cacna1s cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following cacna1s gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the cacna1s 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
OXa42945 XM_018091822.1
Latest version!
Xenopus tropicalis calcium channel, voltage-dependent, L type, alpha 1S subunit (cacna1s), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OXa52223 XM_031896822.1
Latest version!
Xenopus tropicalis calcium channel, voltage-dependent, L type, alpha 1S subunit (cacna1s), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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 OXa42945
    Clone ID Related Accession (Same CDS sequence) XM_018091822.1
    Accession Version XM_018091822.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4944bp)
    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 voltage-dependent L-type calcium channel subunit alpha-1S
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGCTTCCAA GTGGCACCAC AATGGAGGAA GGAACTCAGA AGAAAAAAAA GAAGCCGCTA 
    GTGCCACCTT CTCCACGCCC CCCTCGTTCA CTTTTCTGCC TTGGACTGCA AAACCCATTC
    AGGAAAAGCT GCATAAATAT TGTTGAATGG AAACCATTTG AGATGATCAT TCTGTTGACC
    ATATTTGCTA ACTGCATCGC ACTAGCCATC TACCTGCCCA TGCCAGAGGA TGACACCAAC
    TCAGTTAACA CAATCCTGGA AAAGATTGAA TATATCTTCC TTTTTATATT CACCATTGAA
    GCAGCTCTAA AGATAGTAGC ATATGGGTTT ATTCTACATT CTGATGCATA CCTACGCAAT
    TGCTGGAATA TCTTGGACTT CACCATTGTC TCTGTTGGAC TTTTCACAAT TGTCCTGGAA
    CAAATCAATA AGGTTCAGGG TGTAACAGCA CCAGGAGGAA CTGGCTTTAA TGTTAAAGCC
    CTGAGAGCTT TCCGTGTTCT TAGGCCTCTT CGTTTGGTGT CTGGAGTGCC AAGTCTTCAA
    GTAGTGCTGA ATTCTATAAT TAAAGCAATG GTTCCATTAC TCCACATTGC TTTGCTCGTC
    CTTTTCATGA TCATAATATA TGCTATTGTT GGAAAAGAAC TTTTCTCTGG GAAGATGCAC
    AAAACTTGTT ATTACAAAGC AACAGATGTA ATTGCCACAG TTGAGAAACC CTCCCCATGC
    AGCACAACAG GTCAGGGTCG CCAGTGCGCA ATAAATGGGA GTGAATGCAG AGGCTGGTGG
    CCAGGACCTA ACAATGGCAT TACACACTTT GACAATTTCG GTTTTGCCAT GCTGACTGTA
    TATCAGTGCA TCACCATGGA GGGATGGACA GAGGTGCTCT ACTGGGTCAA TGATGCTATT
    GGCAATGAAT GGCCCTGGAT TTACTTTGTA AGTCTTATCC TACTTGGATC GTTCTTCGTA
    CTCAATCTAG TTTTGGGTGT CCTGAGCGGA GAGTTCACCA AGGAGCGTGA AAAAGCAAAA
    TCACGGGGTG CTTTCCAGAA GTTGAGAGAA CAACAGGCAA TGGATGAGGA TCTGCGGGGT
    TATTTGGACT GGATCACACA TGCTGAAGTC ATGGACCCAG ACATGGAACA AGGAGATGGA
    TTTTCACAAT TAGAAGAAGG TTGCTCAGAG ACAGAAAGTC TCTATGAATT GGAGGGAATA
    AACAAGTTTA TAAGCTTCTT GAAACAGTGG CGTCATTGGC ACCGGCTCCT GCGCAGGAAG
    TGTCGTGATC TTGTAAAATC CAGATTTTTC TATTGGTTTG TTATCCTTAT CATTCTATTT
    AACACCATTA CCATAGCAAC AGAGCATCAT AACCAGCCAG AATGGCTGAC TAAAGCCCAA
    GATATCGCAA ATCAAGTACT TTTGGCAATG TTCACTTTAG AAATGGTACT GAAGATATAT
    GCATTGGGCT TCCAGTCATA TTTTATGTCA CTATTTAATC GGTTTGACTG CTTTGTGGTA
    TGTACTGGTA TTCTAGAGAT TTTGCTGGTC TCCAGCAACA TTATGTCTCC TCTTGGAATA
    TCAGTCCTCC GTTGTATTCG ATTACTGAGG ATCTTCAAGA TCACACGGTA CTGGACATCC
    TTAAATAATC TGGTGGCTTC TCTTCTCAAC TCTGTTCGTT CTATTGCTTC TCTCCTCCTT
    CTGCTTTTCC TCTTCATGAT CATCTTTGCT CTGCTTGGAA TGCAGATGTT TGGTGGCAAG
    TTTGACTTTG AGGATACAGA GATTCGCAGG AGTACATTTG ATAACTTTCC ACAGTCGCTG
    ATCACTGTCT TCCAGATATT GACTGGGGAG GACTGGAACT CTGTCATGTA TAATGGAATA
    ATGGCCTATG GTGGTCCTAC TTTCCCTGGA ATGTTTGTCT GCATCTATTT CATTATCTTG
    TTCGTTTGTG GGAATTATAT TTTGCTGAAT GTGTTTCTTG CTATTGCAGT TGATAATTTA
    GCAGAGGCAG AGAATCTCAC ATCCGCTCAA AAAGCGAAGG CTGAGGAACG CAAGAGGAAA
    AAGTTAGCTC GTACTCTTAT TCACTGCAAC CTCTCTAATG CCCTTTTAGG TGATGATGAA
    GAAGAGGAAC CAGAAATTCC TATCAGTCCT CGACCACGGC CCTTGGCAGA GCTTCAACTG
    AAAGAGAAGG CAGTGCCCAT GCCTGATGCT AGTTCTTTTT TTATCTTTGG CCCCACTAAC
    AAGTTCCGGG TTCTTTGTCA CCGCATTGTT AATGCCACGA CTTTTACAAA TTTTATCCTG
    CTGTTCATTC TGCTTAGCAG CATCTCCTTG GCTGCTGAGG ATCCAATTGA GCCAGAGTCA
    TTTCGCAATC AGATCCTTGC TTATTTTGAT TATGTTTTCA CTGCCATTTT TACAACTGAA
    ATTGCTTTGA AGATGACTAC ATATGGTGCA TTTCTTCATA AAGGCTCATT CTGCAGAAAT
    TATTTTAACA TTCTTGATCT TCTGGTAGTT GCCGTTTCTC TTGTCTCTTT TGGTATCCAA
    TCAAGTGCTA TCTCTGTAGT GAAAATTCTG AGGGTTCTCA GAGTTTTGCG CCCTCTCAGA
    GCAATAAACC GTGCCAAGGG TCTAAAGCAT GTGGTTCAGT GTGTTTTTGT AGCTATAAAA
    ACCATTGGAA ACATTGTTCT TGTGACCACC CTTCTACAGT TCATGTTCTC TTGTATTGGA
    GTGCAACTAT TTAAGGGCAA GTTTTACAGC TGCACAGACA CCACCAAAAT GACAGAGGAA
    GAATGCAGGG GGTATTTTAT TGTGGCAAAG GATGGGGACT CAACTCAAAT TCAGCTAAGA
    GAGAGAATTT GGACTCACAG TGACTTCCAC TTTGATAATG TCCTCTCTGG CATGATGTCT
    CTCTTTACAA TCTCTACCTT TGAGGGCTGG CCTCAGTTGC TGTATAGAGC AATAGATTCA
    CATTCGGAGG ATATGGGGCC TATCTACAAT TATCGCATTG AGATTGCCGT CTTCTTCATT
    ATCTACATAA TCCTTATAGC TTTTTTTATG ATGAACATCT TTGTGGGGTT TGTTATTGTC
    ACTTTCCAGG AACAGGGGGA GCAAGAGTAC AAAAACTGTG AGCTTGACAA GAACCAGAGG
    CAATGTGTAC AGTATGCTTT AAAGGCACGT CCTCTACGAC GATACATACC AAAGAATCAA
    CACCAGTATA AGATCTGGTA CCTTGTTACC TCCTCATACT TTGAATATCT GATGTTTGCA
    CTTATCATGC TGAATACAAT CAGTCTTGGA ATGCAGCACT ATGGGCAGAC AGCAGAGTTC
    AGTCACCTGT CTGATATCCT TAACGTGGCA TTCACTGGAA TCTTCACTGT GGAAATGGTA
    CTTAAATTGG CAGCATTTAA AGCCAAAGGG TACTTTGGAG ATCCATGGAA TGTTTTTGAT
    TTTTTGATTG TTATTGGGAG TATAATTGAT GTCATCCTCA GTGAGATAGA TACACCAGAA
    CCAGTAGTAA CTCCAGGCTC TGAAGATACT TCTCGAATTT CCATCACATT TTTTAGGTTG
    TTTCGTGTAA TGCGCCTTGT GAAGCTTCTA AGCCGTGGAG AGGGAGTCAG AACTCTACTC
    TGGACTTTTA TTAAATCCTT TCAGGCACTT CCATATGTGG CACTGCTCAT AGTAATGCTA
    TTTTTTATCT ACGCTGTCAT TGGAATGCAG GTTTTTGGTA AAATTGCCAT GGTTGATGGA
    ACGCAAATAA ATCGCAACAA CAACTTTCAG ACTTTCCCTC AGGCTGTACT AGTGCTCTTT
    AGGTGTGCAA CTGGGGAGGC CTGGCAGGAA ATTCTTCTGG CCTGTTCTTA TGGAAAGCTG
    TGTGATCCAA AGTCTGATTT CCTGCCTGGT GAGGAATACA CATGTGGGAC CAGCTTTGCA
    TACTTCTATT TCATTAGTTT CTACATGCTT TGTGCTTTCT TGATCATCAA CCTCTTTGTC
    GCTGTGATCA TGGATAATTT TGACTACCTG ACCCGTGATT GGTCTATTCT GGGGCCACAC
    CATTTGGATG AGTTTAAAAG GATCTGGGCA GAGTATGACC CTGAAGCCAA GGGGCGAATC
    AAGCACCTTG ATGTAGTTAC ACTCCTTCGA CGAATTCAAC CTCCTCTTGG TTTTGGAAAG
    TTCTGTCCTC ATCGTGTAGC TTGTAAGAGA TTGGTCAGTA TGAATATGCC TTTAAACAGT
    GATGGGACAG TAACCTTCAA TGCTACTTTG TTTTCCCTTG TGAGAACAGC TTTAAAAATC
    AAGACTGAAG GTAATTTTGA ACAAAGCAAT GAAGAGTTGA GAATGATAAT TAAGAAAATT
    TGGAAAAGGA CGAGCATGAA ATTGCTAGAC CAGGTTATAC CACCAATTGG AGATGATGAG
    GTGACAGTGG GAAAGTTTTA TGCAATTTTC CTCATCCAAG AACATTTTAG GAAGTTTAAA
    AAACGTCAAG AAGAGTATTA TGGTTACCGG CCAAAGAAAA ATAATGTGGA AATCCAGGCT
    GGGTTGCGTA CTGTGGAAGA GGAGGTGGAG CCAGAAATGC AACGAGCCAT CTCTGGTGAC
    TTAACAGCTG AAGAGGAGCT GGAGAGAGCC ATGGTAGAAG CGGCAATTGA GGAAGGCATA
    TATCGGAGGA CAGGAGGACT TTTTGGCCAA GAAGAAAATT TCCCAGAACC TGTAAGCCCT
    GTTCACACTA CTATCACAAG TCAGCGGCCA TTGCGTTTTT CTGAAGCTGG AAGTGAGGAT
    CTAGAGTCCC CCGTTTTTCT TCCAGACCCT GTGTTTTTTC CACCCCCACG GCGAAACCGC
    AATACCAACA ACAGTACATT ATCAAGGGGA CTGGGAGAGA GGCTCACTAC TCCAGAAGAA
    GACCTGAAGC AAAACATTTC AGAACAATGG GATGCCTCTA CTAATGCAAG CCAAGAGGAC
    CTAAGTGATC ACTTCTCCTT GTGA

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

    RefSeq XP_017947311.1
    CDS288..5231
    Translation

    Target ORF information:

    RefSeq Version XM_018091822.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis calcium channel, voltage-dependent, L type, alpha 1S subunit (cacna1s), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018091822.1

    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
    ATGCTTCCAA GTGGCACCAC AATGGAGGAA GGAACTCAGA AGAAAAAAAA GAAGCCGCTA 
    GTGCCACCTT CTCCACGCCC CCCTCGTTCA CTTTTCTGCC TTGGACTGCA AAACCCATTC
    AGGAAAAGCT GCATAAATAT TGTTGAATGG AAACCATTTG AGATGATCAT TCTGTTGACC
    ATATTTGCTA ACTGCATCGC ACTAGCCATC TACCTGCCCA TGCCAGAGGA TGACACCAAC
    TCAGTTAACA CAATCCTGGA AAAGATTGAA TATATCTTCC TTTTTATATT CACCATTGAA
    GCAGCTCTAA AGATAGTAGC ATATGGGTTT ATTCTACATT CTGATGCATA CCTACGCAAT
    TGCTGGAATA TCTTGGACTT CACCATTGTC TCTGTTGGAC TTTTCACAAT TGTCCTGGAA
    CAAATCAATA AGGTTCAGGG TGTAACAGCA CCAGGAGGAA CTGGCTTTAA TGTTAAAGCC
    CTGAGAGCTT TCCGTGTTCT TAGGCCTCTT CGTTTGGTGT CTGGAGTGCC AAGTCTTCAA
    GTAGTGCTGA ATTCTATAAT TAAAGCAATG GTTCCATTAC TCCACATTGC TTTGCTCGTC
    CTTTTCATGA TCATAATATA TGCTATTGTT GGAAAAGAAC TTTTCTCTGG GAAGATGCAC
    AAAACTTGTT ATTACAAAGC AACAGATGTA ATTGCCACAG TTGAGAAACC CTCCCCATGC
    AGCACAACAG GTCAGGGTCG CCAGTGCGCA ATAAATGGGA GTGAATGCAG AGGCTGGTGG
    CCAGGACCTA ACAATGGCAT TACACACTTT GACAATTTCG GTTTTGCCAT GCTGACTGTA
    TATCAGTGCA TCACCATGGA GGGATGGACA GAGGTGCTCT ACTGGGTCAA TGATGCTATT
    GGCAATGAAT GGCCCTGGAT TTACTTTGTA AGTCTTATCC TACTTGGATC GTTCTTCGTA
    CTCAATCTAG TTTTGGGTGT CCTGAGCGGA GAGTTCACCA AGGAGCGTGA AAAAGCAAAA
    TCACGGGGTG CTTTCCAGAA GTTGAGAGAA CAACAGGCAA TGGATGAGGA TCTGCGGGGT
    TATTTGGACT GGATCACACA TGCTGAAGTC ATGGACCCAG ACATGGAACA AGGAGATGGA
    TTTTCACAAT TAGAAGAAGG TTGCTCAGAG ACAGAAAGTC TCTATGAATT GGAGGGAATA
    AACAAGTTTA TAAGCTTCTT GAAACAGTGG CGTCATTGGC ACCGGCTCCT GCGCAGGAAG
    TGTCGTGATC TTGTAAAATC CAGATTTTTC TATTGGTTTG TTATCCTTAT CATTCTATTT
    AACACCATTA CCATAGCAAC AGAGCATCAT AACCAGCCAG AATGGCTGAC TAAAGCCCAA
    GATATCGCAA ATCAAGTACT TTTGGCAATG TTCACTTTAG AAATGGTACT GAAGATATAT
    GCATTGGGCT TCCAGTCATA TTTTATGTCA CTATTTAATC GGTTTGACTG CTTTGTGGTA
    TGTACTGGTA TTCTAGAGAT TTTGCTGGTC TCCAGCAACA TTATGTCTCC TCTTGGAATA
    TCAGTCCTCC GTTGTATTCG ATTACTGAGG ATCTTCAAGA TCACACGGTA CTGGACATCC
    TTAAATAATC TGGTGGCTTC TCTTCTCAAC TCTGTTCGTT CTATTGCTTC TCTCCTCCTT
    CTGCTTTTCC TCTTCATGAT CATCTTTGCT CTGCTTGGAA TGCAGATGTT TGGTGGCAAG
    TTTGACTTTG AGGATACAGA GATTCGCAGG AGTACATTTG ATAACTTTCC ACAGTCGCTG
    ATCACTGTCT TCCAGATATT GACTGGGGAG GACTGGAACT CTGTCATGTA TAATGGAATA
    ATGGCCTATG GTGGTCCTAC TTTCCCTGGA ATGTTTGTCT GCATCTATTT CATTATCTTG
    TTCGTTTGTG GGAATTATAT TTTGCTGAAT GTGTTTCTTG CTATTGCAGT TGATAATTTA
    GCAGAGGCAG AGAATCTCAC ATCCGCTCAA AAAGCGAAGG CTGAGGAACG CAAGAGGAAA
    AAGTTAGCTC GTACTCTTAT TCACTGCAAC CTCTCTAATG CCCTTTTAGG TGATGATGAA
    GAAGAGGAAC CAGAAATTCC TATCAGTCCT CGACCACGGC CCTTGGCAGA GCTTCAACTG
    AAAGAGAAGG CAGTGCCCAT GCCTGATGCT AGTTCTTTTT TTATCTTTGG CCCCACTAAC
    AAGTTCCGGG TTCTTTGTCA CCGCATTGTT AATGCCACGA CTTTTACAAA TTTTATCCTG
    CTGTTCATTC TGCTTAGCAG CATCTCCTTG GCTGCTGAGG ATCCAATTGA GCCAGAGTCA
    TTTCGCAATC AGATCCTTGC TTATTTTGAT TATGTTTTCA CTGCCATTTT TACAACTGAA
    ATTGCTTTGA AGATGACTAC ATATGGTGCA TTTCTTCATA AAGGCTCATT CTGCAGAAAT
    TATTTTAACA TTCTTGATCT TCTGGTAGTT GCCGTTTCTC TTGTCTCTTT TGGTATCCAA
    TCAAGTGCTA TCTCTGTAGT GAAAATTCTG AGGGTTCTCA GAGTTTTGCG CCCTCTCAGA
    GCAATAAACC GTGCCAAGGG TCTAAAGCAT GTGGTTCAGT GTGTTTTTGT AGCTATAAAA
    ACCATTGGAA ACATTGTTCT TGTGACCACC CTTCTACAGT TCATGTTCTC TTGTATTGGA
    GTGCAACTAT TTAAGGGCAA GTTTTACAGC TGCACAGACA CCACCAAAAT GACAGAGGAA
    GAATGCAGGG GGTATTTTAT TGTGGCAAAG GATGGGGACT CAACTCAAAT TCAGCTAAGA
    GAGAGAATTT GGACTCACAG TGACTTCCAC TTTGATAATG TCCTCTCTGG CATGATGTCT
    CTCTTTACAA TCTCTACCTT TGAGGGCTGG CCTCAGTTGC TGTATAGAGC AATAGATTCA
    CATTCGGAGG ATATGGGGCC TATCTACAAT TATCGCATTG AGATTGCCGT CTTCTTCATT
    ATCTACATAA TCCTTATAGC TTTTTTTATG ATGAACATCT TTGTGGGGTT TGTTATTGTC
    ACTTTCCAGG AACAGGGGGA GCAAGAGTAC AAAAACTGTG AGCTTGACAA GAACCAGAGG
    CAATGTGTAC AGTATGCTTT AAAGGCACGT CCTCTACGAC GATACATACC AAAGAATCAA
    CACCAGTATA AGATCTGGTA CCTTGTTACC TCCTCATACT TTGAATATCT GATGTTTGCA
    CTTATCATGC TGAATACAAT CAGTCTTGGA ATGCAGCACT ATGGGCAGAC AGCAGAGTTC
    AGTCACCTGT CTGATATCCT TAACGTGGCA TTCACTGGAA TCTTCACTGT GGAAATGGTA
    CTTAAATTGG CAGCATTTAA AGCCAAAGGG TACTTTGGAG ATCCATGGAA TGTTTTTGAT
    TTTTTGATTG TTATTGGGAG TATAATTGAT GTCATCCTCA GTGAGATAGA TACACCAGAA
    CCAGTAGTAA CTCCAGGCTC TGAAGATACT TCTCGAATTT CCATCACATT TTTTAGGTTG
    TTTCGTGTAA TGCGCCTTGT GAAGCTTCTA AGCCGTGGAG AGGGAGTCAG AACTCTACTC
    TGGACTTTTA TTAAATCCTT TCAGGCACTT CCATATGTGG CACTGCTCAT AGTAATGCTA
    TTTTTTATCT ACGCTGTCAT TGGAATGCAG GTTTTTGGTA AAATTGCCAT GGTTGATGGA
    ACGCAAATAA ATCGCAACAA CAACTTTCAG ACTTTCCCTC AGGCTGTACT AGTGCTCTTT
    AGGTGTGCAA CTGGGGAGGC CTGGCAGGAA ATTCTTCTGG CCTGTTCTTA TGGAAAGCTG
    TGTGATCCAA AGTCTGATTT CCTGCCTGGT GAGGAATACA CATGTGGGAC CAGCTTTGCA
    TACTTCTATT TCATTAGTTT CTACATGCTT TGTGCTTTCT TGATCATCAA CCTCTTTGTC
    GCTGTGATCA TGGATAATTT TGACTACCTG ACCCGTGATT GGTCTATTCT GGGGCCACAC
    CATTTGGATG AGTTTAAAAG GATCTGGGCA GAGTATGACC CTGAAGCCAA GGGGCGAATC
    AAGCACCTTG ATGTAGTTAC ACTCCTTCGA CGAATTCAAC CTCCTCTTGG TTTTGGAAAG
    TTCTGTCCTC ATCGTGTAGC TTGTAAGAGA TTGGTCAGTA TGAATATGCC TTTAAACAGT
    GATGGGACAG TAACCTTCAA TGCTACTTTG TTTTCCCTTG TGAGAACAGC TTTAAAAATC
    AAGACTGAAG GTAATTTTGA ACAAAGCAAT GAAGAGTTGA GAATGATAAT TAAGAAAATT
    TGGAAAAGGA CGAGCATGAA ATTGCTAGAC CAGGTTATAC CACCAATTGG AGATGATGAG
    GTGACAGTGG GAAAGTTTTA TGCAATTTTC CTCATCCAAG AACATTTTAG GAAGTTTAAA
    AAACGTCAAG AAGAGTATTA TGGTTACCGG CCAAAGAAAA ATAATGTGGA AATCCAGGCT
    GGGTTGCGTA CTGTGGAAGA GGAGGTGGAG CCAGAAATGC AACGAGCCAT CTCTGGTGAC
    TTAACAGCTG AAGAGGAGCT GGAGAGAGCC ATGGTAGAAG CGGCAATTGA GGAAGGCATA
    TATCGGAGGA CAGGAGGACT TTTTGGCCAA GAAGAAAATT TCCCAGAACC TGTAAGCCCT
    GTTCACACTA CTATCACAAG TCAGCGGCCA TTGCGTTTTT CTGAAGCTGG AAGTGAGGAT
    CTAGAGTCCC CCGTTTTTCT TCCAGACCCT GTGTTTTTTC CACCCCCACG GCGAAACCGC
    AATACCAACA ACAGTACATT ATCAAGGGGA CTGGGAGAGA GGCTCACTAC TCCAGAAGAA
    GACCTGAAGC AAAACATTTC AGAACAATGG GATGCCTCTA CTAATGCAAG CCAAGAGGAC
    CTAAGTGATC ACTTCTCCTT GTGA

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

    CloneID OXa52223
    Clone ID Related Accession (Same CDS sequence) XM_031896822.1
    Accession Version XM_031896822.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5070bp)
    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 voltage-dependent L-type calcium channel subunit alpha-1S
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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##

    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
    ATGCTTCCAA GTGGCACCAC AATGGAGGAA GGAACTCAGA AGAAAAAAAA GAAGCCGCTA 
    GTGCCACCTT CTCCACGCCC CCCTCGTTCA CTTTTCTGCC TTGGACTGCA AAACCCATTC
    AGGAAAAGCT GCATAAATAT TGTTGAATGG AAACCATTTG AGATGATCAT TCTGTTGACC
    ATATTTGCTA ACTGCATCGC ACTAGCCATC TACCTGCCCA TGCCAGAGGA TGACACCAAC
    TCAGTTAACA CAATCCTGGA AAAGATTGAA TATATCTTCC TTTTTATATT CACCATTGAA
    GCAGCTCTAA AGATAGTAGC ATATGGGTTT ATTCTACATT CTGATGCATA CCTACGCAAT
    TGCTGGAATA TCTTGGACTT CACCATTGTC TCTGTTGGAC TTTTCACAAT TGTCCTGGAA
    CAAATCAATA AGGTTCAGGG TGTAACAGCA CCAGGAGGAA CTGGCTTTAA TGTTAAAGCC
    CTGAGAGCTT TCCGTGTTCT TAGGCCTCTT CGTTTGGTGT CTGGAGTGCC AAGTCTTCAA
    GTAGTGCTGA ATTCTATAAT TAAAGCAATG GTTCCATTAC TCCACATTGC TTTGCTCGTC
    CTTTTCATGA TCATAATATA TGCTATTGTT GGAAAAGAAC TTTTCTCTGG GAAGATGCAC
    AAAACTTGTT ATTACAAAGC AACAGATGTA ATTGCCACAG TTGAGAAACC CTCCCCATGC
    AGCACAACAG GTCAGGGTCG CCAGTGCGCA ATAAATGGGA GTGAATGCAG AGGCTGGTGG
    CCAGGACCTA ACAATGGCAT TACACACTTT GACAATTTCG GTTTTGCCAT GCTGACTGTA
    TATCAGTGCA TCACCATGGA GGGATGGACA GAGGTGCTCT ACTGGGTCAA TGATGCTATT
    GGCAATGAAT GGCCCTGGAT TTACTTTGTA AGTCTTATCC TACTTGGATC GTTCTTCGTA
    CTCAATCTAG TTTTGGGTGT CCTGAGCGGA GAGTTCACCA AGGAGCGTGA AAAAGCAAAA
    TCACGGGGTG CTTTCCAGAA GTTGAGAGAA CAACAGGCAA TGGATGAGGA TCTGCGGGGT
    TATTTGGACT GGATCACACA TGCTGAAGTC ATGGACCCAG ACATGGAACA AGGAGATGGA
    TTTTCACAAT TAGAAGAAGG TTGCTCAGAG ACAGAAAGTC TCTATGAATT GGAGGGAATA
    AACAAGTTTA TAAGCTTCTT GAAACAGTGG CGTCATTGGC ACCGGCTCCT GCGCAGGAAG
    TGTCGTGATC TTGTAAAATC CAGATTTTTC TATTGGTTTG TTATCCTTAT CATTCTATTT
    AACACCATTA CCATAGCAAC AGAGCATCAT AACCAGCCAG AATGGCTGAC TAAAGCCCAA
    GATATCGCAA ATCAAGTACT TTTGGCAATG TTCACTTTAG AAATGGTACT GAAGATATAT
    GCATTGGGCT TCCAGTCATA TTTTATGTCA CTATTTAATC GGTTTGACTG CTTTGTGGTA
    TGTACTGGTA TTCTAGAGAT TTTGCTGGTC TCCAGCAACA TTATGTCTCC TCTTGGAATA
    TCAGTCCTCC GTTGTATTCG ATTACTGAGG ATCTTCAAGA TCACACGGTA CTGGACATCC
    TTAAATAATC TGGTGGCTTC TCTTCTCAAC TCTGTTCGTT CTATTGCTTC TCTCCTCCTT
    CTGCTTTTCC TCTTCATGAT CATCTTTGCT CTGCTTGGAA TGCAGATGTT TGGTGGCAAG
    TTTGACTTTG AGGATACAGA GATTCGCAGG AGTACATTTG ATAACTTTCC ACAGTCGCTG
    ATCACTGTCT TCCAGATATT GACTGGGGAG GACTGGAACT CTGTCATGTA TAATGGAATA
    ATGGCCTATG GTGGTCCTAC TTTCCCTGGA ATGTTTGTCT GCATCTATTT CATTATCTTG
    TTCGTTTGTG GGAATTATAT TTTGCTGAAT GTGTTTCTTG CTATTGCAGT TGATAATTTA
    GCAGAGGCAG AGAATCTCAC ATCCGCTCAA AAAGCGAAGG CTGAGGAACG CAAGAGGAAA
    AAGTTAGCTC GTGCTCATCC TGACAAATCA GAAGAAGAAA AGTTGTTACT GGCAAAGAAA
    CTAGAAATGA AAGCAAAAGG TGAAGGTATA CCCACTACAG CCAAGCTAAA GATAGATGAA
    TTTGAGTCTA ATGTTAATGA AATAAAGGAT CCATATCCAT CTGCAGACTT CCCAGGTGAT
    GATGAAGAAG AGGAACCAGA AATTCCTATC AGTCCTCGAC CACGGCCCTT GGCAGAGCTT
    CAACTGAAAG AGAAGGCAGT GCCCATGCCT GATGCTAGTT CTTTTTTTAT CTTTGGCCCC
    ACTAACAAGT TCCGGGTTCT TTGTCACCGC ATTGTTAATG CCACGACTTT TACAAATTTT
    ATCCTGCTGT TCATTCTGCT TAGCAGCATC TCCTTGGCTG CTGAGGATCC AATTGAGCCA
    GAGTCATTTC GCAATCAGAT CCTTGCTTAT TTTGATTATG TTTTCACTGC CATTTTTACA
    ACTGAAATTG CTTTGAAGAT GACTACATAT GGTGCATTTC TTCATAAAGG CTCATTCTGC
    AGAAATTATT TTAACATTCT TGATCTTCTG GTAGTTGCCG TTTCTCTTGT CTCTTTTGGT
    ATCCAATCAA GTGCTATCTC TGTAGTGAAA ATTCTGAGGG TTCTCAGAGT TTTGCGCCCT
    CTCAGAGCAA TAAACCGTGC CAAGGGTCTA AAGCATGTGG TTCAGTGTGT TTTTGTAGCT
    ATAAAAACCA TTGGAAACAT TGTTCTTGTG ACCACCCTTC TACAGTTCAT GTTCTCTTGT
    ATTGGAGTGC AACTATTTAA GGGCAAGTTT TACAGCTGCA CAGACACCAC CAAAATGACA
    GAGGAAGAAT GCAGGGGGTA TTTTATTGTG GCAAAGGATG GGGACTCAAC TCAAATTCAG
    CTAAGAGAGA GAATTTGGAC TCACAGTGAC TTCCACTTTG ATAATGTCCT CTCTGGCATG
    ATGTCTCTCT TTACAATCTC TACCTTTGAG GGCTGGCCTC AGTTGCTGTA TAGAGCAATA
    GATTCACATT CGGAGGATAT GGGGCCTATC TACAATTATC GCATTGAGAT TGCCGTCTTC
    TTCATTATCT ACATAATCCT TATAGCTTTT TTTATGATGA ACATCTTTGT GGGGTTTGTT
    ATTGTCACTT TCCAGGAACA GGGGGAGCAA GAGTACAAAA ACTGTGAGCT TGACAAGAAC
    CAGAGGCAAT GTGTACAGTA TGCTTTAAAG GCACGTCCTC TACGACGATA CATACCAAAG
    AATCAACACC AGTATAAGAT CTGGTACCTT GTTACCTCCT CATACTTTGA ATATCTGATG
    TTTGCACTTA TCATGCTGAA TACAATCAGT CTTGGAATGC AGCACTATGG GCAGACAGCA
    GAGTTCAGTC ACCTGTCTGA TATCCTTAAC GTGGCATTCA CTGGAATCTT CACTGTGGAA
    ATGGTACTTA AATTGGCAGC ATTTAAAGCC AAAGGGTACT TTGGAGATCC ATGGAATGTT
    TTTGATTTTT TGATTGTTAT TGGGAGTATA ATTGATGTCA TCCTCAGTGA GATAGATACA
    CCAGAACCAG TAGTAACTCC AGGCTCTGAA GATACTTCTC GAATTTCCAT CACATTTTTT
    AGGTTGTTTC GTGTAATGCG CCTTGTGAAG CTTCTAAGCC GTGGAGAGGG AGTCAGAACT
    CTACTCTGGA CTTTTATTAA ATCCTTTCAG GCACTTCCAT ATGTGGCACT GCTCATAGTA
    ATGCTATTTT TTATCTACGC TGTCATTGGA ATGCAGGTTT TTGGTAAAAT TGCCATGGTT
    GATGGAACGC AAATAAATCG CAACAACAAC TTTCAGACTT TCCCTCAGGC TGTACTAGTG
    CTCTTTAGGT GTGCAACTGG GGAGGCCTGG CAGGAAATTC TTCTGGCCTG TTCTTATGGA
    AAGCTGTGTG ATCCAAAGTC TGATTTCCTG CCTGGTGAGG AATACACATG TGGGACCAGC
    TTTGCATACT TCTATTTCAT TAGTTTCTAC ATGCTTTGTG CTTTCTTGAT CATCAACCTC
    TTTGTCGCTG TGATCATGGA TAATTTTGAC TACCTGACCC GTGATTGGTC TATTCTGGGG
    CCACACCATT TGGATGAGTT TAAAAGGATC TGGGCAGAGT ATGACCCTGA AGCCAAGGGG
    CGAATCAAGC ACCTTGATGT AGTTACACTC CTTCGACGAA TTCAACCTCC TCTTGGTTTT
    GGAAAGTTCT GTCCTCATCG TGTAGCTTGT AAGAGATTGG TCAGTATGAA TATGCCTTTA
    AACAGTGATG GGACAGTAAC CTTCAATGCT ACTTTGTTTT CCCTTGTGAG AACAGCTTTA
    AAAATCAAGA CTGAAGGTAA TTTTGAACAA AGCAATGAAG AGTTGAGAAT GATAATTAAG
    AAAATTTGGA AAAGGACGAG CATGAAATTG CTAGACCAGG TTATACCACC AATTGGAGAT
    GATGAGGTGA CAGTGGGAAA GTTTTATGCA ATTTTCCTCA TCCAAGAACA TTTTAGGAAG
    TTTAAAAAAC GTCAAGAAGA GTATTATGGT TACCGGCCAA AGAAAAATAA TGTGGAAATC
    CAGGCTGGGT TGCGTACTGT GGAAGAGGAG GTGGAGCCAG AAATGCAACG AGCCATCTCT
    GGTGACTTAA CAGCTGAAGA GGAGCTGGAG AGAGCCATGG TAGAAGCGGC AATTGAGGAA
    GGCATATATC GGAGGACAGG AGGACTTTTT GGCCAAGAAG AAAATTTCCC AGAACCTGTA
    AGCCCTGTTC ACACTACTAT CACAAGTCAG CGGCCATTGC GTTTTTCTGA AGCTGGAAGT
    GAGGATCTAG AGTCCCCCGT TTTTCTTCCA GACCCTGTGT TTTTTCCACC CCCACGGCGA
    AACCGCAATA CCAACAACAG TACATTATCA AGGGGACTGG GAGAGAGGCT CACTACTCCA
    GAAGAAGACC TGAAGCAAAA CATTTCAGAA CAATGGGATG CCTCTACTAA TGCAAGCCAA
    GAGGACCTAA GTGATCACTT CTCCTTGTGA

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

    RefSeq XP_031752682.1
    CDS284..5353
    Translation

    Target ORF information:

    RefSeq Version XM_031896822.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis calcium channel, voltage-dependent, L type, alpha 1S subunit (cacna1s), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896822.1

    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
    ATGCTTCCAA GTGGCACCAC AATGGAGGAA GGAACTCAGA AGAAAAAAAA GAAGCCGCTA 
    GTGCCACCTT CTCCACGCCC CCCTCGTTCA CTTTTCTGCC TTGGACTGCA AAACCCATTC
    AGGAAAAGCT GCATAAATAT TGTTGAATGG AAACCATTTG AGATGATCAT TCTGTTGACC
    ATATTTGCTA ACTGCATCGC ACTAGCCATC TACCTGCCCA TGCCAGAGGA TGACACCAAC
    TCAGTTAACA CAATCCTGGA AAAGATTGAA TATATCTTCC TTTTTATATT CACCATTGAA
    GCAGCTCTAA AGATAGTAGC ATATGGGTTT ATTCTACATT CTGATGCATA CCTACGCAAT
    TGCTGGAATA TCTTGGACTT CACCATTGTC TCTGTTGGAC TTTTCACAAT TGTCCTGGAA
    CAAATCAATA AGGTTCAGGG TGTAACAGCA CCAGGAGGAA CTGGCTTTAA TGTTAAAGCC
    CTGAGAGCTT TCCGTGTTCT TAGGCCTCTT CGTTTGGTGT CTGGAGTGCC AAGTCTTCAA
    GTAGTGCTGA ATTCTATAAT TAAAGCAATG GTTCCATTAC TCCACATTGC TTTGCTCGTC
    CTTTTCATGA TCATAATATA TGCTATTGTT GGAAAAGAAC TTTTCTCTGG GAAGATGCAC
    AAAACTTGTT ATTACAAAGC AACAGATGTA ATTGCCACAG TTGAGAAACC CTCCCCATGC
    AGCACAACAG GTCAGGGTCG CCAGTGCGCA ATAAATGGGA GTGAATGCAG AGGCTGGTGG
    CCAGGACCTA ACAATGGCAT TACACACTTT GACAATTTCG GTTTTGCCAT GCTGACTGTA
    TATCAGTGCA TCACCATGGA GGGATGGACA GAGGTGCTCT ACTGGGTCAA TGATGCTATT
    GGCAATGAAT GGCCCTGGAT TTACTTTGTA AGTCTTATCC TACTTGGATC GTTCTTCGTA
    CTCAATCTAG TTTTGGGTGT CCTGAGCGGA GAGTTCACCA AGGAGCGTGA AAAAGCAAAA
    TCACGGGGTG CTTTCCAGAA GTTGAGAGAA CAACAGGCAA TGGATGAGGA TCTGCGGGGT
    TATTTGGACT GGATCACACA TGCTGAAGTC ATGGACCCAG ACATGGAACA AGGAGATGGA
    TTTTCACAAT TAGAAGAAGG TTGCTCAGAG ACAGAAAGTC TCTATGAATT GGAGGGAATA
    AACAAGTTTA TAAGCTTCTT GAAACAGTGG CGTCATTGGC ACCGGCTCCT GCGCAGGAAG
    TGTCGTGATC TTGTAAAATC CAGATTTTTC TATTGGTTTG TTATCCTTAT CATTCTATTT
    AACACCATTA CCATAGCAAC AGAGCATCAT AACCAGCCAG AATGGCTGAC TAAAGCCCAA
    GATATCGCAA ATCAAGTACT TTTGGCAATG TTCACTTTAG AAATGGTACT GAAGATATAT
    GCATTGGGCT TCCAGTCATA TTTTATGTCA CTATTTAATC GGTTTGACTG CTTTGTGGTA
    TGTACTGGTA TTCTAGAGAT TTTGCTGGTC TCCAGCAACA TTATGTCTCC TCTTGGAATA
    TCAGTCCTCC GTTGTATTCG ATTACTGAGG ATCTTCAAGA TCACACGGTA CTGGACATCC
    TTAAATAATC TGGTGGCTTC TCTTCTCAAC TCTGTTCGTT CTATTGCTTC TCTCCTCCTT
    CTGCTTTTCC TCTTCATGAT CATCTTTGCT CTGCTTGGAA TGCAGATGTT TGGTGGCAAG
    TTTGACTTTG AGGATACAGA GATTCGCAGG AGTACATTTG ATAACTTTCC ACAGTCGCTG
    ATCACTGTCT TCCAGATATT GACTGGGGAG GACTGGAACT CTGTCATGTA TAATGGAATA
    ATGGCCTATG GTGGTCCTAC TTTCCCTGGA ATGTTTGTCT GCATCTATTT CATTATCTTG
    TTCGTTTGTG GGAATTATAT TTTGCTGAAT GTGTTTCTTG CTATTGCAGT TGATAATTTA
    GCAGAGGCAG AGAATCTCAC ATCCGCTCAA AAAGCGAAGG CTGAGGAACG CAAGAGGAAA
    AAGTTAGCTC GTGCTCATCC TGACAAATCA GAAGAAGAAA AGTTGTTACT GGCAAAGAAA
    CTAGAAATGA AAGCAAAAGG TGAAGGTATA CCCACTACAG CCAAGCTAAA GATAGATGAA
    TTTGAGTCTA ATGTTAATGA AATAAAGGAT CCATATCCAT CTGCAGACTT CCCAGGTGAT
    GATGAAGAAG AGGAACCAGA AATTCCTATC AGTCCTCGAC CACGGCCCTT GGCAGAGCTT
    CAACTGAAAG AGAAGGCAGT GCCCATGCCT GATGCTAGTT CTTTTTTTAT CTTTGGCCCC
    ACTAACAAGT TCCGGGTTCT TTGTCACCGC ATTGTTAATG CCACGACTTT TACAAATTTT
    ATCCTGCTGT TCATTCTGCT TAGCAGCATC TCCTTGGCTG CTGAGGATCC AATTGAGCCA
    GAGTCATTTC GCAATCAGAT CCTTGCTTAT TTTGATTATG TTTTCACTGC CATTTTTACA
    ACTGAAATTG CTTTGAAGAT GACTACATAT GGTGCATTTC TTCATAAAGG CTCATTCTGC
    AGAAATTATT TTAACATTCT TGATCTTCTG GTAGTTGCCG TTTCTCTTGT CTCTTTTGGT
    ATCCAATCAA GTGCTATCTC TGTAGTGAAA ATTCTGAGGG TTCTCAGAGT TTTGCGCCCT
    CTCAGAGCAA TAAACCGTGC CAAGGGTCTA AAGCATGTGG TTCAGTGTGT TTTTGTAGCT
    ATAAAAACCA TTGGAAACAT TGTTCTTGTG ACCACCCTTC TACAGTTCAT GTTCTCTTGT
    ATTGGAGTGC AACTATTTAA GGGCAAGTTT TACAGCTGCA CAGACACCAC CAAAATGACA
    GAGGAAGAAT GCAGGGGGTA TTTTATTGTG GCAAAGGATG GGGACTCAAC TCAAATTCAG
    CTAAGAGAGA GAATTTGGAC TCACAGTGAC TTCCACTTTG ATAATGTCCT CTCTGGCATG
    ATGTCTCTCT TTACAATCTC TACCTTTGAG GGCTGGCCTC AGTTGCTGTA TAGAGCAATA
    GATTCACATT CGGAGGATAT GGGGCCTATC TACAATTATC GCATTGAGAT TGCCGTCTTC
    TTCATTATCT ACATAATCCT TATAGCTTTT TTTATGATGA ACATCTTTGT GGGGTTTGTT
    ATTGTCACTT TCCAGGAACA GGGGGAGCAA GAGTACAAAA ACTGTGAGCT TGACAAGAAC
    CAGAGGCAAT GTGTACAGTA TGCTTTAAAG GCACGTCCTC TACGACGATA CATACCAAAG
    AATCAACACC AGTATAAGAT CTGGTACCTT GTTACCTCCT CATACTTTGA ATATCTGATG
    TTTGCACTTA TCATGCTGAA TACAATCAGT CTTGGAATGC AGCACTATGG GCAGACAGCA
    GAGTTCAGTC ACCTGTCTGA TATCCTTAAC GTGGCATTCA CTGGAATCTT CACTGTGGAA
    ATGGTACTTA AATTGGCAGC ATTTAAAGCC AAAGGGTACT TTGGAGATCC ATGGAATGTT
    TTTGATTTTT TGATTGTTAT TGGGAGTATA ATTGATGTCA TCCTCAGTGA GATAGATACA
    CCAGAACCAG TAGTAACTCC AGGCTCTGAA GATACTTCTC GAATTTCCAT CACATTTTTT
    AGGTTGTTTC GTGTAATGCG CCTTGTGAAG CTTCTAAGCC GTGGAGAGGG AGTCAGAACT
    CTACTCTGGA CTTTTATTAA ATCCTTTCAG GCACTTCCAT ATGTGGCACT GCTCATAGTA
    ATGCTATTTT TTATCTACGC TGTCATTGGA ATGCAGGTTT TTGGTAAAAT TGCCATGGTT
    GATGGAACGC AAATAAATCG CAACAACAAC TTTCAGACTT TCCCTCAGGC TGTACTAGTG
    CTCTTTAGGT GTGCAACTGG GGAGGCCTGG CAGGAAATTC TTCTGGCCTG TTCTTATGGA
    AAGCTGTGTG ATCCAAAGTC TGATTTCCTG CCTGGTGAGG AATACACATG TGGGACCAGC
    TTTGCATACT TCTATTTCAT TAGTTTCTAC ATGCTTTGTG CTTTCTTGAT CATCAACCTC
    TTTGTCGCTG TGATCATGGA TAATTTTGAC TACCTGACCC GTGATTGGTC TATTCTGGGG
    CCACACCATT TGGATGAGTT TAAAAGGATC TGGGCAGAGT ATGACCCTGA AGCCAAGGGG
    CGAATCAAGC ACCTTGATGT AGTTACACTC CTTCGACGAA TTCAACCTCC TCTTGGTTTT
    GGAAAGTTCT GTCCTCATCG TGTAGCTTGT AAGAGATTGG TCAGTATGAA TATGCCTTTA
    AACAGTGATG GGACAGTAAC CTTCAATGCT ACTTTGTTTT CCCTTGTGAG AACAGCTTTA
    AAAATCAAGA CTGAAGGTAA TTTTGAACAA AGCAATGAAG AGTTGAGAAT GATAATTAAG
    AAAATTTGGA AAAGGACGAG CATGAAATTG CTAGACCAGG TTATACCACC AATTGGAGAT
    GATGAGGTGA CAGTGGGAAA GTTTTATGCA ATTTTCCTCA TCCAAGAACA TTTTAGGAAG
    TTTAAAAAAC GTCAAGAAGA GTATTATGGT TACCGGCCAA AGAAAAATAA TGTGGAAATC
    CAGGCTGGGT TGCGTACTGT GGAAGAGGAG GTGGAGCCAG AAATGCAACG AGCCATCTCT
    GGTGACTTAA CAGCTGAAGA GGAGCTGGAG AGAGCCATGG TAGAAGCGGC AATTGAGGAA
    GGCATATATC GGAGGACAGG AGGACTTTTT GGCCAAGAAG AAAATTTCCC AGAACCTGTA
    AGCCCTGTTC ACACTACTAT CACAAGTCAG CGGCCATTGC GTTTTTCTGA AGCTGGAAGT
    GAGGATCTAG AGTCCCCCGT TTTTCTTCCA GACCCTGTGT TTTTTCCACC CCCACGGCGA
    AACCGCAATA CCAACAACAG TACATTATCA AGGGGACTGG GAGAGAGGCT CACTACTCCA
    GAAGAAGACC TGAAGCAAAA CATTTCAGAA CAATGGGATG CCTCTACTAA TGCAAGCCAA
    GAGGACCTAA GTGATCACTT CTCCTTGTGA

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