cacna1i cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following cacna1i gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the cacna1i 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
OXa43932 XM_018093215.1
Latest version!
Xenopus tropicalis calcium channel, voltage-dependent, T type, alpha 1I subunit (cacna1i), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa57430 XM_018093215.2
Latest version!
Xenopus tropicalis calcium channel, voltage-dependent, T type, alpha 1I subunit (cacna1i), mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00

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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 OXa43932
    Clone ID Related Accession (Same CDS sequence) XM_018093215.1
    Accession Version XM_018093215.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5892bp)
    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 T-type calcium channel subunit alpha-1I
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.1) 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 :: 6% 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
    5701
    5761
    5821
    5881
    ATGCGGATCC TGGTGAATTT GCTGCTGGAC ACATTGCCTA TGCTGGGGAA TGTACTTCTG 
    CTTTGCTTTT TTGTCTTCTT CATTTTTGGG ATCATTGGGG TGCAGCTTTG GGCCGGATTG
    CTGCGAAACC GCTGCTTTTT GGAAGAAAAC TTCACTATTC AAGGGGATAT AACCTTACCA
    CCTTACTACC AGCCAGAAGA AGATGATGAA ATGCCATTTA TTTGTTCTTT GTCTGGTGAC
    AATGGAATCA TGGGGTGCCA TGAAATCCCC CCATTAAGAG ACCGCGGTCA TGAGTGCTGT
    TTGGACAAGG AGGATTATTA TTATTATAAC TCTATCCGTC ACGAATTTAA TGTCAGCGGC
    ATGTGTGTTA ATTGGAACCA ATACTATAAC GTCTGCCGCA CCAGCAACAC CAATCCTCAC
    AAGGGCGCCA TCAATTTTGA TAACATTGGC TATGCCTGGA TTGTCATATT CCAGGTTATC
    ACTCTGGAAG GCTGGGTAGA GATAATGTAC TATGTCATGG ATGCCCACTC CTTTTACAAC
    TTCATCTATT TCATTCTTCT TATTATAGTG GGATCATTTT TCATGATCAA TTTATGCCTG
    GTTGTTATTG CTACACAATT CTCGGAGACC AAGCAGAGGG AGCACCAGCT GATGCAGGAG
    CAGAGGGCTC TCTATTTATC CTCTAGTACT GTAGCCAGTT ATGCTGAGCC TGGCGACTGC
    TACGAGGAGA TCTTTCAATA TGTGTGCCAT ATCCTGCGCA AGGCCAAGCG CCGCACAGTA
    GGCCTCTACA CTAGCCTTCA AAACCGACGG CAAAGTCGCC ATGAGCTGAC CAATGCTAAG
    CTTGGGATCA ATGGCAAGGA ACAGCATCAT CTGTGGATAT GTCAGAAACA TGGCCAGCTG
    GACTATGCTC CTCATGCTAT TGTGCAGCCT ATCGCAATGA CCCTAACGTC TGACCTCTCC
    AATTGCCCAC AATGCACCAA AACTAAATGG GAGGATGGCC GTAAGCTATC AGCACCAAAC
    AGCACCAGAT CAAGCCGAGA GGGGACTCAG AGACAGAGAA GTGAGAGCGA AAGGGAGAGC
    AGGAGTGATG GAAGCACATC TGATCTAGAC AAAGAGGAGG AGGAGGACGG TGATGAAGGC
    TTCTGTAAAG GACTCTGTGG CGAAGTCCGT GTAAAGCTCA GAGGAATCGT AGATAGTAAA
    TATTTTAATC GGGGAATTAT GATTGCCATT CTTGTGAACA CAATCAGTAT GGGAATAGAA
    CATCATGAGC AGCCAGAAGA ACTAACAAAT ATCCTGGAAA TCAGTAACAT TGTCTTTACC
    AGCATGTTTG CTCTGGAAAT GATGCTGAAG CTCTCAGCCT TTGGCCTCTT TGATTACCTG
    CGAAACCCAT ATAACATCTT TGATGGCATC ATTGTCATAA TCAGTGTCTG GGAGATAATT
    GGGCAGAATG ATGGAGGGCT GTCTGTACTG AGAACTTTCC GACTTCTGCG AGTACTGAAG
    CTGGTCCGGT TTATGCCTGC CTTAAGGCGT CAGTTGGTGG TTCTGATGAA GACTATGGAC
    AACGTGGCCA CATTCTGCAT GCTTCTGATG CTCTTCATCT TCATTTTCAG TATCCTTGGG
    ATGCATATCT TTGGATGTAA ATTCAGTTTA AGAACTGATT CTGGAGACAC TGTTCCAGAT
    AGGAAAAACT TTGATTCGCT ACTGTGGGCC ATTGTCACGG TTTTCCAGAT CCTTACCCAA
    GAGGACTGGA ATGTGGTGCT CTACAATGGA ATGGCCAGTA CATCTCCCTG GGCTGCGCTT
    TACTTTGTAG CATTAATGAC GTTTGGGAAT TACGTTTTAT TCAACTTGCT TGTCGCTATA
    TTGGTGGAAG GGTTTCAAGC AGAGGGAGAT GCCAACAGAT CTTATTCTGA TGAGGAAAGG
    AGTTCCTCCA ATATGGAGGA ATGTGATAAA TATCGGGAAG CTGAATCTCC ATCTGATTCC
    AAGCTTTGCT CAGTACCTAT GACTCCAAAT GGACATTTAG AAAACAGCCC TATTCCGACC
    CAACAAATCC CCACTACCAT AATGAATACA TCAAGGAATT CTCTTCAAAG GGACCAAGTT
    CTTGTAACTG TTGGCTGCAG AAAGAGTAGC GTGATGTCCC TGGGGAGAAC GTCCTACGAC
    CAGAGGTCAC AGATGGGGCC TCGACCCTCA CACTGGGGAA GAAGCAGTGC ATGGGGGAGC
    CGCAGATCAA GCTGGAACAG TTTAGGGCGT CGTCACAGTA TAAAGCCAAG AACATTCACA
    ACTGAACATG AATCATTGCT GTCACGTGGG GAGGAACAGA GGGAAAGAAG TCACTCCAGG
    AGATCCTCCA GCCTAAAGCA CAGAAGAGCA ATGTCTCTAG ATAATAAAGG CTCTTCAGAT
    AACCCAGGGG ATACAGTAAC TCATCCCAAC CATCATAGAG GCTCTTGCAA AGGAGCATCT
    ATGCCAGAAG AACATCGTGA ATCCATTGGG AAAACTCCAC CAATCATGAA GGAAGTGTTT
    CCCAAAATGA ATAACCGCAA AGATAAGGAA GAGGAAGAAG AAGAAATAGA TTATAGTCTG
    TGCTTCCGGA TCCGGAAAAT GATTGAAGTG TACAGACCAG ACTGGTGCGA GTTACGTGAG
    GACTGGTCTA TATTTCTATT CTCCCCACAG AACAGGTTCC GCATCATGTG CCAAACAATA
    ATTGCGCACA AGCTTTTTGA CTATGTGGTC CTTGCCTTCA TCTTCCTCAA CTGCATTACT
    ATCGCCTTGG AGAGGCCTCA GATAGAGCAC AAGAGTACGG AAAGGCTGTT CCTGAGTATA
    TCAAATTATA TCTTCACAGC CATTTTTGTA GCTGAAATGA CATTGAAGGT GGTCTCTCTG
    GGACTTTACT TTGGGGATCA AGCTTACCTC CGGAGCAGCT GGAATATTCT GGATGGGTTT
    CTCGTCTTTG TATCCCTCAT TGATATTGTG GTGTCTGTAG CTTCAGCCGG TGGAGCAAAA
    ATTCTGGGTG TCTTAAGGGT TCTTCGGCTT TTGAGGACAT TGCGACCTCT CAGGGTAATC
    AGTAGAGCCC CTGGCCTGAA GCTGGTGGTG GAGACCCTGA TTTCTTCTCT AAAACCCATT
    GGAAACATAG TTCTGATCTG CTGTGCCTTC TTTATTATTT TTGGAATCCT TGGTGTGCAG
    CTTTTTAAGG GTAAATTTTT CTACTGCCTT GGGGTGGACG TTCGAAATGT CACCAATAAG
    TCAGACTGTG AGGCGGCCAA TTATAAATGG GTGCATCATA AGTACAATTT CGATAACCTG
    GGGCAGGCAT TAATGTCGCT TTTTGTCCTG GCATCAAAGG ACGGATGGGT TAATATAATG
    TATAATGGAC TTGATGCCGT GGCAGTGGAC CAACAGCCAG TGACCAATCA CAACCCATGG
    ATGTTGCTGT ACTTTATCTC ATTTCTGCTG ATCGTCAGTT TCTTTGTACT GAACATGTTT
    GTGGGTGTCG TGGTTGAGAA CTTTCACAAA TGTCGGCAGC ATCAGGAAGC CGAGGAGGCC
    CGAAGACGAG AAGAAAAACG CTTGAGGCGC CTGGAGAAAA AACGAAGGAA AGCCCAGCGC
    TTACCGTACT ATGCCACCTA TTGTCCTGCT CGCCTCCTTA TTCATTCCGT CTGCACCAGC
    CACTACTTGG ATATTTTCAT TACAATCATC ATTTGCCTTA ACGTTATCAC AATGTCCTTG
    GAGCACTATA GTCAACCAAG GTCTCTTGAA ATTGCTCTAA AGTACTGTAA CTACATGTTT
    ACTACAGTCT TTGTACTTGA AGCTGTGCTG AAGCTGGTGG CCTTTGGATT CAGACGTTTC
    TTCAAGGACA GGTGGAACCA ACTGGACCTG GCCATTGTGC TCCTGTCTGT GATGGGAATC
    ACTTTAGAAG AAATTGAAAT AAATGCTGCT TTGCCCATCA ATCCCACCAT TATTCGCATC
    ATGAGGGTGC TGCGCATCAC CAGGGTGCTG AAGCTGCTTA AAATGGCAAC AGGCATGAGG
    GCGCTACTGG ACACTGTGGT ACAAGCTTTG CCTCAGGTAG GAAACTTGGG ACTGCTCTTC
    ATGCTTCTCT TCTTCATCTA TGCTGCTCTG GGAGTGGAGC TCTTCGGGAA GCTTGTTTGC
    AATGATGATC ACCCGTGTGA AGGAATGAGT CGCCACGCCA CATTTGAGAA TTTTGGAATG
    GCCTTCCTGA CCCTCTTTCA GGTTTCTACT GGGGACAACT GGAATGGAAT AATGAAGGAT
    ACCTTGCGTG ACTGCACCAG TGATGATCGC AGTTGCTTGA GCAACCTCCA GTTCATCTCG
    CCTTTGTACT TTGTGAGCTT TGTGCTCACA GCTCAGTTTG TGCTAATTAA CGTAGTAGTC
    GCTGTGTTAA TGAAACACCT GGATGACAGC AATAAAGAAG CGCAGGAGGA CGCTGAGCTG
    GATGCGGAGA TTGAAATGGA GTTGGCTCAT GGCCTCTGTT CTCAAACATC GCCGGTCTCT
    GGTTTAGATA ATGGAGGACG CGGAGGAAGA CCTGCAACTG ACAGTCATCG TAGCTTAAGG
    TGTTTTTCTC CTGCTCAGGA GAATTTGTGG TTGGACAGTG TGTCCTTAAT CATTAAGGAT
    TCCTTTGAAG GAGAGCTAAC AATCATTGAT AATTTATCTG GATCAGTCTT CCACCATTAC
    TCCTCCCCAG CCGTCTGTGA GAAGTGCAAC CACGACAAAC AAGAGGTCCA GCTGGCAGAA
    ATGGAGGCCT TTTCTTTAAC CTCTGACAAG TCCTCGTCAG TACTGACTGA TGAACTCAGT
    TCAGAAGATC AAGGTGTCAC GAGTCAGTTA AAGGAGATGA AGGATGGGCA AGATAGTCCT
    GATTCCTTGG GAATGTTTGG AGAAAATATC TTCCCACTTG CAAGCATTCC CGGTTCCCCA
    ACAGCGGAGC ACTTTATGTG TGAGTTTGAG AAGGTCTCAT TAACCCCGGC TGAGTCATGG
    GAAAGCTGGC TGAAGGAAGA GAGCAGCCCA GTCTCTCCTT CCCCGCTATG TGCGGATACA
    ATGAGCCCTC TTTTACCAGT CCCAGCAGAA TTTTTCCATC CTGATCTCTC TGCAACTGAA
    ACAGATCGAG AGATTCCAAA CACCAGAGAA AATACTTCCA AACTGCCATC TCAAGAAACG
    TGGGCAACTC TGCACTCTCC AGATATCAAT TGCTCACTTC TTCGGCAGGC AACAGAAAGC
    AATTCATCTA TGGAAAGTGG TAGTGCAACG TCTGAGGACA GTTTACAGAC CACATTAGAA
    GATAGCCTAA ATCTTAGTGA CTCACCCCAG TGCACATTGG ATCTCCCAGA TCTCCGAGCA
    ACACCTGCAT CGCACCATAC TCCATTGCCT ATATCATCTA TATCCATGAT GCAAAGGAGA
    AGTAACCGCC CTAGCTTTGC CCTTCAGAAA GTTCGACGTC ACCAACGGAG CCATAGCAGT
    GGTGGTAGCA CTAGTCCTGG ATGTACTCTT CATGACTCCA TGGACCCTTC TGATGAGGAA
    GGGGCAGGTG GAAGCCTGCG AGGTGTGAGC GAGCCCTCTG AGACATTTAG CAGCTTATCT
    CTGACCTCCC TCTTTTCACC ACCTCCTTCT TTAGCACCAC CCGGGGGCAC AATTAAAAAA
    TGCAGCAGTG TCAATAGTCT TTCTGTTGCT CCTTCTAGGG TAAGAGGAGC AAAGCAATTT
    TACACAGTTG ATCCACAGGG CTTCCTTTCT ATGCCATCTT GGGTTATGGA TTTTTACCAA
    ACTTCGACTC CCTCAGAAAA CCAAGAGAAT AGTAGCAGTA CCGAAAAATT ACCAACTATG
    GAAAAGGGGT TACCACCCAG TAGTGTCTCA GGAAATGTGG ATTTTGGCAA TAACAGTCGT
    CGAAACAGAT GA

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

    RefSeq XP_017948704.1
    CDS481..6372
    Translation

    Target ORF information:

    RefSeq Version XM_018093215.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis calcium channel, voltage-dependent, T type, alpha 1I subunit (cacna1i), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018093215.1

    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
    5701
    5761
    5821
    5881
    ATGCGGATCC TGGTGAATTT GCTGCTGGAC ACATTGCCTA TGCTGGGGAA TGTACTTCTG 
    CTTTGCTTTT TTGTCTTCTT CATTTTTGGG ATCATTGGGG TGCAGCTTTG GGCCGGATTG
    CTGCGAAACC GCTGCTTTTT GGAAGAAAAC TTCACTATTC AAGGGGATAT AACCTTACCA
    CCTTACTACC AGCCAGAAGA AGATGATGAA ATGCCATTTA TTTGTTCTTT GTCTGGTGAC
    AATGGAATCA TGGGGTGCCA TGAAATCCCC CCATTAAGAG ACCGCGGTCA TGAGTGCTGT
    TTGGACAAGG AGGATTATTA TTATTATAAC TCTATCCGTC ACGAATTTAA TGTCAGCGGC
    ATGTGTGTTA ATTGGAACCA ATACTATAAC GTCTGCCGCA CCAGCAACAC CAATCCTCAC
    AAGGGCGCCA TCAATTTTGA TAACATTGGC TATGCCTGGA TTGTCATATT CCAGGTTATC
    ACTCTGGAAG GCTGGGTAGA GATAATGTAC TATGTCATGG ATGCCCACTC CTTTTACAAC
    TTCATCTATT TCATTCTTCT TATTATAGTG GGATCATTTT TCATGATCAA TTTATGCCTG
    GTTGTTATTG CTACACAATT CTCGGAGACC AAGCAGAGGG AGCACCAGCT GATGCAGGAG
    CAGAGGGCTC TCTATTTATC CTCTAGTACT GTAGCCAGTT ATGCTGAGCC TGGCGACTGC
    TACGAGGAGA TCTTTCAATA TGTGTGCCAT ATCCTGCGCA AGGCCAAGCG CCGCACAGTA
    GGCCTCTACA CTAGCCTTCA AAACCGACGG CAAAGTCGCC ATGAGCTGAC CAATGCTAAG
    CTTGGGATCA ATGGCAAGGA ACAGCATCAT CTGTGGATAT GTCAGAAACA TGGCCAGCTG
    GACTATGCTC CTCATGCTAT TGTGCAGCCT ATCGCAATGA CCCTAACGTC TGACCTCTCC
    AATTGCCCAC AATGCACCAA AACTAAATGG GAGGATGGCC GTAAGCTATC AGCACCAAAC
    AGCACCAGAT CAAGCCGAGA GGGGACTCAG AGACAGAGAA GTGAGAGCGA AAGGGAGAGC
    AGGAGTGATG GAAGCACATC TGATCTAGAC AAAGAGGAGG AGGAGGACGG TGATGAAGGC
    TTCTGTAAAG GACTCTGTGG CGAAGTCCGT GTAAAGCTCA GAGGAATCGT AGATAGTAAA
    TATTTTAATC GGGGAATTAT GATTGCCATT CTTGTGAACA CAATCAGTAT GGGAATAGAA
    CATCATGAGC AGCCAGAAGA ACTAACAAAT ATCCTGGAAA TCAGTAACAT TGTCTTTACC
    AGCATGTTTG CTCTGGAAAT GATGCTGAAG CTCTCAGCCT TTGGCCTCTT TGATTACCTG
    CGAAACCCAT ATAACATCTT TGATGGCATC ATTGTCATAA TCAGTGTCTG GGAGATAATT
    GGGCAGAATG ATGGAGGGCT GTCTGTACTG AGAACTTTCC GACTTCTGCG AGTACTGAAG
    CTGGTCCGGT TTATGCCTGC CTTAAGGCGT CAGTTGGTGG TTCTGATGAA GACTATGGAC
    AACGTGGCCA CATTCTGCAT GCTTCTGATG CTCTTCATCT TCATTTTCAG TATCCTTGGG
    ATGCATATCT TTGGATGTAA ATTCAGTTTA AGAACTGATT CTGGAGACAC TGTTCCAGAT
    AGGAAAAACT TTGATTCGCT ACTGTGGGCC ATTGTCACGG TTTTCCAGAT CCTTACCCAA
    GAGGACTGGA ATGTGGTGCT CTACAATGGA ATGGCCAGTA CATCTCCCTG GGCTGCGCTT
    TACTTTGTAG CATTAATGAC GTTTGGGAAT TACGTTTTAT TCAACTTGCT TGTCGCTATA
    TTGGTGGAAG GGTTTCAAGC AGAGGGAGAT GCCAACAGAT CTTATTCTGA TGAGGAAAGG
    AGTTCCTCCA ATATGGAGGA ATGTGATAAA TATCGGGAAG CTGAATCTCC ATCTGATTCC
    AAGCTTTGCT CAGTACCTAT GACTCCAAAT GGACATTTAG AAAACAGCCC TATTCCGACC
    CAACAAATCC CCACTACCAT AATGAATACA TCAAGGAATT CTCTTCAAAG GGACCAAGTT
    CTTGTAACTG TTGGCTGCAG AAAGAGTAGC GTGATGTCCC TGGGGAGAAC GTCCTACGAC
    CAGAGGTCAC AGATGGGGCC TCGACCCTCA CACTGGGGAA GAAGCAGTGC ATGGGGGAGC
    CGCAGATCAA GCTGGAACAG TTTAGGGCGT CGTCACAGTA TAAAGCCAAG AACATTCACA
    ACTGAACATG AATCATTGCT GTCACGTGGG GAGGAACAGA GGGAAAGAAG TCACTCCAGG
    AGATCCTCCA GCCTAAAGCA CAGAAGAGCA ATGTCTCTAG ATAATAAAGG CTCTTCAGAT
    AACCCAGGGG ATACAGTAAC TCATCCCAAC CATCATAGAG GCTCTTGCAA AGGAGCATCT
    ATGCCAGAAG AACATCGTGA ATCCATTGGG AAAACTCCAC CAATCATGAA GGAAGTGTTT
    CCCAAAATGA ATAACCGCAA AGATAAGGAA GAGGAAGAAG AAGAAATAGA TTATAGTCTG
    TGCTTCCGGA TCCGGAAAAT GATTGAAGTG TACAGACCAG ACTGGTGCGA GTTACGTGAG
    GACTGGTCTA TATTTCTATT CTCCCCACAG AACAGGTTCC GCATCATGTG CCAAACAATA
    ATTGCGCACA AGCTTTTTGA CTATGTGGTC CTTGCCTTCA TCTTCCTCAA CTGCATTACT
    ATCGCCTTGG AGAGGCCTCA GATAGAGCAC AAGAGTACGG AAAGGCTGTT CCTGAGTATA
    TCAAATTATA TCTTCACAGC CATTTTTGTA GCTGAAATGA CATTGAAGGT GGTCTCTCTG
    GGACTTTACT TTGGGGATCA AGCTTACCTC CGGAGCAGCT GGAATATTCT GGATGGGTTT
    CTCGTCTTTG TATCCCTCAT TGATATTGTG GTGTCTGTAG CTTCAGCCGG TGGAGCAAAA
    ATTCTGGGTG TCTTAAGGGT TCTTCGGCTT TTGAGGACAT TGCGACCTCT CAGGGTAATC
    AGTAGAGCCC CTGGCCTGAA GCTGGTGGTG GAGACCCTGA TTTCTTCTCT AAAACCCATT
    GGAAACATAG TTCTGATCTG CTGTGCCTTC TTTATTATTT TTGGAATCCT TGGTGTGCAG
    CTTTTTAAGG GTAAATTTTT CTACTGCCTT GGGGTGGACG TTCGAAATGT CACCAATAAG
    TCAGACTGTG AGGCGGCCAA TTATAAATGG GTGCATCATA AGTACAATTT CGATAACCTG
    GGGCAGGCAT TAATGTCGCT TTTTGTCCTG GCATCAAAGG ACGGATGGGT TAATATAATG
    TATAATGGAC TTGATGCCGT GGCAGTGGAC CAACAGCCAG TGACCAATCA CAACCCATGG
    ATGTTGCTGT ACTTTATCTC ATTTCTGCTG ATCGTCAGTT TCTTTGTACT GAACATGTTT
    GTGGGTGTCG TGGTTGAGAA CTTTCACAAA TGTCGGCAGC ATCAGGAAGC CGAGGAGGCC
    CGAAGACGAG AAGAAAAACG CTTGAGGCGC CTGGAGAAAA AACGAAGGAA AGCCCAGCGC
    TTACCGTACT ATGCCACCTA TTGTCCTGCT CGCCTCCTTA TTCATTCCGT CTGCACCAGC
    CACTACTTGG ATATTTTCAT TACAATCATC ATTTGCCTTA ACGTTATCAC AATGTCCTTG
    GAGCACTATA GTCAACCAAG GTCTCTTGAA ATTGCTCTAA AGTACTGTAA CTACATGTTT
    ACTACAGTCT TTGTACTTGA AGCTGTGCTG AAGCTGGTGG CCTTTGGATT CAGACGTTTC
    TTCAAGGACA GGTGGAACCA ACTGGACCTG GCCATTGTGC TCCTGTCTGT GATGGGAATC
    ACTTTAGAAG AAATTGAAAT AAATGCTGCT TTGCCCATCA ATCCCACCAT TATTCGCATC
    ATGAGGGTGC TGCGCATCAC CAGGGTGCTG AAGCTGCTTA AAATGGCAAC AGGCATGAGG
    GCGCTACTGG ACACTGTGGT ACAAGCTTTG CCTCAGGTAG GAAACTTGGG ACTGCTCTTC
    ATGCTTCTCT TCTTCATCTA TGCTGCTCTG GGAGTGGAGC TCTTCGGGAA GCTTGTTTGC
    AATGATGATC ACCCGTGTGA AGGAATGAGT CGCCACGCCA CATTTGAGAA TTTTGGAATG
    GCCTTCCTGA CCCTCTTTCA GGTTTCTACT GGGGACAACT GGAATGGAAT AATGAAGGAT
    ACCTTGCGTG ACTGCACCAG TGATGATCGC AGTTGCTTGA GCAACCTCCA GTTCATCTCG
    CCTTTGTACT TTGTGAGCTT TGTGCTCACA GCTCAGTTTG TGCTAATTAA CGTAGTAGTC
    GCTGTGTTAA TGAAACACCT GGATGACAGC AATAAAGAAG CGCAGGAGGA CGCTGAGCTG
    GATGCGGAGA TTGAAATGGA GTTGGCTCAT GGCCTCTGTT CTCAAACATC GCCGGTCTCT
    GGTTTAGATA ATGGAGGACG CGGAGGAAGA CCTGCAACTG ACAGTCATCG TAGCTTAAGG
    TGTTTTTCTC CTGCTCAGGA GAATTTGTGG TTGGACAGTG TGTCCTTAAT CATTAAGGAT
    TCCTTTGAAG GAGAGCTAAC AATCATTGAT AATTTATCTG GATCAGTCTT CCACCATTAC
    TCCTCCCCAG CCGTCTGTGA GAAGTGCAAC CACGACAAAC AAGAGGTCCA GCTGGCAGAA
    ATGGAGGCCT TTTCTTTAAC CTCTGACAAG TCCTCGTCAG TACTGACTGA TGAACTCAGT
    TCAGAAGATC AAGGTGTCAC GAGTCAGTTA AAGGAGATGA AGGATGGGCA AGATAGTCCT
    GATTCCTTGG GAATGTTTGG AGAAAATATC TTCCCACTTG CAAGCATTCC CGGTTCCCCA
    ACAGCGGAGC ACTTTATGTG TGAGTTTGAG AAGGTCTCAT TAACCCCGGC TGAGTCATGG
    GAAAGCTGGC TGAAGGAAGA GAGCAGCCCA GTCTCTCCTT CCCCGCTATG TGCGGATACA
    ATGAGCCCTC TTTTACCAGT CCCAGCAGAA TTTTTCCATC CTGATCTCTC TGCAACTGAA
    ACAGATCGAG AGATTCCAAA CACCAGAGAA AATACTTCCA AACTGCCATC TCAAGAAACG
    TGGGCAACTC TGCACTCTCC AGATATCAAT TGCTCACTTC TTCGGCAGGC AACAGAAAGC
    AATTCATCTA TGGAAAGTGG TAGTGCAACG TCTGAGGACA GTTTACAGAC CACATTAGAA
    GATAGCCTAA ATCTTAGTGA CTCACCCCAG TGCACATTGG ATCTCCCAGA TCTCCGAGCA
    ACACCTGCAT CGCACCATAC TCCATTGCCT ATATCATCTA TATCCATGAT GCAAAGGAGA
    AGTAACCGCC CTAGCTTTGC CCTTCAGAAA GTTCGACGTC ACCAACGGAG CCATAGCAGT
    GGTGGTAGCA CTAGTCCTGG ATGTACTCTT CATGACTCCA TGGACCCTTC TGATGAGGAA
    GGGGCAGGTG GAAGCCTGCG AGGTGTGAGC GAGCCCTCTG AGACATTTAG CAGCTTATCT
    CTGACCTCCC TCTTTTCACC ACCTCCTTCT TTAGCACCAC CCGGGGGCAC AATTAAAAAA
    TGCAGCAGTG TCAATAGTCT TTCTGTTGCT CCTTCTAGGG TAAGAGGAGC AAAGCAATTT
    TACACAGTTG ATCCACAGGG CTTCCTTTCT ATGCCATCTT GGGTTATGGA TTTTTACCAA
    ACTTCGACTC CCTCAGAAAA CCAAGAGAAT AGTAGCAGTA CCGAAAAATT ACCAACTATG
    GAAAAGGGGT TACCACCCAG TAGTGTCTCA GGAAATGTGG ATTTTGGCAA TAACAGTCGT
    CGAAACAGAT GA

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

    CloneID OXa57430
    Clone ID Related Accession (Same CDS sequence) XM_018093215.2
    Accession Version XM_018093215.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6219bp)
    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 T-type calcium channel subunit alpha-1I
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030680.2) 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_018093215.1. ##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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    ATGATGGTAA TTCTTCTGAA CTGTGTAACC CTCGGAATGT TCCAGCCTTG TGAAGATGTC 
    GACTGCTCAT CAGAGCGATG CCAAATTCTT CAAGTCTTCG ATGACTTTAT ATTCATCTTC
    TTTGCAATGG AGATGGTCGT GAAAATGGTG GCCTTGGGCA TCTTTGGGAA GAAGTGTTAC
    CTTGGAGATA CATGGAATAG GTTGGACTTC TTTATAGTCA TGGCTGGGAT GGTGGAATAT
    TCTCTTGATC TTCAGAACAT TAATCTATCG GCCATCCGCA CTGTGCGTGT TCTGAGACCC
    CTAAAAGCCA TCAACCGAGT ACCCAGCATG CGGATCCTGG TGAATTTGCT GCTGGACACA
    TTGCCTATGC TGGGGAATGT ACTTCTGCTT TGCTTTTTTG TCTTCTTCAT TTTTGGGATC
    ATTGGGGTGC AGCTTTGGGC CGGATTGCTG CGAAACCGCT GCTTTTTGGA AGAAAACTTC
    ACTATTCAAG GGGATATAAC CTTACCACCT TACTACCAGC CAGAAGAAGA TGATGAAATG
    CCATTTATTT GTTCTTTGTC TGGTGACAAT GGAATCATGG GGTGCCATGA AATCCCCCCA
    TTAAGAGACC GCGGTCATGA GTGCTGTTTG GACAAGGAGG ATTATTATTA TTATAACTCT
    ATCCGTCACG AATTTAATGT CAGCGGCATG TGTGTTAATT GGAACCAATA CTATAACGTC
    TGCCGCACCA GCAACACCAA TCCTCACAAG GGCGCCATCA ATTTTGATAA CATTGGCTAT
    GCCTGGATTG TCATATTCCA GGTTATCACT CTGGAAGGCT GGGTAGAGAT AATGTACTAT
    GTCATGGATG CCCACTCCTT TTACAACTTC ATCTATTTCA TTCTTCTTAT TATAGTGGGA
    TCATTTTTCA TGATCAATTT ATGCCTGGTT GTTATTGCTA CACAATTCTC GGAGACCAAG
    CAGAGGGAGC ACCAGCTGAT GCAGGAGCAG AGGGCTCTCT ATTTATCCTC TAGTACTGTA
    GCCAGTTATG CTGAGCCTGG CGACTGCTAC GAGGAGATCT TTCAATATGT GTGCCATATC
    CTGCGCAAGG CCAAGCGCCG TACAGTAGGC CTCTACACTA GCCTTCAAAA CCGACGGCAA
    AGTCGCCATG AGCTGACCAA TGCTAAGCTT GGGATCAATG GCAAGGAACA GCATCATCTG
    TGGATATGTC AGAAACATGG CCAGCTGGAC TATGCTCCTC ATGCTATTGT GCAGCCTATC
    GCAATGACCT TAACGTCTGA CCTCTCCAAT TGCCCACAAT GCACCAAAAC CAAATGGGAG
    GATGGCCGTA AGCTATCAGC ACCAAACAGC ACCAGATCAA GCCGAGAGGG GACTCAGAGA
    CAGAGAAGTG AGAGCGAAAG GGAGAGCAGG AGTGATGGAA GCACATCCGA TCTAGACAAA
    GAAGAGGAGG AGGACGGTGA TGAAGGCTTC TGTAAAGGAC TCTGTGGCGA AGTCCGTGTA
    AAGCTCAGAG GAATCGTAGA TAGTAAATAT TTTAATCGGG GAATTATGAT TGCCATTCTT
    GTGAACACAA TCAGTATGGG AATAGAACAT CATGAGCAGC CAGAAGAACT AACAAATATC
    CTGGAAATCA GTAACATTGT CTTTACCAGC ATGTTTGCTC TGGAAATGAT GCTGAAGCTC
    TCAGCCTTTG GCCTCTTTGA TTACCTGCGA AACCCATATA ACATCTTTGA TGGCATCATT
    GTCATAATCA GTGTCTGGGA GATAATTGGG CAGAATGATG GAGGGCTGTC TGTACTGAGA
    ACTTTCCGAC TTCTGCGAGT ACTGAAGCTG GTCCGGTTTA TGCCTGCCTT AAGGCGTCAG
    TTGGTGGTTC TGATGAAGAC TATGGACAAC GTGGCCACAT TCTGCATGCT TCTGATGCTC
    TTCATCTTCA TTTTCAGTAT CCTTGGGATG CATATCTTTG GATGTAAATT CAGTTTAAGA
    ACTGATTCTG GAGACACTGT TCCAGATAGG AAAAACTTTG ATTCGCTACT GTGGGCCATT
    GTCACGGTTT TCCAGATCCT TACCCAAGAG GACTGGAATG TGGTGCTCTA CAATGGAATG
    GCCAGTACAT CTCCCTGGGC TGCGCTTTAC TTTGTAGCAT TAATGACGTT TGGGAATTAC
    GTTTTATTCA ACTTGCTTGT CGCTATATTG GTGGAAGGGT TTCAAGCAGA GGGAGATGCC
    AACAGATCTT ATTCTGATGA GGAAAGGAGT TCCTCCAATA TGGAGGAATG TGATAAATAT
    CGGGAAGCTG AATCTCCATC TGATTCCAAG CTTTGCTCAG TACCTATGAC TCCAAATGGA
    CATTTAGAAA ACAGCCCTAT TCCGACCCAA CAAATCCCCA CTACCATAAT GAATACATCA
    AGGAATTCTC TTCAAAGGGA CCAAGTTCTT GTAACTGTTG GCTGCAGAAA GAGTAGCGTG
    ATGTCCCTGG GGAGAACGTC CTACGACCAG AGGTCACAGA TGGGGCCTCG ACCCTCACAC
    TGGGGAAGAA GCAGTGCATG GGGGAGCCGC AGATCAAGCT GGAACAGTTT AGGGCGTCGT
    CACAGTATAA AGCCAAGAAC ATTCACAACT GAACATGAAT CATTGCTGTC ACGTGGGGAG
    GAACAGAGGG AAAGAAGTCA CTCCAGGAGA TCCTCCAGCC TAAAGCACAG AAGAGCAATG
    TCTCTAGATA ATAAAGGCTC TTCAGATAAC CCAGGGGATA CAGTAACTCA TCCCAACCAT
    CATAGAGGCT CTTGCAAAGG AGCATCTATG CCAGAAGAAC ATCGTGAATC CATTGGGAAA
    ACTCCACCAA TCATGAAGGA AGTGTTTCCC AAAATGAATA ACCGCAAAGA TAAGGAAGAG
    GAAGAAGAAG AAATAGATTA TAGTCTGTGC TTCCGGATCC GGAAAATGAT TGAAGTGTAC
    AGACCAGACT GGTGCGAGTT ACGTGAGGAC TGGTCTATAT TTCTATTCTC CCCACAGAAC
    AGGTTCCGCA TCATGTGCCA AACAATAATT GCGCACAAGC TTTTTGACTA TGTGGTCCTT
    GCCTTCATCT TCCTCAACTG CATTACTATC GCCTTGGAGA GGCCTCAGAT AGAGCACAAG
    AGTACGGAAA GGCTGTTCCT GAGTATATCA AATTATATCT TCACAGCCAT TTTTGTAGCT
    GAAATGACAT TGAAGGTGGT CTCTCTGGGA CTTTACTTTG GGGATCAAGC TTACCTCCGG
    AGCAGCTGGA ATATTCTGGA TGGGTTTCTC GTCTTTGTAT CCCTCATTGA TATTGTGGTG
    TCTGTAGCTT CAGCCGGTGG AGCAAAAATT CTGGGTGTCT TAAGGGTTCT TCGGCTTTTG
    AGGACATTGC GACCTCTCAG GGTTATCAGT AGAGCCCCTG GCCTGAAGCT GGTGGTGGAG
    ACCCTGATTT CTTCTCTAAA ACCCATTGGA AACATAGTTC TGATCTGCTG TGCCTTCTTT
    ATTATTTTTG GAATCCTTGG TGTGCAGCTT TTTAAGGGTA AATTTTTCTA CTGCCTTGGG
    GTGGACGTTC GAAATGTCAC CAATAAGTCA GACTGTGAGG CGGCCAATTA TAAATGGGTG
    CACCATAAGT ACAATTTCGA TAACCTGGGG CAGGCATTAA TGTCGCTTTT TGTCCTGGCA
    TCAAAGGACG GATGGGTTAA TATAATGTAT AATGGACTTG ATGCCGTGGC AGTGGACCAA
    CAGCCAGTGA CCAATCACAA CCCATGGATG TTGCTGTACT TTATCTCATT TCTGCTGATC
    GTCAGTTTCT TTGTACTGAA CATGTTTGTG GGTGTCGTGG TTGAGAACTT TCACAAATGT
    CGGCAGCATC AGGAAGCCGA GGAGGCCCGA AGACGAGAAG AAAAACGCTT GAGGCGCCTG
    GAGAAAAAAC GAAGGAAAGC CCAGCGCTTA CCGTACTATG CCACCTATTG TCCTGCTCGC
    CTCCTTATTC ATTCCGTCTG CACCAGCCAC TACTTGGATA TTTTCATTAC AATCATCATT
    TGCCTTAACG TTATCACAAT GTCCTTGGAG CACTATAGTC AACCAAGGTC TCTTGAAATT
    GCTCTAAAGT ACTGTAACTA CATGTTTACT ACAGTCTTTG TACTTGAAGC TGTGCTGAAG
    CTGGTGGCCT TTGGATTCAG ACGTTTCTTC AAGGACAGGT GGAACCAACT GGACCTGGCC
    ATTGTGCTCC TGTCTGTGAT GGGAATCACT TTAGAAGAAA TTGAAATAAA TGCTGCTTTG
    CCCATCAATC CCACCATTAT TCGCATCATG AGGGTGCTGC GCATCACCAG GGTGCTGAAG
    CTGCTTAAAA TGGCAACAGG CATGAGGGCG CTACTGGACA CTGTGGTACA AGCTTTGCCT
    CAGGTAGGAA ACTTGGGACT GCTCTTCATG CTTCTCTTCT TCATCTATGC TGCTCTGGGA
    GTGGAGCTCT TCGGGAAGCT TGTTTGCAAT GATGATCACC CGTGTGAAGG AATGAGTCGC
    CACGCCACAT TTGAGAATTT TGGAATGGCC TTCCTGACCC TCTTTCAGGT TTCTACTGGG
    GACAACTGGA ATGGAATAAT GAAGGATACC TTGCGTGACT GCACCAGTGA TGATCGCAGT
    TGCTTGAGCA ACCTCCAGTT CATCTCGCCT TTGTACTTTG TGAGCTTTGT GCTCACAGCT
    CAGTTTGTGC TAATTAACGT AGTAGTCGCT GTGTTAATGA AACACCTGGA TGACAGCAAT
    AAAGAAGCGC AGGAGGACGC TGAGCTGGAT GCGGAGATTG AAATGGAGTT GGCTCATGGC
    CTCTGTTCTC AAACATCGCC GGTCTCTGGT TTAGATAATG GAGGACGCGG AGGAAGACCT
    GCAACTGACA GTCATCGTAG CTTAAGGTGT TTTTCTCCTG CTCAGGAGAA TTTGTGGTTG
    GACAGTGTGT CCTTAATCAT TAAGGATTCC TTTGAAGGAG AGCTAACAAT CATTGATAAT
    TTATCTGGAT CAGTCTTCCA CCATTACTCC TCCCCAGCCG TCTGTGAGAA GTGCAACCAC
    GACAAACAAG AGGTCCAGCT GGCAGAAATG GAGGCCTTTT CTTTAACCTC TGACAAGTCC
    TCGTCAGTAC TGACTGATGA ACTCAGTTCA GAAGATCAAG GTGTCACGAG TCAGTTAAAG
    GAGATGAAGG ATGGGCAAGA TAGTCCTGAT TCCTTGGGAA TGTTTGGAGA AAATATCTTC
    CCACTTGCAA GCATTCCCGG TTCCCCAACA GCGGAGCACT TTATGTGTGA GTTTGAGAAG
    GTCTCATTAA CCCCGGCTGA GTCATGGGAA AGCTGGCTGA AGGAAGAGAG CAGCCCAGTC
    TCTCCTTCCC CGCTATGTGC GGATACAATG AGCCCTCTTT TACCAGTCCC AGCAGAATTT
    TTCCATCCTG ATCTCTCTGC AACTGAAACA GATCGAGAGA TTCCAAACAC CAGAGAAAAT
    ACTTCCAAAC TGCCATCTCA AGAAACGTGG GCAACTCTGC ACTCTCCAGA TATCAATTGC
    TCACTTCTTC GGCAGGCAAC AGAAAGCAAT TCATCTATGG AAAGTGGTAG TGCAACGTCT
    GAGGACAGTT TACAGACCAC ATTAGAAGAT AGCCTAAATC TTAGTGACTC ACCCCAGTGC
    ACATTGGATC TCCCAGATCT CCGAGCAACA CCTGCATCGC ACCATACTCC ATTGCCTATA
    TCATCTCTAT CCATGATGCA AAGGAGAAGT AACCGCCCTA GCTTTGCCCT TCAGAAAGTT
    CGACGTCACC AACGGAGCCA TAGCAGTGGT GGTAGCACTA GTCCTGGATG TACTCTTCAT
    GACTCCATGG ACCCTTCTGA TGAGGAAGGG GCAGGTGGAA GCCTGCGAGG TGTGAGCGAG
    CCCTCTGAGA CATTTAGCAG CTTATCTCTG ACCTCCCTCT TTTCACCACC TCCTTCTTTA
    GCACCACCCG GGGGCACAAT TAAAAAATGC AGCAGTGTCA ATAGTCTTTC TGTTGCTCCT
    TCTAGGGTAA GAGGAGCAAA GCAATTTTAC ACAGTTGATC CACAGGGCTT CCTTTCTATG
    CCATCTTGGG TTATGGATTT TTACCAAACT TCGACTCCCT CAGAAAACCA AGAGAATAGT
    AGCAGTACCG AAAAATTACC AACTATGGAA AAGGGGTTAC CACCCAGTAG TGTCTCAGGA
    AATGTGGATT TTGGCAATAA CAGTCGTCGA AACAGATGA

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

    RefSeq XP_017948704.2
    CDS15..6233
    Translation

    Target ORF information:

    RefSeq Version XM_018093215.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis calcium channel, voltage-dependent, T type, alpha 1I subunit (cacna1i), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018093215.2

    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
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    ATGATGGTAA TTCTTCTGAA CTGTGTAACC CTCGGAATGT TCCAGCCTTG TGAAGATGTC 
    GACTGCTCAT CAGAGCGATG CCAAATTCTT CAAGTCTTCG ATGACTTTAT ATTCATCTTC
    TTTGCAATGG AGATGGTCGT GAAAATGGTG GCCTTGGGCA TCTTTGGGAA GAAGTGTTAC
    CTTGGAGATA CATGGAATAG GTTGGACTTC TTTATAGTCA TGGCTGGGAT GGTGGAATAT
    TCTCTTGATC TTCAGAACAT TAATCTATCG GCCATCCGCA CTGTGCGTGT TCTGAGACCC
    CTAAAAGCCA TCAACCGAGT ACCCAGCATG CGGATCCTGG TGAATTTGCT GCTGGACACA
    TTGCCTATGC TGGGGAATGT ACTTCTGCTT TGCTTTTTTG TCTTCTTCAT TTTTGGGATC
    ATTGGGGTGC AGCTTTGGGC CGGATTGCTG CGAAACCGCT GCTTTTTGGA AGAAAACTTC
    ACTATTCAAG GGGATATAAC CTTACCACCT TACTACCAGC CAGAAGAAGA TGATGAAATG
    CCATTTATTT GTTCTTTGTC TGGTGACAAT GGAATCATGG GGTGCCATGA AATCCCCCCA
    TTAAGAGACC GCGGTCATGA GTGCTGTTTG GACAAGGAGG ATTATTATTA TTATAACTCT
    ATCCGTCACG AATTTAATGT CAGCGGCATG TGTGTTAATT GGAACCAATA CTATAACGTC
    TGCCGCACCA GCAACACCAA TCCTCACAAG GGCGCCATCA ATTTTGATAA CATTGGCTAT
    GCCTGGATTG TCATATTCCA GGTTATCACT CTGGAAGGCT GGGTAGAGAT AATGTACTAT
    GTCATGGATG CCCACTCCTT TTACAACTTC ATCTATTTCA TTCTTCTTAT TATAGTGGGA
    TCATTTTTCA TGATCAATTT ATGCCTGGTT GTTATTGCTA CACAATTCTC GGAGACCAAG
    CAGAGGGAGC ACCAGCTGAT GCAGGAGCAG AGGGCTCTCT ATTTATCCTC TAGTACTGTA
    GCCAGTTATG CTGAGCCTGG CGACTGCTAC GAGGAGATCT TTCAATATGT GTGCCATATC
    CTGCGCAAGG CCAAGCGCCG TACAGTAGGC CTCTACACTA GCCTTCAAAA CCGACGGCAA
    AGTCGCCATG AGCTGACCAA TGCTAAGCTT GGGATCAATG GCAAGGAACA GCATCATCTG
    TGGATATGTC AGAAACATGG CCAGCTGGAC TATGCTCCTC ATGCTATTGT GCAGCCTATC
    GCAATGACCT TAACGTCTGA CCTCTCCAAT TGCCCACAAT GCACCAAAAC CAAATGGGAG
    GATGGCCGTA AGCTATCAGC ACCAAACAGC ACCAGATCAA GCCGAGAGGG GACTCAGAGA
    CAGAGAAGTG AGAGCGAAAG GGAGAGCAGG AGTGATGGAA GCACATCCGA TCTAGACAAA
    GAAGAGGAGG AGGACGGTGA TGAAGGCTTC TGTAAAGGAC TCTGTGGCGA AGTCCGTGTA
    AAGCTCAGAG GAATCGTAGA TAGTAAATAT TTTAATCGGG GAATTATGAT TGCCATTCTT
    GTGAACACAA TCAGTATGGG AATAGAACAT CATGAGCAGC CAGAAGAACT AACAAATATC
    CTGGAAATCA GTAACATTGT CTTTACCAGC ATGTTTGCTC TGGAAATGAT GCTGAAGCTC
    TCAGCCTTTG GCCTCTTTGA TTACCTGCGA AACCCATATA ACATCTTTGA TGGCATCATT
    GTCATAATCA GTGTCTGGGA GATAATTGGG CAGAATGATG GAGGGCTGTC TGTACTGAGA
    ACTTTCCGAC TTCTGCGAGT ACTGAAGCTG GTCCGGTTTA TGCCTGCCTT AAGGCGTCAG
    TTGGTGGTTC TGATGAAGAC TATGGACAAC GTGGCCACAT TCTGCATGCT TCTGATGCTC
    TTCATCTTCA TTTTCAGTAT CCTTGGGATG CATATCTTTG GATGTAAATT CAGTTTAAGA
    ACTGATTCTG GAGACACTGT TCCAGATAGG AAAAACTTTG ATTCGCTACT GTGGGCCATT
    GTCACGGTTT TCCAGATCCT TACCCAAGAG GACTGGAATG TGGTGCTCTA CAATGGAATG
    GCCAGTACAT CTCCCTGGGC TGCGCTTTAC TTTGTAGCAT TAATGACGTT TGGGAATTAC
    GTTTTATTCA ACTTGCTTGT CGCTATATTG GTGGAAGGGT TTCAAGCAGA GGGAGATGCC
    AACAGATCTT ATTCTGATGA GGAAAGGAGT TCCTCCAATA TGGAGGAATG TGATAAATAT
    CGGGAAGCTG AATCTCCATC TGATTCCAAG CTTTGCTCAG TACCTATGAC TCCAAATGGA
    CATTTAGAAA ACAGCCCTAT TCCGACCCAA CAAATCCCCA CTACCATAAT GAATACATCA
    AGGAATTCTC TTCAAAGGGA CCAAGTTCTT GTAACTGTTG GCTGCAGAAA GAGTAGCGTG
    ATGTCCCTGG GGAGAACGTC CTACGACCAG AGGTCACAGA TGGGGCCTCG ACCCTCACAC
    TGGGGAAGAA GCAGTGCATG GGGGAGCCGC AGATCAAGCT GGAACAGTTT AGGGCGTCGT
    CACAGTATAA AGCCAAGAAC ATTCACAACT GAACATGAAT CATTGCTGTC ACGTGGGGAG
    GAACAGAGGG AAAGAAGTCA CTCCAGGAGA TCCTCCAGCC TAAAGCACAG AAGAGCAATG
    TCTCTAGATA ATAAAGGCTC TTCAGATAAC CCAGGGGATA CAGTAACTCA TCCCAACCAT
    CATAGAGGCT CTTGCAAAGG AGCATCTATG CCAGAAGAAC ATCGTGAATC CATTGGGAAA
    ACTCCACCAA TCATGAAGGA AGTGTTTCCC AAAATGAATA ACCGCAAAGA TAAGGAAGAG
    GAAGAAGAAG AAATAGATTA TAGTCTGTGC TTCCGGATCC GGAAAATGAT TGAAGTGTAC
    AGACCAGACT GGTGCGAGTT ACGTGAGGAC TGGTCTATAT TTCTATTCTC CCCACAGAAC
    AGGTTCCGCA TCATGTGCCA AACAATAATT GCGCACAAGC TTTTTGACTA TGTGGTCCTT
    GCCTTCATCT TCCTCAACTG CATTACTATC GCCTTGGAGA GGCCTCAGAT AGAGCACAAG
    AGTACGGAAA GGCTGTTCCT GAGTATATCA AATTATATCT TCACAGCCAT TTTTGTAGCT
    GAAATGACAT TGAAGGTGGT CTCTCTGGGA CTTTACTTTG GGGATCAAGC TTACCTCCGG
    AGCAGCTGGA ATATTCTGGA TGGGTTTCTC GTCTTTGTAT CCCTCATTGA TATTGTGGTG
    TCTGTAGCTT CAGCCGGTGG AGCAAAAATT CTGGGTGTCT TAAGGGTTCT TCGGCTTTTG
    AGGACATTGC GACCTCTCAG GGTTATCAGT AGAGCCCCTG GCCTGAAGCT GGTGGTGGAG
    ACCCTGATTT CTTCTCTAAA ACCCATTGGA AACATAGTTC TGATCTGCTG TGCCTTCTTT
    ATTATTTTTG GAATCCTTGG TGTGCAGCTT TTTAAGGGTA AATTTTTCTA CTGCCTTGGG
    GTGGACGTTC GAAATGTCAC CAATAAGTCA GACTGTGAGG CGGCCAATTA TAAATGGGTG
    CACCATAAGT ACAATTTCGA TAACCTGGGG CAGGCATTAA TGTCGCTTTT TGTCCTGGCA
    TCAAAGGACG GATGGGTTAA TATAATGTAT AATGGACTTG ATGCCGTGGC AGTGGACCAA
    CAGCCAGTGA CCAATCACAA CCCATGGATG TTGCTGTACT TTATCTCATT TCTGCTGATC
    GTCAGTTTCT TTGTACTGAA CATGTTTGTG GGTGTCGTGG TTGAGAACTT TCACAAATGT
    CGGCAGCATC AGGAAGCCGA GGAGGCCCGA AGACGAGAAG AAAAACGCTT GAGGCGCCTG
    GAGAAAAAAC GAAGGAAAGC CCAGCGCTTA CCGTACTATG CCACCTATTG TCCTGCTCGC
    CTCCTTATTC ATTCCGTCTG CACCAGCCAC TACTTGGATA TTTTCATTAC AATCATCATT
    TGCCTTAACG TTATCACAAT GTCCTTGGAG CACTATAGTC AACCAAGGTC TCTTGAAATT
    GCTCTAAAGT ACTGTAACTA CATGTTTACT ACAGTCTTTG TACTTGAAGC TGTGCTGAAG
    CTGGTGGCCT TTGGATTCAG ACGTTTCTTC AAGGACAGGT GGAACCAACT GGACCTGGCC
    ATTGTGCTCC TGTCTGTGAT GGGAATCACT TTAGAAGAAA TTGAAATAAA TGCTGCTTTG
    CCCATCAATC CCACCATTAT TCGCATCATG AGGGTGCTGC GCATCACCAG GGTGCTGAAG
    CTGCTTAAAA TGGCAACAGG CATGAGGGCG CTACTGGACA CTGTGGTACA AGCTTTGCCT
    CAGGTAGGAA ACTTGGGACT GCTCTTCATG CTTCTCTTCT TCATCTATGC TGCTCTGGGA
    GTGGAGCTCT TCGGGAAGCT TGTTTGCAAT GATGATCACC CGTGTGAAGG AATGAGTCGC
    CACGCCACAT TTGAGAATTT TGGAATGGCC TTCCTGACCC TCTTTCAGGT TTCTACTGGG
    GACAACTGGA ATGGAATAAT GAAGGATACC TTGCGTGACT GCACCAGTGA TGATCGCAGT
    TGCTTGAGCA ACCTCCAGTT CATCTCGCCT TTGTACTTTG TGAGCTTTGT GCTCACAGCT
    CAGTTTGTGC TAATTAACGT AGTAGTCGCT GTGTTAATGA AACACCTGGA TGACAGCAAT
    AAAGAAGCGC AGGAGGACGC TGAGCTGGAT GCGGAGATTG AAATGGAGTT GGCTCATGGC
    CTCTGTTCTC AAACATCGCC GGTCTCTGGT TTAGATAATG GAGGACGCGG AGGAAGACCT
    GCAACTGACA GTCATCGTAG CTTAAGGTGT TTTTCTCCTG CTCAGGAGAA TTTGTGGTTG
    GACAGTGTGT CCTTAATCAT TAAGGATTCC TTTGAAGGAG AGCTAACAAT CATTGATAAT
    TTATCTGGAT CAGTCTTCCA CCATTACTCC TCCCCAGCCG TCTGTGAGAA GTGCAACCAC
    GACAAACAAG AGGTCCAGCT GGCAGAAATG GAGGCCTTTT CTTTAACCTC TGACAAGTCC
    TCGTCAGTAC TGACTGATGA ACTCAGTTCA GAAGATCAAG GTGTCACGAG TCAGTTAAAG
    GAGATGAAGG ATGGGCAAGA TAGTCCTGAT TCCTTGGGAA TGTTTGGAGA AAATATCTTC
    CCACTTGCAA GCATTCCCGG TTCCCCAACA GCGGAGCACT TTATGTGTGA GTTTGAGAAG
    GTCTCATTAA CCCCGGCTGA GTCATGGGAA AGCTGGCTGA AGGAAGAGAG CAGCCCAGTC
    TCTCCTTCCC CGCTATGTGC GGATACAATG AGCCCTCTTT TACCAGTCCC AGCAGAATTT
    TTCCATCCTG ATCTCTCTGC AACTGAAACA GATCGAGAGA TTCCAAACAC CAGAGAAAAT
    ACTTCCAAAC TGCCATCTCA AGAAACGTGG GCAACTCTGC ACTCTCCAGA TATCAATTGC
    TCACTTCTTC GGCAGGCAAC AGAAAGCAAT TCATCTATGG AAAGTGGTAG TGCAACGTCT
    GAGGACAGTT TACAGACCAC ATTAGAAGAT AGCCTAAATC TTAGTGACTC ACCCCAGTGC
    ACATTGGATC TCCCAGATCT CCGAGCAACA CCTGCATCGC ACCATACTCC ATTGCCTATA
    TCATCTCTAT CCATGATGCA AAGGAGAAGT AACCGCCCTA GCTTTGCCCT TCAGAAAGTT
    CGACGTCACC AACGGAGCCA TAGCAGTGGT GGTAGCACTA GTCCTGGATG TACTCTTCAT
    GACTCCATGG ACCCTTCTGA TGAGGAAGGG GCAGGTGGAA GCCTGCGAGG TGTGAGCGAG
    CCCTCTGAGA CATTTAGCAG CTTATCTCTG ACCTCCCTCT TTTCACCACC TCCTTCTTTA
    GCACCACCCG GGGGCACAAT TAAAAAATGC AGCAGTGTCA ATAGTCTTTC TGTTGCTCCT
    TCTAGGGTAA GAGGAGCAAA GCAATTTTAC ACAGTTGATC CACAGGGCTT CCTTTCTATG
    CCATCTTGGG TTATGGATTT TTACCAAACT TCGACTCCCT CAGAAAACCA AGAGAATAGT
    AGCAGTACCG AAAAATTACC AACTATGGAA AAGGGGTTAC CACCCAGTAG TGTCTCAGGA
    AATGTGGATT TTGGCAATAA CAGTCGTCGA AACAGATGA

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