Scn8a cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Scn8a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Scn8a 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
OMv32317 XM_021183709.1
Latest version!
Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv32318 XM_021183710.1
Latest version!
Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv32319 XM_021183711.1
Latest version!
Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv32320 XM_021183712.1
Latest version!
Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv32321 XM_021183713.1
Latest version!
Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv32322 XM_021183714.1
Latest version!
Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv32323 XM_021183716.1
Latest version!
Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv69422 XM_029469724.1
Latest version!
Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv69422 XM_029469723.1
Latest version!
Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X1, 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 OMv32317
    Clone ID Related Accession (Same CDS sequence) XM_021183709.1
    Accession Version XM_021183709.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5967bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product sodium channel protein type 8 subunit alpha isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGTGAAAAT AGATAAGGCA GCTACGGACA GTGCAACAAC TGAGGTGGAG
    ATTAAGAAGA AAGGCCCTGG ATCGCTCTTA GTCTCCATGG AACAACTCGC CTCCTACGGA
    CGGAAGGACA GAATCAACAG TATAATGAGC GTTGTCACAA ACACACTAGT GGAAGAGCTG
    GAAGAGTCTC AGAGAAAGTG CCCACCATGC TGGTATAAGT TTGCTAATAC TTTCCTCATC
    TGGGAGTGTC ACCCCTACTG GATAAAACTG AAGGAGATTG TGAACCTGAT CGTCATGGAC
    CCTTTCGTAG ACTTAGCCAT CACCATCTGC ATCGTTCTGA ACACACTATT TATGGCAATG
    GAGCACCATC CCATGACGCC ACAATTCGAA CATGTCCTGG CCGTAGGGAA CCTGGTGTTC
    ACTGGGATCT TCACGGCAGA AATGTTCCTG AAGCTCATAG CCATGGATCC CTACTATTAC
    TTCCAAGAAG GCTGGAACAT TTTTGACGGA TTTATCGTCT CCCTCAGTTT AATGGAGCTG
    GGCCTTGCAG ACGTGGAGGG GCTCTCAGTG CTGCGATCTT TCCGATTGCT CCGAGTCTTC
    AAATTGGCCA AGTCCTGGCC CACCCTGAAC ATGCTGATCA AGATCATCGG GAACTCCGTT
    GGCGCCCTGG GCAACCTGAC CCTGGTGCTG GCCATCATCG TCTTCATCTT CGCCGTGGTG
    GGGATGCAGC TCTTTGGAAA GAGCTACAAG GAGTGCGTCT GTAAGATCAG CCAGGAGTGC
    AAGCTCCCGC GCTGGCACAT GAACGACTTC TTCCACTCCT TCCTCATCGT CTTCCGAGTG
    CTGTGTGGGG AGTGGATCGA GACCATGTGG GACTGCATGG AAGTGGCCGG CCAGGCCATG
    TGCCTTATCG TGTTCATGAT GGTCATGGTC ATCGGCAACC TGGTGGTGCT GAACCTATTT
    CTGGCCTTGC TTCTGAGCTC CTTCAGCGCA GACAATCTGG CGGCCACGGA TGACGACGGG
    GAAATGAATA ACCTGCAGAT ATCCGTGATC CGGATCAAGA AGGGCGTGGC CTGGGCCAAA
    GTGAAGGTGC ACGCCTTCAT GCAGGCACAC TTCAAGCAAC GGGAGGCTGA TGAAGTGAAA
    CCTTTAGACG AGCTGTATGA GAAGAAGGCC AACTGCATCG CCAACCACAC CGGCGTGGAC
    ATTCACAGGA ACGGCGACTT CCAGAAAAAC GGGAACGGCA CCACTAGCGG CATCGGCAGC
    AGCGTGGAGA AGTACATCAT CGACGAGGAC CACATGTCCT TCATTAACAA CCCAAACCTG
    ACCGTGCGGG TGCCCATTGC TGTGGGCGAG TCTGATTTCG AGAACCTCAA CACAGAGGAT
    GTTAGCAGCG AGTCAGACCC CGAAGGCAGC AAAGACAAAT TGGACGATAC CAGCTCCTCA
    GAAGGAAGTA CCATCGACAT CAAGCCTGAG GTGGAAGAAG TCCCAGTGGA GCAGCCTGAG
    GAATATTTGG ATCCAGACGC CTGCTTCACT GAGGGTTGTG TCCAGCGGTT CAAGTGCTGC
    CAGGTCAACA TCGAGGAAGG ACTAGGCAAG TCGTGGTGGA TCCTGCGGAA AACCTGCTTC
    CTCATTGTGG AGCACAATTG GTTTGAGACC TTCATCATCT TCATGATCCT CCTCAGCAGT
    GGCGCCCTGG CCTTCGAGGA CATCTACATT GAGCAGAGGA AGACCATCCG TACCATCCTG
    GAGTATGCGG ACAAGGTCTT CACCTACATC TTCATCCTGG AGATGTTGCT CAAATGGACA
    GCCTATGGCT TCGTCAAGTT CTTCACCAAT GCCTGGTGCT GGTTGGACTT CCTCATTGTG
    GCTGTCTCTT TAGTCAGCCT TATAGCTAAT GCCCTGGGCT ACTCGGAACT AGGTGCCATA
    AAGTCCCTTA GGACCCTAAG AGCTTTGAGA CCCTTAAGAG CCTTATCACG ATTTGAAGGG
    ATGAGGGTGG TGGTGAACGC CTTGGTGGGC GCCATCCCCT CCATCATGAA CGTGCTGCTG
    GTGTGTCTCA TCTTCTGGCT GATTTTCAGC ATCATGGGCG TTAACCTGTT TGCTGGGAAA
    TACCACTACT GTTTCAACGA GACTTCAGAA ATCCGGTTCG AAATCGAAGA GGTGAACAAT
    AAAACCGACT GTGAGAAGCT CATGGAGGGC AACAACACAG AGATCCGATG GAAGAACGTC
    AAGATCAACT TCGACAACGT CGGGGCAGGC TACCTGGCCC TTCTTCAAGT GGCAACCTTC
    AAAGGCTGGA TGGACATCAT GTATGCAGCT GTAGATTCCC GAAAGCCGGA CGAGCAGCCT
    GATTATGAGG GCAACATCTA CATGTACATC TACTTTGTCA TCTTCATCAT CTTCGGCTCC
    TTCTTCACCC TCAACCTGTT CATCGGTGTC ATCATCGACA ACTTCAATCA ACAGAAGAAA
    AAGTTTGGAG GTCAGGACAT CTTCATGACA GAGGAACAGA AGAAGTACTA CAATGCCATG
    AAGAAGCTGG GCTCCAAGAA GCCACAGAAG CCCATCCCCC GACCTTTGAA CAAAATCCAA
    GGGATTGTCT TTGATTTCGT CACGCAACAA GCCTTCGACA TCGTGATCAT GATGCTCATC
    TGCCTTAACA TGGTGACCAT GATGGTGGAG ACGGACACGC AGAGCAAGCA GATGGAGAAC
    ATTCTCTACT GGATTAATCT GGTCTTCGTC ATCTTCTTCA CCTGCGAGTG TGTGCTCAAA
    ATGTTTGCCT TGAGACACTA CTATTTCACC ATTGGCTGGA ACATCTTTGA CTTTGTGGTG
    GTCATTCTCT CCATTGTGGG AATGTTCCTG GCTGATATCA TTGAGAAGTA CTTCGTCTCC
    CCGACCCTAT TCCGTGTCAT CCGATTGGCC CGCATCGGGC GCATCTTGCG TCTGATCAAG
    GGCGCCAAAG GGATCCGCAC CCTGCTCTTT GCCTTAATGA TGTCGCTGCC CGCCCTGTTC
    AACATTGGCC TCCTGCTCTT CCTGGTCATG TTCATCTTCT CCATCTTTGG GATGTCCAAC
    TTCGCGTACG TGAAGCACGA GGCCGGCATT GATGACATGT TCAACTTCGA GACATTTGGC
    AACAGCATGA TCTGCTTATT CCAGATCACG ACCTCTGCTG GTTGGGACGG CCTACTGCTG
    CCAATCCTGA ACCGCCCCCC TGACTGCAGC TTGGACAAGG AGCACCCAGG AAGTGGCTTC
    AAAGGGGACT GCGGGAACCC CTCCGTGGGC ATCTTCTTCT TCGTCAGCTA CATCATCATC
    TCCTTCCTCA TCGTGGTGAA CATGTACATT GCCATCATCC TGGAGAACTT CAGCGTGGCC
    ACAGAGGAAA GCGCCGATCC TCTGAGCGAG GACGACTTCG AGACTTTCTA TGAGATCTGG
    GAGAAGTTTG ATCCTGATGC CACCCAGTTC ATCGAGTACT GTAAACTGGC CGACTTTGCC
    GACGCCCTGG AGCATCCGCT CCGAGTACCC AAGCCCAACA CCATTGAGCT CATCGCCATG
    GACCTGCCCA TGGTGAGCGG AGATCGAATC CACTGCTTGG ACATCCTTTT CGCCTTCACC
    AAGCGAGTCC TGGGAGACAG TGGGGAGTTG GACATCCTGC GGCAGCAGAT GGAGGAGCGG
    TTTGTGGCGT CCAATCCTTC CAAAGTGTCT TACGAGCCTA TCACCACCAC TCTGCGGCGC
    AAGCAGGAGG AGGTGTCTGC AGTGGTCTTG CAGCGTGCCT ACAGGGGACA CTTGGCTAGG
    CGGGGCTTCA TCTGCAGAAA GATCACTTCC AACAAGCTGG AGAATGGAGG CACCCACCGG
    GAGAAGAAGG AGAGCACCCC GTCCACAGCC TCCCTCCCCT CTTATGACAG CGTGACAAAG
    CCCGACAAGG AGAAGCAGCA GCGGGCAGAG GAAGGCAGGA GGGAAAGAGC CAAGAGGCAA
    AAAGAAGTCA GGGAGTCCAA GTGCTAG

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

    RefSeq XP_021039368.1
    CDS1..5967
    Translation

    Target ORF information:

    RefSeq Version XM_021183709.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021183709.1

    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
    5941
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGTGAAAAT AGATAAGGCA GCTACGGACA GTGCAACAAC TGAGGTGGAG
    ATTAAGAAGA AAGGCCCTGG ATCGCTCTTA GTCTCCATGG AACAACTCGC CTCCTACGGA
    CGGAAGGACA GAATCAACAG TATAATGAGC GTTGTCACAA ACACACTAGT GGAAGAGCTG
    GAAGAGTCTC AGAGAAAGTG CCCACCATGC TGGTATAAGT TTGCTAATAC TTTCCTCATC
    TGGGAGTGTC ACCCCTACTG GATAAAACTG AAGGAGATTG TGAACCTGAT CGTCATGGAC
    CCTTTCGTAG ACTTAGCCAT CACCATCTGC ATCGTTCTGA ACACACTATT TATGGCAATG
    GAGCACCATC CCATGACGCC ACAATTCGAA CATGTCCTGG CCGTAGGGAA CCTGGTGTTC
    ACTGGGATCT TCACGGCAGA AATGTTCCTG AAGCTCATAG CCATGGATCC CTACTATTAC
    TTCCAAGAAG GCTGGAACAT TTTTGACGGA TTTATCGTCT CCCTCAGTTT AATGGAGCTG
    GGCCTTGCAG ACGTGGAGGG GCTCTCAGTG CTGCGATCTT TCCGATTGCT CCGAGTCTTC
    AAATTGGCCA AGTCCTGGCC CACCCTGAAC ATGCTGATCA AGATCATCGG GAACTCCGTT
    GGCGCCCTGG GCAACCTGAC CCTGGTGCTG GCCATCATCG TCTTCATCTT CGCCGTGGTG
    GGGATGCAGC TCTTTGGAAA GAGCTACAAG GAGTGCGTCT GTAAGATCAG CCAGGAGTGC
    AAGCTCCCGC GCTGGCACAT GAACGACTTC TTCCACTCCT TCCTCATCGT CTTCCGAGTG
    CTGTGTGGGG AGTGGATCGA GACCATGTGG GACTGCATGG AAGTGGCCGG CCAGGCCATG
    TGCCTTATCG TGTTCATGAT GGTCATGGTC ATCGGCAACC TGGTGGTGCT GAACCTATTT
    CTGGCCTTGC TTCTGAGCTC CTTCAGCGCA GACAATCTGG CGGCCACGGA TGACGACGGG
    GAAATGAATA ACCTGCAGAT ATCCGTGATC CGGATCAAGA AGGGCGTGGC CTGGGCCAAA
    GTGAAGGTGC ACGCCTTCAT GCAGGCACAC TTCAAGCAAC GGGAGGCTGA TGAAGTGAAA
    CCTTTAGACG AGCTGTATGA GAAGAAGGCC AACTGCATCG CCAACCACAC CGGCGTGGAC
    ATTCACAGGA ACGGCGACTT CCAGAAAAAC GGGAACGGCA CCACTAGCGG CATCGGCAGC
    AGCGTGGAGA AGTACATCAT CGACGAGGAC CACATGTCCT TCATTAACAA CCCAAACCTG
    ACCGTGCGGG TGCCCATTGC TGTGGGCGAG TCTGATTTCG AGAACCTCAA CACAGAGGAT
    GTTAGCAGCG AGTCAGACCC CGAAGGCAGC AAAGACAAAT TGGACGATAC CAGCTCCTCA
    GAAGGAAGTA CCATCGACAT CAAGCCTGAG GTGGAAGAAG TCCCAGTGGA GCAGCCTGAG
    GAATATTTGG ATCCAGACGC CTGCTTCACT GAGGGTTGTG TCCAGCGGTT CAAGTGCTGC
    CAGGTCAACA TCGAGGAAGG ACTAGGCAAG TCGTGGTGGA TCCTGCGGAA AACCTGCTTC
    CTCATTGTGG AGCACAATTG GTTTGAGACC TTCATCATCT TCATGATCCT CCTCAGCAGT
    GGCGCCCTGG CCTTCGAGGA CATCTACATT GAGCAGAGGA AGACCATCCG TACCATCCTG
    GAGTATGCGG ACAAGGTCTT CACCTACATC TTCATCCTGG AGATGTTGCT CAAATGGACA
    GCCTATGGCT TCGTCAAGTT CTTCACCAAT GCCTGGTGCT GGTTGGACTT CCTCATTGTG
    GCTGTCTCTT TAGTCAGCCT TATAGCTAAT GCCCTGGGCT ACTCGGAACT AGGTGCCATA
    AAGTCCCTTA GGACCCTAAG AGCTTTGAGA CCCTTAAGAG CCTTATCACG ATTTGAAGGG
    ATGAGGGTGG TGGTGAACGC CTTGGTGGGC GCCATCCCCT CCATCATGAA CGTGCTGCTG
    GTGTGTCTCA TCTTCTGGCT GATTTTCAGC ATCATGGGCG TTAACCTGTT TGCTGGGAAA
    TACCACTACT GTTTCAACGA GACTTCAGAA ATCCGGTTCG AAATCGAAGA GGTGAACAAT
    AAAACCGACT GTGAGAAGCT CATGGAGGGC AACAACACAG AGATCCGATG GAAGAACGTC
    AAGATCAACT TCGACAACGT CGGGGCAGGC TACCTGGCCC TTCTTCAAGT GGCAACCTTC
    AAAGGCTGGA TGGACATCAT GTATGCAGCT GTAGATTCCC GAAAGCCGGA CGAGCAGCCT
    GATTATGAGG GCAACATCTA CATGTACATC TACTTTGTCA TCTTCATCAT CTTCGGCTCC
    TTCTTCACCC TCAACCTGTT CATCGGTGTC ATCATCGACA ACTTCAATCA ACAGAAGAAA
    AAGTTTGGAG GTCAGGACAT CTTCATGACA GAGGAACAGA AGAAGTACTA CAATGCCATG
    AAGAAGCTGG GCTCCAAGAA GCCACAGAAG CCCATCCCCC GACCTTTGAA CAAAATCCAA
    GGGATTGTCT TTGATTTCGT CACGCAACAA GCCTTCGACA TCGTGATCAT GATGCTCATC
    TGCCTTAACA TGGTGACCAT GATGGTGGAG ACGGACACGC AGAGCAAGCA GATGGAGAAC
    ATTCTCTACT GGATTAATCT GGTCTTCGTC ATCTTCTTCA CCTGCGAGTG TGTGCTCAAA
    ATGTTTGCCT TGAGACACTA CTATTTCACC ATTGGCTGGA ACATCTTTGA CTTTGTGGTG
    GTCATTCTCT CCATTGTGGG AATGTTCCTG GCTGATATCA TTGAGAAGTA CTTCGTCTCC
    CCGACCCTAT TCCGTGTCAT CCGATTGGCC CGCATCGGGC GCATCTTGCG TCTGATCAAG
    GGCGCCAAAG GGATCCGCAC CCTGCTCTTT GCCTTAATGA TGTCGCTGCC CGCCCTGTTC
    AACATTGGCC TCCTGCTCTT CCTGGTCATG TTCATCTTCT CCATCTTTGG GATGTCCAAC
    TTCGCGTACG TGAAGCACGA GGCCGGCATT GATGACATGT TCAACTTCGA GACATTTGGC
    AACAGCATGA TCTGCTTATT CCAGATCACG ACCTCTGCTG GTTGGGACGG CCTACTGCTG
    CCAATCCTGA ACCGCCCCCC TGACTGCAGC TTGGACAAGG AGCACCCAGG AAGTGGCTTC
    AAAGGGGACT GCGGGAACCC CTCCGTGGGC ATCTTCTTCT TCGTCAGCTA CATCATCATC
    TCCTTCCTCA TCGTGGTGAA CATGTACATT GCCATCATCC TGGAGAACTT CAGCGTGGCC
    ACAGAGGAAA GCGCCGATCC TCTGAGCGAG GACGACTTCG AGACTTTCTA TGAGATCTGG
    GAGAAGTTTG ATCCTGATGC CACCCAGTTC ATCGAGTACT GTAAACTGGC CGACTTTGCC
    GACGCCCTGG AGCATCCGCT CCGAGTACCC AAGCCCAACA CCATTGAGCT CATCGCCATG
    GACCTGCCCA TGGTGAGCGG AGATCGAATC CACTGCTTGG ACATCCTTTT CGCCTTCACC
    AAGCGAGTCC TGGGAGACAG TGGGGAGTTG GACATCCTGC GGCAGCAGAT GGAGGAGCGG
    TTTGTGGCGT CCAATCCTTC CAAAGTGTCT TACGAGCCTA TCACCACCAC TCTGCGGCGC
    AAGCAGGAGG AGGTGTCTGC AGTGGTCTTG CAGCGTGCCT ACAGGGGACA CTTGGCTAGG
    CGGGGCTTCA TCTGCAGAAA GATCACTTCC AACAAGCTGG AGAATGGAGG CACCCACCGG
    GAGAAGAAGG AGAGCACCCC GTCCACAGCC TCCCTCCCCT CTTATGACAG CGTGACAAAG
    CCCGACAAGG AGAAGCAGCA GCGGGCAGAG GAAGGCAGGA GGGAAAGAGC CAAGAGGCAA
    AAAGAAGTCA GGGAGTCCAA GTGCTAG

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

    CloneID OMv32318
    Clone ID Related Accession (Same CDS sequence) XM_021183710.1
    Accession Version XM_021183710.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5937bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product sodium channel protein type 8 subunit alpha isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCGTATAT AACAGAGTTT GTAAACCTAG GCAATGTTTC AGCTCTACGC
    ACTTTCAGGG TACTGAGGGC TTTGAAAACT ATTTCGGTAA TCCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGCAACAAC TGAGGTGGAG ATTAAGAAGA AAGGCCCTGG ATCGCTCTTA
    GTCTCCATGG AACAACTCGC CTCCTACGGA CGGAAGGACA GAATCAACAG TATAATGAGC
    GTTGTCACAA ACACACTAGT GGAAGAGCTG GAAGAGTCTC AGAGAAAGTG CCCACCATGC
    TGGTATAAGT TTGCTAATAC TTTCCTCATC TGGGAGTGTC ACCCCTACTG GATAAAACTG
    AAGGAGATTG TGAACCTGAT CGTCATGGAC CCTTTCGTAG ACTTAGCCAT CACCATCTGC
    ATCGTTCTGA ACACACTATT TATGGCAATG GAGCACCATC CCATGACGCC ACAATTCGAA
    CATGTCCTGG CCGTAGGGAA CCTGGTGTTC ACTGGGATCT TCACGGCAGA AATGTTCCTG
    AAGCTCATAG CCATGGATCC CTACTATTAC TTCCAAGAAG GCTGGAACAT TTTTGACGGA
    TTTATCGTCT CCCTCAGTTT AATGGAGCTG GGCCTTGCAG ACGTGGAGGG GCTCTCAGTG
    CTGCGATCTT TCCGATTGCT CCGAGTCTTC AAATTGGCCA AGTCCTGGCC CACCCTGAAC
    ATGCTGATCA AGATCATCGG GAACTCCGTT GGCGCCCTGG GCAACCTGAC CCTGGTGCTG
    GCCATCATCG TCTTCATCTT CGCCGTGGTG GGGATGCAGC TCTTTGGAAA GAGCTACAAG
    GAGTGCGTCT GTAAGATCAG CCAGGAGTGC AAGCTCCCGC GCTGGCACAT GAACGACTTC
    TTCCACTCCT TCCTCATCGT CTTCCGAGTG CTGTGTGGGG AGTGGATCGA GACCATGTGG
    GACTGCATGG AAGTGGCCGG CCAGGCCATG TGCCTTATCG TGTTCATGAT GGTCATGGTC
    ATCGGCAACC TGGTGGTGCT GAACCTATTT CTGGCCTTGC TTCTGAGCTC CTTCAGCGCA
    GACAATCTGG CGGCCACGGA TGACGACGGG GAAATGAATA ACCTGCAGAT ATCCGTGATC
    CGGATCAAGA AGGGCGTGGC CTGGGCCAAA GTGAAGGTGC ACGCCTTCAT GCAGGCACAC
    TTCAAGCAAC GGGAGGCTGA TGAAGTGAAA CCTTTAGACG AGCTGTATGA GAAGAAGGCC
    AACTGCATCG CCAACCACAC CGGCGTGGAC ATTCACAGGA ACGGCGACTT CCAGAAAAAC
    GGGAACGGCA CCACTAGCGG CATCGGCAGC AGCGTGGAGA AGTACATCAT CGACGAGGAC
    CACATGTCCT TCATTAACAA CCCAAACCTG ACCGTGCGGG TGCCCATTGC TGTGGGCGAG
    TCTGATTTCG AGAACCTCAA CACAGAGGAT GTTAGCAGCG AGTCAGACCC CGAAGGCAGC
    AAAGACAAAT TGGACGATAC CAGCTCCTCA GAAGGAAGTA CCATCGACAT CAAGCCTGAG
    GTGGAAGAAG TCCCAGTGGA GCAGCCTGAG GAATATTTGG ATCCAGACGC CTGCTTCACT
    GAGGGTTGTG TCCAGCGGTT CAAGTGCTGC CAGGTCAACA TCGAGGAAGG ACTAGGCAAG
    TCGTGGTGGA TCCTGCGGAA AACCTGCTTC CTCATTGTGG AGCACAATTG GTTTGAGACC
    TTCATCATCT TCATGATCCT CCTCAGCAGT GGCGCCCTGG CCTTCGAGGA CATCTACATT
    GAGCAGAGGA AGACCATCCG TACCATCCTG GAGTATGCGG ACAAGGTCTT CACCTACATC
    TTCATCCTGG AGATGTTGCT CAAATGGACA GCCTATGGCT TCGTCAAGTT CTTCACCAAT
    GCCTGGTGCT GGTTGGACTT CCTCATTGTG GCTGTCTCTT TAGTCAGCCT TATAGCTAAT
    GCCCTGGGCT ACTCGGAACT AGGTGCCATA AAGTCCCTTA GGACCCTAAG AGCTTTGAGA
    CCCTTAAGAG CCTTATCACG ATTTGAAGGG ATGAGGGTGG TGGTGAACGC CTTGGTGGGC
    GCCATCCCCT CCATCATGAA CGTGCTGCTG GTGTGTCTCA TCTTCTGGCT GATTTTCAGC
    ATCATGGGCG TTAACCTGTT TGCTGGGAAA TACCACTACT GTTTCAACGA GACTTCAGAA
    ATCCGGTTCG AAATCGAAGA GGTGAACAAT AAAACCGACT GTGAGAAGCT CATGGAGGGC
    AACAACACAG AGATCCGATG GAAGAACGTC AAGATCAACT TCGACAACGT CGGGGCAGGC
    TACCTGGCCC TTCTTCAAGT GGCAACCTTC AAAGGCTGGA TGGACATCAT GTATGCAGCT
    GTAGATTCCC GAAAGCCGGA CGAGCAGCCT GATTATGAGG GCAACATCTA CATGTACATC
    TACTTTGTCA TCTTCATCAT CTTCGGCTCC TTCTTCACCC TCAACCTGTT CATCGGTGTC
    ATCATCGACA ACTTCAATCA ACAGAAGAAA AAGTTTGGAG GTCAGGACAT CTTCATGACA
    GAGGAACAGA AGAAGTACTA CAATGCCATG AAGAAGCTGG GCTCCAAGAA GCCACAGAAG
    CCCATCCCCC GACCTTTGAA CAAAATCCAA GGGATTGTCT TTGATTTCGT CACGCAACAA
    GCCTTCGACA TCGTGATCAT GATGCTCATC TGCCTTAACA TGGTGACCAT GATGGTGGAG
    ACGGACACGC AGAGCAAGCA GATGGAGAAC ATTCTCTACT GGATTAATCT GGTCTTCGTC
    ATCTTCTTCA CCTGCGAGTG TGTGCTCAAA ATGTTTGCCT TGAGACACTA CTATTTCACC
    ATTGGCTGGA ACATCTTTGA CTTTGTGGTG GTCATTCTCT CCATTGTGGG AATGTTCCTG
    GCTGATATCA TTGAGAAGTA CTTCGTCTCC CCGACCCTAT TCCGTGTCAT CCGATTGGCC
    CGCATCGGGC GCATCTTGCG TCTGATCAAG GGCGCCAAAG GGATCCGCAC CCTGCTCTTT
    GCCTTAATGA TGTCGCTGCC CGCCCTGTTC AACATTGGCC TCCTGCTCTT CCTGGTCATG
    TTCATCTTCT CCATCTTTGG GATGTCCAAC TTCGCGTACG TGAAGCACGA GGCCGGCATT
    GATGACATGT TCAACTTCGA GACATTTGGC AACAGCATGA TCTGCTTATT CCAGATCACG
    ACCTCTGCTG GTTGGGACGG CCTACTGCTG CCAATCCTGA ACCGCCCCCC TGACTGCAGC
    TTGGACAAGG AGCACCCAGG AAGTGGCTTC AAAGGGGACT GCGGGAACCC CTCCGTGGGC
    ATCTTCTTCT TCGTCAGCTA CATCATCATC TCCTTCCTCA TCGTGGTGAA CATGTACATT
    GCCATCATCC TGGAGAACTT CAGCGTGGCC ACAGAGGAAA GCGCCGATCC TCTGAGCGAG
    GACGACTTCG AGACTTTCTA TGAGATCTGG GAGAAGTTTG ATCCTGATGC CACCCAGTTC
    ATCGAGTACT GTAAACTGGC CGACTTTGCC GACGCCCTGG AGCATCCGCT CCGAGTACCC
    AAGCCCAACA CCATTGAGCT CATCGCCATG GACCTGCCCA TGGTGAGCGG AGATCGAATC
    CACTGCTTGG ACATCCTTTT CGCCTTCACC AAGCGAGTCC TGGGAGACAG TGGGGAGTTG
    GACATCCTGC GGCAGCAGAT GGAGGAGCGG TTTGTGGCGT CCAATCCTTC CAAAGTGTCT
    TACGAGCCTA TCACCACCAC TCTGCGGCGC AAGCAGGAGG AGGTGTCTGC AGTGGTCTTG
    CAGCGTGCCT ACAGGGGACA CTTGGCTAGG CGGGGCTTCA TCTGCAGAAA GATCACTTCC
    AACAAGCTGG AGAATGGAGG CACCCACCGG GAGAAGAAGG AGAGCACCCC GTCCACAGCC
    TCCCTCCCCT CTTATGACAG CGTGACAAAG CCCGACAAGG AGAAGCAGCA GCGGGCAGAG
    GAAGGCAGGA GGGAAAGAGC CAAGAGGCAA AAAGAAGTCA GGGAGTCCAA GTGCTAG

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

    RefSeq XP_021039369.1
    CDS154..6090
    Translation

    Target ORF information:

    RefSeq Version XM_021183710.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021183710.1

    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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCGTATAT AACAGAGTTT GTAAACCTAG GCAATGTTTC AGCTCTACGC
    ACTTTCAGGG TACTGAGGGC TTTGAAAACT ATTTCGGTAA TCCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGCAACAAC TGAGGTGGAG ATTAAGAAGA AAGGCCCTGG ATCGCTCTTA
    GTCTCCATGG AACAACTCGC CTCCTACGGA CGGAAGGACA GAATCAACAG TATAATGAGC
    GTTGTCACAA ACACACTAGT GGAAGAGCTG GAAGAGTCTC AGAGAAAGTG CCCACCATGC
    TGGTATAAGT TTGCTAATAC TTTCCTCATC TGGGAGTGTC ACCCCTACTG GATAAAACTG
    AAGGAGATTG TGAACCTGAT CGTCATGGAC CCTTTCGTAG ACTTAGCCAT CACCATCTGC
    ATCGTTCTGA ACACACTATT TATGGCAATG GAGCACCATC CCATGACGCC ACAATTCGAA
    CATGTCCTGG CCGTAGGGAA CCTGGTGTTC ACTGGGATCT TCACGGCAGA AATGTTCCTG
    AAGCTCATAG CCATGGATCC CTACTATTAC TTCCAAGAAG GCTGGAACAT TTTTGACGGA
    TTTATCGTCT CCCTCAGTTT AATGGAGCTG GGCCTTGCAG ACGTGGAGGG GCTCTCAGTG
    CTGCGATCTT TCCGATTGCT CCGAGTCTTC AAATTGGCCA AGTCCTGGCC CACCCTGAAC
    ATGCTGATCA AGATCATCGG GAACTCCGTT GGCGCCCTGG GCAACCTGAC CCTGGTGCTG
    GCCATCATCG TCTTCATCTT CGCCGTGGTG GGGATGCAGC TCTTTGGAAA GAGCTACAAG
    GAGTGCGTCT GTAAGATCAG CCAGGAGTGC AAGCTCCCGC GCTGGCACAT GAACGACTTC
    TTCCACTCCT TCCTCATCGT CTTCCGAGTG CTGTGTGGGG AGTGGATCGA GACCATGTGG
    GACTGCATGG AAGTGGCCGG CCAGGCCATG TGCCTTATCG TGTTCATGAT GGTCATGGTC
    ATCGGCAACC TGGTGGTGCT GAACCTATTT CTGGCCTTGC TTCTGAGCTC CTTCAGCGCA
    GACAATCTGG CGGCCACGGA TGACGACGGG GAAATGAATA ACCTGCAGAT ATCCGTGATC
    CGGATCAAGA AGGGCGTGGC CTGGGCCAAA GTGAAGGTGC ACGCCTTCAT GCAGGCACAC
    TTCAAGCAAC GGGAGGCTGA TGAAGTGAAA CCTTTAGACG AGCTGTATGA GAAGAAGGCC
    AACTGCATCG CCAACCACAC CGGCGTGGAC ATTCACAGGA ACGGCGACTT CCAGAAAAAC
    GGGAACGGCA CCACTAGCGG CATCGGCAGC AGCGTGGAGA AGTACATCAT CGACGAGGAC
    CACATGTCCT TCATTAACAA CCCAAACCTG ACCGTGCGGG TGCCCATTGC TGTGGGCGAG
    TCTGATTTCG AGAACCTCAA CACAGAGGAT GTTAGCAGCG AGTCAGACCC CGAAGGCAGC
    AAAGACAAAT TGGACGATAC CAGCTCCTCA GAAGGAAGTA CCATCGACAT CAAGCCTGAG
    GTGGAAGAAG TCCCAGTGGA GCAGCCTGAG GAATATTTGG ATCCAGACGC CTGCTTCACT
    GAGGGTTGTG TCCAGCGGTT CAAGTGCTGC CAGGTCAACA TCGAGGAAGG ACTAGGCAAG
    TCGTGGTGGA TCCTGCGGAA AACCTGCTTC CTCATTGTGG AGCACAATTG GTTTGAGACC
    TTCATCATCT TCATGATCCT CCTCAGCAGT GGCGCCCTGG CCTTCGAGGA CATCTACATT
    GAGCAGAGGA AGACCATCCG TACCATCCTG GAGTATGCGG ACAAGGTCTT CACCTACATC
    TTCATCCTGG AGATGTTGCT CAAATGGACA GCCTATGGCT TCGTCAAGTT CTTCACCAAT
    GCCTGGTGCT GGTTGGACTT CCTCATTGTG GCTGTCTCTT TAGTCAGCCT TATAGCTAAT
    GCCCTGGGCT ACTCGGAACT AGGTGCCATA AAGTCCCTTA GGACCCTAAG AGCTTTGAGA
    CCCTTAAGAG CCTTATCACG ATTTGAAGGG ATGAGGGTGG TGGTGAACGC CTTGGTGGGC
    GCCATCCCCT CCATCATGAA CGTGCTGCTG GTGTGTCTCA TCTTCTGGCT GATTTTCAGC
    ATCATGGGCG TTAACCTGTT TGCTGGGAAA TACCACTACT GTTTCAACGA GACTTCAGAA
    ATCCGGTTCG AAATCGAAGA GGTGAACAAT AAAACCGACT GTGAGAAGCT CATGGAGGGC
    AACAACACAG AGATCCGATG GAAGAACGTC AAGATCAACT TCGACAACGT CGGGGCAGGC
    TACCTGGCCC TTCTTCAAGT GGCAACCTTC AAAGGCTGGA TGGACATCAT GTATGCAGCT
    GTAGATTCCC GAAAGCCGGA CGAGCAGCCT GATTATGAGG GCAACATCTA CATGTACATC
    TACTTTGTCA TCTTCATCAT CTTCGGCTCC TTCTTCACCC TCAACCTGTT CATCGGTGTC
    ATCATCGACA ACTTCAATCA ACAGAAGAAA AAGTTTGGAG GTCAGGACAT CTTCATGACA
    GAGGAACAGA AGAAGTACTA CAATGCCATG AAGAAGCTGG GCTCCAAGAA GCCACAGAAG
    CCCATCCCCC GACCTTTGAA CAAAATCCAA GGGATTGTCT TTGATTTCGT CACGCAACAA
    GCCTTCGACA TCGTGATCAT GATGCTCATC TGCCTTAACA TGGTGACCAT GATGGTGGAG
    ACGGACACGC AGAGCAAGCA GATGGAGAAC ATTCTCTACT GGATTAATCT GGTCTTCGTC
    ATCTTCTTCA CCTGCGAGTG TGTGCTCAAA ATGTTTGCCT TGAGACACTA CTATTTCACC
    ATTGGCTGGA ACATCTTTGA CTTTGTGGTG GTCATTCTCT CCATTGTGGG AATGTTCCTG
    GCTGATATCA TTGAGAAGTA CTTCGTCTCC CCGACCCTAT TCCGTGTCAT CCGATTGGCC
    CGCATCGGGC GCATCTTGCG TCTGATCAAG GGCGCCAAAG GGATCCGCAC CCTGCTCTTT
    GCCTTAATGA TGTCGCTGCC CGCCCTGTTC AACATTGGCC TCCTGCTCTT CCTGGTCATG
    TTCATCTTCT CCATCTTTGG GATGTCCAAC TTCGCGTACG TGAAGCACGA GGCCGGCATT
    GATGACATGT TCAACTTCGA GACATTTGGC AACAGCATGA TCTGCTTATT CCAGATCACG
    ACCTCTGCTG GTTGGGACGG CCTACTGCTG CCAATCCTGA ACCGCCCCCC TGACTGCAGC
    TTGGACAAGG AGCACCCAGG AAGTGGCTTC AAAGGGGACT GCGGGAACCC CTCCGTGGGC
    ATCTTCTTCT TCGTCAGCTA CATCATCATC TCCTTCCTCA TCGTGGTGAA CATGTACATT
    GCCATCATCC TGGAGAACTT CAGCGTGGCC ACAGAGGAAA GCGCCGATCC TCTGAGCGAG
    GACGACTTCG AGACTTTCTA TGAGATCTGG GAGAAGTTTG ATCCTGATGC CACCCAGTTC
    ATCGAGTACT GTAAACTGGC CGACTTTGCC GACGCCCTGG AGCATCCGCT CCGAGTACCC
    AAGCCCAACA CCATTGAGCT CATCGCCATG GACCTGCCCA TGGTGAGCGG AGATCGAATC
    CACTGCTTGG ACATCCTTTT CGCCTTCACC AAGCGAGTCC TGGGAGACAG TGGGGAGTTG
    GACATCCTGC GGCAGCAGAT GGAGGAGCGG TTTGTGGCGT CCAATCCTTC CAAAGTGTCT
    TACGAGCCTA TCACCACCAC TCTGCGGCGC AAGCAGGAGG AGGTGTCTGC AGTGGTCTTG
    CAGCGTGCCT ACAGGGGACA CTTGGCTAGG CGGGGCTTCA TCTGCAGAAA GATCACTTCC
    AACAAGCTGG AGAATGGAGG CACCCACCGG GAGAAGAAGG AGAGCACCCC GTCCACAGCC
    TCCCTCCCCT CTTATGACAG CGTGACAAAG CCCGACAAGG AGAAGCAGCA GCGGGCAGAG
    GAAGGCAGGA GGGAAAGAGC CAAGAGGCAA AAAGAAGTCA GGGAGTCCAA GTGCTAG

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

    CloneID OMv32319
    Clone ID Related Accession (Same CDS sequence) XM_021183711.1
    Accession Version XM_021183711.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5973bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product sodium channel protein type 8 subunit alpha isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGTGAAAAT AGATAAGGCA GCTACGGACA GTTCAGGTGC AACAACTGAG
    GTGGAGATTA AGAAGAAAGG CCCTGGATCG CTCTTAGTCT CCATGGAACA ACTCGCCTCC
    TACGGACGGA AGGACAGAAT CAACAGTATA ATGAGCGTTG TCACAAACAC ACTAGTGGAA
    GAGCTGGAAG AGTCTCAGAG AAAGTGCCCA CCATGCTGGT ATAAGTTTGC TAATACTTTC
    CTCATCTGGG AGTGTCACCC CTACTGGATA AAACTGAAGG AGATTGTGAA CCTGATCGTC
    ATGGACCCTT TCGTAGACTT AGCCATCACC ATCTGCATCG TTCTGAACAC ACTATTTATG
    GCAATGGAGC ACCATCCCAT GACGCCACAA TTCGAACATG TCCTGGCCGT AGGGAACCTG
    GTGTTCACTG GGATCTTCAC GGCAGAAATG TTCCTGAAGC TCATAGCCAT GGATCCCTAC
    TATTACTTCC AAGAAGGCTG GAACATTTTT GACGGATTTA TCGTCTCCCT CAGTTTAATG
    GAGCTGGGCC TTGCAGACGT GGAGGGGCTC TCAGTGCTGC GATCTTTCCG ATTGCTCCGA
    GTCTTCAAAT TGGCCAAGTC CTGGCCCACC CTGAACATGC TGATCAAGAT CATCGGGAAC
    TCCGTTGGCG CCCTGGGCAA CCTGACCCTG GTGCTGGCCA TCATCGTCTT CATCTTCGCC
    GTGGTGGGGA TGCAGCTCTT TGGAAAGAGC TACAAGGAGT GCGTCTGTAA GATCAGCCAG
    GAGTGCAAGC TCCCGCGCTG GCACATGAAC GACTTCTTCC ACTCCTTCCT CATCGTCTTC
    CGAGTGCTGT GTGGGGAGTG GATCGAGACC ATGTGGGACT GCATGGAAGT GGCCGGCCAG
    GCCATGTGCC TTATCGTGTT CATGATGGTC ATGGTCATCG GCAACCTGGT GGTGCTGAAC
    CTATTTCTGG CCTTGCTTCT GAGCTCCTTC AGCGCAGACA ATCTGGCGGC CACGGATGAC
    GACGGGGAAA TGAATAACCT GCAGATATCC GTGATCCGGA TCAAGAAGGG CGTGGCCTGG
    GCCAAAGTGA AGGTGCACGC CTTCATGCAG GCACACTTCA AGCAACGGGA GGCTGATGAA
    GTGAAACCTT TAGACGAGCT GTATGAGAAG AAGGCCAACT GCATCGCCAA CCACACCGGC
    GTGGACATTC ACAGGAACGG CGACTTCCAG AAAAACGGGA ACGGCACCAC TAGCGGCATC
    GGCAGCAGCG TGGAGAAGTA CATCATCGAC GAGGACCACA TGTCCTTCAT TAACAACCCA
    AACCTGACCG TGCGGGTGCC CATTGCTGTG GGCGAGTCTG ATTTCGAGAA CCTCAACACA
    GAGGATGTTA GCAGCGAGTC AGACCCCGAA GGCAGCAAAG ACAAATTGGA CGATACCAGC
    TCCTCAGAAG GAAGTACCAT CGACATCAAG CCTGAGGTGG AAGAAGTCCC AGTGGAGCAG
    CCTGAGGAAT ATTTGGATCC AGACGCCTGC TTCACTGAGG GTTGTGTCCA GCGGTTCAAG
    TGCTGCCAGG TCAACATCGA GGAAGGACTA GGCAAGTCGT GGTGGATCCT GCGGAAAACC
    TGCTTCCTCA TTGTGGAGCA CAATTGGTTT GAGACCTTCA TCATCTTCAT GATCCTCCTC
    AGCAGTGGCG CCCTGGCCTT CGAGGACATC TACATTGAGC AGAGGAAGAC CATCCGTACC
    ATCCTGGAGT ATGCGGACAA GGTCTTCACC TACATCTTCA TCCTGGAGAT GTTGCTCAAA
    TGGACAGCCT ATGGCTTCGT CAAGTTCTTC ACCAATGCCT GGTGCTGGTT GGACTTCCTC
    ATTGTGGCTG TCTCTTTAGT CAGCCTTATA GCTAATGCCC TGGGCTACTC GGAACTAGGT
    GCCATAAAGT CCCTTAGGAC CCTAAGAGCT TTGAGACCCT TAAGAGCCTT ATCACGATTT
    GAAGGGATGA GGGTGGTGGT GAACGCCTTG GTGGGCGCCA TCCCCTCCAT CATGAACGTG
    CTGCTGGTGT GTCTCATCTT CTGGCTGATT TTCAGCATCA TGGGCGTTAA CCTGTTTGCT
    GGGAAATACC ACTACTGTTT CAACGAGACT TCAGAAATCC GGTTCGAAAT CGAAGAGGTG
    AACAATAAAA CCGACTGTGA GAAGCTCATG GAGGGCAACA ACACAGAGAT CCGATGGAAG
    AACGTCAAGA TCAACTTCGA CAACGTCGGG GCAGGCTACC TGGCCCTTCT TCAAGTGGCA
    ACCTTCAAAG GCTGGATGGA CATCATGTAT GCAGCTGTAG ATTCCCGAAA GCCGGACGAG
    CAGCCTGATT ATGAGGGCAA CATCTACATG TACATCTACT TTGTCATCTT CATCATCTTC
    GGCTCCTTCT TCACCCTCAA CCTGTTCATC GGTGTCATCA TCGACAACTT CAATCAACAG
    AAGAAAAAGT TTGGAGGTCA GGACATCTTC ATGACAGAGG AACAGAAGAA GTACTACAAT
    GCCATGAAGA AGCTGGGCTC CAAGAAGCCA CAGAAGCCCA TCCCCCGACC TTTGAACAAA
    ATCCAAGGGA TTGTCTTTGA TTTCGTCACG CAACAAGCCT TCGACATCGT GATCATGATG
    CTCATCTGCC TTAACATGGT GACCATGATG GTGGAGACGG ACACGCAGAG CAAGCAGATG
    GAGAACATTC TCTACTGGAT TAATCTGGTC TTCGTCATCT TCTTCACCTG CGAGTGTGTG
    CTCAAAATGT TTGCCTTGAG ACACTACTAT TTCACCATTG GCTGGAACAT CTTTGACTTT
    GTGGTGGTCA TTCTCTCCAT TGTGGGAATG TTCCTGGCTG ATATCATTGA GAAGTACTTC
    GTCTCCCCGA CCCTATTCCG TGTCATCCGA TTGGCCCGCA TCGGGCGCAT CTTGCGTCTG
    ATCAAGGGCG CCAAAGGGAT CCGCACCCTG CTCTTTGCCT TAATGATGTC GCTGCCCGCC
    CTGTTCAACA TTGGCCTCCT GCTCTTCCTG GTCATGTTCA TCTTCTCCAT CTTTGGGATG
    TCCAACTTCG CGTACGTGAA GCACGAGGCC GGCATTGATG ACATGTTCAA CTTCGAGACA
    TTTGGCAACA GCATGATCTG CTTATTCCAG ATCACGACCT CTGCTGGTTG GGACGGCCTA
    CTGCTGCCAA TCCTGAACCG CCCCCCTGAC TGCAGCTTGG ACAAGGAGCA CCCAGGAAGT
    GGCTTCAAAG GGGACTGCGG GAACCCCTCC GTGGGCATCT TCTTCTTCGT CAGCTACATC
    ATCATCTCCT TCCTCATCGT GGTGAACATG TACATTGCCA TCATCCTGGA GAACTTCAGC
    GTGGCCACAG AGGAAAGCGC CGATCCTCTG AGCGAGGACG ACTTCGAGAC TTTCTATGAG
    ATCTGGGAGA AGTTTGATCC TGATGCCACC CAGTTCATCG AGTACTGTAA ACTGGCCGAC
    TTTGCCGACG CCCTGGAGCA TCCGCTCCGA GTACCCAAGC CCAACACCAT TGAGCTCATC
    GCCATGGACC TGCCCATGGT GAGCGGAGAT CGAATCCACT GCTTGGACAT CCTTTTCGCC
    TTCACCAAGC GAGTCCTGGG AGACAGTGGG GAGTTGGACA TCCTGCGGCA GCAGATGGAG
    GAGCGGTTTG TGGCGTCCAA TCCTTCCAAA GTGTCTTACG AGCCTATCAC CACCACTCTG
    CGGCGCAAGC AGGAGGAGGT GTCTGCAGTG GTCTTGCAGC GTGCCTACAG GGGACACTTG
    GCTAGGCGGG GCTTCATCTG CAGAAAGATC ACTTCCAACA AGCTGGAGAA TGGAGGCACC
    CACCGGGAGA AGAAGGAGAG CACCCCGTCC ACAGCCTCCC TCCCCTCTTA TGACAGCGTG
    ACAAAGCCCG ACAAGGAGAA GCAGCAGCGG GCAGAGGAAG GCAGGAGGGA AAGAGCCAAG
    AGGCAAAAAG AAGTCAGGGA GTCCAAGTGC TAG

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

    RefSeq XP_021039370.1
    CDS1..5973
    Translation

    Target ORF information:

    RefSeq Version XM_021183711.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021183711.1

    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
    5941
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGTGAAAAT AGATAAGGCA GCTACGGACA GTTCAGGTGC AACAACTGAG
    GTGGAGATTA AGAAGAAAGG CCCTGGATCG CTCTTAGTCT CCATGGAACA ACTCGCCTCC
    TACGGACGGA AGGACAGAAT CAACAGTATA ATGAGCGTTG TCACAAACAC ACTAGTGGAA
    GAGCTGGAAG AGTCTCAGAG AAAGTGCCCA CCATGCTGGT ATAAGTTTGC TAATACTTTC
    CTCATCTGGG AGTGTCACCC CTACTGGATA AAACTGAAGG AGATTGTGAA CCTGATCGTC
    ATGGACCCTT TCGTAGACTT AGCCATCACC ATCTGCATCG TTCTGAACAC ACTATTTATG
    GCAATGGAGC ACCATCCCAT GACGCCACAA TTCGAACATG TCCTGGCCGT AGGGAACCTG
    GTGTTCACTG GGATCTTCAC GGCAGAAATG TTCCTGAAGC TCATAGCCAT GGATCCCTAC
    TATTACTTCC AAGAAGGCTG GAACATTTTT GACGGATTTA TCGTCTCCCT CAGTTTAATG
    GAGCTGGGCC TTGCAGACGT GGAGGGGCTC TCAGTGCTGC GATCTTTCCG ATTGCTCCGA
    GTCTTCAAAT TGGCCAAGTC CTGGCCCACC CTGAACATGC TGATCAAGAT CATCGGGAAC
    TCCGTTGGCG CCCTGGGCAA CCTGACCCTG GTGCTGGCCA TCATCGTCTT CATCTTCGCC
    GTGGTGGGGA TGCAGCTCTT TGGAAAGAGC TACAAGGAGT GCGTCTGTAA GATCAGCCAG
    GAGTGCAAGC TCCCGCGCTG GCACATGAAC GACTTCTTCC ACTCCTTCCT CATCGTCTTC
    CGAGTGCTGT GTGGGGAGTG GATCGAGACC ATGTGGGACT GCATGGAAGT GGCCGGCCAG
    GCCATGTGCC TTATCGTGTT CATGATGGTC ATGGTCATCG GCAACCTGGT GGTGCTGAAC
    CTATTTCTGG CCTTGCTTCT GAGCTCCTTC AGCGCAGACA ATCTGGCGGC CACGGATGAC
    GACGGGGAAA TGAATAACCT GCAGATATCC GTGATCCGGA TCAAGAAGGG CGTGGCCTGG
    GCCAAAGTGA AGGTGCACGC CTTCATGCAG GCACACTTCA AGCAACGGGA GGCTGATGAA
    GTGAAACCTT TAGACGAGCT GTATGAGAAG AAGGCCAACT GCATCGCCAA CCACACCGGC
    GTGGACATTC ACAGGAACGG CGACTTCCAG AAAAACGGGA ACGGCACCAC TAGCGGCATC
    GGCAGCAGCG TGGAGAAGTA CATCATCGAC GAGGACCACA TGTCCTTCAT TAACAACCCA
    AACCTGACCG TGCGGGTGCC CATTGCTGTG GGCGAGTCTG ATTTCGAGAA CCTCAACACA
    GAGGATGTTA GCAGCGAGTC AGACCCCGAA GGCAGCAAAG ACAAATTGGA CGATACCAGC
    TCCTCAGAAG GAAGTACCAT CGACATCAAG CCTGAGGTGG AAGAAGTCCC AGTGGAGCAG
    CCTGAGGAAT ATTTGGATCC AGACGCCTGC TTCACTGAGG GTTGTGTCCA GCGGTTCAAG
    TGCTGCCAGG TCAACATCGA GGAAGGACTA GGCAAGTCGT GGTGGATCCT GCGGAAAACC
    TGCTTCCTCA TTGTGGAGCA CAATTGGTTT GAGACCTTCA TCATCTTCAT GATCCTCCTC
    AGCAGTGGCG CCCTGGCCTT CGAGGACATC TACATTGAGC AGAGGAAGAC CATCCGTACC
    ATCCTGGAGT ATGCGGACAA GGTCTTCACC TACATCTTCA TCCTGGAGAT GTTGCTCAAA
    TGGACAGCCT ATGGCTTCGT CAAGTTCTTC ACCAATGCCT GGTGCTGGTT GGACTTCCTC
    ATTGTGGCTG TCTCTTTAGT CAGCCTTATA GCTAATGCCC TGGGCTACTC GGAACTAGGT
    GCCATAAAGT CCCTTAGGAC CCTAAGAGCT TTGAGACCCT TAAGAGCCTT ATCACGATTT
    GAAGGGATGA GGGTGGTGGT GAACGCCTTG GTGGGCGCCA TCCCCTCCAT CATGAACGTG
    CTGCTGGTGT GTCTCATCTT CTGGCTGATT TTCAGCATCA TGGGCGTTAA CCTGTTTGCT
    GGGAAATACC ACTACTGTTT CAACGAGACT TCAGAAATCC GGTTCGAAAT CGAAGAGGTG
    AACAATAAAA CCGACTGTGA GAAGCTCATG GAGGGCAACA ACACAGAGAT CCGATGGAAG
    AACGTCAAGA TCAACTTCGA CAACGTCGGG GCAGGCTACC TGGCCCTTCT TCAAGTGGCA
    ACCTTCAAAG GCTGGATGGA CATCATGTAT GCAGCTGTAG ATTCCCGAAA GCCGGACGAG
    CAGCCTGATT ATGAGGGCAA CATCTACATG TACATCTACT TTGTCATCTT CATCATCTTC
    GGCTCCTTCT TCACCCTCAA CCTGTTCATC GGTGTCATCA TCGACAACTT CAATCAACAG
    AAGAAAAAGT TTGGAGGTCA GGACATCTTC ATGACAGAGG AACAGAAGAA GTACTACAAT
    GCCATGAAGA AGCTGGGCTC CAAGAAGCCA CAGAAGCCCA TCCCCCGACC TTTGAACAAA
    ATCCAAGGGA TTGTCTTTGA TTTCGTCACG CAACAAGCCT TCGACATCGT GATCATGATG
    CTCATCTGCC TTAACATGGT GACCATGATG GTGGAGACGG ACACGCAGAG CAAGCAGATG
    GAGAACATTC TCTACTGGAT TAATCTGGTC TTCGTCATCT TCTTCACCTG CGAGTGTGTG
    CTCAAAATGT TTGCCTTGAG ACACTACTAT TTCACCATTG GCTGGAACAT CTTTGACTTT
    GTGGTGGTCA TTCTCTCCAT TGTGGGAATG TTCCTGGCTG ATATCATTGA GAAGTACTTC
    GTCTCCCCGA CCCTATTCCG TGTCATCCGA TTGGCCCGCA TCGGGCGCAT CTTGCGTCTG
    ATCAAGGGCG CCAAAGGGAT CCGCACCCTG CTCTTTGCCT TAATGATGTC GCTGCCCGCC
    CTGTTCAACA TTGGCCTCCT GCTCTTCCTG GTCATGTTCA TCTTCTCCAT CTTTGGGATG
    TCCAACTTCG CGTACGTGAA GCACGAGGCC GGCATTGATG ACATGTTCAA CTTCGAGACA
    TTTGGCAACA GCATGATCTG CTTATTCCAG ATCACGACCT CTGCTGGTTG GGACGGCCTA
    CTGCTGCCAA TCCTGAACCG CCCCCCTGAC TGCAGCTTGG ACAAGGAGCA CCCAGGAAGT
    GGCTTCAAAG GGGACTGCGG GAACCCCTCC GTGGGCATCT TCTTCTTCGT CAGCTACATC
    ATCATCTCCT TCCTCATCGT GGTGAACATG TACATTGCCA TCATCCTGGA GAACTTCAGC
    GTGGCCACAG AGGAAAGCGC CGATCCTCTG AGCGAGGACG ACTTCGAGAC TTTCTATGAG
    ATCTGGGAGA AGTTTGATCC TGATGCCACC CAGTTCATCG AGTACTGTAA ACTGGCCGAC
    TTTGCCGACG CCCTGGAGCA TCCGCTCCGA GTACCCAAGC CCAACACCAT TGAGCTCATC
    GCCATGGACC TGCCCATGGT GAGCGGAGAT CGAATCCACT GCTTGGACAT CCTTTTCGCC
    TTCACCAAGC GAGTCCTGGG AGACAGTGGG GAGTTGGACA TCCTGCGGCA GCAGATGGAG
    GAGCGGTTTG TGGCGTCCAA TCCTTCCAAA GTGTCTTACG AGCCTATCAC CACCACTCTG
    CGGCGCAAGC AGGAGGAGGT GTCTGCAGTG GTCTTGCAGC GTGCCTACAG GGGACACTTG
    GCTAGGCGGG GCTTCATCTG CAGAAAGATC ACTTCCAACA AGCTGGAGAA TGGAGGCACC
    CACCGGGAGA AGAAGGAGAG CACCCCGTCC ACAGCCTCCC TCCCCTCTTA TGACAGCGTG
    ACAAAGCCCG ACAAGGAGAA GCAGCAGCGG GCAGAGGAAG GCAGGAGGGA AAGAGCCAAG
    AGGCAAAAAG AAGTCAGGGA GTCCAAGTGC TAG

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

    CloneID OMv32320
    Clone ID Related Accession (Same CDS sequence) XM_021183712.1
    Accession Version XM_021183712.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5940bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product sodium channel protein type 8 subunit alpha isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGGTGCAAC AACTGAGGTG GAGATTAAGA AGAAAGGCCC TGGATCGCTC
    TTAGTCTCCA TGGAACAACT CGCCTCCTAC GGACGGAAGG ACAGAATCAA CAGTATAATG
    AGCGTTGTCA CAAACACACT AGTGGAAGAG CTGGAAGAGT CTCAGAGAAA GTGCCCACCA
    TGCTGGTATA AGTTTGCTAA TACTTTCCTC ATCTGGGAGT GTCACCCCTA CTGGATAAAA
    CTGAAGGAGA TTGTGAACCT GATCGTCATG GACCCTTTCG TAGACTTAGC CATCACCATC
    TGCATCGTTC TGAACACACT ATTTATGGCA ATGGAGCACC ATCCCATGAC GCCACAATTC
    GAACATGTCC TGGCCGTAGG GAACCTGGTG TTCACTGGGA TCTTCACGGC AGAAATGTTC
    CTGAAGCTCA TAGCCATGGA TCCCTACTAT TACTTCCAAG AAGGCTGGAA CATTTTTGAC
    GGATTTATCG TCTCCCTCAG TTTAATGGAG CTGGGCCTTG CAGACGTGGA GGGGCTCTCA
    GTGCTGCGAT CTTTCCGATT GCTCCGAGTC TTCAAATTGG CCAAGTCCTG GCCCACCCTG
    AACATGCTGA TCAAGATCAT CGGGAACTCC GTTGGCGCCC TGGGCAACCT GACCCTGGTG
    CTGGCCATCA TCGTCTTCAT CTTCGCCGTG GTGGGGATGC AGCTCTTTGG AAAGAGCTAC
    AAGGAGTGCG TCTGTAAGAT CAGCCAGGAG TGCAAGCTCC CGCGCTGGCA CATGAACGAC
    TTCTTCCACT CCTTCCTCAT CGTCTTCCGA GTGCTGTGTG GGGAGTGGAT CGAGACCATG
    TGGGACTGCA TGGAAGTGGC CGGCCAGGCC ATGTGCCTTA TCGTGTTCAT GATGGTCATG
    GTCATCGGCA ACCTGGTGGT GCTGAACCTA TTTCTGGCCT TGCTTCTGAG CTCCTTCAGC
    GCAGACAATC TGGCGGCCAC GGATGACGAC GGGGAAATGA ATAACCTGCA GATATCCGTG
    ATCCGGATCA AGAAGGGCGT GGCCTGGGCC AAAGTGAAGG TGCACGCCTT CATGCAGGCA
    CACTTCAAGC AACGGGAGGC TGATGAAGTG AAACCTTTAG ACGAGCTGTA TGAGAAGAAG
    GCCAACTGCA TCGCCAACCA CACCGGCGTG GACATTCACA GGAACGGCGA CTTCCAGAAA
    AACGGGAACG GCACCACTAG CGGCATCGGC AGCAGCGTGG AGAAGTACAT CATCGACGAG
    GACCACATGT CCTTCATTAA CAACCCAAAC CTGACCGTGC GGGTGCCCAT TGCTGTGGGC
    GAGTCTGATT TCGAGAACCT CAACACAGAG GATGTTAGCA GCGAGTCAGA CCCCGAAGGC
    AGCAAAGACA AATTGGACGA TACCAGCTCC TCAGAAGGAA GTACCATCGA CATCAAGCCT
    GAGGTGGAAG AAGTCCCAGT GGAGCAGCCT GAGGAATATT TGGATCCAGA CGCCTGCTTC
    ACTGAGGGTT GTGTCCAGCG GTTCAAGTGC TGCCAGGTCA ACATCGAGGA AGGACTAGGC
    AAGTCGTGGT GGATCCTGCG GAAAACCTGC TTCCTCATTG TGGAGCACAA TTGGTTTGAG
    ACCTTCATCA TCTTCATGAT CCTCCTCAGC AGTGGCGCCC TGGCCTTCGA GGACATCTAC
    ATTGAGCAGA GGAAGACCAT CCGTACCATC CTGGAGTATG CGGACAAGGT CTTCACCTAC
    ATCTTCATCC TGGAGATGTT GCTCAAATGG ACAGCCTATG GCTTCGTCAA GTTCTTCACC
    AATGCCTGGT GCTGGTTGGA CTTCCTCATT GTGGCTGTCT CTTTAGTCAG CCTTATAGCT
    AATGCCCTGG GCTACTCGGA ACTAGGTGCC ATAAAGTCCC TTAGGACCCT AAGAGCTTTG
    AGACCCTTAA GAGCCTTATC ACGATTTGAA GGGATGAGGG TGGTGGTGAA CGCCTTGGTG
    GGCGCCATCC CCTCCATCAT GAACGTGCTG CTGGTGTGTC TCATCTTCTG GCTGATTTTC
    AGCATCATGG GCGTTAACCT GTTTGCTGGG AAATACCACT ACTGTTTCAA CGAGACTTCA
    GAAATCCGGT TCGAAATCGA AGAGGTGAAC AATAAAACCG ACTGTGAGAA GCTCATGGAG
    GGCAACAACA CAGAGATCCG ATGGAAGAAC GTCAAGATCA ACTTCGACAA CGTCGGGGCA
    GGCTACCTGG CCCTTCTTCA AGTGGCAACC TTCAAAGGCT GGATGGACAT CATGTATGCA
    GCTGTAGATT CCCGAAAGCC GGACGAGCAG CCTGATTATG AGGGCAACAT CTACATGTAC
    ATCTACTTTG TCATCTTCAT CATCTTCGGC TCCTTCTTCA CCCTCAACCT GTTCATCGGT
    GTCATCATCG ACAACTTCAA TCAACAGAAG AAAAAGTTTG GAGGTCAGGA CATCTTCATG
    ACAGAGGAAC AGAAGAAGTA CTACAATGCC ATGAAGAAGC TGGGCTCCAA GAAGCCACAG
    AAGCCCATCC CCCGACCTTT GAACAAAATC CAAGGGATTG TCTTTGATTT CGTCACGCAA
    CAAGCCTTCG ACATCGTGAT CATGATGCTC ATCTGCCTTA ACATGGTGAC CATGATGGTG
    GAGACGGACA CGCAGAGCAA GCAGATGGAG AACATTCTCT ACTGGATTAA TCTGGTCTTC
    GTCATCTTCT TCACCTGCGA GTGTGTGCTC AAAATGTTTG CCTTGAGACA CTACTATTTC
    ACCATTGGCT GGAACATCTT TGACTTTGTG GTGGTCATTC TCTCCATTGT GGGAATGTTC
    CTGGCTGATA TCATTGAGAA GTACTTCGTC TCCCCGACCC TATTCCGTGT CATCCGATTG
    GCCCGCATCG GGCGCATCTT GCGTCTGATC AAGGGCGCCA AAGGGATCCG CACCCTGCTC
    TTTGCCTTAA TGATGTCGCT GCCCGCCCTG TTCAACATTG GCCTCCTGCT CTTCCTGGTC
    ATGTTCATCT TCTCCATCTT TGGGATGTCC AACTTCGCGT ACGTGAAGCA CGAGGCCGGC
    ATTGATGACA TGTTCAACTT CGAGACATTT GGCAACAGCA TGATCTGCTT ATTCCAGATC
    ACGACCTCTG CTGGTTGGGA CGGCCTACTG CTGCCAATCC TGAACCGCCC CCCTGACTGC
    AGCTTGGACA AGGAGCACCC AGGAAGTGGC TTCAAAGGGG ACTGCGGGAA CCCCTCCGTG
    GGCATCTTCT TCTTCGTCAG CTACATCATC ATCTCCTTCC TCATCGTGGT GAACATGTAC
    ATTGCCATCA TCCTGGAGAA CTTCAGCGTG GCCACAGAGG AAAGCGCCGA TCCTCTGAGC
    GAGGACGACT TCGAGACTTT CTATGAGATC TGGGAGAAGT TTGATCCTGA TGCCACCCAG
    TTCATCGAGT ACTGTAAACT GGCCGACTTT GCCGACGCCC TGGAGCATCC GCTCCGAGTA
    CCCAAGCCCA ACACCATTGA GCTCATCGCC ATGGACCTGC CCATGGTGAG CGGAGATCGA
    ATCCACTGCT TGGACATCCT TTTCGCCTTC ACCAAGCGAG TCCTGGGAGA CAGTGGGGAG
    TTGGACATCC TGCGGCAGCA GATGGAGGAG CGGTTTGTGG CGTCCAATCC TTCCAAAGTG
    TCTTACGAGC CTATCACCAC CACTCTGCGG CGCAAGCAGG AGGAGGTGTC TGCAGTGGTC
    TTGCAGCGTG CCTACAGGGG ACACTTGGCT AGGCGGGGCT TCATCTGCAG AAAGATCACT
    TCCAACAAGC TGGAGAATGG AGGCACCCAC CGGGAGAAGA AGGAGAGCAC CCCGTCCACA
    GCCTCCCTCC CCTCTTATGA CAGCGTGACA AAGCCCGACA AGGAGAAGCA GCAGCGGGCA
    GAGGAAGGCA GGAGGGAAAG AGCCAAGAGG CAAAAAGAAG TCAGGGAGTC CAAGTGCTAG

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

    RefSeq XP_021039371.1
    CDS1..5940
    Translation

    Target ORF information:

    RefSeq Version XM_021183712.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021183712.1

    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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGGTGCAAC AACTGAGGTG GAGATTAAGA AGAAAGGCCC TGGATCGCTC
    TTAGTCTCCA TGGAACAACT CGCCTCCTAC GGACGGAAGG ACAGAATCAA CAGTATAATG
    AGCGTTGTCA CAAACACACT AGTGGAAGAG CTGGAAGAGT CTCAGAGAAA GTGCCCACCA
    TGCTGGTATA AGTTTGCTAA TACTTTCCTC ATCTGGGAGT GTCACCCCTA CTGGATAAAA
    CTGAAGGAGA TTGTGAACCT GATCGTCATG GACCCTTTCG TAGACTTAGC CATCACCATC
    TGCATCGTTC TGAACACACT ATTTATGGCA ATGGAGCACC ATCCCATGAC GCCACAATTC
    GAACATGTCC TGGCCGTAGG GAACCTGGTG TTCACTGGGA TCTTCACGGC AGAAATGTTC
    CTGAAGCTCA TAGCCATGGA TCCCTACTAT TACTTCCAAG AAGGCTGGAA CATTTTTGAC
    GGATTTATCG TCTCCCTCAG TTTAATGGAG CTGGGCCTTG CAGACGTGGA GGGGCTCTCA
    GTGCTGCGAT CTTTCCGATT GCTCCGAGTC TTCAAATTGG CCAAGTCCTG GCCCACCCTG
    AACATGCTGA TCAAGATCAT CGGGAACTCC GTTGGCGCCC TGGGCAACCT GACCCTGGTG
    CTGGCCATCA TCGTCTTCAT CTTCGCCGTG GTGGGGATGC AGCTCTTTGG AAAGAGCTAC
    AAGGAGTGCG TCTGTAAGAT CAGCCAGGAG TGCAAGCTCC CGCGCTGGCA CATGAACGAC
    TTCTTCCACT CCTTCCTCAT CGTCTTCCGA GTGCTGTGTG GGGAGTGGAT CGAGACCATG
    TGGGACTGCA TGGAAGTGGC CGGCCAGGCC ATGTGCCTTA TCGTGTTCAT GATGGTCATG
    GTCATCGGCA ACCTGGTGGT GCTGAACCTA TTTCTGGCCT TGCTTCTGAG CTCCTTCAGC
    GCAGACAATC TGGCGGCCAC GGATGACGAC GGGGAAATGA ATAACCTGCA GATATCCGTG
    ATCCGGATCA AGAAGGGCGT GGCCTGGGCC AAAGTGAAGG TGCACGCCTT CATGCAGGCA
    CACTTCAAGC AACGGGAGGC TGATGAAGTG AAACCTTTAG ACGAGCTGTA TGAGAAGAAG
    GCCAACTGCA TCGCCAACCA CACCGGCGTG GACATTCACA GGAACGGCGA CTTCCAGAAA
    AACGGGAACG GCACCACTAG CGGCATCGGC AGCAGCGTGG AGAAGTACAT CATCGACGAG
    GACCACATGT CCTTCATTAA CAACCCAAAC CTGACCGTGC GGGTGCCCAT TGCTGTGGGC
    GAGTCTGATT TCGAGAACCT CAACACAGAG GATGTTAGCA GCGAGTCAGA CCCCGAAGGC
    AGCAAAGACA AATTGGACGA TACCAGCTCC TCAGAAGGAA GTACCATCGA CATCAAGCCT
    GAGGTGGAAG AAGTCCCAGT GGAGCAGCCT GAGGAATATT TGGATCCAGA CGCCTGCTTC
    ACTGAGGGTT GTGTCCAGCG GTTCAAGTGC TGCCAGGTCA ACATCGAGGA AGGACTAGGC
    AAGTCGTGGT GGATCCTGCG GAAAACCTGC TTCCTCATTG TGGAGCACAA TTGGTTTGAG
    ACCTTCATCA TCTTCATGAT CCTCCTCAGC AGTGGCGCCC TGGCCTTCGA GGACATCTAC
    ATTGAGCAGA GGAAGACCAT CCGTACCATC CTGGAGTATG CGGACAAGGT CTTCACCTAC
    ATCTTCATCC TGGAGATGTT GCTCAAATGG ACAGCCTATG GCTTCGTCAA GTTCTTCACC
    AATGCCTGGT GCTGGTTGGA CTTCCTCATT GTGGCTGTCT CTTTAGTCAG CCTTATAGCT
    AATGCCCTGG GCTACTCGGA ACTAGGTGCC ATAAAGTCCC TTAGGACCCT AAGAGCTTTG
    AGACCCTTAA GAGCCTTATC ACGATTTGAA GGGATGAGGG TGGTGGTGAA CGCCTTGGTG
    GGCGCCATCC CCTCCATCAT GAACGTGCTG CTGGTGTGTC TCATCTTCTG GCTGATTTTC
    AGCATCATGG GCGTTAACCT GTTTGCTGGG AAATACCACT ACTGTTTCAA CGAGACTTCA
    GAAATCCGGT TCGAAATCGA AGAGGTGAAC AATAAAACCG ACTGTGAGAA GCTCATGGAG
    GGCAACAACA CAGAGATCCG ATGGAAGAAC GTCAAGATCA ACTTCGACAA CGTCGGGGCA
    GGCTACCTGG CCCTTCTTCA AGTGGCAACC TTCAAAGGCT GGATGGACAT CATGTATGCA
    GCTGTAGATT CCCGAAAGCC GGACGAGCAG CCTGATTATG AGGGCAACAT CTACATGTAC
    ATCTACTTTG TCATCTTCAT CATCTTCGGC TCCTTCTTCA CCCTCAACCT GTTCATCGGT
    GTCATCATCG ACAACTTCAA TCAACAGAAG AAAAAGTTTG GAGGTCAGGA CATCTTCATG
    ACAGAGGAAC AGAAGAAGTA CTACAATGCC ATGAAGAAGC TGGGCTCCAA GAAGCCACAG
    AAGCCCATCC CCCGACCTTT GAACAAAATC CAAGGGATTG TCTTTGATTT CGTCACGCAA
    CAAGCCTTCG ACATCGTGAT CATGATGCTC ATCTGCCTTA ACATGGTGAC CATGATGGTG
    GAGACGGACA CGCAGAGCAA GCAGATGGAG AACATTCTCT ACTGGATTAA TCTGGTCTTC
    GTCATCTTCT TCACCTGCGA GTGTGTGCTC AAAATGTTTG CCTTGAGACA CTACTATTTC
    ACCATTGGCT GGAACATCTT TGACTTTGTG GTGGTCATTC TCTCCATTGT GGGAATGTTC
    CTGGCTGATA TCATTGAGAA GTACTTCGTC TCCCCGACCC TATTCCGTGT CATCCGATTG
    GCCCGCATCG GGCGCATCTT GCGTCTGATC AAGGGCGCCA AAGGGATCCG CACCCTGCTC
    TTTGCCTTAA TGATGTCGCT GCCCGCCCTG TTCAACATTG GCCTCCTGCT CTTCCTGGTC
    ATGTTCATCT TCTCCATCTT TGGGATGTCC AACTTCGCGT ACGTGAAGCA CGAGGCCGGC
    ATTGATGACA TGTTCAACTT CGAGACATTT GGCAACAGCA TGATCTGCTT ATTCCAGATC
    ACGACCTCTG CTGGTTGGGA CGGCCTACTG CTGCCAATCC TGAACCGCCC CCCTGACTGC
    AGCTTGGACA AGGAGCACCC AGGAAGTGGC TTCAAAGGGG ACTGCGGGAA CCCCTCCGTG
    GGCATCTTCT TCTTCGTCAG CTACATCATC ATCTCCTTCC TCATCGTGGT GAACATGTAC
    ATTGCCATCA TCCTGGAGAA CTTCAGCGTG GCCACAGAGG AAAGCGCCGA TCCTCTGAGC
    GAGGACGACT TCGAGACTTT CTATGAGATC TGGGAGAAGT TTGATCCTGA TGCCACCCAG
    TTCATCGAGT ACTGTAAACT GGCCGACTTT GCCGACGCCC TGGAGCATCC GCTCCGAGTA
    CCCAAGCCCA ACACCATTGA GCTCATCGCC ATGGACCTGC CCATGGTGAG CGGAGATCGA
    ATCCACTGCT TGGACATCCT TTTCGCCTTC ACCAAGCGAG TCCTGGGAGA CAGTGGGGAG
    TTGGACATCC TGCGGCAGCA GATGGAGGAG CGGTTTGTGG CGTCCAATCC TTCCAAAGTG
    TCTTACGAGC CTATCACCAC CACTCTGCGG CGCAAGCAGG AGGAGGTGTC TGCAGTGGTC
    TTGCAGCGTG CCTACAGGGG ACACTTGGCT AGGCGGGGCT TCATCTGCAG AAAGATCACT
    TCCAACAAGC TGGAGAATGG AGGCACCCAC CGGGAGAAGA AGGAGAGCAC CCCGTCCACA
    GCCTCCCTCC CCTCTTATGA CAGCGTGACA AAGCCCGACA AGGAGAAGCA GCAGCGGGCA
    GAGGAAGGCA GGAGGGAAAG AGCCAAGAGG CAAAAAGAAG TCAGGGAGTC CAAGTGCTAG

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

    CloneID OMv32321
    Clone ID Related Accession (Same CDS sequence) XM_021183713.1
    Accession Version XM_021183713.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5940bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product sodium channel protein type 8 subunit alpha isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCGTATAT AACAGAGTTT GTAAACCTAG GCAATGTTTC AGCTCTACGC
    ACTTTCAGGG TACTGAGGGC TTTGAAAACT ATTTCGGTAA TCCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGGTGCAAC AACTGAGGTG GAGATTAAGA AGAAAGGCCC TGGATCGCTC
    TTAGTCTCCA TGGAACAACT CGCCTCCTAC GGACGGAAGG ACAGAATCAA CAGTATAATG
    AGCGTTGTCA CAAACACACT AGTGGAAGAG CTGGAAGAGT CTCAGAGAAA GTGCCCACCA
    TGCTGGTATA AGTTTGCTAA TACTTTCCTC ATCTGGGAGT GTCACCCCTA CTGGATAAAA
    CTGAAGGAGA TTGTGAACCT GATCGTCATG GACCCTTTCG TAGACTTAGC CATCACCATC
    TGCATCGTTC TGAACACACT ATTTATGGCA ATGGAGCACC ATCCCATGAC GCCACAATTC
    GAACATGTCC TGGCCGTAGG GAACCTGGTG TTCACTGGGA TCTTCACGGC AGAAATGTTC
    CTGAAGCTCA TAGCCATGGA TCCCTACTAT TACTTCCAAG AAGGCTGGAA CATTTTTGAC
    GGATTTATCG TCTCCCTCAG TTTAATGGAG CTGGGCCTTG CAGACGTGGA GGGGCTCTCA
    GTGCTGCGAT CTTTCCGATT GCTCCGAGTC TTCAAATTGG CCAAGTCCTG GCCCACCCTG
    AACATGCTGA TCAAGATCAT CGGGAACTCC GTTGGCGCCC TGGGCAACCT GACCCTGGTG
    CTGGCCATCA TCGTCTTCAT CTTCGCCGTG GTGGGGATGC AGCTCTTTGG AAAGAGCTAC
    AAGGAGTGCG TCTGTAAGAT CAGCCAGGAG TGCAAGCTCC CGCGCTGGCA CATGAACGAC
    TTCTTCCACT CCTTCCTCAT CGTCTTCCGA GTGCTGTGTG GGGAGTGGAT CGAGACCATG
    TGGGACTGCA TGGAAGTGGC CGGCCAGGCC ATGTGCCTTA TCGTGTTCAT GATGGTCATG
    GTCATCGGCA ACCTGGTGGT GCTGAACCTA TTTCTGGCCT TGCTTCTGAG CTCCTTCAGC
    GCAGACAATC TGGCGGCCAC GGATGACGAC GGGGAAATGA ATAACCTGCA GATATCCGTG
    ATCCGGATCA AGAAGGGCGT GGCCTGGGCC AAAGTGAAGG TGCACGCCTT CATGCAGGCA
    CACTTCAAGC AACGGGAGGC TGATGAAGTG AAACCTTTAG ACGAGCTGTA TGAGAAGAAG
    GCCAACTGCA TCGCCAACCA CACCGGCGTG GACATTCACA GGAACGGCGA CTTCCAGAAA
    AACGGGAACG GCACCACTAG CGGCATCGGC AGCAGCGTGG AGAAGTACAT CATCGACGAG
    GACCACATGT CCTTCATTAA CAACCCAAAC CTGACCGTGC GGGTGCCCAT TGCTGTGGGC
    GAGTCTGATT TCGAGAACCT CAACACAGAG GATGTTAGCA GCGAGTCAGA CCCCGAAGGC
    AGCAAAGACA AATTGGACGA TACCAGCTCC TCAGAAGGAA GTACCATCGA CATCAAGCCT
    GAGGTGGAAG AAGTCCCAGT GGAGCAGCCT GAGGAATATT TGGATCCAGA CGCCTGCTTC
    ACTGAGGGTT GTGTCCAGCG GTTCAAGTGC TGCCAGGTCA ACATCGAGGA AGGACTAGGC
    AAGTCGTGGT GGATCCTGCG GAAAACCTGC TTCCTCATTG TGGAGCACAA TTGGTTTGAG
    ACCTTCATCA TCTTCATGAT CCTCCTCAGC AGTGGCGCCC TGGCCTTCGA GGACATCTAC
    ATTGAGCAGA GGAAGACCAT CCGTACCATC CTGGAGTATG CGGACAAGGT CTTCACCTAC
    ATCTTCATCC TGGAGATGTT GCTCAAATGG ACAGCCTATG GCTTCGTCAA GTTCTTCACC
    AATGCCTGGT GCTGGTTGGA CTTCCTCATT GTGGCTGTCT CTTTAGTCAG CCTTATAGCT
    AATGCCCTGG GCTACTCGGA ACTAGGTGCC ATAAAGTCCC TTAGGACCCT AAGAGCTTTG
    AGACCCTTAA GAGCCTTATC ACGATTTGAA GGGATGAGGG TGGTGGTGAA CGCCTTGGTG
    GGCGCCATCC CCTCCATCAT GAACGTGCTG CTGGTGTGTC TCATCTTCTG GCTGATTTTC
    AGCATCATGG GCGTTAACCT GTTTGCTGGG AAATACCACT ACTGTTTCAA CGAGACTTCA
    GAAATCCGGT TCGAAATCGA AGAGGTGAAC AATAAAACCG ACTGTGAGAA GCTCATGGAG
    GGCAACAACA CAGAGATCCG ATGGAAGAAC GTCAAGATCA ACTTCGACAA CGTCGGGGCA
    GGCTACCTGG CCCTTCTTCA AGTGGCAACC TTCAAAGGCT GGATGGACAT CATGTATGCA
    GCTGTAGATT CCCGAAAGCC GGACGAGCAG CCTGATTATG AGGGCAACAT CTACATGTAC
    ATCTACTTTG TCATCTTCAT CATCTTCGGC TCCTTCTTCA CCCTCAACCT GTTCATCGGT
    GTCATCATCG ACAACTTCAA TCAACAGAAG AAAAAGTTTG GAGGTCAGGA CATCTTCATG
    ACAGAGGAAC AGAAGAAGTA CTACAATGCC ATGAAGAAGC TGGGCTCCAA GAAGCCACAG
    AAGCCCATCC CCCGACCTTT GAACAAAATC CAAGGGATTG TCTTTGATTT CGTCACGCAA
    CAAGCCTTCG ACATCGTGAT CATGATGCTC ATCTGCCTTA ACATGGTGAC CATGATGGTG
    GAGACGGACA CGCAGAGCAA GCAGATGGAG AACATTCTCT ACTGGATTAA TCTGGTCTTC
    GTCATCTTCT TCACCTGCGA GTGTGTGCTC AAAATGTTTG CCTTGAGACA CTACTATTTC
    ACCATTGGCT GGAACATCTT TGACTTTGTG GTGGTCATTC TCTCCATTGT GGGAATGTTC
    CTGGCTGATA TCATTGAGAA GTACTTCGTC TCCCCGACCC TATTCCGTGT CATCCGATTG
    GCCCGCATCG GGCGCATCTT GCGTCTGATC AAGGGCGCCA AAGGGATCCG CACCCTGCTC
    TTTGCCTTAA TGATGTCGCT GCCCGCCCTG TTCAACATTG GCCTCCTGCT CTTCCTGGTC
    ATGTTCATCT TCTCCATCTT TGGGATGTCC AACTTCGCGT ACGTGAAGCA CGAGGCCGGC
    ATTGATGACA TGTTCAACTT CGAGACATTT GGCAACAGCA TGATCTGCTT ATTCCAGATC
    ACGACCTCTG CTGGTTGGGA CGGCCTACTG CTGCCAATCC TGAACCGCCC CCCTGACTGC
    AGCTTGGACA AGGAGCACCC AGGAAGTGGC TTCAAAGGGG ACTGCGGGAA CCCCTCCGTG
    GGCATCTTCT TCTTCGTCAG CTACATCATC ATCTCCTTCC TCATCGTGGT GAACATGTAC
    ATTGCCATCA TCCTGGAGAA CTTCAGCGTG GCCACAGAGG AAAGCGCCGA TCCTCTGAGC
    GAGGACGACT TCGAGACTTT CTATGAGATC TGGGAGAAGT TTGATCCTGA TGCCACCCAG
    TTCATCGAGT ACTGTAAACT GGCCGACTTT GCCGACGCCC TGGAGCATCC GCTCCGAGTA
    CCCAAGCCCA ACACCATTGA GCTCATCGCC ATGGACCTGC CCATGGTGAG CGGAGATCGA
    ATCCACTGCT TGGACATCCT TTTCGCCTTC ACCAAGCGAG TCCTGGGAGA CAGTGGGGAG
    TTGGACATCC TGCGGCAGCA GATGGAGGAG CGGTTTGTGG CGTCCAATCC TTCCAAAGTG
    TCTTACGAGC CTATCACCAC CACTCTGCGG CGCAAGCAGG AGGAGGTGTC TGCAGTGGTC
    TTGCAGCGTG CCTACAGGGG ACACTTGGCT AGGCGGGGCT TCATCTGCAG AAAGATCACT
    TCCAACAAGC TGGAGAATGG AGGCACCCAC CGGGAGAAGA AGGAGAGCAC CCCGTCCACA
    GCCTCCCTCC CCTCTTATGA CAGCGTGACA AAGCCCGACA AGGAGAAGCA GCAGCGGGCA
    GAGGAAGGCA GGAGGGAAAG AGCCAAGAGG CAAAAAGAAG TCAGGGAGTC CAAGTGCTAG

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

    RefSeq XP_021039372.1
    CDS1..5940
    Translation

    Target ORF information:

    RefSeq Version XM_021183713.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021183713.1

    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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCGTATAT AACAGAGTTT GTAAACCTAG GCAATGTTTC AGCTCTACGC
    ACTTTCAGGG TACTGAGGGC TTTGAAAACT ATTTCGGTAA TCCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGGTGCAAC AACTGAGGTG GAGATTAAGA AGAAAGGCCC TGGATCGCTC
    TTAGTCTCCA TGGAACAACT CGCCTCCTAC GGACGGAAGG ACAGAATCAA CAGTATAATG
    AGCGTTGTCA CAAACACACT AGTGGAAGAG CTGGAAGAGT CTCAGAGAAA GTGCCCACCA
    TGCTGGTATA AGTTTGCTAA TACTTTCCTC ATCTGGGAGT GTCACCCCTA CTGGATAAAA
    CTGAAGGAGA TTGTGAACCT GATCGTCATG GACCCTTTCG TAGACTTAGC CATCACCATC
    TGCATCGTTC TGAACACACT ATTTATGGCA ATGGAGCACC ATCCCATGAC GCCACAATTC
    GAACATGTCC TGGCCGTAGG GAACCTGGTG TTCACTGGGA TCTTCACGGC AGAAATGTTC
    CTGAAGCTCA TAGCCATGGA TCCCTACTAT TACTTCCAAG AAGGCTGGAA CATTTTTGAC
    GGATTTATCG TCTCCCTCAG TTTAATGGAG CTGGGCCTTG CAGACGTGGA GGGGCTCTCA
    GTGCTGCGAT CTTTCCGATT GCTCCGAGTC TTCAAATTGG CCAAGTCCTG GCCCACCCTG
    AACATGCTGA TCAAGATCAT CGGGAACTCC GTTGGCGCCC TGGGCAACCT GACCCTGGTG
    CTGGCCATCA TCGTCTTCAT CTTCGCCGTG GTGGGGATGC AGCTCTTTGG AAAGAGCTAC
    AAGGAGTGCG TCTGTAAGAT CAGCCAGGAG TGCAAGCTCC CGCGCTGGCA CATGAACGAC
    TTCTTCCACT CCTTCCTCAT CGTCTTCCGA GTGCTGTGTG GGGAGTGGAT CGAGACCATG
    TGGGACTGCA TGGAAGTGGC CGGCCAGGCC ATGTGCCTTA TCGTGTTCAT GATGGTCATG
    GTCATCGGCA ACCTGGTGGT GCTGAACCTA TTTCTGGCCT TGCTTCTGAG CTCCTTCAGC
    GCAGACAATC TGGCGGCCAC GGATGACGAC GGGGAAATGA ATAACCTGCA GATATCCGTG
    ATCCGGATCA AGAAGGGCGT GGCCTGGGCC AAAGTGAAGG TGCACGCCTT CATGCAGGCA
    CACTTCAAGC AACGGGAGGC TGATGAAGTG AAACCTTTAG ACGAGCTGTA TGAGAAGAAG
    GCCAACTGCA TCGCCAACCA CACCGGCGTG GACATTCACA GGAACGGCGA CTTCCAGAAA
    AACGGGAACG GCACCACTAG CGGCATCGGC AGCAGCGTGG AGAAGTACAT CATCGACGAG
    GACCACATGT CCTTCATTAA CAACCCAAAC CTGACCGTGC GGGTGCCCAT TGCTGTGGGC
    GAGTCTGATT TCGAGAACCT CAACACAGAG GATGTTAGCA GCGAGTCAGA CCCCGAAGGC
    AGCAAAGACA AATTGGACGA TACCAGCTCC TCAGAAGGAA GTACCATCGA CATCAAGCCT
    GAGGTGGAAG AAGTCCCAGT GGAGCAGCCT GAGGAATATT TGGATCCAGA CGCCTGCTTC
    ACTGAGGGTT GTGTCCAGCG GTTCAAGTGC TGCCAGGTCA ACATCGAGGA AGGACTAGGC
    AAGTCGTGGT GGATCCTGCG GAAAACCTGC TTCCTCATTG TGGAGCACAA TTGGTTTGAG
    ACCTTCATCA TCTTCATGAT CCTCCTCAGC AGTGGCGCCC TGGCCTTCGA GGACATCTAC
    ATTGAGCAGA GGAAGACCAT CCGTACCATC CTGGAGTATG CGGACAAGGT CTTCACCTAC
    ATCTTCATCC TGGAGATGTT GCTCAAATGG ACAGCCTATG GCTTCGTCAA GTTCTTCACC
    AATGCCTGGT GCTGGTTGGA CTTCCTCATT GTGGCTGTCT CTTTAGTCAG CCTTATAGCT
    AATGCCCTGG GCTACTCGGA ACTAGGTGCC ATAAAGTCCC TTAGGACCCT AAGAGCTTTG
    AGACCCTTAA GAGCCTTATC ACGATTTGAA GGGATGAGGG TGGTGGTGAA CGCCTTGGTG
    GGCGCCATCC CCTCCATCAT GAACGTGCTG CTGGTGTGTC TCATCTTCTG GCTGATTTTC
    AGCATCATGG GCGTTAACCT GTTTGCTGGG AAATACCACT ACTGTTTCAA CGAGACTTCA
    GAAATCCGGT TCGAAATCGA AGAGGTGAAC AATAAAACCG ACTGTGAGAA GCTCATGGAG
    GGCAACAACA CAGAGATCCG ATGGAAGAAC GTCAAGATCA ACTTCGACAA CGTCGGGGCA
    GGCTACCTGG CCCTTCTTCA AGTGGCAACC TTCAAAGGCT GGATGGACAT CATGTATGCA
    GCTGTAGATT CCCGAAAGCC GGACGAGCAG CCTGATTATG AGGGCAACAT CTACATGTAC
    ATCTACTTTG TCATCTTCAT CATCTTCGGC TCCTTCTTCA CCCTCAACCT GTTCATCGGT
    GTCATCATCG ACAACTTCAA TCAACAGAAG AAAAAGTTTG GAGGTCAGGA CATCTTCATG
    ACAGAGGAAC AGAAGAAGTA CTACAATGCC ATGAAGAAGC TGGGCTCCAA GAAGCCACAG
    AAGCCCATCC CCCGACCTTT GAACAAAATC CAAGGGATTG TCTTTGATTT CGTCACGCAA
    CAAGCCTTCG ACATCGTGAT CATGATGCTC ATCTGCCTTA ACATGGTGAC CATGATGGTG
    GAGACGGACA CGCAGAGCAA GCAGATGGAG AACATTCTCT ACTGGATTAA TCTGGTCTTC
    GTCATCTTCT TCACCTGCGA GTGTGTGCTC AAAATGTTTG CCTTGAGACA CTACTATTTC
    ACCATTGGCT GGAACATCTT TGACTTTGTG GTGGTCATTC TCTCCATTGT GGGAATGTTC
    CTGGCTGATA TCATTGAGAA GTACTTCGTC TCCCCGACCC TATTCCGTGT CATCCGATTG
    GCCCGCATCG GGCGCATCTT GCGTCTGATC AAGGGCGCCA AAGGGATCCG CACCCTGCTC
    TTTGCCTTAA TGATGTCGCT GCCCGCCCTG TTCAACATTG GCCTCCTGCT CTTCCTGGTC
    ATGTTCATCT TCTCCATCTT TGGGATGTCC AACTTCGCGT ACGTGAAGCA CGAGGCCGGC
    ATTGATGACA TGTTCAACTT CGAGACATTT GGCAACAGCA TGATCTGCTT ATTCCAGATC
    ACGACCTCTG CTGGTTGGGA CGGCCTACTG CTGCCAATCC TGAACCGCCC CCCTGACTGC
    AGCTTGGACA AGGAGCACCC AGGAAGTGGC TTCAAAGGGG ACTGCGGGAA CCCCTCCGTG
    GGCATCTTCT TCTTCGTCAG CTACATCATC ATCTCCTTCC TCATCGTGGT GAACATGTAC
    ATTGCCATCA TCCTGGAGAA CTTCAGCGTG GCCACAGAGG AAAGCGCCGA TCCTCTGAGC
    GAGGACGACT TCGAGACTTT CTATGAGATC TGGGAGAAGT TTGATCCTGA TGCCACCCAG
    TTCATCGAGT ACTGTAAACT GGCCGACTTT GCCGACGCCC TGGAGCATCC GCTCCGAGTA
    CCCAAGCCCA ACACCATTGA GCTCATCGCC ATGGACCTGC CCATGGTGAG CGGAGATCGA
    ATCCACTGCT TGGACATCCT TTTCGCCTTC ACCAAGCGAG TCCTGGGAGA CAGTGGGGAG
    TTGGACATCC TGCGGCAGCA GATGGAGGAG CGGTTTGTGG CGTCCAATCC TTCCAAAGTG
    TCTTACGAGC CTATCACCAC CACTCTGCGG CGCAAGCAGG AGGAGGTGTC TGCAGTGGTC
    TTGCAGCGTG CCTACAGGGG ACACTTGGCT AGGCGGGGCT TCATCTGCAG AAAGATCACT
    TCCAACAAGC TGGAGAATGG AGGCACCCAC CGGGAGAAGA AGGAGAGCAC CCCGTCCACA
    GCCTCCCTCC CCTCTTATGA CAGCGTGACA AAGCCCGACA AGGAGAAGCA GCAGCGGGCA
    GAGGAAGGCA GGAGGGAAAG AGCCAAGAGG CAAAAAGAAG TCAGGGAGTC CAAGTGCTAG

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

    CloneID OMv32322
    Clone ID Related Accession (Same CDS sequence) XM_021183714.1
    Accession Version XM_021183714.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5925bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product sodium channel protein type 8 subunit alpha isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGTGAGTGGG CAGTCCTGCG TGCCCCGGCT TCTTTCGGGG
    GAAGATGGGG TAGGCTCTCC GAGGAGCTCA TCTGAACTGT CTAAACTCAG TTCCAAGAGC
    GCAAAGGAGC GGCGGAACCG ACGGAAGAAG AGGAAGCAGA AGGAGCTCTC TGAAGGGGAG
    GAGAAGGGGG ACCCCGAGAA GGTGTTTAAG TCAGAGTCGG AAGATGGCAT GAGAAGGAAG
    GCCTTCCGGC TGCCAGACAA TAGGATAGGG AGGAAATTTT CCATCATGAA TCAGTCGCTG
    CTCAGCATCC CAGGCTCGCC CTTCCTTTCC CGACACAACA GCAAAAGCAG CATCTTCAGC
    TTCCGGGGTC CCGGGCGGTT CCGGGACCCC GGTTCGGAGA ACGAGTTCGC AGACGACGAG
    CACAGCACAG TGGAGGAAAG CGAGGGCCGG CGCGACTCGC TCTTCATCCC GATCCGCGCC
    CGCGAGCGCC GCAGCAGCTA CAGCGGCTAC AGCGGCTACA GCCAGTGCAG CCGCTCGTCG
    CGCATCTTCC CCAGCCTGCG GCGCAGCGTG AAGCGCAACA GCACCGTGGA CTGCAATGGC
    GTGGTGTCGC TCATCGGGCC TGGCTCGCAC ATCGGGCGGC TCCTGCCTGA GGGTGCAACA
    ACTGAGGTGG AGATTAAGAA GAAAGGCCCT GGATCGCTCT TAGTCTCCAT GGAACAACTC
    GCCTCCTACG GACGGAAGGA CAGAATCAAC AGTATAATGA GCGTTGTCAC AAACACACTA
    GTGGAAGAGC TGGAAGAGTC TCAGAGAAAG TGCCCACCAT GCTGGTATAA GTTTGCTAAT
    ACTTTCCTCA TCTGGGAGTG TCACCCCTAC TGGATAAAAC TGAAGGAGAT TGTGAACCTG
    ATCGTCATGG ACCCTTTCGT AGACTTAGCC ATCACCATCT GCATCGTTCT GAACACACTA
    TTTATGGCAA TGGAGCACCA TCCCATGACG CCACAATTCG AACATGTCCT GGCCGTAGGG
    AACCTGGTGT TCACTGGGAT CTTCACGGCA GAAATGTTCC TGAAGCTCAT AGCCATGGAT
    CCCTACTATT ACTTCCAAGA AGGCTGGAAC ATTTTTGACG GATTTATCGT CTCCCTCAGT
    TTAATGGAGC TGGGCCTTGC AGACGTGGAG GGGCTCTCAG TGCTGCGATC TTTCCGATTG
    CTCCGAGTCT TCAAATTGGC CAAGTCCTGG CCCACCCTGA ACATGCTGAT CAAGATCATC
    GGGAACTCCG TTGGCGCCCT GGGCAACCTG ACCCTGGTGC TGGCCATCAT CGTCTTCATC
    TTCGCCGTGG TGGGGATGCA GCTCTTTGGA AAGAGCTACA AGGAGTGCGT CTGTAAGATC
    AGCCAGGAGT GCAAGCTCCC GCGCTGGCAC ATGAACGACT TCTTCCACTC CTTCCTCATC
    GTCTTCCGAG TGCTGTGTGG GGAGTGGATC GAGACCATGT GGGACTGCAT GGAAGTGGCC
    GGCCAGGCCA TGTGCCTTAT CGTGTTCATG ATGGTCATGG TCATCGGCAA CCTGGTGGTG
    CTGAACCTAT TTCTGGCCTT GCTTCTGAGC TCCTTCAGCG CAGACAATCT GGCGGCCACG
    GATGACGACG GGGAAATGAA TAACCTGCAG ATATCCGTGA TCCGGATCAA GAAGGGCGTG
    GCCTGGGCCA AAGTGAAGGT GCACGCCTTC ATGCAGGCAC ACTTCAAGCA ACGGGAGGCT
    GATGAAGTGA AACCTTTAGA CGAGCTGTAT GAGAAGAAGG CCAACTGCAT CGCCAACCAC
    ACCGGCGTGG ACATTCACAG GAACGGCGAC TTCCAGAAAA ACGGGAACGG CACCACTAGC
    GGCATCGGCA GCAGCGTGGA GAAGTACATC ATCGACGAGG ACCACATGTC CTTCATTAAC
    AACCCAAACC TGACCGTGCG GGTGCCCATT GCTGTGGGCG AGTCTGATTT CGAGAACCTC
    AACACAGAGG ATGTTAGCAG CGAGTCAGAC CCCGAAGGCA GCAAAGACAA ATTGGACGAT
    ACCAGCTCCT CAGAAGGAAG TACCATCGAC ATCAAGCCTG AGGTGGAAGA AGTCCCAGTG
    GAGCAGCCTG AGGAATATTT GGATCCAGAC GCCTGCTTCA CTGAGGGTTG TGTCCAGCGG
    TTCAAGTGCT GCCAGGTCAA CATCGAGGAA GGACTAGGCA AGTCGTGGTG GATCCTGCGG
    AAAACCTGCT TCCTCATTGT GGAGCACAAT TGGTTTGAGA CCTTCATCAT CTTCATGATC
    CTCCTCAGCA GTGGCGCCCT GGCCTTCGAG GACATCTACA TTGAGCAGAG GAAGACCATC
    CGTACCATCC TGGAGTATGC GGACAAGGTC TTCACCTACA TCTTCATCCT GGAGATGTTG
    CTCAAATGGA CAGCCTATGG CTTCGTCAAG TTCTTCACCA ATGCCTGGTG CTGGTTGGAC
    TTCCTCATTG TGGCTGTCTC TTTAGTCAGC CTTATAGCTA ATGCCCTGGG CTACTCGGAA
    CTAGGTGCCA TAAAGTCCCT TAGGACCCTA AGAGCTTTGA GACCCTTAAG AGCCTTATCA
    CGATTTGAAG GGATGAGGGT GGTGGTGAAC GCCTTGGTGG GCGCCATCCC CTCCATCATG
    AACGTGCTGC TGGTGTGTCT CATCTTCTGG CTGATTTTCA GCATCATGGG CGTTAACCTG
    TTTGCTGGGA AATACCACTA CTGTTTCAAC GAGACTTCAG AAATCCGGTT CGAAATCGAA
    GAGGTGAACA ATAAAACCGA CTGTGAGAAG CTCATGGAGG GCAACAACAC AGAGATCCGA
    TGGAAGAACG TCAAGATCAA CTTCGACAAC GTCGGGGCAG GCTACCTGGC CCTTCTTCAA
    GTGGCAACCT TCAAAGGCTG GATGGACATC ATGTATGCAG CTGTAGATTC CCGAAAGGTA
    AGGATGTGCA TACAGCCTGA TTATGAGGGC AACATCTACA TGTACATCTA CTTTGTCATC
    TTCATCATCT TCGGCTCCTT CTTCACCCTC AACCTGTTCA TCGGTGTCAT CATCGACAAC
    TTCAATCAAC AGAAGAAAAA GTTTGGAGGT CAGGACATCT TCATGACAGA GGAACAGAAG
    AAGTACTACA ATGCCATGAA GAAGCTGGGC TCCAAGAAGC CACAGAAGCC CATCCCCCGA
    CCTTTGAACA AAATCCAAGG GATTGTCTTT GATTTCGTCA CGCAACAAGC CTTCGACATC
    GTGATCATGA TGCTCATCTG CCTTAACATG GTGACCATGA TGGTGGAGAC GGACACGCAG
    AGCAAGCAGA TGGAGAACAT TCTCTACTGG ATTAATCTGG TCTTCGTCAT CTTCTTCACC
    TGCGAGTGTG TGCTCAAAAT GTTTGCCTTG AGACACTACT ATTTCACCAT TGGCTGGAAC
    ATCTTTGACT TTGTGGTGGT CATTCTCTCC ATTGTGGGAA TGTTCCTGGC TGATATCATT
    GAGAAGTACT TCGTCTCCCC GACCCTATTC CGTGTCATCC GATTGGCCCG CATCGGGCGC
    ATCTTGCGTC TGATCAAGGG CGCCAAAGGG ATCCGCACCC TGCTCTTTGC CTTAATGATG
    TCGCTGCCCG CCCTGTTCAA CATTGGCCTC CTGCTCTTCC TGGTCATGTT CATCTTCTCC
    ATCTTTGGGA TGTCCAACTT CGCGTACGTG AAGCACGAGG CCGGCATTGA TGACATGTTC
    AACTTCGAGA CATTTGGCAA CAGCATGATC TGCTTATTCC AGATCACGAC CTCTGCTGGT
    TGGGACGGCC TACTGCTGCC AATCCTGAAC CGCCCCCCTG ACTGCAGCTT GGACAAGGAG
    CACCCAGGAA GTGGCTTCAA AGGGGACTGC GGGAACCCCT CCGTGGGCAT CTTCTTCTTC
    GTCAGCTACA TCATCATCTC CTTCCTCATC GTGGTGAACA TGTACATTGC CATCATCCTG
    GAGAACTTCA GCGTGGCCAC AGAGGAAAGC GCCGATCCTC TGAGCGAGGA CGACTTCGAG
    ACTTTCTATG AGATCTGGGA GAAGTTTGAT CCTGATGCCA CCCAGTTCAT CGAGTACTGT
    AAACTGGCCG ACTTTGCCGA CGCCCTGGAG CATCCGCTCC GAGTACCCAA GCCCAACACC
    ATTGAGCTCA TCGCCATGGA CCTGCCCATG GTGAGCGGAG ATCGAATCCA CTGCTTGGAC
    ATCCTTTTCG CCTTCACCAA GCGAGTCCTG GGAGACAGTG GGGAGTTGGA CATCCTGCGG
    CAGCAGATGG AGGAGCGGTT TGTGGCGTCC AATCCTTCCA AAGTGTCTTA CGAGCCTATC
    ACCACCACTC TGCGGCGCAA GCAGGAGGAG GTGTCTGCAG TGGTCTTGCA GCGTGCCTAC
    AGGGGACACT TGGCTAGGCG GGGCTTCATC TGCAGAAAGA TCACTTCCAA CAAGCTGGAG
    AATGGAGGCA CCCACCGGGA GAAGAAGGAG AGCACCCCGT CCACAGCCTC CCTCCCCTCT
    TATGACAGCG TGACAAAGCC CGACAAGGAG AAGCAGCAGC GGGCAGAGGA AGGCAGGAGG
    GAAAGAGCCA AGAGGCAAAA AGAAGTCAGG GAGTCCAAGT GCTAG

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

    RefSeq XP_021039373.1
    CDS1..5925
    Translation

    Target ORF information:

    RefSeq Version XM_021183714.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021183714.1

    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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGTGAGTGGG CAGTCCTGCG TGCCCCGGCT TCTTTCGGGG
    GAAGATGGGG TAGGCTCTCC GAGGAGCTCA TCTGAACTGT CTAAACTCAG TTCCAAGAGC
    GCAAAGGAGC GGCGGAACCG ACGGAAGAAG AGGAAGCAGA AGGAGCTCTC TGAAGGGGAG
    GAGAAGGGGG ACCCCGAGAA GGTGTTTAAG TCAGAGTCGG AAGATGGCAT GAGAAGGAAG
    GCCTTCCGGC TGCCAGACAA TAGGATAGGG AGGAAATTTT CCATCATGAA TCAGTCGCTG
    CTCAGCATCC CAGGCTCGCC CTTCCTTTCC CGACACAACA GCAAAAGCAG CATCTTCAGC
    TTCCGGGGTC CCGGGCGGTT CCGGGACCCC GGTTCGGAGA ACGAGTTCGC AGACGACGAG
    CACAGCACAG TGGAGGAAAG CGAGGGCCGG CGCGACTCGC TCTTCATCCC GATCCGCGCC
    CGCGAGCGCC GCAGCAGCTA CAGCGGCTAC AGCGGCTACA GCCAGTGCAG CCGCTCGTCG
    CGCATCTTCC CCAGCCTGCG GCGCAGCGTG AAGCGCAACA GCACCGTGGA CTGCAATGGC
    GTGGTGTCGC TCATCGGGCC TGGCTCGCAC ATCGGGCGGC TCCTGCCTGA GGGTGCAACA
    ACTGAGGTGG AGATTAAGAA GAAAGGCCCT GGATCGCTCT TAGTCTCCAT GGAACAACTC
    GCCTCCTACG GACGGAAGGA CAGAATCAAC AGTATAATGA GCGTTGTCAC AAACACACTA
    GTGGAAGAGC TGGAAGAGTC TCAGAGAAAG TGCCCACCAT GCTGGTATAA GTTTGCTAAT
    ACTTTCCTCA TCTGGGAGTG TCACCCCTAC TGGATAAAAC TGAAGGAGAT TGTGAACCTG
    ATCGTCATGG ACCCTTTCGT AGACTTAGCC ATCACCATCT GCATCGTTCT GAACACACTA
    TTTATGGCAA TGGAGCACCA TCCCATGACG CCACAATTCG AACATGTCCT GGCCGTAGGG
    AACCTGGTGT TCACTGGGAT CTTCACGGCA GAAATGTTCC TGAAGCTCAT AGCCATGGAT
    CCCTACTATT ACTTCCAAGA AGGCTGGAAC ATTTTTGACG GATTTATCGT CTCCCTCAGT
    TTAATGGAGC TGGGCCTTGC AGACGTGGAG GGGCTCTCAG TGCTGCGATC TTTCCGATTG
    CTCCGAGTCT TCAAATTGGC CAAGTCCTGG CCCACCCTGA ACATGCTGAT CAAGATCATC
    GGGAACTCCG TTGGCGCCCT GGGCAACCTG ACCCTGGTGC TGGCCATCAT CGTCTTCATC
    TTCGCCGTGG TGGGGATGCA GCTCTTTGGA AAGAGCTACA AGGAGTGCGT CTGTAAGATC
    AGCCAGGAGT GCAAGCTCCC GCGCTGGCAC ATGAACGACT TCTTCCACTC CTTCCTCATC
    GTCTTCCGAG TGCTGTGTGG GGAGTGGATC GAGACCATGT GGGACTGCAT GGAAGTGGCC
    GGCCAGGCCA TGTGCCTTAT CGTGTTCATG ATGGTCATGG TCATCGGCAA CCTGGTGGTG
    CTGAACCTAT TTCTGGCCTT GCTTCTGAGC TCCTTCAGCG CAGACAATCT GGCGGCCACG
    GATGACGACG GGGAAATGAA TAACCTGCAG ATATCCGTGA TCCGGATCAA GAAGGGCGTG
    GCCTGGGCCA AAGTGAAGGT GCACGCCTTC ATGCAGGCAC ACTTCAAGCA ACGGGAGGCT
    GATGAAGTGA AACCTTTAGA CGAGCTGTAT GAGAAGAAGG CCAACTGCAT CGCCAACCAC
    ACCGGCGTGG ACATTCACAG GAACGGCGAC TTCCAGAAAA ACGGGAACGG CACCACTAGC
    GGCATCGGCA GCAGCGTGGA GAAGTACATC ATCGACGAGG ACCACATGTC CTTCATTAAC
    AACCCAAACC TGACCGTGCG GGTGCCCATT GCTGTGGGCG AGTCTGATTT CGAGAACCTC
    AACACAGAGG ATGTTAGCAG CGAGTCAGAC CCCGAAGGCA GCAAAGACAA ATTGGACGAT
    ACCAGCTCCT CAGAAGGAAG TACCATCGAC ATCAAGCCTG AGGTGGAAGA AGTCCCAGTG
    GAGCAGCCTG AGGAATATTT GGATCCAGAC GCCTGCTTCA CTGAGGGTTG TGTCCAGCGG
    TTCAAGTGCT GCCAGGTCAA CATCGAGGAA GGACTAGGCA AGTCGTGGTG GATCCTGCGG
    AAAACCTGCT TCCTCATTGT GGAGCACAAT TGGTTTGAGA CCTTCATCAT CTTCATGATC
    CTCCTCAGCA GTGGCGCCCT GGCCTTCGAG GACATCTACA TTGAGCAGAG GAAGACCATC
    CGTACCATCC TGGAGTATGC GGACAAGGTC TTCACCTACA TCTTCATCCT GGAGATGTTG
    CTCAAATGGA CAGCCTATGG CTTCGTCAAG TTCTTCACCA ATGCCTGGTG CTGGTTGGAC
    TTCCTCATTG TGGCTGTCTC TTTAGTCAGC CTTATAGCTA ATGCCCTGGG CTACTCGGAA
    CTAGGTGCCA TAAAGTCCCT TAGGACCCTA AGAGCTTTGA GACCCTTAAG AGCCTTATCA
    CGATTTGAAG GGATGAGGGT GGTGGTGAAC GCCTTGGTGG GCGCCATCCC CTCCATCATG
    AACGTGCTGC TGGTGTGTCT CATCTTCTGG CTGATTTTCA GCATCATGGG CGTTAACCTG
    TTTGCTGGGA AATACCACTA CTGTTTCAAC GAGACTTCAG AAATCCGGTT CGAAATCGAA
    GAGGTGAACA ATAAAACCGA CTGTGAGAAG CTCATGGAGG GCAACAACAC AGAGATCCGA
    TGGAAGAACG TCAAGATCAA CTTCGACAAC GTCGGGGCAG GCTACCTGGC CCTTCTTCAA
    GTGGCAACCT TCAAAGGCTG GATGGACATC ATGTATGCAG CTGTAGATTC CCGAAAGGTA
    AGGATGTGCA TACAGCCTGA TTATGAGGGC AACATCTACA TGTACATCTA CTTTGTCATC
    TTCATCATCT TCGGCTCCTT CTTCACCCTC AACCTGTTCA TCGGTGTCAT CATCGACAAC
    TTCAATCAAC AGAAGAAAAA GTTTGGAGGT CAGGACATCT TCATGACAGA GGAACAGAAG
    AAGTACTACA ATGCCATGAA GAAGCTGGGC TCCAAGAAGC CACAGAAGCC CATCCCCCGA
    CCTTTGAACA AAATCCAAGG GATTGTCTTT GATTTCGTCA CGCAACAAGC CTTCGACATC
    GTGATCATGA TGCTCATCTG CCTTAACATG GTGACCATGA TGGTGGAGAC GGACACGCAG
    AGCAAGCAGA TGGAGAACAT TCTCTACTGG ATTAATCTGG TCTTCGTCAT CTTCTTCACC
    TGCGAGTGTG TGCTCAAAAT GTTTGCCTTG AGACACTACT ATTTCACCAT TGGCTGGAAC
    ATCTTTGACT TTGTGGTGGT CATTCTCTCC ATTGTGGGAA TGTTCCTGGC TGATATCATT
    GAGAAGTACT TCGTCTCCCC GACCCTATTC CGTGTCATCC GATTGGCCCG CATCGGGCGC
    ATCTTGCGTC TGATCAAGGG CGCCAAAGGG ATCCGCACCC TGCTCTTTGC CTTAATGATG
    TCGCTGCCCG CCCTGTTCAA CATTGGCCTC CTGCTCTTCC TGGTCATGTT CATCTTCTCC
    ATCTTTGGGA TGTCCAACTT CGCGTACGTG AAGCACGAGG CCGGCATTGA TGACATGTTC
    AACTTCGAGA CATTTGGCAA CAGCATGATC TGCTTATTCC AGATCACGAC CTCTGCTGGT
    TGGGACGGCC TACTGCTGCC AATCCTGAAC CGCCCCCCTG ACTGCAGCTT GGACAAGGAG
    CACCCAGGAA GTGGCTTCAA AGGGGACTGC GGGAACCCCT CCGTGGGCAT CTTCTTCTTC
    GTCAGCTACA TCATCATCTC CTTCCTCATC GTGGTGAACA TGTACATTGC CATCATCCTG
    GAGAACTTCA GCGTGGCCAC AGAGGAAAGC GCCGATCCTC TGAGCGAGGA CGACTTCGAG
    ACTTTCTATG AGATCTGGGA GAAGTTTGAT CCTGATGCCA CCCAGTTCAT CGAGTACTGT
    AAACTGGCCG ACTTTGCCGA CGCCCTGGAG CATCCGCTCC GAGTACCCAA GCCCAACACC
    ATTGAGCTCA TCGCCATGGA CCTGCCCATG GTGAGCGGAG ATCGAATCCA CTGCTTGGAC
    ATCCTTTTCG CCTTCACCAA GCGAGTCCTG GGAGACAGTG GGGAGTTGGA CATCCTGCGG
    CAGCAGATGG AGGAGCGGTT TGTGGCGTCC AATCCTTCCA AAGTGTCTTA CGAGCCTATC
    ACCACCACTC TGCGGCGCAA GCAGGAGGAG GTGTCTGCAG TGGTCTTGCA GCGTGCCTAC
    AGGGGACACT TGGCTAGGCG GGGCTTCATC TGCAGAAAGA TCACTTCCAA CAAGCTGGAG
    AATGGAGGCA CCCACCGGGA GAAGAAGGAG AGCACCCCGT CCACAGCCTC CCTCCCCTCT
    TATGACAGCG TGACAAAGCC CGACAAGGAG AAGCAGCAGC GGGCAGAGGA AGGCAGGAGG
    GAAAGAGCCA AGAGGCAAAA AGAAGTCAGG GAGTCCAAGT GCTAG

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

    CloneID OMv32323
    Clone ID Related Accession (Same CDS sequence) XM_021183716.1
    Accession Version XM_021183716.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5814bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product sodium channel protein type 8 subunit alpha isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGCAACAAC TGAGGTGGAG ATTAAGAAGA AAGGCCCTGG ATCGCTCTTA
    GTCTCCATGG AACAACTCGC CTCCTACGGA CGGAAGGACA GAATCAACAG TATAATGAGC
    GTTGTCACAA ACACACTAGT GGAAGAGCTG GAAGAGTCTC AGAGAAAGTG CCCACCATGC
    TGGTATAAGT TTGCTAATAC TTTCCTCATC TGGGAGTGTC ACCCCTACTG GATAAAACTG
    AAGGAGATTG TGAACCTGAT CGTCATGGAC CCTTTCGTAG ACTTAGCCAT CACCATCTGC
    ATCGTTCTGA ACACACTATT TATGGCAATG GAGCACCATC CCATGACGCC ACAATTCGAA
    CATGTCCTGG CCGTAGGGAA CCTGGTGTTC ACTGGGATCT TCACGGCAGA AATGTTCCTG
    AAGCTCATAG CCATGGATCC CTACTATTAC TTCCAAGAAG GCTGGAACAT TTTTGACGGA
    TTTATCGTCT CCCTCAGTTT AATGGAGCTG GGCCTTGCAG ACGTGGAGGG GCTCTCAGTG
    CTGCGATCTT TCCGATTGCT CCGAGTCTTC AAATTGGCCA AGTCCTGGCC CACCCTGAAC
    ATGCTGATCA AGATCATCGG GAACTCCGTT GGCGCCCTGG GCAACCTGAC CCTGGTGCTG
    GCCATCATCG TCTTCATCTT CGCCGTGGTG GGGATGCAGC TCTTTGGAAA GAGCTACAAG
    GAGTGCGTCT GTAAGATCAG CCAGGAGTGC AAGCTCCCGC GCTGGCACAT GAACGACTTC
    TTCCACTCCT TCCTCATCGT CTTCCGAGTG CTGTGTGGGG AGTGGATCGA GACCATGTGG
    GACTGCATGG AAGTGGCCGG CCAGGCCATG TGCCTTATCG TGTTCATGAT GGTCATGGTC
    ATCGGCAACC TGGTGGTGCT GAACCTATTT CTGGCCTTGC TTCTGAGCTC CTTCAGCGCA
    GACAATCTGG CGGCCACGGA TGACGACGGG GAAATGAATA ACCTGCAGAT ATCCGTGATC
    CGGATCAAGA AGGGCGTGGC CTGGGCCAAA GTGAAGGTGC ACGCCTTCAT GCAGGCACAC
    TTCAAGCAAC GGGAGGCTGA TGAAGTGAAA CCTTTAGACG AGCTGTATGA GAAGAAGGCC
    AACTGCATCG CCAACCACAC CGGCGTGGAC ATTCACAGGA ACGGCGACTT CCAGAAAAAC
    GGGAACGGCA CCACTAGCGG CATCGGCAGC AGCGTGGAGA AGTACATCAT CGACGAGGAC
    CACATGTCCT TCATTAACAA CCCAAACCTG ACCGTGCGGG TGCCCATTGC TGTGGGCGAG
    TCTGATTTCG AGAACCTCAA CACAGAGGAT GTTAGCAGCG AGTCAGACCC CGAAGGCAGC
    AAAGACAAAT TGGACGATAC CAGCTCCTCA GAAGGAAGTA CCATCGACAT CAAGCCTGAG
    GTGGAAGAAG TCCCAGTGGA GCAGCCTGAG GAATATTTGG ATCCAGACGC CTGCTTCACT
    GAGGGTTGTG TCCAGCGGTT CAAGTGCTGC CAGGTCAACA TCGAGGAAGG ACTAGGCAAG
    TCGTGGTGGA TCCTGCGGAA AACCTGCTTC CTCATTGTGG AGCACAATTG GTTTGAGACC
    TTCATCATCT TCATGATCCT CCTCAGCAGT GGCGCCCTGG CCTTCGAGGA CATCTACATT
    GAGCAGAGGA AGACCATCCG TACCATCCTG GAGTATGCGG ACAAGGTCTT CACCTACATC
    TTCATCCTGG AGATGTTGCT CAAATGGACA GCCTATGGCT TCGTCAAGTT CTTCACCAAT
    GCCTGGTGCT GGTTGGACTT CCTCATTGTG GCTGTGGTGG TGAACGCCTT GGTGGGCGCC
    ATCCCCTCCA TCATGAACGT GCTGCTGGTG TGTCTCATCT TCTGGCTGAT TTTCAGCATC
    ATGGGCGTTA ACCTGTTTGC TGGGAAATAC CACTACTGTT TCAACGAGAC TTCAGAAATC
    CGGTTCGAAA TCGAAGAGGT GAACAATAAA ACCGACTGTG AGAAGCTCAT GGAGGGCAAC
    AACACAGAGA TCCGATGGAA GAACGTCAAG ATCAACTTCG ACAACGTCGG GGCAGGCTAC
    CTGGCCCTTC TTCAAGTGGC AACCTTCAAA GGCTGGATGG ACATCATGTA TGCAGCTGTA
    GATTCCCGAA AGCCGGACGA GCAGCCTGAT TATGAGGGCA ACATCTACAT GTACATCTAC
    TTTGTCATCT TCATCATCTT CGGCTCCTTC TTCACCCTCA ACCTGTTCAT CGGTGTCATC
    ATCGACAACT TCAATCAACA GAAGAAAAAG TTTGGAGGTC AGGACATCTT CATGACAGAG
    GAACAGAAGA AGTACTACAA TGCCATGAAG AAGCTGGGCT CCAAGAAGCC ACAGAAGCCC
    ATCCCCCGAC CTTTGAACAA AATCCAAGGG ATTGTCTTTG ATTTCGTCAC GCAACAAGCC
    TTCGACATCG TGATCATGAT GCTCATCTGC CTTAACATGG TGACCATGAT GGTGGAGACG
    GACACGCAGA GCAAGCAGAT GGAGAACATT CTCTACTGGA TTAATCTGGT CTTCGTCATC
    TTCTTCACCT GCGAGTGTGT GCTCAAAATG TTTGCCTTGA GACACTACTA TTTCACCATT
    GGCTGGAACA TCTTTGACTT TGTGGTGGTC ATTCTCTCCA TTGTGGGAAT GTTCCTGGCT
    GATATCATTG AGAAGTACTT CGTCTCCCCG ACCCTATTCC GTGTCATCCG ATTGGCCCGC
    ATCGGGCGCA TCTTGCGTCT GATCAAGGGC GCCAAAGGGA TCCGCACCCT GCTCTTTGCC
    TTAATGATGT CGCTGCCCGC CCTGTTCAAC ATTGGCCTCC TGCTCTTCCT GGTCATGTTC
    ATCTTCTCCA TCTTTGGGAT GTCCAACTTC GCGTACGTGA AGCACGAGGC CGGCATTGAT
    GACATGTTCA ACTTCGAGAC ATTTGGCAAC AGCATGATCT GCTTATTCCA GATCACGACC
    TCTGCTGGTT GGGACGGCCT ACTGCTGCCA ATCCTGAACC GCCCCCCTGA CTGCAGCTTG
    GACAAGGAGC ACCCAGGAAG TGGCTTCAAA GGGGACTGCG GGAACCCCTC CGTGGGCATC
    TTCTTCTTCG TCAGCTACAT CATCATCTCC TTCCTCATCG TGGTGAACAT GTACATTGCC
    ATCATCCTGG AGAACTTCAG CGTGGCCACA GAGGAAAGCG CCGATCCTCT GAGCGAGGAC
    GACTTCGAGA CTTTCTATGA GATCTGGGAG AAGTTTGATC CTGATGCCAC CCAGTTCATC
    GAGTACTGTA AACTGGCCGA CTTTGCCGAC GCCCTGGAGC ATCCGCTCCG AGTACCCAAG
    CCCAACACCA TTGAGCTCAT CGCCATGGAC CTGCCCATGG TGAGCGGAGA TCGAATCCAC
    TGCTTGGACA TCCTTTTCGC CTTCACCAAG CGAGTCCTGG GAGACAGTGG GGAGTTGGAC
    ATCCTGCGGC AGCAGATGGA GGAGCGGTTT GTGGCGTCCA ATCCTTCCAA AGTGTCTTAC
    GAGCCTATCA CCACCACTCT GCGGCGCAAG CAGGAGGAGG TGTCTGCAGT GGTCTTGCAG
    CGTGCCTACA GGGGACACTT GGCTAGGCGG GGCTTCATCT GCAGAAAGAT CACTTCCAAC
    AAGCTGGAGA ATGGAGGCAC CCACCGGGAG AAGAAGGAGA GCACCCCGTC CACAGCCTCC
    CTCCCCTCTT ATGACAGCGT GACAAAGCCC GACAAGGAGA AGCAGCAGCG GGCAGAGGAA
    GGCAGGAGGG AAAGAGCCAA GAGGCAAAAA GAAGTCAGGG AGTCCAAGTG CTAG

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

    RefSeq XP_021039375.1
    CDS1..5814
    Translation

    Target ORF information:

    RefSeq Version XM_021183716.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021183716.1

    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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGCAACAAC TGAGGTGGAG ATTAAGAAGA AAGGCCCTGG ATCGCTCTTA
    GTCTCCATGG AACAACTCGC CTCCTACGGA CGGAAGGACA GAATCAACAG TATAATGAGC
    GTTGTCACAA ACACACTAGT GGAAGAGCTG GAAGAGTCTC AGAGAAAGTG CCCACCATGC
    TGGTATAAGT TTGCTAATAC TTTCCTCATC TGGGAGTGTC ACCCCTACTG GATAAAACTG
    AAGGAGATTG TGAACCTGAT CGTCATGGAC CCTTTCGTAG ACTTAGCCAT CACCATCTGC
    ATCGTTCTGA ACACACTATT TATGGCAATG GAGCACCATC CCATGACGCC ACAATTCGAA
    CATGTCCTGG CCGTAGGGAA CCTGGTGTTC ACTGGGATCT TCACGGCAGA AATGTTCCTG
    AAGCTCATAG CCATGGATCC CTACTATTAC TTCCAAGAAG GCTGGAACAT TTTTGACGGA
    TTTATCGTCT CCCTCAGTTT AATGGAGCTG GGCCTTGCAG ACGTGGAGGG GCTCTCAGTG
    CTGCGATCTT TCCGATTGCT CCGAGTCTTC AAATTGGCCA AGTCCTGGCC CACCCTGAAC
    ATGCTGATCA AGATCATCGG GAACTCCGTT GGCGCCCTGG GCAACCTGAC CCTGGTGCTG
    GCCATCATCG TCTTCATCTT CGCCGTGGTG GGGATGCAGC TCTTTGGAAA GAGCTACAAG
    GAGTGCGTCT GTAAGATCAG CCAGGAGTGC AAGCTCCCGC GCTGGCACAT GAACGACTTC
    TTCCACTCCT TCCTCATCGT CTTCCGAGTG CTGTGTGGGG AGTGGATCGA GACCATGTGG
    GACTGCATGG AAGTGGCCGG CCAGGCCATG TGCCTTATCG TGTTCATGAT GGTCATGGTC
    ATCGGCAACC TGGTGGTGCT GAACCTATTT CTGGCCTTGC TTCTGAGCTC CTTCAGCGCA
    GACAATCTGG CGGCCACGGA TGACGACGGG GAAATGAATA ACCTGCAGAT ATCCGTGATC
    CGGATCAAGA AGGGCGTGGC CTGGGCCAAA GTGAAGGTGC ACGCCTTCAT GCAGGCACAC
    TTCAAGCAAC GGGAGGCTGA TGAAGTGAAA CCTTTAGACG AGCTGTATGA GAAGAAGGCC
    AACTGCATCG CCAACCACAC CGGCGTGGAC ATTCACAGGA ACGGCGACTT CCAGAAAAAC
    GGGAACGGCA CCACTAGCGG CATCGGCAGC AGCGTGGAGA AGTACATCAT CGACGAGGAC
    CACATGTCCT TCATTAACAA CCCAAACCTG ACCGTGCGGG TGCCCATTGC TGTGGGCGAG
    TCTGATTTCG AGAACCTCAA CACAGAGGAT GTTAGCAGCG AGTCAGACCC CGAAGGCAGC
    AAAGACAAAT TGGACGATAC CAGCTCCTCA GAAGGAAGTA CCATCGACAT CAAGCCTGAG
    GTGGAAGAAG TCCCAGTGGA GCAGCCTGAG GAATATTTGG ATCCAGACGC CTGCTTCACT
    GAGGGTTGTG TCCAGCGGTT CAAGTGCTGC CAGGTCAACA TCGAGGAAGG ACTAGGCAAG
    TCGTGGTGGA TCCTGCGGAA AACCTGCTTC CTCATTGTGG AGCACAATTG GTTTGAGACC
    TTCATCATCT TCATGATCCT CCTCAGCAGT GGCGCCCTGG CCTTCGAGGA CATCTACATT
    GAGCAGAGGA AGACCATCCG TACCATCCTG GAGTATGCGG ACAAGGTCTT CACCTACATC
    TTCATCCTGG AGATGTTGCT CAAATGGACA GCCTATGGCT TCGTCAAGTT CTTCACCAAT
    GCCTGGTGCT GGTTGGACTT CCTCATTGTG GCTGTGGTGG TGAACGCCTT GGTGGGCGCC
    ATCCCCTCCA TCATGAACGT GCTGCTGGTG TGTCTCATCT TCTGGCTGAT TTTCAGCATC
    ATGGGCGTTA ACCTGTTTGC TGGGAAATAC CACTACTGTT TCAACGAGAC TTCAGAAATC
    CGGTTCGAAA TCGAAGAGGT GAACAATAAA ACCGACTGTG AGAAGCTCAT GGAGGGCAAC
    AACACAGAGA TCCGATGGAA GAACGTCAAG ATCAACTTCG ACAACGTCGG GGCAGGCTAC
    CTGGCCCTTC TTCAAGTGGC AACCTTCAAA GGCTGGATGG ACATCATGTA TGCAGCTGTA
    GATTCCCGAA AGCCGGACGA GCAGCCTGAT TATGAGGGCA ACATCTACAT GTACATCTAC
    TTTGTCATCT TCATCATCTT CGGCTCCTTC TTCACCCTCA ACCTGTTCAT CGGTGTCATC
    ATCGACAACT TCAATCAACA GAAGAAAAAG TTTGGAGGTC AGGACATCTT CATGACAGAG
    GAACAGAAGA AGTACTACAA TGCCATGAAG AAGCTGGGCT CCAAGAAGCC ACAGAAGCCC
    ATCCCCCGAC CTTTGAACAA AATCCAAGGG ATTGTCTTTG ATTTCGTCAC GCAACAAGCC
    TTCGACATCG TGATCATGAT GCTCATCTGC CTTAACATGG TGACCATGAT GGTGGAGACG
    GACACGCAGA GCAAGCAGAT GGAGAACATT CTCTACTGGA TTAATCTGGT CTTCGTCATC
    TTCTTCACCT GCGAGTGTGT GCTCAAAATG TTTGCCTTGA GACACTACTA TTTCACCATT
    GGCTGGAACA TCTTTGACTT TGTGGTGGTC ATTCTCTCCA TTGTGGGAAT GTTCCTGGCT
    GATATCATTG AGAAGTACTT CGTCTCCCCG ACCCTATTCC GTGTCATCCG ATTGGCCCGC
    ATCGGGCGCA TCTTGCGTCT GATCAAGGGC GCCAAAGGGA TCCGCACCCT GCTCTTTGCC
    TTAATGATGT CGCTGCCCGC CCTGTTCAAC ATTGGCCTCC TGCTCTTCCT GGTCATGTTC
    ATCTTCTCCA TCTTTGGGAT GTCCAACTTC GCGTACGTGA AGCACGAGGC CGGCATTGAT
    GACATGTTCA ACTTCGAGAC ATTTGGCAAC AGCATGATCT GCTTATTCCA GATCACGACC
    TCTGCTGGTT GGGACGGCCT ACTGCTGCCA ATCCTGAACC GCCCCCCTGA CTGCAGCTTG
    GACAAGGAGC ACCCAGGAAG TGGCTTCAAA GGGGACTGCG GGAACCCCTC CGTGGGCATC
    TTCTTCTTCG TCAGCTACAT CATCATCTCC TTCCTCATCG TGGTGAACAT GTACATTGCC
    ATCATCCTGG AGAACTTCAG CGTGGCCACA GAGGAAAGCG CCGATCCTCT GAGCGAGGAC
    GACTTCGAGA CTTTCTATGA GATCTGGGAG AAGTTTGATC CTGATGCCAC CCAGTTCATC
    GAGTACTGTA AACTGGCCGA CTTTGCCGAC GCCCTGGAGC ATCCGCTCCG AGTACCCAAG
    CCCAACACCA TTGAGCTCAT CGCCATGGAC CTGCCCATGG TGAGCGGAGA TCGAATCCAC
    TGCTTGGACA TCCTTTTCGC CTTCACCAAG CGAGTCCTGG GAGACAGTGG GGAGTTGGAC
    ATCCTGCGGC AGCAGATGGA GGAGCGGTTT GTGGCGTCCA ATCCTTCCAA AGTGTCTTAC
    GAGCCTATCA CCACCACTCT GCGGCGCAAG CAGGAGGAGG TGTCTGCAGT GGTCTTGCAG
    CGTGCCTACA GGGGACACTT GGCTAGGCGG GGCTTCATCT GCAGAAAGAT CACTTCCAAC
    AAGCTGGAGA ATGGAGGCAC CCACCGGGAG AAGAAGGAGA GCACCCCGTC CACAGCCTCC
    CTCCCCTCTT ATGACAGCGT GACAAAGCCC GACAAGGAGA AGCAGCAGCG GGCAGAGGAA
    GGCAGGAGGG AAAGAGCCAA GAGGCAAAAA GAAGTCAGGG AGTCCAAGTG CTAG

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

    CloneID OMv69422
    Clone ID Related Accession (Same CDS sequence) XM_029469724.1 , XM_029469723.1
    Accession Version XM_029469724.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5937bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product sodium channel protein type 8 subunit alpha
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGCAACAAC TGAGGTGGAG ATTAAGAAGA AAGGCCCTGG ATCGCTCTTA
    GTCTCCATGG AACAACTCGC CTCCTACGGA CGGAAGGACA GAATCAACAG TATAATGAGC
    GTTGTCACAA ACACACTAGT GGAAGAGCTG GAAGAGTCTC AGAGAAAGTG CCCACCATGC
    TGGTATAAGT TTGCTAATAC TTTCCTCATC TGGGAGTGTC ACCCCTACTG GATAAAACTG
    AAGGAGATTG TGAACCTGAT CGTCATGGAC CCTTTCGTAG ACTTAGCCAT CACCATCTGC
    ATCGTTCTGA ACACACTATT TATGGCAATG GAGCACCATC CCATGACGCC ACAATTCGAA
    CATGTCCTGG CCGTAGGGAA CCTGGTGTTC ACTGGGATCT TCACGGCAGA AATGTTCCTG
    AAGCTCATAG CCATGGATCC CTACTATTAC TTCCAAGAAG GCTGGAACAT TTTTGACGGA
    TTTATCGTCT CCCTCAGTTT AATGGAGCTG GGCCTTGCAG ACGTGGAGGG GCTCTCAGTG
    CTGCGATCTT TCCGATTGCT CCGAGTCTTC AAATTGGCCA AGTCCTGGCC CACCCTGAAC
    ATGCTGATCA AGATCATCGG GAACTCCGTT GGCGCCCTGG GCAACCTGAC CCTGGTGCTG
    GCCATCATCG TCTTCATCTT CGCCGTGGTG GGGATGCAGC TCTTTGGAAA GAGCTACAAG
    GAGTGCGTCT GTAAGATCAG CCAGGAGTGC AAGCTCCCGC GCTGGCACAT GAACGACTTC
    TTCCACTCCT TCCTCATCGT CTTCCGAGTG CTGTGTGGGG AGTGGATCGA GACCATGTGG
    GACTGCATGG AAGTGGCCGG CCAGGCCATG TGCCTTATCG TGTTCATGAT GGTCATGGTC
    ATCGGCAACC TGGTGGTGCT GAACCTATTT CTGGCCTTGC TTCTGAGCTC CTTCAGCGCA
    GACAATCTGG CGGCCACGGA TGACGACGGG GAAATGAATA ACCTGCAGAT ATCCGTGATC
    CGGATCAAGA AGGGCGTGGC CTGGGCCAAA GTGAAGGTGC ACGCCTTCAT GCAGGCACAC
    TTCAAGCAAC GGGAGGCTGA TGAAGTGAAA CCTTTAGACG AGCTGTATGA GAAGAAGGCC
    AACTGCATCG CCAACCACAC CGGCGTGGAC ATTCACAGGA ACGGCGACTT CCAGAAAAAC
    GGGAACGGCA CCACTAGCGG CATCGGCAGC AGCGTGGAGA AGTACATCAT CGACGAGGAC
    CACATGTCCT TCATTAACAA CCCAAACCTG ACCGTGCGGG TGCCCATTGC TGTGGGCGAG
    TCTGATTTCG AGAACCTCAA CACAGAGGAT GTTAGCAGCG AGTCAGACCC CGAAGGCAGC
    AAAGACAAAT TGGACGATAC CAGCTCCTCA GAAGGAAGTA CCATCGACAT CAAGCCTGAG
    GTGGAAGAAG TCCCAGTGGA GCAGCCTGAG GAATATTTGG ATCCAGACGC CTGCTTCACT
    GAGGGTTGTG TCCAGCGGTT CAAGTGCTGC CAGGTCAACA TCGAGGAAGG ACTAGGCAAG
    TCGTGGTGGA TCCTGCGGAA AACCTGCTTC CTCATTGTGG AGCACAATTG GTTTGAGACC
    TTCATCATCT TCATGATCCT CCTCAGCAGT GGCGCCCTGG CCTTCGAGGA CATCTACATT
    GAGCAGAGGA AGACCATCCG TACCATCCTG GAGTATGCGG ACAAGGTCTT CACCTACATC
    TTCATCCTGG AGATGTTGCT CAAATGGACA GCCTATGGCT TCGTCAAGTT CTTCACCAAT
    GCCTGGTGCT GGTTGGACTT CCTCATTGTG GCTGTCTCTT TAGTCAGCCT TATAGCTAAT
    GCCCTGGGCT ACTCGGAACT AGGTGCCATA AAGTCCCTTA GGACCCTAAG AGCTTTGAGA
    CCCTTAAGAG CCTTATCACG ATTTGAAGGG ATGAGGGTGG TGGTGAACGC CTTGGTGGGC
    GCCATCCCCT CCATCATGAA CGTGCTGCTG GTGTGTCTCA TCTTCTGGCT GATTTTCAGC
    ATCATGGGCG TTAACCTGTT TGCTGGGAAA TACCACTACT GTTTCAACGA GACTTCAGAA
    ATCCGGTTCG AAATCGAAGA GGTGAACAAT AAAACCGACT GTGAGAAGCT CATGGAGGGC
    AACAACACAG AGATCCGATG GAAGAACGTC AAGATCAACT TCGACAACGT CGGGGCAGGC
    TACCTGGCCC TTCTTCAAGT GGCAACCTTC AAAGGCTGGA TGGACATCAT GTATGCAGCT
    GTAGATTCCC GAAAGCCGGA CGAGCAGCCT GATTATGAGG GCAACATCTA CATGTACATC
    TACTTTGTCA TCTTCATCAT CTTCGGCTCC TTCTTCACCC TCAACCTGTT CATCGGTGTC
    ATCATCGACA ACTTCAATCA ACAGAAGAAA AAGTTTGGAG GTCAGGACAT CTTCATGACA
    GAGGAACAGA AGAAGTACTA CAATGCCATG AAGAAGCTGG GCTCCAAGAA GCCACAGAAG
    CCCATCCCCC GACCTTTGAA CAAAATCCAA GGGATTGTCT TTGATTTCGT CACGCAACAA
    GCCTTCGACA TCGTGATCAT GATGCTCATC TGCCTTAACA TGGTGACCAT GATGGTGGAG
    ACGGACACGC AGAGCAAGCA GATGGAGAAC ATTCTCTACT GGATTAATCT GGTCTTCGTC
    ATCTTCTTCA CCTGCGAGTG TGTGCTCAAA ATGTTTGCCT TGAGACACTA CTATTTCACC
    ATTGGCTGGA ACATCTTTGA CTTTGTGGTG GTCATTCTCT CCATTGTGGG AATGTTCCTG
    GCTGATATCA TTGAGAAGTA CTTCGTCTCC CCGACCCTAT TCCGTGTCAT CCGATTGGCC
    CGCATCGGGC GCATCTTGCG TCTGATCAAG GGCGCCAAAG GGATCCGCAC CCTGCTCTTT
    GCCTTAATGA TGTCGCTGCC CGCCCTGTTC AACATTGGCC TCCTGCTCTT CCTGGTCATG
    TTCATCTTCT CCATCTTTGG GATGTCCAAC TTCGCGTACG TGAAGCACGA GGCCGGCATT
    GATGACATGT TCAACTTCGA GACATTTGGC AACAGCATGA TCTGCTTATT CCAGATCACG
    ACCTCTGCTG GTTGGGACGG CCTACTGCTG CCAATCCTGA ACCGCCCCCC TGACTGCAGC
    TTGGACAAGG AGCACCCAGG AAGTGGCTTC AAAGGGGACT GCGGGAACCC CTCCGTGGGC
    ATCTTCTTCT TCGTCAGCTA CATCATCATC TCCTTCCTCA TCGTGGTGAA CATGTACATT
    GCCATCATCC TGGAGAACTT CAGCGTGGCC ACAGAGGAAA GCGCCGATCC TCTGAGCGAG
    GACGACTTCG AGACTTTCTA TGAGATCTGG GAGAAGTTTG ATCCTGATGC CACCCAGTTC
    ATCGAGTACT GTAAACTGGC CGACTTTGCC GACGCCCTGG AGCATCCGCT CCGAGTACCC
    AAGCCCAACA CCATTGAGCT CATCGCCATG GACCTGCCCA TGGTGAGCGG AGATCGAATC
    CACTGCTTGG ACATCCTTTT CGCCTTCACC AAGCGAGTCC TGGGAGACAG TGGGGAGTTG
    GACATCCTGC GGCAGCAGAT GGAGGAGCGG TTTGTGGCGT CCAATCCTTC CAAAGTGTCT
    TACGAGCCTA TCACCACCAC TCTGCGGCGC AAGCAGGAGG AGGTGTCTGC AGTGGTCTTG
    CAGCGTGCCT ACAGGGGACA CTTGGCTAGG CGGGGCTTCA TCTGCAGAAA GATCACTTCC
    AACAAGCTGG AGAATGGAGG CACCCACCGG GAGAAGAAGG AGAGCACCCC GTCCACAGCC
    TCCCTCCCCT CTTATGACAG CGTGACAAAG CCCGACAAGG AGAAGCAGCA GCGGGCAGAG
    GAAGGCAGGA GGGAAAGAGC CAAGAGGCAA AAAGAAGTCA GGGAGTCCAA GTGCTAG

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

    RefSeq XP_029325584.1
    CDS319..6255
    Translation

    Target ORF information:

    RefSeq Version XM_029469724.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029469724.1

    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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGCAACAAC TGAGGTGGAG ATTAAGAAGA AAGGCCCTGG ATCGCTCTTA
    GTCTCCATGG AACAACTCGC CTCCTACGGA CGGAAGGACA GAATCAACAG TATAATGAGC
    GTTGTCACAA ACACACTAGT GGAAGAGCTG GAAGAGTCTC AGAGAAAGTG CCCACCATGC
    TGGTATAAGT TTGCTAATAC TTTCCTCATC TGGGAGTGTC ACCCCTACTG GATAAAACTG
    AAGGAGATTG TGAACCTGAT CGTCATGGAC CCTTTCGTAG ACTTAGCCAT CACCATCTGC
    ATCGTTCTGA ACACACTATT TATGGCAATG GAGCACCATC CCATGACGCC ACAATTCGAA
    CATGTCCTGG CCGTAGGGAA CCTGGTGTTC ACTGGGATCT TCACGGCAGA AATGTTCCTG
    AAGCTCATAG CCATGGATCC CTACTATTAC TTCCAAGAAG GCTGGAACAT TTTTGACGGA
    TTTATCGTCT CCCTCAGTTT AATGGAGCTG GGCCTTGCAG ACGTGGAGGG GCTCTCAGTG
    CTGCGATCTT TCCGATTGCT CCGAGTCTTC AAATTGGCCA AGTCCTGGCC CACCCTGAAC
    ATGCTGATCA AGATCATCGG GAACTCCGTT GGCGCCCTGG GCAACCTGAC CCTGGTGCTG
    GCCATCATCG TCTTCATCTT CGCCGTGGTG GGGATGCAGC TCTTTGGAAA GAGCTACAAG
    GAGTGCGTCT GTAAGATCAG CCAGGAGTGC AAGCTCCCGC GCTGGCACAT GAACGACTTC
    TTCCACTCCT TCCTCATCGT CTTCCGAGTG CTGTGTGGGG AGTGGATCGA GACCATGTGG
    GACTGCATGG AAGTGGCCGG CCAGGCCATG TGCCTTATCG TGTTCATGAT GGTCATGGTC
    ATCGGCAACC TGGTGGTGCT GAACCTATTT CTGGCCTTGC TTCTGAGCTC CTTCAGCGCA
    GACAATCTGG CGGCCACGGA TGACGACGGG GAAATGAATA ACCTGCAGAT ATCCGTGATC
    CGGATCAAGA AGGGCGTGGC CTGGGCCAAA GTGAAGGTGC ACGCCTTCAT GCAGGCACAC
    TTCAAGCAAC GGGAGGCTGA TGAAGTGAAA CCTTTAGACG AGCTGTATGA GAAGAAGGCC
    AACTGCATCG CCAACCACAC CGGCGTGGAC ATTCACAGGA ACGGCGACTT CCAGAAAAAC
    GGGAACGGCA CCACTAGCGG CATCGGCAGC AGCGTGGAGA AGTACATCAT CGACGAGGAC
    CACATGTCCT TCATTAACAA CCCAAACCTG ACCGTGCGGG TGCCCATTGC TGTGGGCGAG
    TCTGATTTCG AGAACCTCAA CACAGAGGAT GTTAGCAGCG AGTCAGACCC CGAAGGCAGC
    AAAGACAAAT TGGACGATAC CAGCTCCTCA GAAGGAAGTA CCATCGACAT CAAGCCTGAG
    GTGGAAGAAG TCCCAGTGGA GCAGCCTGAG GAATATTTGG ATCCAGACGC CTGCTTCACT
    GAGGGTTGTG TCCAGCGGTT CAAGTGCTGC CAGGTCAACA TCGAGGAAGG ACTAGGCAAG
    TCGTGGTGGA TCCTGCGGAA AACCTGCTTC CTCATTGTGG AGCACAATTG GTTTGAGACC
    TTCATCATCT TCATGATCCT CCTCAGCAGT GGCGCCCTGG CCTTCGAGGA CATCTACATT
    GAGCAGAGGA AGACCATCCG TACCATCCTG GAGTATGCGG ACAAGGTCTT CACCTACATC
    TTCATCCTGG AGATGTTGCT CAAATGGACA GCCTATGGCT TCGTCAAGTT CTTCACCAAT
    GCCTGGTGCT GGTTGGACTT CCTCATTGTG GCTGTCTCTT TAGTCAGCCT TATAGCTAAT
    GCCCTGGGCT ACTCGGAACT AGGTGCCATA AAGTCCCTTA GGACCCTAAG AGCTTTGAGA
    CCCTTAAGAG CCTTATCACG ATTTGAAGGG ATGAGGGTGG TGGTGAACGC CTTGGTGGGC
    GCCATCCCCT CCATCATGAA CGTGCTGCTG GTGTGTCTCA TCTTCTGGCT GATTTTCAGC
    ATCATGGGCG TTAACCTGTT TGCTGGGAAA TACCACTACT GTTTCAACGA GACTTCAGAA
    ATCCGGTTCG AAATCGAAGA GGTGAACAAT AAAACCGACT GTGAGAAGCT CATGGAGGGC
    AACAACACAG AGATCCGATG GAAGAACGTC AAGATCAACT TCGACAACGT CGGGGCAGGC
    TACCTGGCCC TTCTTCAAGT GGCAACCTTC AAAGGCTGGA TGGACATCAT GTATGCAGCT
    GTAGATTCCC GAAAGCCGGA CGAGCAGCCT GATTATGAGG GCAACATCTA CATGTACATC
    TACTTTGTCA TCTTCATCAT CTTCGGCTCC TTCTTCACCC TCAACCTGTT CATCGGTGTC
    ATCATCGACA ACTTCAATCA ACAGAAGAAA AAGTTTGGAG GTCAGGACAT CTTCATGACA
    GAGGAACAGA AGAAGTACTA CAATGCCATG AAGAAGCTGG GCTCCAAGAA GCCACAGAAG
    CCCATCCCCC GACCTTTGAA CAAAATCCAA GGGATTGTCT TTGATTTCGT CACGCAACAA
    GCCTTCGACA TCGTGATCAT GATGCTCATC TGCCTTAACA TGGTGACCAT GATGGTGGAG
    ACGGACACGC AGAGCAAGCA GATGGAGAAC ATTCTCTACT GGATTAATCT GGTCTTCGTC
    ATCTTCTTCA CCTGCGAGTG TGTGCTCAAA ATGTTTGCCT TGAGACACTA CTATTTCACC
    ATTGGCTGGA ACATCTTTGA CTTTGTGGTG GTCATTCTCT CCATTGTGGG AATGTTCCTG
    GCTGATATCA TTGAGAAGTA CTTCGTCTCC CCGACCCTAT TCCGTGTCAT CCGATTGGCC
    CGCATCGGGC GCATCTTGCG TCTGATCAAG GGCGCCAAAG GGATCCGCAC CCTGCTCTTT
    GCCTTAATGA TGTCGCTGCC CGCCCTGTTC AACATTGGCC TCCTGCTCTT CCTGGTCATG
    TTCATCTTCT CCATCTTTGG GATGTCCAAC TTCGCGTACG TGAAGCACGA GGCCGGCATT
    GATGACATGT TCAACTTCGA GACATTTGGC AACAGCATGA TCTGCTTATT CCAGATCACG
    ACCTCTGCTG GTTGGGACGG CCTACTGCTG CCAATCCTGA ACCGCCCCCC TGACTGCAGC
    TTGGACAAGG AGCACCCAGG AAGTGGCTTC AAAGGGGACT GCGGGAACCC CTCCGTGGGC
    ATCTTCTTCT TCGTCAGCTA CATCATCATC TCCTTCCTCA TCGTGGTGAA CATGTACATT
    GCCATCATCC TGGAGAACTT CAGCGTGGCC ACAGAGGAAA GCGCCGATCC TCTGAGCGAG
    GACGACTTCG AGACTTTCTA TGAGATCTGG GAGAAGTTTG ATCCTGATGC CACCCAGTTC
    ATCGAGTACT GTAAACTGGC CGACTTTGCC GACGCCCTGG AGCATCCGCT CCGAGTACCC
    AAGCCCAACA CCATTGAGCT CATCGCCATG GACCTGCCCA TGGTGAGCGG AGATCGAATC
    CACTGCTTGG ACATCCTTTT CGCCTTCACC AAGCGAGTCC TGGGAGACAG TGGGGAGTTG
    GACATCCTGC GGCAGCAGAT GGAGGAGCGG TTTGTGGCGT CCAATCCTTC CAAAGTGTCT
    TACGAGCCTA TCACCACCAC TCTGCGGCGC AAGCAGGAGG AGGTGTCTGC AGTGGTCTTG
    CAGCGTGCCT ACAGGGGACA CTTGGCTAGG CGGGGCTTCA TCTGCAGAAA GATCACTTCC
    AACAAGCTGG AGAATGGAGG CACCCACCGG GAGAAGAAGG AGAGCACCCC GTCCACAGCC
    TCCCTCCCCT CTTATGACAG CGTGACAAAG CCCGACAAGG AGAAGCAGCA GCGGGCAGAG
    GAAGGCAGGA GGGAAAGAGC CAAGAGGCAA AAAGAAGTCA GGGAGTCCAA GTGCTAG

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

    CloneID OMv69422
    Clone ID Related Accession (Same CDS sequence) XM_029469724.1 , XM_029469723.1
    Accession Version XM_029469723.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5937bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product sodium channel protein type 8 subunit alpha
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGCAACAAC TGAGGTGGAG ATTAAGAAGA AAGGCCCTGG ATCGCTCTTA
    GTCTCCATGG AACAACTCGC CTCCTACGGA CGGAAGGACA GAATCAACAG TATAATGAGC
    GTTGTCACAA ACACACTAGT GGAAGAGCTG GAAGAGTCTC AGAGAAAGTG CCCACCATGC
    TGGTATAAGT TTGCTAATAC TTTCCTCATC TGGGAGTGTC ACCCCTACTG GATAAAACTG
    AAGGAGATTG TGAACCTGAT CGTCATGGAC CCTTTCGTAG ACTTAGCCAT CACCATCTGC
    ATCGTTCTGA ACACACTATT TATGGCAATG GAGCACCATC CCATGACGCC ACAATTCGAA
    CATGTCCTGG CCGTAGGGAA CCTGGTGTTC ACTGGGATCT TCACGGCAGA AATGTTCCTG
    AAGCTCATAG CCATGGATCC CTACTATTAC TTCCAAGAAG GCTGGAACAT TTTTGACGGA
    TTTATCGTCT CCCTCAGTTT AATGGAGCTG GGCCTTGCAG ACGTGGAGGG GCTCTCAGTG
    CTGCGATCTT TCCGATTGCT CCGAGTCTTC AAATTGGCCA AGTCCTGGCC CACCCTGAAC
    ATGCTGATCA AGATCATCGG GAACTCCGTT GGCGCCCTGG GCAACCTGAC CCTGGTGCTG
    GCCATCATCG TCTTCATCTT CGCCGTGGTG GGGATGCAGC TCTTTGGAAA GAGCTACAAG
    GAGTGCGTCT GTAAGATCAG CCAGGAGTGC AAGCTCCCGC GCTGGCACAT GAACGACTTC
    TTCCACTCCT TCCTCATCGT CTTCCGAGTG CTGTGTGGGG AGTGGATCGA GACCATGTGG
    GACTGCATGG AAGTGGCCGG CCAGGCCATG TGCCTTATCG TGTTCATGAT GGTCATGGTC
    ATCGGCAACC TGGTGGTGCT GAACCTATTT CTGGCCTTGC TTCTGAGCTC CTTCAGCGCA
    GACAATCTGG CGGCCACGGA TGACGACGGG GAAATGAATA ACCTGCAGAT ATCCGTGATC
    CGGATCAAGA AGGGCGTGGC CTGGGCCAAA GTGAAGGTGC ACGCCTTCAT GCAGGCACAC
    TTCAAGCAAC GGGAGGCTGA TGAAGTGAAA CCTTTAGACG AGCTGTATGA GAAGAAGGCC
    AACTGCATCG CCAACCACAC CGGCGTGGAC ATTCACAGGA ACGGCGACTT CCAGAAAAAC
    GGGAACGGCA CCACTAGCGG CATCGGCAGC AGCGTGGAGA AGTACATCAT CGACGAGGAC
    CACATGTCCT TCATTAACAA CCCAAACCTG ACCGTGCGGG TGCCCATTGC TGTGGGCGAG
    TCTGATTTCG AGAACCTCAA CACAGAGGAT GTTAGCAGCG AGTCAGACCC CGAAGGCAGC
    AAAGACAAAT TGGACGATAC CAGCTCCTCA GAAGGAAGTA CCATCGACAT CAAGCCTGAG
    GTGGAAGAAG TCCCAGTGGA GCAGCCTGAG GAATATTTGG ATCCAGACGC CTGCTTCACT
    GAGGGTTGTG TCCAGCGGTT CAAGTGCTGC CAGGTCAACA TCGAGGAAGG ACTAGGCAAG
    TCGTGGTGGA TCCTGCGGAA AACCTGCTTC CTCATTGTGG AGCACAATTG GTTTGAGACC
    TTCATCATCT TCATGATCCT CCTCAGCAGT GGCGCCCTGG CCTTCGAGGA CATCTACATT
    GAGCAGAGGA AGACCATCCG TACCATCCTG GAGTATGCGG ACAAGGTCTT CACCTACATC
    TTCATCCTGG AGATGTTGCT CAAATGGACA GCCTATGGCT TCGTCAAGTT CTTCACCAAT
    GCCTGGTGCT GGTTGGACTT CCTCATTGTG GCTGTCTCTT TAGTCAGCCT TATAGCTAAT
    GCCCTGGGCT ACTCGGAACT AGGTGCCATA AAGTCCCTTA GGACCCTAAG AGCTTTGAGA
    CCCTTAAGAG CCTTATCACG ATTTGAAGGG ATGAGGGTGG TGGTGAACGC CTTGGTGGGC
    GCCATCCCCT CCATCATGAA CGTGCTGCTG GTGTGTCTCA TCTTCTGGCT GATTTTCAGC
    ATCATGGGCG TTAACCTGTT TGCTGGGAAA TACCACTACT GTTTCAACGA GACTTCAGAA
    ATCCGGTTCG AAATCGAAGA GGTGAACAAT AAAACCGACT GTGAGAAGCT CATGGAGGGC
    AACAACACAG AGATCCGATG GAAGAACGTC AAGATCAACT TCGACAACGT CGGGGCAGGC
    TACCTGGCCC TTCTTCAAGT GGCAACCTTC AAAGGCTGGA TGGACATCAT GTATGCAGCT
    GTAGATTCCC GAAAGCCGGA CGAGCAGCCT GATTATGAGG GCAACATCTA CATGTACATC
    TACTTTGTCA TCTTCATCAT CTTCGGCTCC TTCTTCACCC TCAACCTGTT CATCGGTGTC
    ATCATCGACA ACTTCAATCA ACAGAAGAAA AAGTTTGGAG GTCAGGACAT CTTCATGACA
    GAGGAACAGA AGAAGTACTA CAATGCCATG AAGAAGCTGG GCTCCAAGAA GCCACAGAAG
    CCCATCCCCC GACCTTTGAA CAAAATCCAA GGGATTGTCT TTGATTTCGT CACGCAACAA
    GCCTTCGACA TCGTGATCAT GATGCTCATC TGCCTTAACA TGGTGACCAT GATGGTGGAG
    ACGGACACGC AGAGCAAGCA GATGGAGAAC ATTCTCTACT GGATTAATCT GGTCTTCGTC
    ATCTTCTTCA CCTGCGAGTG TGTGCTCAAA ATGTTTGCCT TGAGACACTA CTATTTCACC
    ATTGGCTGGA ACATCTTTGA CTTTGTGGTG GTCATTCTCT CCATTGTGGG AATGTTCCTG
    GCTGATATCA TTGAGAAGTA CTTCGTCTCC CCGACCCTAT TCCGTGTCAT CCGATTGGCC
    CGCATCGGGC GCATCTTGCG TCTGATCAAG GGCGCCAAAG GGATCCGCAC CCTGCTCTTT
    GCCTTAATGA TGTCGCTGCC CGCCCTGTTC AACATTGGCC TCCTGCTCTT CCTGGTCATG
    TTCATCTTCT CCATCTTTGG GATGTCCAAC TTCGCGTACG TGAAGCACGA GGCCGGCATT
    GATGACATGT TCAACTTCGA GACATTTGGC AACAGCATGA TCTGCTTATT CCAGATCACG
    ACCTCTGCTG GTTGGGACGG CCTACTGCTG CCAATCCTGA ACCGCCCCCC TGACTGCAGC
    TTGGACAAGG AGCACCCAGG AAGTGGCTTC AAAGGGGACT GCGGGAACCC CTCCGTGGGC
    ATCTTCTTCT TCGTCAGCTA CATCATCATC TCCTTCCTCA TCGTGGTGAA CATGTACATT
    GCCATCATCC TGGAGAACTT CAGCGTGGCC ACAGAGGAAA GCGCCGATCC TCTGAGCGAG
    GACGACTTCG AGACTTTCTA TGAGATCTGG GAGAAGTTTG ATCCTGATGC CACCCAGTTC
    ATCGAGTACT GTAAACTGGC CGACTTTGCC GACGCCCTGG AGCATCCGCT CCGAGTACCC
    AAGCCCAACA CCATTGAGCT CATCGCCATG GACCTGCCCA TGGTGAGCGG AGATCGAATC
    CACTGCTTGG ACATCCTTTT CGCCTTCACC AAGCGAGTCC TGGGAGACAG TGGGGAGTTG
    GACATCCTGC GGCAGCAGAT GGAGGAGCGG TTTGTGGCGT CCAATCCTTC CAAAGTGTCT
    TACGAGCCTA TCACCACCAC TCTGCGGCGC AAGCAGGAGG AGGTGTCTGC AGTGGTCTTG
    CAGCGTGCCT ACAGGGGACA CTTGGCTAGG CGGGGCTTCA TCTGCAGAAA GATCACTTCC
    AACAAGCTGG AGAATGGAGG CACCCACCGG GAGAAGAAGG AGAGCACCCC GTCCACAGCC
    TCCCTCCCCT CTTATGACAG CGTGACAAAG CCCGACAAGG AGAAGCAGCA GCGGGCAGAG
    GAAGGCAGGA GGGAAAGAGC CAAGAGGCAA AAAGAAGTCA GGGAGTCCAA GTGCTAG

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

    RefSeq XP_029325583.1
    CDS138..6074
    Translation

    Target ORF information:

    RefSeq Version XM_029469723.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli sodium voltage-gated channel alpha subunit 8 (Scn8a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029469723.1

    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
    ATGGCAGCGC GGCTGCTCGC ACCACCAGGC CCCGACAGTT TCAAGCCTTT CACCCCCGAG 
    TCGCTGGCAA ACATCGAGAG GCGCATCGCC GAGAGCAAGC TCAAGAAACC ACCCAAGGCG
    GATGGCAGCC ACCGGGAGGA CGATGAAGAC AGCAAGCCCA AGCCAAACAG TGACCTGGAG
    GCGGGGAAGA GTTTGCCTTT CATCTACGGG GACATCCCGC AAGGCCTGGT TGCGGTTCCC
    CTGGAGGACT TTGACCCGTA CTATTTGACG CAGAAAACTT TTGTAGTATT AAACAGAGGG
    AAAACTCTCT TCAGATTTAG CGCCACTCCT GCCTTGTACA TTCTAAGTCC TTTTAACCTG
    ATAAGAAGAA TAGCTATTAA AATTTTGATA CATTCAGTCT TCAGCATGAT CATCATGTGC
    ACCATCCTGA CCAACTGTGT ATTCATGACT TTTAGTAACC CTCCCGAATG GTCCAAGAAT
    GTGGAGTACA CATTCACAGG GATTTACACA TTTGAATCAC TAGTGAAAAT CATCGCCAGA
    GGTTTCTGCA TAGACGGCTT CACCTTCTTA CGAGACCCGT GGAACTGGTT AGACTTCAGT
    GTCATCATGA TGGCATATGT GACAGAGTTT GTGGACCTGG GCAATGTCTC AGCGTTGAGA
    ACGTTCAGGG TTCTCCGAGC TTTGAAAACT ATCTCTGTAA TTCCAGGCCT GAAGACAATC
    GTGGGCGCCC TCATCCAGTC TGTGAAGAAG CTGTCAGACG TGATGATCCT GACGGTGTTC
    TGCCTGAGTG TCTTCGCCCT GATTGGCCTG CAGCTCTTCA TGGGGAACCT TCGAAACAAG
    TGTGTCGTGT GGCCCATAAA CTTCAACGAG AGCTATCTCG AGAACGGCAC CAGAGGCTTT
    GACTGGGAAG AGTATATCAA CAATAAAACA AACTTTTACA TGGTCCCTGG CATGCTAGAA
    CCCTTGCTCT GCGGGAACAG TTCTGATGCC GGGCAATGCC CAGAGGGGTT CCAGTGCATG
    AAAGCGGGAA GAAATCCCAA CTACGGCTAC ACCAGCTTCG ACACCTTCAG CTGGGCCTTC
    CTGGCACTGT TCCGCCTCAT GACTCAGGAC TACTGGGAGA ACTTATACCA GCTGACCTTA
    CGAGCGGCTG GGAAAACGTA CATGATCTTC TTTGTCCTGG TGATCTTCGT GGGTTCTTTC
    TATCTGGTGA ACTTGATCTT GGCTGTGGTG GCCATGGCTT ACGAAGAGCA GAACCAGGCA
    ACACTGGAGG AGGCAGAGCA GAAAGAGGCC GAGTTCAAGG CGATGCTGGA GCAGCTCAAG
    AAGCAGCAGG AGGAGGCGCA GGCTGCTGCA ATGGCCACTT CGGCGGGCAC TGTCTCAGAA
    GATGCCATTG AAGAAGAAGG GGAAGATGGG GTAGGCTCTC CGAGGAGCTC ATCTGAACTG
    TCTAAACTCA GTTCCAAGAG CGCAAAGGAG CGGCGGAACC GACGGAAGAA GAGGAAGCAG
    AAGGAGCTCT CTGAAGGGGA GGAGAAGGGG GACCCCGAGA AGGTGTTTAA GTCAGAGTCG
    GAAGATGGCA TGAGAAGGAA GGCCTTCCGG CTGCCAGACA ATAGGATAGG GAGGAAATTT
    TCCATCATGA ATCAGTCGCT GCTCAGCATC CCAGGCTCGC CCTTCCTTTC CCGACACAAC
    AGCAAAAGCA GCATCTTCAG CTTCCGGGGT CCCGGGCGGT TCCGGGACCC CGGTTCGGAG
    AACGAGTTCG CAGACGACGA GCACAGCACA GTGGAGGAAA GCGAGGGCCG GCGCGACTCG
    CTCTTCATCC CGATCCGCGC CCGCGAGCGC CGCAGCAGCT ACAGCGGCTA CAGCGGCTAC
    AGCCAGTGCA GCCGCTCGTC GCGCATCTTC CCCAGCCTGC GGCGCAGCGT GAAGCGCAAC
    AGCACCGTGG ACTGCAATGG CGTGGTGTCG CTCATCGGGC CTGGCTCGCA CATCGGGCGG
    CTCCTGCCTG AGGCAACAAC TGAGGTGGAG ATTAAGAAGA AAGGCCCTGG ATCGCTCTTA
    GTCTCCATGG AACAACTCGC CTCCTACGGA CGGAAGGACA GAATCAACAG TATAATGAGC
    GTTGTCACAA ACACACTAGT GGAAGAGCTG GAAGAGTCTC AGAGAAAGTG CCCACCATGC
    TGGTATAAGT TTGCTAATAC TTTCCTCATC TGGGAGTGTC ACCCCTACTG GATAAAACTG
    AAGGAGATTG TGAACCTGAT CGTCATGGAC CCTTTCGTAG ACTTAGCCAT CACCATCTGC
    ATCGTTCTGA ACACACTATT TATGGCAATG GAGCACCATC CCATGACGCC ACAATTCGAA
    CATGTCCTGG CCGTAGGGAA CCTGGTGTTC ACTGGGATCT TCACGGCAGA AATGTTCCTG
    AAGCTCATAG CCATGGATCC CTACTATTAC TTCCAAGAAG GCTGGAACAT TTTTGACGGA
    TTTATCGTCT CCCTCAGTTT AATGGAGCTG GGCCTTGCAG ACGTGGAGGG GCTCTCAGTG
    CTGCGATCTT TCCGATTGCT CCGAGTCTTC AAATTGGCCA AGTCCTGGCC CACCCTGAAC
    ATGCTGATCA AGATCATCGG GAACTCCGTT GGCGCCCTGG GCAACCTGAC CCTGGTGCTG
    GCCATCATCG TCTTCATCTT CGCCGTGGTG GGGATGCAGC TCTTTGGAAA GAGCTACAAG
    GAGTGCGTCT GTAAGATCAG CCAGGAGTGC AAGCTCCCGC GCTGGCACAT GAACGACTTC
    TTCCACTCCT TCCTCATCGT CTTCCGAGTG CTGTGTGGGG AGTGGATCGA GACCATGTGG
    GACTGCATGG AAGTGGCCGG CCAGGCCATG TGCCTTATCG TGTTCATGAT GGTCATGGTC
    ATCGGCAACC TGGTGGTGCT GAACCTATTT CTGGCCTTGC TTCTGAGCTC CTTCAGCGCA
    GACAATCTGG CGGCCACGGA TGACGACGGG GAAATGAATA ACCTGCAGAT ATCCGTGATC
    CGGATCAAGA AGGGCGTGGC CTGGGCCAAA GTGAAGGTGC ACGCCTTCAT GCAGGCACAC
    TTCAAGCAAC GGGAGGCTGA TGAAGTGAAA CCTTTAGACG AGCTGTATGA GAAGAAGGCC
    AACTGCATCG CCAACCACAC CGGCGTGGAC ATTCACAGGA ACGGCGACTT CCAGAAAAAC
    GGGAACGGCA CCACTAGCGG CATCGGCAGC AGCGTGGAGA AGTACATCAT CGACGAGGAC
    CACATGTCCT TCATTAACAA CCCAAACCTG ACCGTGCGGG TGCCCATTGC TGTGGGCGAG
    TCTGATTTCG AGAACCTCAA CACAGAGGAT GTTAGCAGCG AGTCAGACCC CGAAGGCAGC
    AAAGACAAAT TGGACGATAC CAGCTCCTCA GAAGGAAGTA CCATCGACAT CAAGCCTGAG
    GTGGAAGAAG TCCCAGTGGA GCAGCCTGAG GAATATTTGG ATCCAGACGC CTGCTTCACT
    GAGGGTTGTG TCCAGCGGTT CAAGTGCTGC CAGGTCAACA TCGAGGAAGG ACTAGGCAAG
    TCGTGGTGGA TCCTGCGGAA AACCTGCTTC CTCATTGTGG AGCACAATTG GTTTGAGACC
    TTCATCATCT TCATGATCCT CCTCAGCAGT GGCGCCCTGG CCTTCGAGGA CATCTACATT
    GAGCAGAGGA AGACCATCCG TACCATCCTG GAGTATGCGG ACAAGGTCTT CACCTACATC
    TTCATCCTGG AGATGTTGCT CAAATGGACA GCCTATGGCT TCGTCAAGTT CTTCACCAAT
    GCCTGGTGCT GGTTGGACTT CCTCATTGTG GCTGTCTCTT TAGTCAGCCT TATAGCTAAT
    GCCCTGGGCT ACTCGGAACT AGGTGCCATA AAGTCCCTTA GGACCCTAAG AGCTTTGAGA
    CCCTTAAGAG CCTTATCACG ATTTGAAGGG ATGAGGGTGG TGGTGAACGC CTTGGTGGGC
    GCCATCCCCT CCATCATGAA CGTGCTGCTG GTGTGTCTCA TCTTCTGGCT GATTTTCAGC
    ATCATGGGCG TTAACCTGTT TGCTGGGAAA TACCACTACT GTTTCAACGA GACTTCAGAA
    ATCCGGTTCG AAATCGAAGA GGTGAACAAT AAAACCGACT GTGAGAAGCT CATGGAGGGC
    AACAACACAG AGATCCGATG GAAGAACGTC AAGATCAACT TCGACAACGT CGGGGCAGGC
    TACCTGGCCC TTCTTCAAGT GGCAACCTTC AAAGGCTGGA TGGACATCAT GTATGCAGCT
    GTAGATTCCC GAAAGCCGGA CGAGCAGCCT GATTATGAGG GCAACATCTA CATGTACATC
    TACTTTGTCA TCTTCATCAT CTTCGGCTCC TTCTTCACCC TCAACCTGTT CATCGGTGTC
    ATCATCGACA ACTTCAATCA ACAGAAGAAA AAGTTTGGAG GTCAGGACAT CTTCATGACA
    GAGGAACAGA AGAAGTACTA CAATGCCATG AAGAAGCTGG GCTCCAAGAA GCCACAGAAG
    CCCATCCCCC GACCTTTGAA CAAAATCCAA GGGATTGTCT TTGATTTCGT CACGCAACAA
    GCCTTCGACA TCGTGATCAT GATGCTCATC TGCCTTAACA TGGTGACCAT GATGGTGGAG
    ACGGACACGC AGAGCAAGCA GATGGAGAAC ATTCTCTACT GGATTAATCT GGTCTTCGTC
    ATCTTCTTCA CCTGCGAGTG TGTGCTCAAA ATGTTTGCCT TGAGACACTA CTATTTCACC
    ATTGGCTGGA ACATCTTTGA CTTTGTGGTG GTCATTCTCT CCATTGTGGG AATGTTCCTG
    GCTGATATCA TTGAGAAGTA CTTCGTCTCC CCGACCCTAT TCCGTGTCAT CCGATTGGCC
    CGCATCGGGC GCATCTTGCG TCTGATCAAG GGCGCCAAAG GGATCCGCAC CCTGCTCTTT
    GCCTTAATGA TGTCGCTGCC CGCCCTGTTC AACATTGGCC TCCTGCTCTT CCTGGTCATG
    TTCATCTTCT CCATCTTTGG GATGTCCAAC TTCGCGTACG TGAAGCACGA GGCCGGCATT
    GATGACATGT TCAACTTCGA GACATTTGGC AACAGCATGA TCTGCTTATT CCAGATCACG
    ACCTCTGCTG GTTGGGACGG CCTACTGCTG CCAATCCTGA ACCGCCCCCC TGACTGCAGC
    TTGGACAAGG AGCACCCAGG AAGTGGCTTC AAAGGGGACT GCGGGAACCC CTCCGTGGGC
    ATCTTCTTCT TCGTCAGCTA CATCATCATC TCCTTCCTCA TCGTGGTGAA CATGTACATT
    GCCATCATCC TGGAGAACTT CAGCGTGGCC ACAGAGGAAA GCGCCGATCC TCTGAGCGAG
    GACGACTTCG AGACTTTCTA TGAGATCTGG GAGAAGTTTG ATCCTGATGC CACCCAGTTC
    ATCGAGTACT GTAAACTGGC CGACTTTGCC GACGCCCTGG AGCATCCGCT CCGAGTACCC
    AAGCCCAACA CCATTGAGCT CATCGCCATG GACCTGCCCA TGGTGAGCGG AGATCGAATC
    CACTGCTTGG ACATCCTTTT CGCCTTCACC AAGCGAGTCC TGGGAGACAG TGGGGAGTTG
    GACATCCTGC GGCAGCAGAT GGAGGAGCGG TTTGTGGCGT CCAATCCTTC CAAAGTGTCT
    TACGAGCCTA TCACCACCAC TCTGCGGCGC AAGCAGGAGG AGGTGTCTGC AGTGGTCTTG
    CAGCGTGCCT ACAGGGGACA CTTGGCTAGG CGGGGCTTCA TCTGCAGAAA GATCACTTCC
    AACAAGCTGG AGAATGGAGG CACCCACCGG GAGAAGAAGG AGAGCACCCC GTCCACAGCC
    TCCCTCCCCT CTTATGACAG CGTGACAAAG CCCGACAAGG AGAAGCAGCA GCGGGCAGAG
    GAAGGCAGGA GGGAAAGAGC CAAGAGGCAA AAAGAAGTCA GGGAGTCCAA GTGCTAG

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