTGGGGAC AGATTCCAAT TAAACAGAAC
    ACTGCCTGGG ACACTGATGC TGCTTCGTCT CTGAGCAACA GAAAAACTGA CAATGGAACA
    GAAGCTTGGG GATGCTCTGT ATCAAAGACT TCTAACTCAG GGGGATGGGT GGATAAGCCC
    AACCCTAACA GCAATGATAC CTCATCAGTA TCTGGGTGGG GAGATCCAAA GTCTGCTACA
    GGGTGGGGTG ATGCCAAAGG CGCAGTAAGC CAAGGGGAAT GGGAAGATCA ATTTGCTGCT
    ACTACTGGAA TGGTCAAGAG CAATCAATCA TGGGGGAATA ATAAAGAGGA CAAATCCAAT
    TGGAATGATG CACAAAAGGT CAAACAGGGG TGGGGGTCAC ACAGTGGTGA CAGCTGGGGA
    GAGAATTCAA AGAGTAATCA CTGGGGAACA GCAAAGTCAA GTTCTAGCAG CGACAGCGAG
    AGATCTGTAT CTGGTTGGAG TGAGCCTAGT CGTTCCAACT CCTGGGGAAG CGGAAATCAA
    AATAATGCAT CAAGCTGGGC TGAACCCTCC AAGTCAACTT CAGCTCAAGG GTGGGGTGAG
    CCAAAAAAGC CTAACCAGGG GAATGGGGAT GTTTCCAAAT GTGGCCCGAA CCACATGGAG
    AGCGAACATC TGCAAGCAAG CTCTGCAGAA TGGAACAAAA AGCAAGAAAG TGGGTCATGG
    GGGGCACAGC CAGCCACCAA TAAGTCTTCT GGGTGGTCGG GTGGATCACT GTCAACTCCA
    ACAAAGGAAG ATGAGCCAAC TGGTTGGCAA GAGCCATCAC CAGAATCCGT ACGGCGCAAA
    ATGGAAATTG ATGATGGGAC TGCAGCCTGG GGTGATCCCA ACCAATACAA ATTCAAGAAT
    GTGAACATGT GGGATAAAAA TACATCTAAA AACATGAGTG CTGAGGAACA CCAAGGCCAG
    GTTTATGCAT TGCCCCCAAC TTCAAGTACT ATGCCAAATA AGGAAAGCAG CAGCAGCAAC
    AGCAACAGCT CTGGCTGGGG TGAAACGTGG TCAGAAAGCA GAGCTCCTGT TGTGGATAAT
    GGTACTGCAG CATGGGGTAA ACCTGTGGAA TCTAGTGGTG GTTGGGGTAA TCGCAGCACC
    AACGGTGTGA CATCGGGTTG GAACCACACT CCCATTGGCC AACAAGCTCC TGGAAAACCT
    GGTCCCAAAT CTATGCAAGA TAGTGGCTGG TGTGGTGATG ATACGTCCGG GCCCGGGAGC
    AGACATGGTA GTTGGGGTGA GGATGAAGAT GTGGAAATTG GGATGTGGAC CAGCGGTTCA
    TCACAGGAGA CCAACCAATC AGTTAACTGG CCGCCTTATA TGAAGAAAAT GCCTACAAAG
    GGACCCTTAA AGAATGGAAA TAAGCAAGAG GAGAACTGGA TGAATCCATT TGTAAAACAA
    TTCAGCAATC TGGGATTTTC AAGAGAGTCA CCGGAGGACT CCTTGCAGAG CAATAAGATG
    GAGCTGTCTG GAGGGATTTT GCCCGACAAA CGGATGGAAA TGGACAAATC CGGCCTTGGC
    ATAGGGGATT ACAGTCGTGT GATTGGCAAA GTTCCAGGTC CTCGGCACCA TCCTAAAGAG
    TCTTCCATGG ATTTCAATGC TTACTTTGAT AAGGATGGTA TTGTATCAGA AGAGCCGCAA
    AGCATGCAGT TTATTTCCAA TCAGAACACG AAGCTTCCCC CTTTGAATAG TGCACTATCT
    TCTCAGTCCC TCAGCTCTTT CCCAGGGCTG GGAATGCCAA ACGTCAATTC TGTGAGACAG
    AATGGCAATC CCAGTATGTT TGGTGTTGGC AATGCAGCAC AAGCCAGGGG CGCACAGCAG
    CCTCCAGCAC AATCTCTTAA CTCATCTCAG CCTAACCTTC GTGCGCAAGT GCCTCCTCCC
    ATTATACCCC CTCAGGTTCC TCCTTCTTTA CTGAAGTATC CGCCAGCCAA TGGTGGTCTG
    AACCCCCTTT TTGGCCCCCA GCACGTAGCC ATGTTGAACC AGCTTTCCCA ATTAAACCAG
    CTTTCCCAGC TGCAAAGGTT ATTGAATCAG CAGCAGAAGA TTCAGAACCA GAGGGGGGTG
    CCTTCAGGAG GTCGCCAACA ACATGAGCAG GCCCGGTCTC TTGGTACGCA GCAGCCGGCA
    CGTCAGCTTG ATCCCAACCT GCTGATGAAG CAGAGCATTT CTCAATCACA GCAGCAAATG
    CTTCACCAGC CTCCCATGAA ATCCTTTCTG GAGAATGTGC TGCCCCACTC TGCCCCTGAG
    CTACCAAAAG TCCCTTCACC AATCAGTTCT TTTGGTGGCT TCCCTTCAGG CTTGAACTCA
    AATTCGAATG TAAATATGGA TCTCGGAGTT GTAAAGGAGC CACAGTCACG ACTGAGGAAG
    TGGACAACAG TTGACAGCAT GTCTTCTAAT ACTTCTCTGG ATCAAAATTC CAGTAACCAT
    GGTGCTATTT CAAGTGGTTT CAGGCTTGAA GATTCTCCTT TTGGTTCTTA TGACTTTATG
    AACAGCAGTA ACTCTCCATC CAGCCCTCCA GGATCTATTG GGGATGGCTG GCCTAGTGCC
    AAATCGCCAA ATGGCTCCAG CAGTGTCAAC TGGCCCCCTG AATTCCGTCC GGGTGAGCCA
    TGGAAAGGAT ATCCAAACAT TGACCCAGAA ACTGACCCTT ATGTCACTCC TGGCAGTGTC
    ATCAACAATT TGTCAATTAA TACTGTGCGG GGTGTTGACC ACCTCAGGGA CAGAAACAGT
    GGGTCATCCT CATCTTTGAA CACCACGCTG CCTTCAACTA GTGCCTGGTC CTCCATTCGT
    GCCTCCAACT ACAGTGTCTC CCACAGCAGT ACAGCACAAA GCACTTCAGT AAGAAACAGT
    GACCCCAAAC CTGCTTGGTC TCCTGGTTCC GTCGCTAACA CTTCTCTGGC TCATGAACTG
    TGGAAAGTCC CTTTGCCATC TAAAAACATC AGTGCTCCGT CCAGGCCTCC CCCAGGGCTG
    ACTGGTCAGA AGCCACCTTT ATCCACCTGG GATACCAACT CCCTGCGTCT TGGTGGGTGG
    GGAAGTTCTG ACTCAAGATA CACACCAGGT TCTACCTGGA GTGAAAACAG CTCAGGGAGA
    ATAACAAATT GGCTCGTTCT GAAAAACCTA ACACCTCAGA TTGATGGCTC TACTCTGCGT
    ACTTTGTGCA TGCAGCATGG GCCTTTGATA ACATTCCACC TGAACCTGCC CCATGGTACT
    GCTCTTGTCC GTTACAGTTC CAAGGAAGAG GTAGTGAAGG CACAAAAGTC TCTGCACATG
    TGTGTTTTAG GGAACACTAC TATACTTGCT GAGTTTGCCA GTGAAGAGGA GATAAGTCGT
    TTCTTTGCAC AAGGCCAGTC TCTGACTCCT TCCCCTGGCT GGCAGTCCCT TGGGTCTGGG
    CACAGCCGAC TGGGATCCCT AGACAGTCCT CACAGCATCT CGAACCGTGG AGATATCAAT
    CACTGGAACA GTCCAGGAGC TTCTGGCTCT AGCTCTGGAG ACCTTCATGG CACTTCTCTC
    TGGGGCACCC CAAATTATTC AACAAGCTTA TGGGGTAACC CCAGTAATGA GGGCAGGGGC
    TTGAGCAGTC CATCACCTGT CCCCGCTTTC CTTTCTGTTG ATCAGTTAAA CGGAGAGCCC
    ATGTAG

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