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SCN10A cDNA ORF clone, Homo sapiens (human)

Gene Symbol SCN10A
Entrez Gene ID 6336
Full Name sodium channel, voltage gated, type X alpha subunit
Synonyms FEPS2, Nav1.8, PN3, SNS, hPN3
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

3

3p22.2

Summary The protein encoded by this gene is a tetrodotoxin-resistant voltage-gated sodium channel alpha subunit. The properties of the channel formed by the encoded transmembrane protein can be altered by interaction with different beta subunits. This protein may be involved in the onset of pain associated with peripheral neuropathy. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Jun 2014]. lac of sum
Disorder MIM:

604427


mRNA and Protein(s)

mRNA Protein Name
XM_005265371 XP_005265428 sodium channel protein type 10 subunit alpha isoform X1
XM_011533993 XP_011532295 sodium channel protein type 10 subunit alpha isoform X2
XM_011533994 XP_011532296 sodium channel protein type 10 subunit alpha isoform X3
NM_006514 NP_006505 sodium channel protein type 10 subunit alpha isoform 1
NM_001293306 NP_001280235 sodium channel protein type 10 subunit alpha isoform 2
NM_001293307 NP_001280236 sodium channel protein type 10 subunit alpha isoform 3



Homo sapiens (human) SCN10A NP_006505.2
Pan troglodytes (chimpanzee) SCN10A XP_516372.3
Macaca mulatta (Rhesus monkey) SCN10A XP_002808374.1
Canis lupus familiaris (dog) SCN10A NP_001003203.1
Bos taurus (cattle) SCN10A XP_002696962.1
Mus musculus (house mouse) Scn10a NP_001192250.1
Rattus norvegicus (Norway rat) Scn10a NP_058943.1


GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following SCN10A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SCN10A 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.

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***CloneID RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OHu37410 XM_005265371 PREDICTED: Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00
OHu60382 XM_011533993 PREDICTED: Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00
OHu60383 XM_011533994 PREDICTED: Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00
OHu60384 NM_006514 Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 22 $951.30
$1359.00
OHu60385 NM_001293306 Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00
OHu60386 NM_001293307 Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant 3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00

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** 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.


CloneID OHu37410
Clone ID Related Accession (Same CDS sequence) XM_005265371
Accession Version XM_005265371.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5880bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 10 subunit alpha isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_022517.19) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced gi:530372953. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCA TATCCTTTGT GGTTCAGTTT ATTTATTACG
GTCACTATTT TGGTTAATTG TGTGTGCATG ACCCGAACTG ACCTTCCAGA GAAAATTGAA
TATGTCTTCA CTGTCATTTA CACCTTTGAA GCCTTGATAA AGATACTGGC AAGAGGATTT
TGTCTAAATG AGTTCACGTA CCTGAGAGAT CCTTGGAACT GGCTGGATTT TAGCGTCATT
ACCCTGGCAT ATGTTGGCAC AGCAATAGAT CTCCGTGGGA TCTCAGGCCT GCGGACATTC
AGAGTTCTTA GAGCATTAAA AACAGTTTCT GTGATCCCAG GCCTGAAGGT CATTGTGGGG
GCCCTGATTC ACTCAGTGAA GAAACTGGCT GATGTGACCA TCCTCACCAT CTTCTGCCTA
AGTGTTTTTG CCTTGGTGGG GCTGCAACTC TTCAAGGGCA ACCTCAAAAA TAAATGTGTC
AAGAATGACA TGGCTGTCAA TGAGACAACC AACTACTCAT CTCACAGAAA ACCAGATATC
TACATAAATA AGCGAGGCAC TTCTGACCCC TTACTGTGTG GCAATGGATC TGACTCAGGC
CACTGCCCTG ATGGTTATAT CTGCCTTAAA ACTTCTGACA ACCCGGATTT TAACTACACC
AGCTTTGATT CCTTTGCTTG GGCTTTCCTC TCACTGTTCC GCCTCATGAC ACAGGATTCC
TGGGAACGCC TCTACCAGCA GACCCTGAGG ACTTCTGGGA AAATCTATAT GATCTTTTTT
GTGCTCGTAA TCTTCCTGGG ATCTTTCTAC CTGGTCAACT TGATCTTGGC TGTAGTCACC
ATGGCGTATG AGGAGCAGAA CCAGGCAACC ACTGATGAAA TTGAAGCAAA GGAGAAGAAG
TTCCAGGAGG CCCTCGAGAT GCTCCGGAAG GAGCAGGAGG TGCTAGCAGC ACTAGGGATT
GACACAACCT CTCTCCACTC CCACAATGGA TCACCTTTAA CCTCCAAAAA TGCCAGTGAG
AGAAGGCATA GAATAAAGCC AAGAGTGTCA GAGGGCTCCA CAGAAGACAA CAAATCACCC
CGCTCTGATC CTTACAACCA GCGCAGGATG TCTTTTCTAG GCCTCGCCTC TGGAAAACGC
CGGGCTAGTC ATGGCAGTGT GTTCCATTTC CGGTCCCCTG GCCGAGATAT CTCACTCCCT
GAGGGAGTCA CAGATGATGG AGTCTTTCCT GGAGACCACG AAAGCCATCG GGGCTCTCTG
CTGCTGGGTG GGGGTGCTGG CCAGCAAGGC CCCCTCCCTA GAAGCCCTCT TCCTCAACCC
AGCAACCCTG ACTCCAGGCA TGGAGAAGAT GAACACCAAC CGCCGCCCAC TAGTGAGCTT
GCCCCTGGAG CTGTCGATGT CTCGGCATTC GATGCAGGAC AAAAGAAGAC TTTCTTGTCA
GCAGAATACT TAGATGAACC TTTCCGGGCC CAAAGGGCAA TGAGTGTTGT CAGTATCATA
ACCTCCGTCC TTGAGGAACT CGAGGAGTCT GAACAGAAGT GCCCACCCTG CTTGACCAGC
TTGTCTCAGA AGTATCTGAT CTGGGATTGC TGCCCCATGT GGGTGAAGCT CAAGACAATT
CTCTTTGGGC TTGTGACGGA TCCCTTTGCA GAGCTCACCA TCACCTTGTG CATCGTGGTG
AACACCATCT TCATGGCCAT GGAGCACCAT GGCATGAGCC CTACCTTCGA AGCCATGCTC
CAGATAGGCA ACATCGTCTT TACCATATTT TTTACTGCTG AAATGGTCTT CAAAATCATT
GCCTTCGACC CATACTATTA TTTCCAGAAG AAGTGGAATA TCTTTGACTG CATCATCGTC
ACTGTGAGTC TGCTAGAGCT GGGCGTGGCC AAGAAGGGAA GCCTGTCTGT GCTGCGGAGC
TTCCGCTTGC TGCGCGTATT CAAGCTGGCC AAATCCTGGC CCACCTTAAA CACACTCATC
AAGATCATCG GAAACTCAGT GGGGGCACTG GGGAACCTCA CCATCATCCT GGCCATCATT
GTCTTTGTCT TTGCTCTGGT TGGCAAGCAG CTCCTAGGGG AAAACTACCG TAACAACCGA
AAAAATATCT CCGCGCCCCA TGAAGACTGG CCCCGCTGGC ACATGCACGA CTTCTTCCAC
TCTTTCCTCA TTGTCTTCCG TATCCTCTGT GGAGAGTGGA TTGAGAACAT GTGGGCCTGC
ATGGAAGTTG GCCAAAAATC CATATGCCTC ATCCTTTTCT TGACGGTGAT GGTGCTAGGG
AACCTGGTGG TGCTTAACCT GTTCATCGCC CTGCTATTGA ACTCTTTCAG TGCTGACAAC
CTCACAGCCC CGGAGGACGA TGGGGAGGTG AACAACCTGC AGGTGGCCCT GGCACGGATC
CAGGTCTTTG GCCATCGTAC CAAACAGGCT CTTTGCAGCT TCTTCAGCAG GTCCTGCCCA
TTCCCCCAGC CCAAGGCAGA GCCTGAGCTG GTGGTGAAAC TCCCACTCTC CAGCTCCAAG
GCTGAGAACC ACATTGCTGC CAACACTGCC AGGGGGAGCT CTGGAGGGCT CCAAGCTCCC
AGAGGCCCCA GGGATGAGCA CAGTGACTTC ATCGCTAATC CGACTGTGTG GGTCTCTGTG
CCCATTGCTG AGGGTGAATC TGATCTTGAT GACTTGGAGG ATGATGGTGG GGAAGATGCT
CAGAGCTTCC AGCAGGAAGT GATCCCCAAA GGACAGCAGG AGCAGCTGCA GCAAGTCGAG
AGGTGTGGGG ACCACCTGAC ACCCAGGAGC CCAGGCACTG GAACATCTTC TGAGGACCTG
GCTCCATCCC TGGGTGAGAC GTGGAAAGAT GAGTCTGTTC CTCAGGTCCC TGCTGAGGGA
GTGGACGACA CAAGCTCCTC TGAGGGCAGC ACGGTGGACT GCCTAGATCC TGAGGAAATC
CTGAGGAAGA TCCCTGAGCT GGCAGATGAC CTGGAAGAAC CAGATGACTG CTTCACAGAA
GGATGCATTC GCCACTGTCC CTGCTGCAAA CTGGATACCA CCAAGAGTCC ATGGGATGTG
GGCTGGCAGG TGCGCAAGAC TTGCTACCGT ATCGTGGAGC ACAGCTGGTT TGAGAGCTTC
ATCATCTTCA TGATCCTGCT CAGCAGTGGA TCTCTGGCCT TTGAAGACTA TTACCTGGAC
CAGAAGCCCA CGGTGAAAGC TTTGCTGGAG TACACTGACA GGGTCTTCAC CTTTATCTTT
GTGTTCGAGA TGCTGCTTAA GTGGGTGGCC TATGGCTTCA AAAAGTACTT CACCAATGCC
TGGTGCTGGC TGGACTTCCT CATTGTGAAT ATCTCACTGA TAAGTCTCAC AGCGAAGATT
CTGGAATATT CTGAAGTGGC TCCCATCAAA GCCCTTCGAA CCCTTCGCGC TCTGCGGCCA
CTGCGGGCTC TTTCTCGATT TGAAGGCATG CGGGTGGTGG TGGATGCCCT GGTGGGCGCC
ATCCCATCCA TCATGAATGT CCTCCTCGTC TGCCTCATCT TCTGGCTCAT CTTCAGCATC
ATGGGTGTGA ACCTCTTCGC AGGGAAGTTT TGGAGGTGCA TCAACTATAC CGATGGAGAG
TTTTCCCTTG TACCTTTGTC GATTGTGAAT AACAAGTCTG ACTGCAAGAT TCAAAACTCC
ACTGGCAGCT TCTTCTGGGT CAATGTGAAA GTCAACTTTG ATAATGTTGC AATGGGTTAC
CTTGCACTTC TGCAGGTGGC AACCTTTAAA GGCTGGATGG ACATTATGTA TGCAGCTGTT
GATTCCCGGG AGGTCAACAT GCAACCCAAG TGGGAGGACA ACGTGTACAT GTATTTGTAC
TTTGTCATCT TCATCATTTT TGGAGGCTTC TTCACACTGA ATCTCTTTGT TGGGGTCATA
ATTGACAACT TCAATCAACA GAAAAAAAAG TTAGGGGGCC AGGACATCTT CATGACAGAG
GAGCAGAAGA AATACTACAA TGCCATGAAG AAGTTGGGCT CCAAGAAGCC CCAGAAGCCC
ATCCCACGGC CCCTGAACAA GTTCCAGGGT TTTGTCTTTG ACATCGTGAC CAGACAAGCT
TTTGACATCA CCATCATGGT CCTCATCTGC CTCAACATGA TCACCATGAT GGTGGAGACT
GATGACCAAA GTGAAGAAAA GACGAAAATT CTGGGCAAAA TCAACCAGTT CTTTGTGGCC
GTCTTCACAG GCGAATGTGT CATGAAGATG TTCGCTTTGA GGCAGTACTA CTTCACAAAT
GGCTGGAATG TGTTTGACTT CATTGTGGTG GTTCTCTCCA TTGCGAGCCT GATTTTTTCT
GCAATTCTTA AGTCACTTCA AAGTTACTTC TCCCCAACGC TCTTCAGAGT CATCCGCCTG
GCCCGAATTG GCCGCATCCT CAGACTGATC CGAGCGGCCA AGGGGATCCG CACACTGCTC
TTTGCCCTCA TGATGTCCCT GCCTGCCCTC TTCAACATCG GGCTGTTGCT ATTCCTTGTC
ATGTTCATCT ACTCTATCTT CGGTATGTCC AGCTTTCCCC ATGTGAGGTG GGAGGCTGGC
ATCGACGACA TGTTCAACTT CCAGACCTTC GCCAACAGCA TGCTGTGCCT CTTCCAGATT
ACCACGTCGG CCGGCTGGGA TGGCCTCCTC AGCCCCATCC TCAACACAGG GCCCCCCTAC
TGTGACCCCA ATCTGCCCAA CAGCAATGGC ACCAGAGGGG ACTGTGGGAG CCCAGCCGTA
GGCATCATCT TCTTCACCAC CTACATCATC ATCTCCTTCC TCATCATGGT CAACATGTAC
ATTGCAGTGA TTCTGGAGAA CTTCAATGTG GCCACGGAGG AGAGCACTGA GCCCCTGAGT
GAGGACGACT TTGACATGTT CTATGAGACC TGGGAGAAGT TTGACCCAGA GGCCACTCAG
TTTATTACCT TTTCTGCTCT CTCGGACTTT GCAGACACTC TCTCTGGTCC CCTGAGAATC
CCAAAACCCA ATCGAAATAT ACTGATCCAG ATGGACCTGC CTTTGGTCCC TGGAGATAAG
ATCCACTGCT TGGACATCCT TTTTGCTTTC ACCAAGAATG TCCTAGGAGA ATCCGGGGAG
TTGGATTCTC TGAAGGCAAA TATGGAGGAG AAGTTTATGG CAACTAATCT TTCAAAATCA
TCCTATGAAC CAATAGCAAC CACTCTCCGA TGGAAGCAAG AAGACATTTC AGCCACTGTC
ATTCAAAAGG CCTATCGGAG CTATGTGCTG CACCGCTCCA TGGCACTCTC TAACACCCCA
TGTGTGCCCA GAGCTGAGGA GGAGGCTGCA TCACTCCCAG ATGAAGGTTT TGTTGCATTC
ACAGCAAATG AAAATTGTGT ACTCCCAGAC AAATCTGAAA CTGCTTCTGC CACATCATTC
CCACCGTCCT ATGAGAGTGT CACTAGAGGC CTTAGTGATA GAGTCAACAT GAGGACATCT
AGCTCAATAC AAAATGAAGA TGAAGCCACC AGTATGGAGC TGATTGCCCC TGGGCCCTAG

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

RefSeq XP_005265428.1
CDS1..5880
Misc Feature(1)475..1197(+)
Misc Feature(2)1351..>1608(+)
Misc Feature(3)2104..2676(+)
Misc Feature(4)2719..3495(+)
Misc Feature(5)3571..4260(+)
Misc Feature(6)4264..4422(+)
Misc Feature(7)4306..4317(+)
Misc Feature(8)4360..4362(+)
Misc Feature(9)4540..5043(+)
Translation

Target ORF information:

RefSeq Version XM_005265371
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005265371

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
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCA TATCCTTTGT GGTTCAGTTT ATTTATTACG
GTCACTATTT TGGTTAATTG TGTGTGCATG ACCCGAACTG ACCTTCCAGA GAAAATTGAA
TATGTCTTCA CTGTCATTTA CACCTTTGAA GCCTTGATAA AGATACTGGC AAGAGGATTT
TGTCTAAATG AGTTCACGTA CCTGAGAGAT CCTTGGAACT GGCTGGATTT TAGCGTCATT
ACCCTGGCAT ATGTTGGCAC AGCAATAGAT CTCCGTGGGA TCTCAGGCCT GCGGACATTC
AGAGTTCTTA GAGCATTAAA AACAGTTTCT GTGATCCCAG GCCTGAAGGT CATTGTGGGG
GCCCTGATTC ACTCAGTGAA GAAACTGGCT GATGTGACCA TCCTCACCAT CTTCTGCCTA
AGTGTTTTTG CCTTGGTGGG GCTGCAACTC TTCAAGGGCA ACCTCAAAAA TAAATGTGTC
AAGAATGACA TGGCTGTCAA TGAGACAACC AACTACTCAT CTCACAGAAA ACCAGATATC
TACATAAATA AGCGAGGCAC TTCTGACCCC TTACTGTGTG GCAATGGATC TGACTCAGGC
CACTGCCCTG ATGGTTATAT CTGCCTTAAA ACTTCTGACA ACCCGGATTT TAACTACACC
AGCTTTGATT CCTTTGCTTG GGCTTTCCTC TCACTGTTCC GCCTCATGAC ACAGGATTCC
TGGGAACGCC TCTACCAGCA GACCCTGAGG ACTTCTGGGA AAATCTATAT GATCTTTTTT
GTGCTCGTAA TCTTCCTGGG ATCTTTCTAC CTGGTCAACT TGATCTTGGC TGTAGTCACC
ATGGCGTATG AGGAGCAGAA CCAGGCAACC ACTGATGAAA TTGAAGCAAA GGAGAAGAAG
TTCCAGGAGG CCCTCGAGAT GCTCCGGAAG GAGCAGGAGG TGCTAGCAGC ACTAGGGATT
GACACAACCT CTCTCCACTC CCACAATGGA TCACCTTTAA CCTCCAAAAA TGCCAGTGAG
AGAAGGCATA GAATAAAGCC AAGAGTGTCA GAGGGCTCCA CAGAAGACAA CAAATCACCC
CGCTCTGATC CTTACAACCA GCGCAGGATG TCTTTTCTAG GCCTCGCCTC TGGAAAACGC
CGGGCTAGTC ATGGCAGTGT GTTCCATTTC CGGTCCCCTG GCCGAGATAT CTCACTCCCT
GAGGGAGTCA CAGATGATGG AGTCTTTCCT GGAGACCACG AAAGCCATCG GGGCTCTCTG
CTGCTGGGTG GGGGTGCTGG CCAGCAAGGC CCCCTCCCTA GAAGCCCTCT TCCTCAACCC
AGCAACCCTG ACTCCAGGCA TGGAGAAGAT GAACACCAAC CGCCGCCCAC TAGTGAGCTT
GCCCCTGGAG CTGTCGATGT CTCGGCATTC GATGCAGGAC AAAAGAAGAC TTTCTTGTCA
GCAGAATACT TAGATGAACC TTTCCGGGCC CAAAGGGCAA TGAGTGTTGT CAGTATCATA
ACCTCCGTCC TTGAGGAACT CGAGGAGTCT GAACAGAAGT GCCCACCCTG CTTGACCAGC
TTGTCTCAGA AGTATCTGAT CTGGGATTGC TGCCCCATGT GGGTGAAGCT CAAGACAATT
CTCTTTGGGC TTGTGACGGA TCCCTTTGCA GAGCTCACCA TCACCTTGTG CATCGTGGTG
AACACCATCT TCATGGCCAT GGAGCACCAT GGCATGAGCC CTACCTTCGA AGCCATGCTC
CAGATAGGCA ACATCGTCTT TACCATATTT TTTACTGCTG AAATGGTCTT CAAAATCATT
GCCTTCGACC CATACTATTA TTTCCAGAAG AAGTGGAATA TCTTTGACTG CATCATCGTC
ACTGTGAGTC TGCTAGAGCT GGGCGTGGCC AAGAAGGGAA GCCTGTCTGT GCTGCGGAGC
TTCCGCTTGC TGCGCGTATT CAAGCTGGCC AAATCCTGGC CCACCTTAAA CACACTCATC
AAGATCATCG GAAACTCAGT GGGGGCACTG GGGAACCTCA CCATCATCCT GGCCATCATT
GTCTTTGTCT TTGCTCTGGT TGGCAAGCAG CTCCTAGGGG AAAACTACCG TAACAACCGA
AAAAATATCT CCGCGCCCCA TGAAGACTGG CCCCGCTGGC ACATGCACGA CTTCTTCCAC
TCTTTCCTCA TTGTCTTCCG TATCCTCTGT GGAGAGTGGA TTGAGAACAT GTGGGCCTGC
ATGGAAGTTG GCCAAAAATC CATATGCCTC ATCCTTTTCT TGACGGTGAT GGTGCTAGGG
AACCTGGTGG TGCTTAACCT GTTCATCGCC CTGCTATTGA ACTCTTTCAG TGCTGACAAC
CTCACAGCCC CGGAGGACGA TGGGGAGGTG AACAACCTGC AGGTGGCCCT GGCACGGATC
CAGGTCTTTG GCCATCGTAC CAAACAGGCT CTTTGCAGCT TCTTCAGCAG GTCCTGCCCA
TTCCCCCAGC CCAAGGCAGA GCCTGAGCTG GTGGTGAAAC TCCCACTCTC CAGCTCCAAG
GCTGAGAACC ACATTGCTGC CAACACTGCC AGGGGGAGCT CTGGAGGGCT CCAAGCTCCC
AGAGGCCCCA GGGATGAGCA CAGTGACTTC ATCGCTAATC CGACTGTGTG GGTCTCTGTG
CCCATTGCTG AGGGTGAATC TGATCTTGAT GACTTGGAGG ATGATGGTGG GGAAGATGCT
CAGAGCTTCC AGCAGGAAGT GATCCCCAAA GGACAGCAGG AGCAGCTGCA GCAAGTCGAG
AGGTGTGGGG ACCACCTGAC ACCCAGGAGC CCAGGCACTG GAACATCTTC TGAGGACCTG
GCTCCATCCC TGGGTGAGAC GTGGAAAGAT GAGTCTGTTC CTCAGGTCCC TGCTGAGGGA
GTGGACGACA CAAGCTCCTC TGAGGGCAGC ACGGTGGACT GCCTAGATCC TGAGGAAATC
CTGAGGAAGA TCCCTGAGCT GGCAGATGAC CTGGAAGAAC CAGATGACTG CTTCACAGAA
GGATGCATTC GCCACTGTCC CTGCTGCAAA CTGGATACCA CCAAGAGTCC ATGGGATGTG
GGCTGGCAGG TGCGCAAGAC TTGCTACCGT ATCGTGGAGC ACAGCTGGTT TGAGAGCTTC
ATCATCTTCA TGATCCTGCT CAGCAGTGGA TCTCTGGCCT TTGAAGACTA TTACCTGGAC
CAGAAGCCCA CGGTGAAAGC TTTGCTGGAG TACACTGACA GGGTCTTCAC CTTTATCTTT
GTGTTCGAGA TGCTGCTTAA GTGGGTGGCC TATGGCTTCA AAAAGTACTT CACCAATGCC
TGGTGCTGGC TGGACTTCCT CATTGTGAAT ATCTCACTGA TAAGTCTCAC AGCGAAGATT
CTGGAATATT CTGAAGTGGC TCCCATCAAA GCCCTTCGAA CCCTTCGCGC TCTGCGGCCA
CTGCGGGCTC TTTCTCGATT TGAAGGCATG CGGGTGGTGG TGGATGCCCT GGTGGGCGCC
ATCCCATCCA TCATGAATGT CCTCCTCGTC TGCCTCATCT TCTGGCTCAT CTTCAGCATC
ATGGGTGTGA ACCTCTTCGC AGGGAAGTTT TGGAGGTGCA TCAACTATAC CGATGGAGAG
TTTTCCCTTG TACCTTTGTC GATTGTGAAT AACAAGTCTG ACTGCAAGAT TCAAAACTCC
ACTGGCAGCT TCTTCTGGGT CAATGTGAAA GTCAACTTTG ATAATGTTGC AATGGGTTAC
CTTGCACTTC TGCAGGTGGC AACCTTTAAA GGCTGGATGG ACATTATGTA TGCAGCTGTT
GATTCCCGGG AGGTCAACAT GCAACCCAAG TGGGAGGACA ACGTGTACAT GTATTTGTAC
TTTGTCATCT TCATCATTTT TGGAGGCTTC TTCACACTGA ATCTCTTTGT TGGGGTCATA
ATTGACAACT TCAATCAACA GAAAAAAAAG TTAGGGGGCC AGGACATCTT CATGACAGAG
GAGCAGAAGA AATACTACAA TGCCATGAAG AAGTTGGGCT CCAAGAAGCC CCAGAAGCCC
ATCCCACGGC CCCTGAACAA GTTCCAGGGT TTTGTCTTTG ACATCGTGAC CAGACAAGCT
TTTGACATCA CCATCATGGT CCTCATCTGC CTCAACATGA TCACCATGAT GGTGGAGACT
GATGACCAAA GTGAAGAAAA GACGAAAATT CTGGGCAAAA TCAACCAGTT CTTTGTGGCC
GTCTTCACAG GCGAATGTGT CATGAAGATG TTCGCTTTGA GGCAGTACTA CTTCACAAAT
GGCTGGAATG TGTTTGACTT CATTGTGGTG GTTCTCTCCA TTGCGAGCCT GATTTTTTCT
GCAATTCTTA AGTCACTTCA AAGTTACTTC TCCCCAACGC TCTTCAGAGT CATCCGCCTG
GCCCGAATTG GCCGCATCCT CAGACTGATC CGAGCGGCCA AGGGGATCCG CACACTGCTC
TTTGCCCTCA TGATGTCCCT GCCTGCCCTC TTCAACATCG GGCTGTTGCT ATTCCTTGTC
ATGTTCATCT ACTCTATCTT CGGTATGTCC AGCTTTCCCC ATGTGAGGTG GGAGGCTGGC
ATCGACGACA TGTTCAACTT CCAGACCTTC GCCAACAGCA TGCTGTGCCT CTTCCAGATT
ACCACGTCGG CCGGCTGGGA TGGCCTCCTC AGCCCCATCC TCAACACAGG GCCCCCCTAC
TGTGACCCCA ATCTGCCCAA CAGCAATGGC ACCAGAGGGG ACTGTGGGAG CCCAGCCGTA
GGCATCATCT TCTTCACCAC CTACATCATC ATCTCCTTCC TCATCATGGT CAACATGTAC
ATTGCAGTGA TTCTGGAGAA CTTCAATGTG GCCACGGAGG AGAGCACTGA GCCCCTGAGT
GAGGACGACT TTGACATGTT CTATGAGACC TGGGAGAAGT TTGACCCAGA GGCCACTCAG
TTTATTACCT TTTCTGCTCT CTCGGACTTT GCAGACACTC TCTCTGGTCC CCTGAGAATC
CCAAAACCCA ATCGAAATAT ACTGATCCAG ATGGACCTGC CTTTGGTCCC TGGAGATAAG
ATCCACTGCT TGGACATCCT TTTTGCTTTC ACCAAGAATG TCCTAGGAGA ATCCGGGGAG
TTGGATTCTC TGAAGGCAAA TATGGAGGAG AAGTTTATGG CAACTAATCT TTCAAAATCA
TCCTATGAAC CAATAGCAAC CACTCTCCGA TGGAAGCAAG AAGACATTTC AGCCACTGTC
ATTCAAAAGG CCTATCGGAG CTATGTGCTG CACCGCTCCA TGGCACTCTC TAACACCCCA
TGTGTGCCCA GAGCTGAGGA GGAGGCTGCA TCACTCCCAG ATGAAGGTTT TGTTGCATTC
ACAGCAAATG AAAATTGTGT ACTCCCAGAC AAATCTGAAA CTGCTTCTGC CACATCATTC
CCACCGTCCT ATGAGAGTGT CACTAGAGGC CTTAGTGATA GAGTCAACAT GAGGACATCT
AGCTCAATAC AAAATGAAGA TGAAGCCACC AGTATGGAGC TGATTGCCCC TGGGCCCTAG

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

CloneID OHu60382
Clone ID Related Accession (Same CDS sequence) XM_011533993
Accession Version XM_011533993.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5877bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 10 subunit alpha isoform X2
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_022517.19) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCA TATCCTTTGT GGTTCAGTTT ATTTATTACG
GTCACTATTT TGGTTAATTG TGTGTGCATG ACCCGAACTG ACCTTCCAGA GAAAATTGAA
TATGTCTTCA CTGTCATTTA CACCTTTGAA GCCTTGATAA AGATACTGGC AAGAGGATTT
TGTCTAAATG AGTTCACGTA CCTGAGAGAT CCTTGGAACT GGCTGGATTT TAGCGTCATT
ACCCTGGCAT ATGTTGGCAC AGCAATAGAT CTCCGTGGGA TCTCAGGCCT GCGGACATTC
AGAGTTCTTA GAGCATTAAA AACAGTTTCT GTGATCCCAG GCCTGAAGGT CATTGTGGGG
GCCCTGATTC ACTCAGTGAA GAAACTGGCT GATGTGACCA TCCTCACCAT CTTCTGCCTA
AGTGTTTTTG CCTTGGTGGG GCTGCAACTC TTCAAGGGCA ACCTCAAAAA TAAATGTGTC
AAGAATGACA TGGCTGTCAA TGAGACAACC AACTACTCAT CTCACAGAAA ACCAGATATC
TACATAAATA AGCGAGGCAC TTCTGACCCC TTACTGTGTG GCAATGGATC TGACTCAGGC
CACTGCCCTG ATGGTTATAT CTGCCTTAAA ACTTCTGACA ACCCGGATTT TAACTACACC
AGCTTTGATT CCTTTGCTTG GGCTTTCCTC TCACTGTTCC GCCTCATGAC ACAGGATTCC
TGGGAACGCC TCTACCAGCA GACCCTGAGG ACTTCTGGGA AAATCTATAT GATCTTTTTT
GTGCTCGTAA TCTTCCTGGG ATCTTTCTAC CTGGTCAACT TGATCTTGGC TGTAGTCACC
ATGGCGTATG AGGAGCAGAA CCAGGCAACC ACTGATGAAA TTGAAGCAAA GGAGAAGAAG
TTCCAGGAGG CCCTCGAGAT GCTCCGGAAG GAGCAGGAGG TGCTAGCAGC ACTAGGGATT
GACACAACCT CTCTCCACTC CCACAATGGA TCACCTTTAA CCTCCAAAAA TGCCAGTGAG
AGAAGGCATA GAATAAAGCC AAGAGTGTCA GAGGGCTCCA CAGAAGACAA CAAATCACCC
CGCTCTGATC CTTACAACCA GCGCAGGATG TCTTTTCTAG GCCTCGCCTC TGGAAAACGC
CGGGCTAGTC ATGGCAGTGT GTTCCATTTC CGGTCCCCTG GCCGAGATAT CTCACTCCCT
GAGGGAGTCA CAGATGATGG AGTCTTTCCT GGAGACCACG AAAGCCATCG GGGCTCTCTG
CTGCTGGGTG GGGGTGCTGG CCAGCAAGGC CCCCTCCCTA GAAGCCCTCT TCCTCAACCC
AGCAACCCTG ACTCCAGGCA TGGAGAAGAT GAACACCAAC CGCCGCCCAC TAGTGAGCTT
GCCCCTGGAG CTGTCGATGT CTCGGCATTC GATGCAGGAC AAAAGAAGAC TTTCTTGTCA
GCAGAATACT TAGATGAACC TTTCCGGGCC CAAAGGGCAA TGAGTGTTGT CAGTATCATA
ACCTCCGTCC TTGAGGAACT CGAGGAGTCT GAACAGAAGT GCCCACCCTG CTTGACCAGC
TTGTCTCAGA AGTATCTGAT CTGGGATTGC TGCCCCATGT GGGTGAAGCT CAAGACAATT
CTCTTTGGGC TTGTGACGGA TCCCTTTGCA GAGCTCACCA TCACCTTGTG CATCGTGGTG
AACACCATCT TCATGGCCAT GGAGCACCAT GGCATGAGCC CTACCTTCGA AGCCATGCTC
CAGATAGGCA ACATCGTCTT TACCATATTT TTTACTGCTG AAATGGTCTT CAAAATCATT
GCCTTCGACC CATACTATTA TTTCCAGAAG AAGTGGAATA TCTTTGACTG CATCATCGTC
ACTGTGAGTC TGCTAGAGCT GGGCGTGGCC AAGAAGGGAA GCCTGTCTGT GCTGCGGAGC
TTCCGCTTGC TGCGCGTATT CAAGCTGGCC AAATCCTGGC CCACCTTAAA CACACTCATC
AAGATCATCG GAAACTCAGT GGGGGCACTG GGGAACCTCA CCATCATCCT GGCCATCATT
GTCTTTGTCT TTGCTCTGGT TGGCAAGCAG CTCCTAGGGG AAAACTACCG TAACAACCGA
AAAAATATCT CCGCGCCCCA TGAAGACTGG CCCCGCTGGC ACATGCACGA CTTCTTCCAC
TCTTTCCTCA TTGTCTTCCG TATCCTCTGT GGAGAGTGGA TTGAGAACAT GTGGGCCTGC
ATGGAAGTTG GCCAAAAATC CATATGCCTC ATCCTTTTCT TGACGGTGAT GGTGCTAGGG
AACCTGGTGG TGCTTAACCT GTTCATCGCC CTGCTATTGA ACTCTTTCAG TGCTGACAAC
CTCACAGCCC CGGAGGACGA TGGGGAGGTG AACAACCTGC AGGTGGCCCT GGCACGGATC
CAGGTCTTTG GCCATCGTAC CAAACAGGCT CTTTGCAGCT TCTTCAGCAG GTCCTGCCCA
TTCCCCCAGC CCAAGGCAGA GCCTGAGCTG GTGGTGAAAC TCCCACTCTC CAGCTCCAAG
GCTGAGAACC ACATTGCTGC CAACACTGCC AGGGGGAGCT CTGGAGGGCT CCAAGCTCCC
AGAGGCCCCA GGGATGAGCA CAGTGACTTC ATCGCTAATC CGACTGTGTG GGTCTCTGTG
CCCATTGCTG AGGGTGAATC TGATCTTGAT GACTTGGAGG ATGATGGTGG GGAAGATGCT
CAGAGCTTCC AGCAGGAAGT GATCCCCAAA GGACAGGAGC AGCTGCAGCA AGTCGAGAGG
TGTGGGGACC ACCTGACACC CAGGAGCCCA GGCACTGGAA CATCTTCTGA GGACCTGGCT
CCATCCCTGG GTGAGACGTG GAAAGATGAG TCTGTTCCTC AGGTCCCTGC TGAGGGAGTG
GACGACACAA GCTCCTCTGA GGGCAGCACG GTGGACTGCC TAGATCCTGA GGAAATCCTG
AGGAAGATCC CTGAGCTGGC AGATGACCTG GAAGAACCAG ATGACTGCTT CACAGAAGGA
TGCATTCGCC ACTGTCCCTG CTGCAAACTG GATACCACCA AGAGTCCATG GGATGTGGGC
TGGCAGGTGC GCAAGACTTG CTACCGTATC GTGGAGCACA GCTGGTTTGA GAGCTTCATC
ATCTTCATGA TCCTGCTCAG CAGTGGATCT CTGGCCTTTG AAGACTATTA CCTGGACCAG
AAGCCCACGG TGAAAGCTTT GCTGGAGTAC ACTGACAGGG TCTTCACCTT TATCTTTGTG
TTCGAGATGC TGCTTAAGTG GGTGGCCTAT GGCTTCAAAA AGTACTTCAC CAATGCCTGG
TGCTGGCTGG ACTTCCTCAT TGTGAATATC TCACTGATAA GTCTCACAGC GAAGATTCTG
GAATATTCTG AAGTGGCTCC CATCAAAGCC CTTCGAACCC TTCGCGCTCT GCGGCCACTG
CGGGCTCTTT CTCGATTTGA AGGCATGCGG GTGGTGGTGG ATGCCCTGGT GGGCGCCATC
CCATCCATCA TGAATGTCCT CCTCGTCTGC CTCATCTTCT GGCTCATCTT CAGCATCATG
GGTGTGAACC TCTTCGCAGG GAAGTTTTGG AGGTGCATCA ACTATACCGA TGGAGAGTTT
TCCCTTGTAC CTTTGTCGAT TGTGAATAAC AAGTCTGACT GCAAGATTCA AAACTCCACT
GGCAGCTTCT TCTGGGTCAA TGTGAAAGTC AACTTTGATA ATGTTGCAAT GGGTTACCTT
GCACTTCTGC AGGTGGCAAC CTTTAAAGGC TGGATGGACA TTATGTATGC AGCTGTTGAT
TCCCGGGAGG TCAACATGCA ACCCAAGTGG GAGGACAACG TGTACATGTA TTTGTACTTT
GTCATCTTCA TCATTTTTGG AGGCTTCTTC ACACTGAATC TCTTTGTTGG GGTCATAATT
GACAACTTCA ATCAACAGAA AAAAAAGTTA GGGGGCCAGG ACATCTTCAT GACAGAGGAG
CAGAAGAAAT ACTACAATGC CATGAAGAAG TTGGGCTCCA AGAAGCCCCA GAAGCCCATC
CCACGGCCCC TGAACAAGTT CCAGGGTTTT GTCTTTGACA TCGTGACCAG ACAAGCTTTT
GACATCACCA TCATGGTCCT CATCTGCCTC AACATGATCA CCATGATGGT GGAGACTGAT
GACCAAAGTG AAGAAAAGAC GAAAATTCTG GGCAAAATCA ACCAGTTCTT TGTGGCCGTC
TTCACAGGCG AATGTGTCAT GAAGATGTTC GCTTTGAGGC AGTACTACTT CACAAATGGC
TGGAATGTGT TTGACTTCAT TGTGGTGGTT CTCTCCATTG CGAGCCTGAT TTTTTCTGCA
ATTCTTAAGT CACTTCAAAG TTACTTCTCC CCAACGCTCT TCAGAGTCAT CCGCCTGGCC
CGAATTGGCC GCATCCTCAG ACTGATCCGA GCGGCCAAGG GGATCCGCAC ACTGCTCTTT
GCCCTCATGA TGTCCCTGCC TGCCCTCTTC AACATCGGGC TGTTGCTATT CCTTGTCATG
TTCATCTACT CTATCTTCGG TATGTCCAGC TTTCCCCATG TGAGGTGGGA GGCTGGCATC
GACGACATGT TCAACTTCCA GACCTTCGCC AACAGCATGC TGTGCCTCTT CCAGATTACC
ACGTCGGCCG GCTGGGATGG CCTCCTCAGC CCCATCCTCA ACACAGGGCC CCCCTACTGT
GACCCCAATC TGCCCAACAG CAATGGCACC AGAGGGGACT GTGGGAGCCC AGCCGTAGGC
ATCATCTTCT TCACCACCTA CATCATCATC TCCTTCCTCA TCATGGTCAA CATGTACATT
GCAGTGATTC TGGAGAACTT CAATGTGGCC ACGGAGGAGA GCACTGAGCC CCTGAGTGAG
GACGACTTTG ACATGTTCTA TGAGACCTGG GAGAAGTTTG ACCCAGAGGC CACTCAGTTT
ATTACCTTTT CTGCTCTCTC GGACTTTGCA GACACTCTCT CTGGTCCCCT GAGAATCCCA
AAACCCAATC GAAATATACT GATCCAGATG GACCTGCCTT TGGTCCCTGG AGATAAGATC
CACTGCTTGG ACATCCTTTT TGCTTTCACC AAGAATGTCC TAGGAGAATC CGGGGAGTTG
GATTCTCTGA AGGCAAATAT GGAGGAGAAG TTTATGGCAA CTAATCTTTC AAAATCATCC
TATGAACCAA TAGCAACCAC TCTCCGATGG AAGCAAGAAG ACATTTCAGC CACTGTCATT
CAAAAGGCCT ATCGGAGCTA TGTGCTGCAC CGCTCCATGG CACTCTCTAA CACCCCATGT
GTGCCCAGAG CTGAGGAGGA GGCTGCATCA CTCCCAGATG AAGGTTTTGT TGCATTCACA
GCAAATGAAA ATTGTGTACT CCCAGACAAA TCTGAAACTG CTTCTGCCAC ATCATTCCCA
CCGTCCTATG AGAGTGTCAC TAGAGGCCTT AGTGATAGAG TCAACATGAG GACATCTAGC
TCAATACAAA ATGAAGATGA AGCCACCAGT ATGGAGCTGA TTGCCCCTGG GCCCTAG

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

RefSeq XP_011532295.1
CDS1..5877
Misc Feature(1)475..1197(+)
Misc Feature(2)1351..>1608(+)
Misc Feature(3)2104..2676(+)
Misc Feature(4)2719..3492(+)
Misc Feature(5)3568..4257(+)
Misc Feature(6)4261..4419(+)
Misc Feature(7)4303..4314(+)
Misc Feature(8)4357..4359(+)
Misc Feature(9)4537..5040(+)
Translation

Target ORF information:

RefSeq Version XM_011533993
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant X2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011533993

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
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCA TATCCTTTGT GGTTCAGTTT ATTTATTACG
GTCACTATTT TGGTTAATTG TGTGTGCATG ACCCGAACTG ACCTTCCAGA GAAAATTGAA
TATGTCTTCA CTGTCATTTA CACCTTTGAA GCCTTGATAA AGATACTGGC AAGAGGATTT
TGTCTAAATG AGTTCACGTA CCTGAGAGAT CCTTGGAACT GGCTGGATTT TAGCGTCATT
ACCCTGGCAT ATGTTGGCAC AGCAATAGAT CTCCGTGGGA TCTCAGGCCT GCGGACATTC
AGAGTTCTTA GAGCATTAAA AACAGTTTCT GTGATCCCAG GCCTGAAGGT CATTGTGGGG
GCCCTGATTC ACTCAGTGAA GAAACTGGCT GATGTGACCA TCCTCACCAT CTTCTGCCTA
AGTGTTTTTG CCTTGGTGGG GCTGCAACTC TTCAAGGGCA ACCTCAAAAA TAAATGTGTC
AAGAATGACA TGGCTGTCAA TGAGACAACC AACTACTCAT CTCACAGAAA ACCAGATATC
TACATAAATA AGCGAGGCAC TTCTGACCCC TTACTGTGTG GCAATGGATC TGACTCAGGC
CACTGCCCTG ATGGTTATAT CTGCCTTAAA ACTTCTGACA ACCCGGATTT TAACTACACC
AGCTTTGATT CCTTTGCTTG GGCTTTCCTC TCACTGTTCC GCCTCATGAC ACAGGATTCC
TGGGAACGCC TCTACCAGCA GACCCTGAGG ACTTCTGGGA AAATCTATAT GATCTTTTTT
GTGCTCGTAA TCTTCCTGGG ATCTTTCTAC CTGGTCAACT TGATCTTGGC TGTAGTCACC
ATGGCGTATG AGGAGCAGAA CCAGGCAACC ACTGATGAAA TTGAAGCAAA GGAGAAGAAG
TTCCAGGAGG CCCTCGAGAT GCTCCGGAAG GAGCAGGAGG TGCTAGCAGC ACTAGGGATT
GACACAACCT CTCTCCACTC CCACAATGGA TCACCTTTAA CCTCCAAAAA TGCCAGTGAG
AGAAGGCATA GAATAAAGCC AAGAGTGTCA GAGGGCTCCA CAGAAGACAA CAAATCACCC
CGCTCTGATC CTTACAACCA GCGCAGGATG TCTTTTCTAG GCCTCGCCTC TGGAAAACGC
CGGGCTAGTC ATGGCAGTGT GTTCCATTTC CGGTCCCCTG GCCGAGATAT CTCACTCCCT
GAGGGAGTCA CAGATGATGG AGTCTTTCCT GGAGACCACG AAAGCCATCG GGGCTCTCTG
CTGCTGGGTG GGGGTGCTGG CCAGCAAGGC CCCCTCCCTA GAAGCCCTCT TCCTCAACCC
AGCAACCCTG ACTCCAGGCA TGGAGAAGAT GAACACCAAC CGCCGCCCAC TAGTGAGCTT
GCCCCTGGAG CTGTCGATGT CTCGGCATTC GATGCAGGAC AAAAGAAGAC TTTCTTGTCA
GCAGAATACT TAGATGAACC TTTCCGGGCC CAAAGGGCAA TGAGTGTTGT CAGTATCATA
ACCTCCGTCC TTGAGGAACT CGAGGAGTCT GAACAGAAGT GCCCACCCTG CTTGACCAGC
TTGTCTCAGA AGTATCTGAT CTGGGATTGC TGCCCCATGT GGGTGAAGCT CAAGACAATT
CTCTTTGGGC TTGTGACGGA TCCCTTTGCA GAGCTCACCA TCACCTTGTG CATCGTGGTG
AACACCATCT TCATGGCCAT GGAGCACCAT GGCATGAGCC CTACCTTCGA AGCCATGCTC
CAGATAGGCA ACATCGTCTT TACCATATTT TTTACTGCTG AAATGGTCTT CAAAATCATT
GCCTTCGACC CATACTATTA TTTCCAGAAG AAGTGGAATA TCTTTGACTG CATCATCGTC
ACTGTGAGTC TGCTAGAGCT GGGCGTGGCC AAGAAGGGAA GCCTGTCTGT GCTGCGGAGC
TTCCGCTTGC TGCGCGTATT CAAGCTGGCC AAATCCTGGC CCACCTTAAA CACACTCATC
AAGATCATCG GAAACTCAGT GGGGGCACTG GGGAACCTCA CCATCATCCT GGCCATCATT
GTCTTTGTCT TTGCTCTGGT TGGCAAGCAG CTCCTAGGGG AAAACTACCG TAACAACCGA
AAAAATATCT CCGCGCCCCA TGAAGACTGG CCCCGCTGGC ACATGCACGA CTTCTTCCAC
TCTTTCCTCA TTGTCTTCCG TATCCTCTGT GGAGAGTGGA TTGAGAACAT GTGGGCCTGC
ATGGAAGTTG GCCAAAAATC CATATGCCTC ATCCTTTTCT TGACGGTGAT GGTGCTAGGG
AACCTGGTGG TGCTTAACCT GTTCATCGCC CTGCTATTGA ACTCTTTCAG TGCTGACAAC
CTCACAGCCC CGGAGGACGA TGGGGAGGTG AACAACCTGC AGGTGGCCCT GGCACGGATC
CAGGTCTTTG GCCATCGTAC CAAACAGGCT CTTTGCAGCT TCTTCAGCAG GTCCTGCCCA
TTCCCCCAGC CCAAGGCAGA GCCTGAGCTG GTGGTGAAAC TCCCACTCTC CAGCTCCAAG
GCTGAGAACC ACATTGCTGC CAACACTGCC AGGGGGAGCT CTGGAGGGCT CCAAGCTCCC
AGAGGCCCCA GGGATGAGCA CAGTGACTTC ATCGCTAATC CGACTGTGTG GGTCTCTGTG
CCCATTGCTG AGGGTGAATC TGATCTTGAT GACTTGGAGG ATGATGGTGG GGAAGATGCT
CAGAGCTTCC AGCAGGAAGT GATCCCCAAA GGACAGGAGC AGCTGCAGCA AGTCGAGAGG
TGTGGGGACC ACCTGACACC CAGGAGCCCA GGCACTGGAA CATCTTCTGA GGACCTGGCT
CCATCCCTGG GTGAGACGTG GAAAGATGAG TCTGTTCCTC AGGTCCCTGC TGAGGGAGTG
GACGACACAA GCTCCTCTGA GGGCAGCACG GTGGACTGCC TAGATCCTGA GGAAATCCTG
AGGAAGATCC CTGAGCTGGC AGATGACCTG GAAGAACCAG ATGACTGCTT CACAGAAGGA
TGCATTCGCC ACTGTCCCTG CTGCAAACTG GATACCACCA AGAGTCCATG GGATGTGGGC
TGGCAGGTGC GCAAGACTTG CTACCGTATC GTGGAGCACA GCTGGTTTGA GAGCTTCATC
ATCTTCATGA TCCTGCTCAG CAGTGGATCT CTGGCCTTTG AAGACTATTA CCTGGACCAG
AAGCCCACGG TGAAAGCTTT GCTGGAGTAC ACTGACAGGG TCTTCACCTT TATCTTTGTG
TTCGAGATGC TGCTTAAGTG GGTGGCCTAT GGCTTCAAAA AGTACTTCAC CAATGCCTGG
TGCTGGCTGG ACTTCCTCAT TGTGAATATC TCACTGATAA GTCTCACAGC GAAGATTCTG
GAATATTCTG AAGTGGCTCC CATCAAAGCC CTTCGAACCC TTCGCGCTCT GCGGCCACTG
CGGGCTCTTT CTCGATTTGA AGGCATGCGG GTGGTGGTGG ATGCCCTGGT GGGCGCCATC
CCATCCATCA TGAATGTCCT CCTCGTCTGC CTCATCTTCT GGCTCATCTT CAGCATCATG
GGTGTGAACC TCTTCGCAGG GAAGTTTTGG AGGTGCATCA ACTATACCGA TGGAGAGTTT
TCCCTTGTAC CTTTGTCGAT TGTGAATAAC AAGTCTGACT GCAAGATTCA AAACTCCACT
GGCAGCTTCT TCTGGGTCAA TGTGAAAGTC AACTTTGATA ATGTTGCAAT GGGTTACCTT
GCACTTCTGC AGGTGGCAAC CTTTAAAGGC TGGATGGACA TTATGTATGC AGCTGTTGAT
TCCCGGGAGG TCAACATGCA ACCCAAGTGG GAGGACAACG TGTACATGTA TTTGTACTTT
GTCATCTTCA TCATTTTTGG AGGCTTCTTC ACACTGAATC TCTTTGTTGG GGTCATAATT
GACAACTTCA ATCAACAGAA AAAAAAGTTA GGGGGCCAGG ACATCTTCAT GACAGAGGAG
CAGAAGAAAT ACTACAATGC CATGAAGAAG TTGGGCTCCA AGAAGCCCCA GAAGCCCATC
CCACGGCCCC TGAACAAGTT CCAGGGTTTT GTCTTTGACA TCGTGACCAG ACAAGCTTTT
GACATCACCA TCATGGTCCT CATCTGCCTC AACATGATCA CCATGATGGT GGAGACTGAT
GACCAAAGTG AAGAAAAGAC GAAAATTCTG GGCAAAATCA ACCAGTTCTT TGTGGCCGTC
TTCACAGGCG AATGTGTCAT GAAGATGTTC GCTTTGAGGC AGTACTACTT CACAAATGGC
TGGAATGTGT TTGACTTCAT TGTGGTGGTT CTCTCCATTG CGAGCCTGAT TTTTTCTGCA
ATTCTTAAGT CACTTCAAAG TTACTTCTCC CCAACGCTCT TCAGAGTCAT CCGCCTGGCC
CGAATTGGCC GCATCCTCAG ACTGATCCGA GCGGCCAAGG GGATCCGCAC ACTGCTCTTT
GCCCTCATGA TGTCCCTGCC TGCCCTCTTC AACATCGGGC TGTTGCTATT CCTTGTCATG
TTCATCTACT CTATCTTCGG TATGTCCAGC TTTCCCCATG TGAGGTGGGA GGCTGGCATC
GACGACATGT TCAACTTCCA GACCTTCGCC AACAGCATGC TGTGCCTCTT CCAGATTACC
ACGTCGGCCG GCTGGGATGG CCTCCTCAGC CCCATCCTCA ACACAGGGCC CCCCTACTGT
GACCCCAATC TGCCCAACAG CAATGGCACC AGAGGGGACT GTGGGAGCCC AGCCGTAGGC
ATCATCTTCT TCACCACCTA CATCATCATC TCCTTCCTCA TCATGGTCAA CATGTACATT
GCAGTGATTC TGGAGAACTT CAATGTGGCC ACGGAGGAGA GCACTGAGCC CCTGAGTGAG
GACGACTTTG ACATGTTCTA TGAGACCTGG GAGAAGTTTG ACCCAGAGGC CACTCAGTTT
ATTACCTTTT CTGCTCTCTC GGACTTTGCA GACACTCTCT CTGGTCCCCT GAGAATCCCA
AAACCCAATC GAAATATACT GATCCAGATG GACCTGCCTT TGGTCCCTGG AGATAAGATC
CACTGCTTGG ACATCCTTTT TGCTTTCACC AAGAATGTCC TAGGAGAATC CGGGGAGTTG
GATTCTCTGA AGGCAAATAT GGAGGAGAAG TTTATGGCAA CTAATCTTTC AAAATCATCC
TATGAACCAA TAGCAACCAC TCTCCGATGG AAGCAAGAAG ACATTTCAGC CACTGTCATT
CAAAAGGCCT ATCGGAGCTA TGTGCTGCAC CGCTCCATGG CACTCTCTAA CACCCCATGT
GTGCCCAGAG CTGAGGAGGA GGCTGCATCA CTCCCAGATG AAGGTTTTGT TGCATTCACA
GCAAATGAAA ATTGTGTACT CCCAGACAAA TCTGAAACTG CTTCTGCCAC ATCATTCCCA
CCGTCCTATG AGAGTGTCAC TAGAGGCCTT AGTGATAGAG TCAACATGAG GACATCTAGC
TCAATACAAA ATGAAGATGA AGCCACCAGT ATGGAGCTGA TTGCCCCTGG GCCCTAG

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

CloneID OHu60383
Clone ID Related Accession (Same CDS sequence) XM_011533994
Accession Version XM_011533994.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5586bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 10 subunit alpha isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_022517.19) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCA TATCCTTTGT GGTTCAGTTT ATTTATTACG
GTCACTATTT TGGTTAATTG TGTGTGCATG ACCCGAACTG ACCTTCCAGA GAAAATTGAA
TATGTCTTCA CTGTCATTTA CACCTTTGAA GCCTTGATAA AGATACTGGC AAGAGGATTT
TGTCTAAATG AGTTCACGTA CCTGAGAGAT CCTTGGAACT GGCTGGATTT TAGCGTCATT
ACCCTGGCAT ATGTTGGCAC AGCAATAGAT CTCCGTGGGA TCTCAGGCCT GCGGACATTC
AGAGTTCTTA GAGCATTAAA AACAGTTTCT GTGATCCCAG GCCTGAAGGT CATTGTGGGG
GCCCTGATTC ACTCAGTGAA GAAACTGGCT GATGTGACCA TCCTCACCAT CTTCTGCCTA
AGTGTTTTTG CCTTGGTGGG GCTGCAACTC TTCAAGGGCA ACCTCAAAAA TAAATGTGTC
AAGAATGACA TGGCTGTCAA TGAGACAACC AACTACTCAT CTCACAGAAA ACCAGATATC
TACATAAATA AGCGAGGCAC TTCTGACCCC TTACTGTGTG GCAATGGATC TGACTCAGGC
CACTGCCCTG ATGGTTATAT CTGCCTTAAA ACTTCTGACA ACCCGGATTT TAACTACACC
AGCTTTGATT CCTTTGCTTG GGCTTTCCTC TCACTGTTCC GCCTCATGAC ACAGGATTCC
TGGGAACGCC TCTACCAGCA GACCCTGAGG ACTTCTGGGA AAATCTATAT GATCTTTTTT
GTGCTCGTAA TCTTCCTGGG ATCTTTCTAC CTGGTCAACT TGATCTTGGC TGTAGTCACC
ATGGCGTATG AGGAGCAGAA CCAGGCAACC ACTGATGAAA TTGAAGCAAA GGAGAAGAAG
TTCCAGGAGG CCCTCGAGAT GCTCCGGAAG GAGCAGGAGG TGCTAGCAGC ACTAGGGATT
GACACAACCT CTCTCCACTC CCACAATGGA TCACCTTTAA CCTCCAAAAA TGCCAGTGAG
AGAAGGCATA GAATAAAGCC AAGAGTGTCA GAGGGCTCCA CAGAAGACAA CAAATCACCC
CGCTCTGATC CTTACAACCA GCGCAGGATG GCATTCGATG CAGGACAAAA GAAGACTTTC
TTGTCAGCAG AATACTTAGA TGAACCTTTC CGGGCCCAAA GGGCAATGAG TGTTGTCAGT
ATCATAACCT CCGTCCTTGA GGAACTCGAG GAGTCTGAAC AGAAGTGCCC ACCCTGCTTG
ACCAGCTTGT CTCAGAAGTA TCTGATCTGG GATTGCTGCC CCATGTGGGT GAAGCTCAAG
ACAATTCTCT TTGGGCTTGT GACGGATCCC TTTGCAGAGC TCACCATCAC CTTGTGCATC
GTGGTGAACA CCATCTTCAT GGCCATGGAG CACCATGGCA TGAGCCCTAC CTTCGAAGCC
ATGCTCCAGA TAGGCAACAT CGTCTTTACC ATATTTTTTA CTGCTGAAAT GGTCTTCAAA
ATCATTGCCT TCGACCCATA CTATTATTTC CAGAAGAAGT GGAATATCTT TGACTGCATC
ATCGTCACTG TGAGTCTGCT AGAGCTGGGC GTGGCCAAGA AGGGAAGCCT GTCTGTGCTG
CGGAGCTTCC GCTTGCTGCG CGTATTCAAG CTGGCCAAAT CCTGGCCCAC CTTAAACACA
CTCATCAAGA TCATCGGAAA CTCAGTGGGG GCACTGGGGA ACCTCACCAT CATCCTGGCC
ATCATTGTCT TTGTCTTTGC TCTGGTTGGC AAGCAGCTCC TAGGGGAAAA CTACCGTAAC
AACCGAAAAA ATATCTCCGC GCCCCATGAA GACTGGCCCC GCTGGCACAT GCACGACTTC
TTCCACTCTT TCCTCATTGT CTTCCGTATC CTCTGTGGAG AGTGGATTGA GAACATGTGG
GCCTGCATGG AAGTTGGCCA AAAATCCATA TGCCTCATCC TTTTCTTGAC GGTGATGGTG
CTAGGGAACC TGGTGGTGCT TAACCTGTTC ATCGCCCTGC TATTGAACTC TTTCAGTGCT
GACAACCTCA CAGCCCCGGA GGACGATGGG GAGGTGAACA ACCTGCAGGT GGCCCTGGCA
CGGATCCAGG TCTTTGGCCA TCGTACCAAA CAGGCTCTTT GCAGCTTCTT CAGCAGGTCC
TGCCCATTCC CCCAGCCCAA GGCAGAGCCT GAGCTGGTGG TGAAACTCCC ACTCTCCAGC
TCCAAGGCTG AGAACCACAT TGCTGCCAAC ACTGCCAGGG GGAGCTCTGG AGGGCTCCAA
GCTCCCAGAG GCCCCAGGGA TGAGCACAGT GACTTCATCG CTAATCCGAC TGTGTGGGTC
TCTGTGCCCA TTGCTGAGGG TGAATCTGAT CTTGATGACT TGGAGGATGA TGGTGGGGAA
GATGCTCAGA GCTTCCAGCA GGAAGTGATC CCCAAAGGAC AGCAGGAGCA GCTGCAGCAA
GTCGAGAGGT GTGGGGACCA CCTGACACCC AGGAGCCCAG GCACTGGAAC ATCTTCTGAG
GACCTGGCTC CATCCCTGGG TGAGACGTGG AAAGATGAGT CTGTTCCTCA GGTCCCTGCT
GAGGGAGTGG ACGACACAAG CTCCTCTGAG GGCAGCACGG TGGACTGCCT AGATCCTGAG
GAAATCCTGA GGAAGATCCC TGAGCTGGCA GATGACCTGG AAGAACCAGA TGACTGCTTC
ACAGAAGGAT GCATTCGCCA CTGTCCCTGC TGCAAACTGG ATACCACCAA GAGTCCATGG
GATGTGGGCT GGCAGGTGCG CAAGACTTGC TACCGTATCG TGGAGCACAG CTGGTTTGAG
AGCTTCATCA TCTTCATGAT CCTGCTCAGC AGTGGATCTC TGGCCTTTGA AGACTATTAC
CTGGACCAGA AGCCCACGGT GAAAGCTTTG CTGGAGTACA CTGACAGGGT CTTCACCTTT
ATCTTTGTGT TCGAGATGCT GCTTAAGTGG GTGGCCTATG GCTTCAAAAA GTACTTCACC
AATGCCTGGT GCTGGCTGGA CTTCCTCATT GTGAATATCT CACTGATAAG TCTCACAGCG
AAGATTCTGG AATATTCTGA AGTGGCTCCC ATCAAAGCCC TTCGAACCCT TCGCGCTCTG
CGGCCACTGC GGGCTCTTTC TCGATTTGAA GGCATGCGGG TGGTGGTGGA TGCCCTGGTG
GGCGCCATCC CATCCATCAT GAATGTCCTC CTCGTCTGCC TCATCTTCTG GCTCATCTTC
AGCATCATGG GTGTGAACCT CTTCGCAGGG AAGTTTTGGA GGTGCATCAA CTATACCGAT
GGAGAGTTTT CCCTTGTACC TTTGTCGATT GTGAATAACA AGTCTGACTG CAAGATTCAA
AACTCCACTG GCAGCTTCTT CTGGGTCAAT GTGAAAGTCA ACTTTGATAA TGTTGCAATG
GGTTACCTTG CACTTCTGCA GGTGGCAACC TTTAAAGGCT GGATGGACAT TATGTATGCA
GCTGTTGATT CCCGGGAGGT CAACATGCAA CCCAAGTGGG AGGACAACGT GTACATGTAT
TTGTACTTTG TCATCTTCAT CATTTTTGGA GGCTTCTTCA CACTGAATCT CTTTGTTGGG
GTCATAATTG ACAACTTCAA TCAACAGAAA AAAAAGTTAG GGGGCCAGGA CATCTTCATG
ACAGAGGAGC AGAAGAAATA CTACAATGCC ATGAAGAAGT TGGGCTCCAA GAAGCCCCAG
AAGCCCATCC CACGGCCCCT GAACAAGTTC CAGGGTTTTG TCTTTGACAT CGTGACCAGA
CAAGCTTTTG ACATCACCAT CATGGTCCTC ATCTGCCTCA ACATGATCAC CATGATGGTG
GAGACTGATG ACCAAAGTGA AGAAAAGACG AAAATTCTGG GCAAAATCAA CCAGTTCTTT
GTGGCCGTCT TCACAGGCGA ATGTGTCATG AAGATGTTCG CTTTGAGGCA GTACTACTTC
ACAAATGGCT GGAATGTGTT TGACTTCATT GTGGTGGTTC TCTCCATTGC GAGCCTGATT
TTTTCTGCAA TTCTTAAGTC ACTTCAAAGT TACTTCTCCC CAACGCTCTT CAGAGTCATC
CGCCTGGCCC GAATTGGCCG CATCCTCAGA CTGATCCGAG CGGCCAAGGG GATCCGCACA
CTGCTCTTTG CCCTCATGAT GTCCCTGCCT GCCCTCTTCA ACATCGGGCT GTTGCTATTC
CTTGTCATGT TCATCTACTC TATCTTCGGT ATGTCCAGCT TTCCCCATGT GAGGTGGGAG
GCTGGCATCG ACGACATGTT CAACTTCCAG ACCTTCGCCA ACAGCATGCT GTGCCTCTTC
CAGATTACCA CGTCGGCCGG CTGGGATGGC CTCCTCAGCC CCATCCTCAA CACAGGGCCC
CCCTACTGTG ACCCCAATCT GCCCAACAGC AATGGCACCA GAGGGGACTG TGGGAGCCCA
GCCGTAGGCA TCATCTTCTT CACCACCTAC ATCATCATCT CCTTCCTCAT CATGGTCAAC
ATGTACATTG CAGTGATTCT GGAGAACTTC AATGTGGCCA CGGAGGAGAG CACTGAGCCC
CTGAGTGAGG ACGACTTTGA CATGTTCTAT GAGACCTGGG AGAAGTTTGA CCCAGAGGCC
ACTCAGTTTA TTACCTTTTC TGCTCTCTCG GACTTTGCAG ACACTCTCTC TGGTCCCCTG
AGAATCCCAA AACCCAATCG AAATATACTG ATCCAGATGG ACCTGCCTTT GGTCCCTGGA
GATAAGATCC ACTGCTTGGA CATCCTTTTT GCTTTCACCA AGAATGTCCT AGGAGAATCC
GGGGAGTTGG ATTCTCTGAA GGCAAATATG GAGGAGAAGT TTATGGCAAC TAATCTTTCA
AAATCATCCT ATGAACCAAT AGCAACCACT CTCCGATGGA AGCAAGAAGA CATTTCAGCC
ACTGTCATTC AAAAGGCCTA TCGGAGCTAT GTGCTGCACC GCTCCATGGC ACTCTCTAAC
ACCCCATGTG TGCCCAGAGC TGAGGAGGAG GCTGCATCAC TCCCAGATGA AGGTTTTGTT
GCATTCACAG CAAATGAAAA TTGTGTACTC CCAGACAAAT CTGAAACTGC TTCTGCCACA
TCATTCCCAC CGTCCTATGA GAGTGTCACT AGAGGCCTTA GTGATAGAGT CAACATGAGG
ACATCTAGCT CAATACAAAA TGAAGATGAA GCCACCAGTA TGGAGCTGAT TGCCCCTGGG
CCCTAG

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

RefSeq XP_011532296.1
CDS1..5586
Misc Feature(1)475..1197(+)
Misc Feature(2)1810..2382(+)
Misc Feature(3)2425..3201(+)
Misc Feature(4)3277..3966(+)
Misc Feature(5)3970..4128(+)
Misc Feature(6)4012..4023(+)
Misc Feature(7)4066..4068(+)
Misc Feature(8)4246..4749(+)
Translation

Target ORF information:

RefSeq Version XM_011533994
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011533994

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
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCA TATCCTTTGT GGTTCAGTTT ATTTATTACG
GTCACTATTT TGGTTAATTG TGTGTGCATG ACCCGAACTG ACCTTCCAGA GAAAATTGAA
TATGTCTTCA CTGTCATTTA CACCTTTGAA GCCTTGATAA AGATACTGGC AAGAGGATTT
TGTCTAAATG AGTTCACGTA CCTGAGAGAT CCTTGGAACT GGCTGGATTT TAGCGTCATT
ACCCTGGCAT ATGTTGGCAC AGCAATAGAT CTCCGTGGGA TCTCAGGCCT GCGGACATTC
AGAGTTCTTA GAGCATTAAA AACAGTTTCT GTGATCCCAG GCCTGAAGGT CATTGTGGGG
GCCCTGATTC ACTCAGTGAA GAAACTGGCT GATGTGACCA TCCTCACCAT CTTCTGCCTA
AGTGTTTTTG CCTTGGTGGG GCTGCAACTC TTCAAGGGCA ACCTCAAAAA TAAATGTGTC
AAGAATGACA TGGCTGTCAA TGAGACAACC AACTACTCAT CTCACAGAAA ACCAGATATC
TACATAAATA AGCGAGGCAC TTCTGACCCC TTACTGTGTG GCAATGGATC TGACTCAGGC
CACTGCCCTG ATGGTTATAT CTGCCTTAAA ACTTCTGACA ACCCGGATTT TAACTACACC
AGCTTTGATT CCTTTGCTTG GGCTTTCCTC TCACTGTTCC GCCTCATGAC ACAGGATTCC
TGGGAACGCC TCTACCAGCA GACCCTGAGG ACTTCTGGGA AAATCTATAT GATCTTTTTT
GTGCTCGTAA TCTTCCTGGG ATCTTTCTAC CTGGTCAACT TGATCTTGGC TGTAGTCACC
ATGGCGTATG AGGAGCAGAA CCAGGCAACC ACTGATGAAA TTGAAGCAAA GGAGAAGAAG
TTCCAGGAGG CCCTCGAGAT GCTCCGGAAG GAGCAGGAGG TGCTAGCAGC ACTAGGGATT
GACACAACCT CTCTCCACTC CCACAATGGA TCACCTTTAA CCTCCAAAAA TGCCAGTGAG
AGAAGGCATA GAATAAAGCC AAGAGTGTCA GAGGGCTCCA CAGAAGACAA CAAATCACCC
CGCTCTGATC CTTACAACCA GCGCAGGATG GCATTCGATG CAGGACAAAA GAAGACTTTC
TTGTCAGCAG AATACTTAGA TGAACCTTTC CGGGCCCAAA GGGCAATGAG TGTTGTCAGT
ATCATAACCT CCGTCCTTGA GGAACTCGAG GAGTCTGAAC AGAAGTGCCC ACCCTGCTTG
ACCAGCTTGT CTCAGAAGTA TCTGATCTGG GATTGCTGCC CCATGTGGGT GAAGCTCAAG
ACAATTCTCT TTGGGCTTGT GACGGATCCC TTTGCAGAGC TCACCATCAC CTTGTGCATC
GTGGTGAACA CCATCTTCAT GGCCATGGAG CACCATGGCA TGAGCCCTAC CTTCGAAGCC
ATGCTCCAGA TAGGCAACAT CGTCTTTACC ATATTTTTTA CTGCTGAAAT GGTCTTCAAA
ATCATTGCCT TCGACCCATA CTATTATTTC CAGAAGAAGT GGAATATCTT TGACTGCATC
ATCGTCACTG TGAGTCTGCT AGAGCTGGGC GTGGCCAAGA AGGGAAGCCT GTCTGTGCTG
CGGAGCTTCC GCTTGCTGCG CGTATTCAAG CTGGCCAAAT CCTGGCCCAC CTTAAACACA
CTCATCAAGA TCATCGGAAA CTCAGTGGGG GCACTGGGGA ACCTCACCAT CATCCTGGCC
ATCATTGTCT TTGTCTTTGC TCTGGTTGGC AAGCAGCTCC TAGGGGAAAA CTACCGTAAC
AACCGAAAAA ATATCTCCGC GCCCCATGAA GACTGGCCCC GCTGGCACAT GCACGACTTC
TTCCACTCTT TCCTCATTGT CTTCCGTATC CTCTGTGGAG AGTGGATTGA GAACATGTGG
GCCTGCATGG AAGTTGGCCA AAAATCCATA TGCCTCATCC TTTTCTTGAC GGTGATGGTG
CTAGGGAACC TGGTGGTGCT TAACCTGTTC ATCGCCCTGC TATTGAACTC TTTCAGTGCT
GACAACCTCA CAGCCCCGGA GGACGATGGG GAGGTGAACA ACCTGCAGGT GGCCCTGGCA
CGGATCCAGG TCTTTGGCCA TCGTACCAAA CAGGCTCTTT GCAGCTTCTT CAGCAGGTCC
TGCCCATTCC CCCAGCCCAA GGCAGAGCCT GAGCTGGTGG TGAAACTCCC ACTCTCCAGC
TCCAAGGCTG AGAACCACAT TGCTGCCAAC ACTGCCAGGG GGAGCTCTGG AGGGCTCCAA
GCTCCCAGAG GCCCCAGGGA TGAGCACAGT GACTTCATCG CTAATCCGAC TGTGTGGGTC
TCTGTGCCCA TTGCTGAGGG TGAATCTGAT CTTGATGACT TGGAGGATGA TGGTGGGGAA
GATGCTCAGA GCTTCCAGCA GGAAGTGATC CCCAAAGGAC AGCAGGAGCA GCTGCAGCAA
GTCGAGAGGT GTGGGGACCA CCTGACACCC AGGAGCCCAG GCACTGGAAC ATCTTCTGAG
GACCTGGCTC CATCCCTGGG TGAGACGTGG AAAGATGAGT CTGTTCCTCA GGTCCCTGCT
GAGGGAGTGG ACGACACAAG CTCCTCTGAG GGCAGCACGG TGGACTGCCT AGATCCTGAG
GAAATCCTGA GGAAGATCCC TGAGCTGGCA GATGACCTGG AAGAACCAGA TGACTGCTTC
ACAGAAGGAT GCATTCGCCA CTGTCCCTGC TGCAAACTGG ATACCACCAA GAGTCCATGG
GATGTGGGCT GGCAGGTGCG CAAGACTTGC TACCGTATCG TGGAGCACAG CTGGTTTGAG
AGCTTCATCA TCTTCATGAT CCTGCTCAGC AGTGGATCTC TGGCCTTTGA AGACTATTAC
CTGGACCAGA AGCCCACGGT GAAAGCTTTG CTGGAGTACA CTGACAGGGT CTTCACCTTT
ATCTTTGTGT TCGAGATGCT GCTTAAGTGG GTGGCCTATG GCTTCAAAAA GTACTTCACC
AATGCCTGGT GCTGGCTGGA CTTCCTCATT GTGAATATCT CACTGATAAG TCTCACAGCG
AAGATTCTGG AATATTCTGA AGTGGCTCCC ATCAAAGCCC TTCGAACCCT TCGCGCTCTG
CGGCCACTGC GGGCTCTTTC TCGATTTGAA GGCATGCGGG TGGTGGTGGA TGCCCTGGTG
GGCGCCATCC CATCCATCAT GAATGTCCTC CTCGTCTGCC TCATCTTCTG GCTCATCTTC
AGCATCATGG GTGTGAACCT CTTCGCAGGG AAGTTTTGGA GGTGCATCAA CTATACCGAT
GGAGAGTTTT CCCTTGTACC TTTGTCGATT GTGAATAACA AGTCTGACTG CAAGATTCAA
AACTCCACTG GCAGCTTCTT CTGGGTCAAT GTGAAAGTCA ACTTTGATAA TGTTGCAATG
GGTTACCTTG CACTTCTGCA GGTGGCAACC TTTAAAGGCT GGATGGACAT TATGTATGCA
GCTGTTGATT CCCGGGAGGT CAACATGCAA CCCAAGTGGG AGGACAACGT GTACATGTAT
TTGTACTTTG TCATCTTCAT CATTTTTGGA GGCTTCTTCA CACTGAATCT CTTTGTTGGG
GTCATAATTG ACAACTTCAA TCAACAGAAA AAAAAGTTAG GGGGCCAGGA CATCTTCATG
ACAGAGGAGC AGAAGAAATA CTACAATGCC ATGAAGAAGT TGGGCTCCAA GAAGCCCCAG
AAGCCCATCC CACGGCCCCT GAACAAGTTC CAGGGTTTTG TCTTTGACAT CGTGACCAGA
CAAGCTTTTG ACATCACCAT CATGGTCCTC ATCTGCCTCA ACATGATCAC CATGATGGTG
GAGACTGATG ACCAAAGTGA AGAAAAGACG AAAATTCTGG GCAAAATCAA CCAGTTCTTT
GTGGCCGTCT TCACAGGCGA ATGTGTCATG AAGATGTTCG CTTTGAGGCA GTACTACTTC
ACAAATGGCT GGAATGTGTT TGACTTCATT GTGGTGGTTC TCTCCATTGC GAGCCTGATT
TTTTCTGCAA TTCTTAAGTC ACTTCAAAGT TACTTCTCCC CAACGCTCTT CAGAGTCATC
CGCCTGGCCC GAATTGGCCG CATCCTCAGA CTGATCCGAG CGGCCAAGGG GATCCGCACA
CTGCTCTTTG CCCTCATGAT GTCCCTGCCT GCCCTCTTCA ACATCGGGCT GTTGCTATTC
CTTGTCATGT TCATCTACTC TATCTTCGGT ATGTCCAGCT TTCCCCATGT GAGGTGGGAG
GCTGGCATCG ACGACATGTT CAACTTCCAG ACCTTCGCCA ACAGCATGCT GTGCCTCTTC
CAGATTACCA CGTCGGCCGG CTGGGATGGC CTCCTCAGCC CCATCCTCAA CACAGGGCCC
CCCTACTGTG ACCCCAATCT GCCCAACAGC AATGGCACCA GAGGGGACTG TGGGAGCCCA
GCCGTAGGCA TCATCTTCTT CACCACCTAC ATCATCATCT CCTTCCTCAT CATGGTCAAC
ATGTACATTG CAGTGATTCT GGAGAACTTC AATGTGGCCA CGGAGGAGAG CACTGAGCCC
CTGAGTGAGG ACGACTTTGA CATGTTCTAT GAGACCTGGG AGAAGTTTGA CCCAGAGGCC
ACTCAGTTTA TTACCTTTTC TGCTCTCTCG GACTTTGCAG ACACTCTCTC TGGTCCCCTG
AGAATCCCAA AACCCAATCG AAATATACTG ATCCAGATGG ACCTGCCTTT GGTCCCTGGA
GATAAGATCC ACTGCTTGGA CATCCTTTTT GCTTTCACCA AGAATGTCCT AGGAGAATCC
GGGGAGTTGG ATTCTCTGAA GGCAAATATG GAGGAGAAGT TTATGGCAAC TAATCTTTCA
AAATCATCCT ATGAACCAAT AGCAACCACT CTCCGATGGA AGCAAGAAGA CATTTCAGCC
ACTGTCATTC AAAAGGCCTA TCGGAGCTAT GTGCTGCACC GCTCCATGGC ACTCTCTAAC
ACCCCATGTG TGCCCAGAGC TGAGGAGGAG GCTGCATCAC TCCCAGATGA AGGTTTTGTT
GCATTCACAG CAAATGAAAA TTGTGTACTC CCAGACAAAT CTGAAACTGC TTCTGCCACA
TCATTCCCAC CGTCCTATGA GAGTGTCACT AGAGGCCTTA GTGATAGAGT CAACATGAGG
ACATCTAGCT CAATACAAAA TGAAGATGAA GCCACCAGTA TGGAGCTGAT TGCCCCTGGG
CCCTAG

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

CloneID OHu60384
Clone ID Related Accession (Same CDS sequence) NM_006514
Accession Version NM_006514.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5871bp)
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 15-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 10 subunit alpha isoform 1
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF117907.1 and AC137625.2. This sequence is a reference standard in the RefSeqGene project. On Oct 2, 2014 this sequence version replaced gi:110835709. Transcript Variant: This variant (1) encodes the longest isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF117907.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2144333 [ECO:0000350] ##Evidence-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCG TGGTTCAGTT TATTTATTAC GGTCACTATT
TTGGTTAATT GTGTGTGCAT GACCCGAACT GACCTTCCAG AGAAAATTGA ATATGTCTTC
ACTGTCATTT ACACCTTTGA AGCCTTGATA AAGATACTGG CAAGAGGATT TTGTCTAAAT
GAGTTCACGT ACCTGAGAGA TCCTTGGAAC TGGCTGGATT TTAGCGTCAT TACCCTGGCA
TATGTTGGCA CAGCAATAGA TCTCCGTGGG ATCTCAGGCC TGCGGACATT CAGAGTTCTT
AGAGCATTAA AAACAGTTTC TGTGATCCCA GGCCTGAAGG TCATTGTGGG GGCCCTGATT
CACTCAGTGA AGAAACTGGC TGATGTGACC ATCCTCACCA TCTTCTGCCT AAGTGTTTTT
GCCTTGGTGG GGCTGCAACT CTTCAAGGGC AACCTCAAAA ATAAATGTGT CAAGAATGAC
ATGGCTGTCA ATGAGACAAC CAACTACTCA TCTCACAGAA AACCAGATAT CTACATAAAT
AAGCGAGGCA CTTCTGACCC CTTACTGTGT GGCAATGGAT CTGACTCAGG CCACTGCCCT
GATGGTTATA TCTGCCTTAA AACTTCTGAC AACCCGGATT TTAACTACAC CAGCTTTGAT
TCCTTTGCTT GGGCTTTCCT CTCACTGTTC CGCCTCATGA CACAGGATTC CTGGGAACGC
CTCTACCAGC AGACCCTGAG GACTTCTGGG AAAATCTATA TGATCTTTTT TGTGCTCGTA
ATCTTCCTGG GATCTTTCTA CCTGGTCAAC TTGATCTTGG CTGTAGTCAC CATGGCGTAT
GAGGAGCAGA ACCAGGCAAC CACTGATGAA ATTGAAGCAA AGGAGAAGAA GTTCCAGGAG
GCCCTCGAGA TGCTCCGGAA GGAGCAGGAG GTGCTAGCAG CACTAGGGAT TGACACAACC
TCTCTCCACT CCCACAATGG ATCACCTTTA ACCTCCAAAA ATGCCAGTGA GAGAAGGCAT
AGAATAAAGC CAAGAGTGTC AGAGGGCTCC ACAGAAGACA ACAAATCACC CCGCTCTGAT
CCTTACAACC AGCGCAGGAT GTCTTTTCTA GGCCTCGCCT CTGGAAAACG CCGGGCTAGT
CATGGCAGTG TGTTCCATTT CCGGTCCCCT GGCCGAGATA TCTCACTCCC TGAGGGAGTC
ACAGATGATG GAGTCTTTCC TGGAGACCAC GAAAGCCATC GGGGCTCTCT GCTGCTGGGT
GGGGGTGCTG GCCAGCAAGG CCCCCTCCCT AGAAGCCCTC TTCCTCAACC CAGCAACCCT
GACTCCAGGC ATGGAGAAGA TGAACACCAA CCGCCGCCCA CTAGTGAGCT TGCCCCTGGA
GCTGTCGATG TCTCGGCATT CGATGCAGGA CAAAAGAAGA CTTTCTTGTC AGCAGAATAC
TTAGATGAAC CTTTCCGGGC CCAAAGGGCA ATGAGTGTTG TCAGTATCAT AACCTCCGTC
CTTGAGGAAC TCGAGGAGTC TGAACAGAAG TGCCCACCCT GCTTGACCAG CTTGTCTCAG
AAGTATCTGA TCTGGGATTG CTGCCCCATG TGGGTGAAGC TCAAGACAAT TCTCTTTGGG
CTTGTGACGG ATCCCTTTGC AGAGCTCACC ATCACCTTGT GCATCGTGGT GAACACCATC
TTCATGGCCA TGGAGCACCA TGGCATGAGC CCTACCTTCG AAGCCATGCT CCAGATAGGC
AACATCGTCT TTACCATATT TTTTACTGCT GAAATGGTCT TCAAAATCAT TGCCTTCGAC
CCATACTATT ATTTCCAGAA GAAGTGGAAT ATCTTTGACT GCATCATCGT CACTGTGAGT
CTGCTAGAGC TGGGCGTGGC CAAGAAGGGA AGCCTGTCTG TGCTGCGGAG CTTCCGCTTG
CTGCGCGTAT TCAAGCTGGC CAAATCCTGG CCCACCTTAA ACACACTCAT CAAGATCATC
GGAAACTCAG TGGGGGCACT GGGGAACCTC ACCATCATCC TGGCCATCAT TGTCTTTGTC
TTTGCTCTGG TTGGCAAGCA GCTCCTAGGG GAAAACTACC GTAACAACCG AAAAAATATC
TCCGCGCCCC ATGAAGACTG GCCCCGCTGG CACATGCACG ACTTCTTCCA CTCTTTCCTC
ATTGTCTTCC GTATCCTCTG TGGAGAGTGG ATTGAGAACA TGTGGGCCTG CATGGAAGTT
GGCCAAAAAT CCATATGCCT CATCCTTTTC TTGACGGTGA TGGTGCTAGG GAACCTGGTG
GTGCTTAACC TGTTCATCGC CCTGCTATTG AACTCTTTCA GTGCTGACAA CCTCACAGCC
CCGGAGGACG ATGGGGAGGT GAACAACCTG CAGGTGGCCC TGGCACGGAT CCAGGTCTTT
GGCCATCGTA CCAAACAGGC TCTTTGCAGC TTCTTCAGCA GGTCCTGCCC ATTCCCCCAG
CCCAAGGCAG AGCCTGAGCT GGTGGTGAAA CTCCCACTCT CCAGCTCCAA GGCTGAGAAC
CACATTGCTG CCAACACTGC CAGGGGGAGC TCTGGAGGGC TCCAAGCTCC CAGAGGCCCC
AGGGATGAGC ACAGTGACTT CATCGCTAAT CCGACTGTGT GGGTCTCTGT GCCCATTGCT
GAGGGTGAAT CTGATCTTGA TGACTTGGAG GATGATGGTG GGGAAGATGC TCAGAGCTTC
CAGCAGGAAG TGATCCCCAA AGGACAGCAG GAGCAGCTGC AGCAAGTCGA GAGGTGTGGG
GACCACCTGA CACCCAGGAG CCCAGGCACT GGAACATCTT CTGAGGACCT GGCTCCATCC
CTGGGTGAGA CGTGGAAAGA TGAGTCTGTT CCTCAGGTCC CTGCTGAGGG AGTGGACGAC
ACAAGCTCCT CTGAGGGCAG CACGGTGGAC TGCCTAGATC CTGAGGAAAT CCTGAGGAAG
ATCCCTGAGC TGGCAGATGA CCTGGAAGAA CCAGATGACT GCTTCACAGA AGGATGCATT
CGCCACTGTC CCTGCTGCAA ACTGGATACC ACCAAGAGTC CATGGGATGT GGGCTGGCAG
GTGCGCAAGA CTTGCTACCG TATCGTGGAG CACAGCTGGT TTGAGAGCTT CATCATCTTC
ATGATCCTGC TCAGCAGTGG ATCTCTGGCC TTTGAAGACT ATTACCTGGA CCAGAAGCCC
ACGGTGAAAG CTTTGCTGGA GTACACTGAC AGGGTCTTCA CCTTTATCTT TGTGTTCGAG
ATGCTGCTTA AGTGGGTGGC CTATGGCTTC AAAAAGTACT TCACCAATGC CTGGTGCTGG
CTGGACTTCC TCATTGTGAA TATCTCACTG ATAAGTCTCA CAGCGAAGAT TCTGGAATAT
TCTGAAGTGG CTCCCATCAA AGCCCTTCGA ACCCTTCGCG CTCTGCGGCC ACTGCGGGCT
CTTTCTCGAT TTGAAGGCAT GCGGGTGGTG GTGGATGCCC TGGTGGGCGC CATCCCATCC
ATCATGAATG TCCTCCTCGT CTGCCTCATC TTCTGGCTCA TCTTCAGCAT CATGGGTGTG
AACCTCTTCG CAGGGAAGTT TTGGAGGTGC ATCAACTATA CCGATGGAGA GTTTTCCCTT
GTACCTTTGT CGATTGTGAA TAACAAGTCT GACTGCAAGA TTCAAAACTC CACTGGCAGC
TTCTTCTGGG TCAATGTGAA AGTCAACTTT GATAATGTTG CAATGGGTTA CCTTGCACTT
CTGCAGGTGG CAACCTTTAA AGGCTGGATG GACATTATGT ATGCAGCTGT TGATTCCCGG
GAGGTCAACA TGCAACCCAA GTGGGAGGAC AACGTGTACA TGTATTTGTA CTTTGTCATC
TTCATCATTT TTGGAGGCTT CTTCACACTG AATCTCTTTG TTGGGGTCAT AATTGACAAC
TTCAATCAAC AGAAAAAAAA GTTAGGGGGC CAGGACATCT TCATGACAGA GGAGCAGAAG
AAATACTACA ATGCCATGAA GAAGTTGGGC TCCAAGAAGC CCCAGAAGCC CATCCCACGG
CCCCTGAACA AGTTCCAGGG TTTTGTCTTT GACATCGTGA CCAGACAAGC TTTTGACATC
ACCATCATGG TCCTCATCTG CCTCAACATG ATCACCATGA TGGTGGAGAC TGATGACCAA
AGTGAAGAAA AGACGAAAAT TCTGGGCAAA ATCAACCAGT TCTTTGTGGC CGTCTTCACA
GGCGAATGTG TCATGAAGAT GTTCGCTTTG AGGCAGTACT ACTTCACAAA TGGCTGGAAT
GTGTTTGACT TCATTGTGGT GGTTCTCTCC ATTGCGAGCC TGATTTTTTC TGCAATTCTT
AAGTCACTTC AAAGTTACTT CTCCCCAACG CTCTTCAGAG TCATCCGCCT GGCCCGAATT
GGCCGCATCC TCAGACTGAT CCGAGCGGCC AAGGGGATCC GCACACTGCT CTTTGCCCTC
ATGATGTCCC TGCCTGCCCT CTTCAACATC GGGCTGTTGC TATTCCTTGT CATGTTCATC
TACTCTATCT TCGGTATGTC CAGCTTTCCC CATGTGAGGT GGGAGGCTGG CATCGACGAC
ATGTTCAACT TCCAGACCTT CGCCAACAGC ATGCTGTGCC TCTTCCAGAT TACCACGTCG
GCCGGCTGGG ATGGCCTCCT CAGCCCCATC CTCAACACAG GGCCCCCCTA CTGTGACCCC
AATCTGCCCA ACAGCAATGG CACCAGAGGG GACTGTGGGA GCCCAGCCGT AGGCATCATC
TTCTTCACCA CCTACATCAT CATCTCCTTC CTCATCGTGG TCAACATGTA CATTGCAGTG
ATTCTGGAGA ACTTCAATGT GGCCACGGAG GAGAGCACTG AGCCCCTGAG TGAGGACGAC
TTTGACATGT TCTATGAGAC CTGGGAGAAG TTTGACCCAG AGGCCACTCA GTTTATTACC
TTTTCTGCTC TCTCGGACTT TGCAGACACT CTCTCTGGTC CCCTGAGAAT CCCAAAACCC
AATCGAAATA TACTGATCCA GATGGACCTG CCTTTGGTCC CTGGAGATAA GATCCACTGC
TTGGACATCC TTTTTGCTTT CACCAAGAAT GTCCTAGGAG AATCCGGGGA GTTGGATTCT
CTGAAGGCAA ATATGGAGGA GAAGTTTATG GCAACTAATC TTTCAAAATC ATCCTATGAA
CCAATAGCAA CCACTCTCCG ATGGAAGCAA GAAGACATTT CAGCCACTGT CATTCAAAAG
GCCTATCGGA GCTATGTGCT GCACCGCTCC ATGGCACTCT CTAACACCCC ATGTGTGCCC
AGAGCTGAGG AGGAGGCTGC ATCACTCCCA GATGAAGGTT TTGTTGCATT CACAGCAAAT
GAAAATTGTG TACTCCCAGA CAAATCTGAA ACTGCTTCTG CCACATCATT CCCACCGTCC
TATGAGAGTG TCACTAGAGG CCTTAGTGAT AGAGTCAACA TGAGGACATC TAGCTCAATA
CAAAATGAAG ATGAAGCCAC CAGTATGGAG CTGATTGCCC CTGGGCCCTA G

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

RefSeq NP_006505.3
CDS1..5871
Misc Feature(1)373..1200(+)
Misc Feature(2)376..447(+)
Misc Feature(3)463..522(+)
Misc Feature(4)466..1188(+)
Misc Feature(5)562..618(+)
Misc Feature(6)637..696(+)
Misc Feature(7)745..816(+)
Misc Feature(8)1120..1197(+)
Misc Feature(9)1342..>1599(+)
Misc Feature(10)1975..2673(+)
Misc Feature(11)1978..2052(+)
Misc Feature(12)2086..2157(+)
Misc Feature(13)2095..2667(+)
Misc Feature(14)2182..2241(+)
Misc Feature(15)2260..2319(+)
Misc Feature(16)2368..2430(+)
Misc Feature(17)2593..2670(+)
Misc Feature(18)2710..3486(+)
Misc Feature(19)3439..4257(+)
Misc Feature(20)3442..3513(+)
Misc Feature(21)3553..3630(+)
Misc Feature(22)3562..4251(+)
Misc Feature(23)3649..3714(+)
Misc Feature(24)3727..3792(+)
Misc Feature(25)3850..3933(+)
Misc Feature(26)4174..4254(+)
Misc Feature(27)4255..4413(+)
Misc Feature(28)4297..4308(+)
Misc Feature(29)4351..4353(+)
Misc Feature(30)4351..4353(+)
Misc Feature(31)4411..5169(+)
Misc Feature(32)4414..4485(+)
Misc Feature(33)4519..4590(+)
Misc Feature(34)4531..5034(+)
Misc Feature(35)4609..4680(+)
Misc Feature(36)4717..4782(+)
Misc Feature(37)4828..4896(+)
Misc Feature(38)5092..5166(+)
Exon (1)1..270
Gene:SCN10A
Gene Synonym:
Exon (2)271..389
Gene:SCN10A
Gene Synonym:
Exon (3)390..470
Gene:SCN10A
Gene Synonym:
Exon (4)471..599
Gene:SCN10A
Gene Synonym:
Exon (5)600..691
Gene:SCN10A
Gene Synonym:
Exon (6)692..883
Gene:SCN10A
Gene Synonym:
Exon (7)884..950
Gene:SCN10A
Gene Synonym:
Exon (8)951..1092
Gene:SCN10A
Gene Synonym:
Exon (9)1093..1290
Gene:SCN10A
Gene Synonym:
Exon (10)1291..1461
Gene:SCN10A
Gene Synonym:
Exon (11)1462..1755
Gene:SCN10A
Gene Synonym:
Exon (12)1756..1867
Gene:SCN10A
Gene Synonym:
Exon (13)1868..2106
Gene:SCN10A
Gene Synonym:
Exon (14)2107..2280
Gene:SCN10A
Gene Synonym:
Exon (15)2281..2640
Gene:SCN10A
Gene Synonym:
Exon (16)2641..3087
Gene:SCN10A
Gene Synonym:
Exon (17)3088..3228
Gene:SCN10A
Gene Synonym:
Exon (18)3229..3352
Gene:SCN10A
Gene Synonym:
Exon (19)3353..3507
Gene:SCN10A
Gene Synonym:
Exon (20)3508..3681
Gene:SCN10A
Gene Synonym:
Exon (21)3682..3804
Gene:SCN10A
Gene Synonym:
Exon (22)3805..4089
Gene:SCN10A
Gene Synonym:
Exon (23)4090..4143
Gene:SCN10A
Gene Synonym:
Exon (24)4144..4281
Gene:SCN10A
Gene Synonym:
Exon (25)4282..4386
Gene:SCN10A
Gene Synonym:
Exon (26)4387..4657
Gene:SCN10A
Gene Synonym:
Exon (27)4658..5874
Gene:SCN10A
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_006514
Organism Homo sapiens (human)
Definition Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_006514

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
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCG TGGTTCAGTT TATTTATTAC GGTCACTATT
TTGGTTAATT GTGTGTGCAT GACCCGAACT GACCTTCCAG AGAAAATTGA ATATGTCTTC
ACTGTCATTT ACACCTTTGA AGCCTTGATA AAGATACTGG CAAGAGGATT TTGTCTAAAT
GAGTTCACGT ACCTGAGAGA TCCTTGGAAC TGGCTGGATT TTAGCGTCAT TACCCTGGCA
TATGTTGGCA CAGCAATAGA TCTCCGTGGG ATCTCAGGCC TGCGGACATT CAGAGTTCTT
AGAGCATTAA AAACAGTTTC TGTGATCCCA GGCCTGAAGG TCATTGTGGG GGCCCTGATT
CACTCAGTGA AGAAACTGGC TGATGTGACC ATCCTCACCA TCTTCTGCCT AAGTGTTTTT
GCCTTGGTGG GGCTGCAACT CTTCAAGGGC AACCTCAAAA ATAAATGTGT CAAGAATGAC
ATGGCTGTCA ATGAGACAAC CAACTACTCA TCTCACAGAA AACCAGATAT CTACATAAAT
AAGCGAGGCA CTTCTGACCC CTTACTGTGT GGCAATGGAT CTGACTCAGG CCACTGCCCT
GATGGTTATA TCTGCCTTAA AACTTCTGAC AACCCGGATT TTAACTACAC CAGCTTTGAT
TCCTTTGCTT GGGCTTTCCT CTCACTGTTC CGCCTCATGA CACAGGATTC CTGGGAACGC
CTCTACCAGC AGACCCTGAG GACTTCTGGG AAAATCTATA TGATCTTTTT TGTGCTCGTA
ATCTTCCTGG GATCTTTCTA CCTGGTCAAC TTGATCTTGG CTGTAGTCAC CATGGCGTAT
GAGGAGCAGA ACCAGGCAAC CACTGATGAA ATTGAAGCAA AGGAGAAGAA GTTCCAGGAG
GCCCTCGAGA TGCTCCGGAA GGAGCAGGAG GTGCTAGCAG CACTAGGGAT TGACACAACC
TCTCTCCACT CCCACAATGG ATCACCTTTA ACCTCCAAAA ATGCCAGTGA GAGAAGGCAT
AGAATAAAGC CAAGAGTGTC AGAGGGCTCC ACAGAAGACA ACAAATCACC CCGCTCTGAT
CCTTACAACC AGCGCAGGAT GTCTTTTCTA GGCCTCGCCT CTGGAAAACG CCGGGCTAGT
CATGGCAGTG TGTTCCATTT CCGGTCCCCT GGCCGAGATA TCTCACTCCC TGAGGGAGTC
ACAGATGATG GAGTCTTTCC TGGAGACCAC GAAAGCCATC GGGGCTCTCT GCTGCTGGGT
GGGGGTGCTG GCCAGCAAGG CCCCCTCCCT AGAAGCCCTC TTCCTCAACC CAGCAACCCT
GACTCCAGGC ATGGAGAAGA TGAACACCAA CCGCCGCCCA CTAGTGAGCT TGCCCCTGGA
GCTGTCGATG TCTCGGCATT CGATGCAGGA CAAAAGAAGA CTTTCTTGTC AGCAGAATAC
TTAGATGAAC CTTTCCGGGC CCAAAGGGCA ATGAGTGTTG TCAGTATCAT AACCTCCGTC
CTTGAGGAAC TCGAGGAGTC TGAACAGAAG TGCCCACCCT GCTTGACCAG CTTGTCTCAG
AAGTATCTGA TCTGGGATTG CTGCCCCATG TGGGTGAAGC TCAAGACAAT TCTCTTTGGG
CTTGTGACGG ATCCCTTTGC AGAGCTCACC ATCACCTTGT GCATCGTGGT GAACACCATC
TTCATGGCCA TGGAGCACCA TGGCATGAGC CCTACCTTCG AAGCCATGCT CCAGATAGGC
AACATCGTCT TTACCATATT TTTTACTGCT GAAATGGTCT TCAAAATCAT TGCCTTCGAC
CCATACTATT ATTTCCAGAA GAAGTGGAAT ATCTTTGACT GCATCATCGT CACTGTGAGT
CTGCTAGAGC TGGGCGTGGC CAAGAAGGGA AGCCTGTCTG TGCTGCGGAG CTTCCGCTTG
CTGCGCGTAT TCAAGCTGGC CAAATCCTGG CCCACCTTAA ACACACTCAT CAAGATCATC
GGAAACTCAG TGGGGGCACT GGGGAACCTC ACCATCATCC TGGCCATCAT TGTCTTTGTC
TTTGCTCTGG TTGGCAAGCA GCTCCTAGGG GAAAACTACC GTAACAACCG AAAAAATATC
TCCGCGCCCC ATGAAGACTG GCCCCGCTGG CACATGCACG ACTTCTTCCA CTCTTTCCTC
ATTGTCTTCC GTATCCTCTG TGGAGAGTGG ATTGAGAACA TGTGGGCCTG CATGGAAGTT
GGCCAAAAAT CCATATGCCT CATCCTTTTC TTGACGGTGA TGGTGCTAGG GAACCTGGTG
GTGCTTAACC TGTTCATCGC CCTGCTATTG AACTCTTTCA GTGCTGACAA CCTCACAGCC
CCGGAGGACG ATGGGGAGGT GAACAACCTG CAGGTGGCCC TGGCACGGAT CCAGGTCTTT
GGCCATCGTA CCAAACAGGC TCTTTGCAGC TTCTTCAGCA GGTCCTGCCC ATTCCCCCAG
CCCAAGGCAG AGCCTGAGCT GGTGGTGAAA CTCCCACTCT CCAGCTCCAA GGCTGAGAAC
CACATTGCTG CCAACACTGC CAGGGGGAGC TCTGGAGGGC TCCAAGCTCC CAGAGGCCCC
AGGGATGAGC ACAGTGACTT CATCGCTAAT CCGACTGTGT GGGTCTCTGT GCCCATTGCT
GAGGGTGAAT CTGATCTTGA TGACTTGGAG GATGATGGTG GGGAAGATGC TCAGAGCTTC
CAGCAGGAAG TGATCCCCAA AGGACAGCAG GAGCAGCTGC AGCAAGTCGA GAGGTGTGGG
GACCACCTGA CACCCAGGAG CCCAGGCACT GGAACATCTT CTGAGGACCT GGCTCCATCC
CTGGGTGAGA CGTGGAAAGA TGAGTCTGTT CCTCAGGTCC CTGCTGAGGG AGTGGACGAC
ACAAGCTCCT CTGAGGGCAG CACGGTGGAC TGCCTAGATC CTGAGGAAAT CCTGAGGAAG
ATCCCTGAGC TGGCAGATGA CCTGGAAGAA CCAGATGACT GCTTCACAGA AGGATGCATT
CGCCACTGTC CCTGCTGCAA ACTGGATACC ACCAAGAGTC CATGGGATGT GGGCTGGCAG
GTGCGCAAGA CTTGCTACCG TATCGTGGAG CACAGCTGGT TTGAGAGCTT CATCATCTTC
ATGATCCTGC TCAGCAGTGG ATCTCTGGCC TTTGAAGACT ATTACCTGGA CCAGAAGCCC
ACGGTGAAAG CTTTGCTGGA GTACACTGAC AGGGTCTTCA CCTTTATCTT TGTGTTCGAG
ATGCTGCTTA AGTGGGTGGC CTATGGCTTC AAAAAGTACT TCACCAATGC CTGGTGCTGG
CTGGACTTCC TCATTGTGAA TATCTCACTG ATAAGTCTCA CAGCGAAGAT TCTGGAATAT
TCTGAAGTGG CTCCCATCAA AGCCCTTCGA ACCCTTCGCG CTCTGCGGCC ACTGCGGGCT
CTTTCTCGAT TTGAAGGCAT GCGGGTGGTG GTGGATGCCC TGGTGGGCGC CATCCCATCC
ATCATGAATG TCCTCCTCGT CTGCCTCATC TTCTGGCTCA TCTTCAGCAT CATGGGTGTG
AACCTCTTCG CAGGGAAGTT TTGGAGGTGC ATCAACTATA CCGATGGAGA GTTTTCCCTT
GTACCTTTGT CGATTGTGAA TAACAAGTCT GACTGCAAGA TTCAAAACTC CACTGGCAGC
TTCTTCTGGG TCAATGTGAA AGTCAACTTT GATAATGTTG CAATGGGTTA CCTTGCACTT
CTGCAGGTGG CAACCTTTAA AGGCTGGATG GACATTATGT ATGCAGCTGT TGATTCCCGG
GAGGTCAACA TGCAACCCAA GTGGGAGGAC AACGTGTACA TGTATTTGTA CTTTGTCATC
TTCATCATTT TTGGAGGCTT CTTCACACTG AATCTCTTTG TTGGGGTCAT AATTGACAAC
TTCAATCAAC AGAAAAAAAA GTTAGGGGGC CAGGACATCT TCATGACAGA GGAGCAGAAG
AAATACTACA ATGCCATGAA GAAGTTGGGC TCCAAGAAGC CCCAGAAGCC CATCCCACGG
CCCCTGAACA AGTTCCAGGG TTTTGTCTTT GACATCGTGA CCAGACAAGC TTTTGACATC
ACCATCATGG TCCTCATCTG CCTCAACATG ATCACCATGA TGGTGGAGAC TGATGACCAA
AGTGAAGAAA AGACGAAAAT TCTGGGCAAA ATCAACCAGT TCTTTGTGGC CGTCTTCACA
GGCGAATGTG TCATGAAGAT GTTCGCTTTG AGGCAGTACT ACTTCACAAA TGGCTGGAAT
GTGTTTGACT TCATTGTGGT GGTTCTCTCC ATTGCGAGCC TGATTTTTTC TGCAATTCTT
AAGTCACTTC AAAGTTACTT CTCCCCAACG CTCTTCAGAG TCATCCGCCT GGCCCGAATT
GGCCGCATCC TCAGACTGAT CCGAGCGGCC AAGGGGATCC GCACACTGCT CTTTGCCCTC
ATGATGTCCC TGCCTGCCCT CTTCAACATC GGGCTGTTGC TATTCCTTGT CATGTTCATC
TACTCTATCT TCGGTATGTC CAGCTTTCCC CATGTGAGGT GGGAGGCTGG CATCGACGAC
ATGTTCAACT TCCAGACCTT CGCCAACAGC ATGCTGTGCC TCTTCCAGAT TACCACGTCG
GCCGGCTGGG ATGGCCTCCT CAGCCCCATC CTCAACACAG GGCCCCCCTA CTGTGACCCC
AATCTGCCCA ACAGCAATGG CACCAGAGGG GACTGTGGGA GCCCAGCCGT AGGCATCATC
TTCTTCACCA CCTACATCAT CATCTCCTTC CTCATCGTGG TCAACATGTA CATTGCAGTG
ATTCTGGAGA ACTTCAATGT GGCCACGGAG GAGAGCACTG AGCCCCTGAG TGAGGACGAC
TTTGACATGT TCTATGAGAC CTGGGAGAAG TTTGACCCAG AGGCCACTCA GTTTATTACC
TTTTCTGCTC TCTCGGACTT TGCAGACACT CTCTCTGGTC CCCTGAGAAT CCCAAAACCC
AATCGAAATA TACTGATCCA GATGGACCTG CCTTTGGTCC CTGGAGATAA GATCCACTGC
TTGGACATCC TTTTTGCTTT CACCAAGAAT GTCCTAGGAG AATCCGGGGA GTTGGATTCT
CTGAAGGCAA ATATGGAGGA GAAGTTTATG GCAACTAATC TTTCAAAATC ATCCTATGAA
CCAATAGCAA CCACTCTCCG ATGGAAGCAA GAAGACATTT CAGCCACTGT CATTCAAAAG
GCCTATCGGA GCTATGTGCT GCACCGCTCC ATGGCACTCT CTAACACCCC ATGTGTGCCC
AGAGCTGAGG AGGAGGCTGC ATCACTCCCA GATGAAGGTT TTGTTGCATT CACAGCAAAT
GAAAATTGTG TACTCCCAGA CAAATCTGAA ACTGCTTCTG CCACATCATT CCCACCGTCC
TATGAGAGTG TCACTAGAGG CCTTAGTGAT AGAGTCAACA TGAGGACATC TAGCTCAATA
CAAAATGAAG ATGAAGCCAC CAGTATGGAG CTGATTGCCC CTGGGCCCTA G

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

CloneID OHu60385
Clone ID Related Accession (Same CDS sequence) NM_001293306
Accession Version NM_001293306.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5868bp)
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 15-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 10 subunit alpha isoform 2
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC116038.3, AC137625.2 and AF117907.1. On Oct 2, 2014 this sequence version replaced gi:648216355. Transcript Variant: This variant (2) uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. This results in a shorter protein (isoform 2), compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2148093 [ECO:0000350] ##Evidence-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCG TGGTTCAGTT TATTTATTAC GGTCACTATT
TTGGTTAATT GTGTGTGCAT GACCCGAACT GACCTTCCAG AGAAAATTGA ATATGTCTTC
ACTGTCATTT ACACCTTTGA AGCCTTGATA AAGATACTGG CAAGAGGATT TTGTCTAAAT
GAGTTCACGT ACCTGAGAGA TCCTTGGAAC TGGCTGGATT TTAGCGTCAT TACCCTGGCA
TATGTTGGCA CAGCAATAGA TCTCCGTGGG ATCTCAGGCC TGCGGACATT CAGAGTTCTT
AGAGCATTAA AAACAGTTTC TGTGATCCCA GGCCTGAAGG TCATTGTGGG GGCCCTGATT
CACTCAGTGA AGAAACTGGC TGATGTGACC ATCCTCACCA TCTTCTGCCT AAGTGTTTTT
GCCTTGGTGG GGCTGCAACT CTTCAAGGGC AACCTCAAAA ATAAATGTGT CAAGAATGAC
ATGGCTGTCA ATGAGACAAC CAACTACTCA TCTCACAGAA AACCAGATAT CTACATAAAT
AAGCGAGGCA CTTCTGACCC CTTACTGTGT GGCAATGGAT CTGACTCAGG CCACTGCCCT
GATGGTTATA TCTGCCTTAA AACTTCTGAC AACCCGGATT TTAACTACAC CAGCTTTGAT
TCCTTTGCTT GGGCTTTCCT CTCACTGTTC CGCCTCATGA CACAGGATTC CTGGGAACGC
CTCTACCAGC AGACCCTGAG GACTTCTGGG AAAATCTATA TGATCTTTTT TGTGCTCGTA
ATCTTCCTGG GATCTTTCTA CCTGGTCAAC TTGATCTTGG CTGTAGTCAC CATGGCGTAT
GAGGAGCAGA ACCAGGCAAC CACTGATGAA ATTGAAGCAA AGGAGAAGAA GTTCCAGGAG
GCCCTCGAGA TGCTCCGGAA GGAGCAGGAG GTGCTAGCAG CACTAGGGAT TGACACAACC
TCTCTCCACT CCCACAATGG ATCACCTTTA ACCTCCAAAA ATGCCAGTGA GAGAAGGCAT
AGAATAAAGC CAAGAGTGTC AGAGGGCTCC ACAGAAGACA ACAAATCACC CCGCTCTGAT
CCTTACAACC AGCGCAGGAT GTCTTTTCTA GGCCTCGCCT CTGGAAAACG CCGGGCTAGT
CATGGCAGTG TGTTCCATTT CCGGTCCCCT GGCCGAGATA TCTCACTCCC TGAGGGAGTC
ACAGATGATG GAGTCTTTCC TGGAGACCAC GAAAGCCATC GGGGCTCTCT GCTGCTGGGT
GGGGGTGCTG GCCAGCAAGG CCCCCTCCCT AGAAGCCCTC TTCCTCAACC CAGCAACCCT
GACTCCAGGC ATGGAGAAGA TGAACACCAA CCGCCGCCCA CTAGTGAGCT TGCCCCTGGA
GCTGTCGATG TCTCGGCATT CGATGCAGGA CAAAAGAAGA CTTTCTTGTC AGCAGAATAC
TTAGATGAAC CTTTCCGGGC CCAAAGGGCA ATGAGTGTTG TCAGTATCAT AACCTCCGTC
CTTGAGGAAC TCGAGGAGTC TGAACAGAAG TGCCCACCCT GCTTGACCAG CTTGTCTCAG
AAGTATCTGA TCTGGGATTG CTGCCCCATG TGGGTGAAGC TCAAGACAAT TCTCTTTGGG
CTTGTGACGG ATCCCTTTGC AGAGCTCACC ATCACCTTGT GCATCGTGGT GAACACCATC
TTCATGGCCA TGGAGCACCA TGGCATGAGC CCTACCTTCG AAGCCATGCT CCAGATAGGC
AACATCGTCT TTACCATATT TTTTACTGCT GAAATGGTCT TCAAAATCAT TGCCTTCGAC
CCATACTATT ATTTCCAGAA GAAGTGGAAT ATCTTTGACT GCATCATCGT CACTGTGAGT
CTGCTAGAGC TGGGCGTGGC CAAGAAGGGA AGCCTGTCTG TGCTGCGGAG CTTCCGCTTG
CTGCGCGTAT TCAAGCTGGC CAAATCCTGG CCCACCTTAA ACACACTCAT CAAGATCATC
GGAAACTCAG TGGGGGCACT GGGGAACCTC ACCATCATCC TGGCCATCAT TGTCTTTGTC
TTTGCTCTGG TTGGCAAGCA GCTCCTAGGG GAAAACTACC GTAACAACCG AAAAAATATC
TCCGCGCCCC ATGAAGACTG GCCCCGCTGG CACATGCACG ACTTCTTCCA CTCTTTCCTC
ATTGTCTTCC GTATCCTCTG TGGAGAGTGG ATTGAGAACA TGTGGGCCTG CATGGAAGTT
GGCCAAAAAT CCATATGCCT CATCCTTTTC TTGACGGTGA TGGTGCTAGG GAACCTGGTG
GTGCTTAACC TGTTCATCGC CCTGCTATTG AACTCTTTCA GTGCTGACAA CCTCACAGCC
CCGGAGGACG ATGGGGAGGT GAACAACCTG CAGGTGGCCC TGGCACGGAT CCAGGTCTTT
GGCCATCGTA CCAAACAGGC TCTTTGCAGC TTCTTCAGCA GGTCCTGCCC ATTCCCCCAG
CCCAAGGCAG AGCCTGAGCT GGTGGTGAAA CTCCCACTCT CCAGCTCCAA GGCTGAGAAC
CACATTGCTG CCAACACTGC CAGGGGGAGC TCTGGAGGGC TCCAAGCTCC CAGAGGCCCC
AGGGATGAGC ACAGTGACTT CATCGCTAAT CCGACTGTGT GGGTCTCTGT GCCCATTGCT
GAGGGTGAAT CTGATCTTGA TGACTTGGAG GATGATGGTG GGGAAGATGC TCAGAGCTTC
CAGCAGGAAG TGATCCCCAA AGGACAGGAG CAGCTGCAGC AAGTCGAGAG GTGTGGGGAC
CACCTGACAC CCAGGAGCCC AGGCACTGGA ACATCTTCTG AGGACCTGGC TCCATCCCTG
GGTGAGACGT GGAAAGATGA GTCTGTTCCT CAGGTCCCTG CTGAGGGAGT GGACGACACA
AGCTCCTCTG AGGGCAGCAC GGTGGACTGC CTAGATCCTG AGGAAATCCT GAGGAAGATC
CCTGAGCTGG CAGATGACCT GGAAGAACCA GATGACTGCT TCACAGAAGG ATGCATTCGC
CACTGTCCCT GCTGCAAACT GGATACCACC AAGAGTCCAT GGGATGTGGG CTGGCAGGTG
CGCAAGACTT GCTACCGTAT CGTGGAGCAC AGCTGGTTTG AGAGCTTCAT CATCTTCATG
ATCCTGCTCA GCAGTGGATC TCTGGCCTTT GAAGACTATT ACCTGGACCA GAAGCCCACG
GTGAAAGCTT TGCTGGAGTA CACTGACAGG GTCTTCACCT TTATCTTTGT GTTCGAGATG
CTGCTTAAGT GGGTGGCCTA TGGCTTCAAA AAGTACTTCA CCAATGCCTG GTGCTGGCTG
GACTTCCTCA TTGTGAATAT CTCACTGATA AGTCTCACAG CGAAGATTCT GGAATATTCT
GAAGTGGCTC CCATCAAAGC CCTTCGAACC CTTCGCGCTC TGCGGCCACT GCGGGCTCTT
TCTCGATTTG AAGGCATGCG GGTGGTGGTG GATGCCCTGG TGGGCGCCAT CCCATCCATC
ATGAATGTCC TCCTCGTCTG CCTCATCTTC TGGCTCATCT TCAGCATCAT GGGTGTGAAC
CTCTTCGCAG GGAAGTTTTG GAGGTGCATC AACTATACCG ATGGAGAGTT TTCCCTTGTA
CCTTTGTCGA TTGTGAATAA CAAGTCTGAC TGCAAGATTC AAAACTCCAC TGGCAGCTTC
TTCTGGGTCA ATGTGAAAGT CAACTTTGAT AATGTTGCAA TGGGTTACCT TGCACTTCTG
CAGGTGGCAA CCTTTAAAGG CTGGATGGAC ATTATGTATG CAGCTGTTGA TTCCCGGGAG
GTCAACATGC AACCCAAGTG GGAGGACAAC GTGTACATGT ATTTGTACTT TGTCATCTTC
ATCATTTTTG GAGGCTTCTT CACACTGAAT CTCTTTGTTG GGGTCATAAT TGACAACTTC
AATCAACAGA AAAAAAAGTT AGGGGGCCAG GACATCTTCA TGACAGAGGA GCAGAAGAAA
TACTACAATG CCATGAAGAA GTTGGGCTCC AAGAAGCCCC AGAAGCCCAT CCCACGGCCC
CTGAACAAGT TCCAGGGTTT TGTCTTTGAC ATCGTGACCA GACAAGCTTT TGACATCACC
ATCATGGTCC TCATCTGCCT CAACATGATC ACCATGATGG TGGAGACTGA TGACCAAAGT
GAAGAAAAGA CGAAAATTCT GGGCAAAATC AACCAGTTCT TTGTGGCCGT CTTCACAGGC
GAATGTGTCA TGAAGATGTT CGCTTTGAGG CAGTACTACT TCACAAATGG CTGGAATGTG
TTTGACTTCA TTGTGGTGGT TCTCTCCATT GCGAGCCTGA TTTTTTCTGC AATTCTTAAG
TCACTTCAAA GTTACTTCTC CCCAACGCTC TTCAGAGTCA TCCGCCTGGC CCGAATTGGC
CGCATCCTCA GACTGATCCG AGCGGCCAAG GGGATCCGCA CACTGCTCTT TGCCCTCATG
ATGTCCCTGC CTGCCCTCTT CAACATCGGG CTGTTGCTAT TCCTTGTCAT GTTCATCTAC
TCTATCTTCG GTATGTCCAG CTTTCCCCAT GTGAGGTGGG AGGCTGGCAT CGACGACATG
TTCAACTTCC AGACCTTCGC CAACAGCATG CTGTGCCTCT TCCAGATTAC CACGTCGGCC
GGCTGGGATG GCCTCCTCAG CCCCATCCTC AACACAGGGC CCCCCTACTG TGACCCCAAT
CTGCCCAACA GCAATGGCAC CAGAGGGGAC TGTGGGAGCC CAGCCGTAGG CATCATCTTC
TTCACCACCT ACATCATCAT CTCCTTCCTC ATCGTGGTCA ACATGTACAT TGCAGTGATT
CTGGAGAACT TCAATGTGGC CACGGAGGAG AGCACTGAGC CCCTGAGTGA GGACGACTTT
GACATGTTCT ATGAGACCTG GGAGAAGTTT GACCCAGAGG CCACTCAGTT TATTACCTTT
TCTGCTCTCT CGGACTTTGC AGACACTCTC TCTGGTCCCC TGAGAATCCC AAAACCCAAT
CGAAATATAC TGATCCAGAT GGACCTGCCT TTGGTCCCTG GAGATAAGAT CCACTGCTTG
GACATCCTTT TTGCTTTCAC CAAGAATGTC CTAGGAGAAT CCGGGGAGTT GGATTCTCTG
AAGGCAAATA TGGAGGAGAA GTTTATGGCA ACTAATCTTT CAAAATCATC CTATGAACCA
ATAGCAACCA CTCTCCGATG GAAGCAAGAA GACATTTCAG CCACTGTCAT TCAAAAGGCC
TATCGGAGCT ATGTGCTGCA CCGCTCCATG GCACTCTCTA ACACCCCATG TGTGCCCAGA
GCTGAGGAGG AGGCTGCATC ACTCCCAGAT GAAGGTTTTG TTGCATTCAC AGCAAATGAA
AATTGTGTAC TCCCAGACAA ATCTGAAACT GCTTCTGCCA CATCATTCCC ACCGTCCTAT
GAGAGTGTCA CTAGAGGCCT TAGTGATAGA GTCAACATGA GGACATCTAG CTCAATACAA
AATGAAGATG AAGCCACCAG TATGGAGCTG ATTGCCCCTG GGCCCTAG

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

RefSeq NP_001280235.2
CDS1..5868
Misc Feature(1)373..1200(+)
Misc Feature(2)376..447(+)
Misc Feature(3)463..522(+)
Misc Feature(4)466..1188(+)
Misc Feature(5)562..618(+)
Misc Feature(6)637..696(+)
Misc Feature(7)745..816(+)
Misc Feature(8)1120..1197(+)
Misc Feature(9)1342..>1599(+)
Misc Feature(10)1975..2673(+)
Misc Feature(11)1978..2052(+)
Misc Feature(12)2086..2157(+)
Misc Feature(13)2095..2667(+)
Misc Feature(14)2182..2241(+)
Misc Feature(15)2260..2319(+)
Misc Feature(16)2368..2430(+)
Misc Feature(17)2593..2670(+)
Misc Feature(18)2710..3483(+)
Misc Feature(19)3436..4254(+)
Misc Feature(20)3439..3510(+)
Misc Feature(21)3550..3627(+)
Misc Feature(22)3559..4248(+)
Misc Feature(23)3646..3711(+)
Misc Feature(24)3724..3789(+)
Misc Feature(25)3847..3930(+)
Misc Feature(26)4171..4251(+)
Misc Feature(27)4252..4410(+)
Misc Feature(28)4294..4305(+)
Misc Feature(29)4348..4350(+)
Misc Feature(30)4348..4350(+)
Misc Feature(31)4408..5166(+)
Misc Feature(32)4411..4482(+)
Misc Feature(33)4516..4587(+)
Misc Feature(34)4528..5031(+)
Misc Feature(35)4606..4677(+)
Misc Feature(36)4714..4779(+)
Misc Feature(37)4825..4893(+)
Misc Feature(38)5089..5163(+)
Exon (1)1..270
Gene:SCN10A
Gene Synonym:
Exon (2)271..389
Gene:SCN10A
Gene Synonym:
Exon (3)390..470
Gene:SCN10A
Gene Synonym:
Exon (4)471..599
Gene:SCN10A
Gene Synonym:
Exon (5)600..691
Gene:SCN10A
Gene Synonym:
Exon (6)692..883
Gene:SCN10A
Gene Synonym:
Exon (7)884..950
Gene:SCN10A
Gene Synonym:
Exon (8)951..1092
Gene:SCN10A
Gene Synonym:
Exon (9)1093..1290
Gene:SCN10A
Gene Synonym:
Exon (10)1291..1461
Gene:SCN10A
Gene Synonym:
Exon (11)1462..1755
Gene:SCN10A
Gene Synonym:
Exon (12)1756..1867
Gene:SCN10A
Gene Synonym:
Exon (13)1868..2106
Gene:SCN10A
Gene Synonym:
Exon (14)2107..2280
Gene:SCN10A
Gene Synonym:
Exon (15)2281..2640
Gene:SCN10A
Gene Synonym:
Exon (16)2641..3087
Gene:SCN10A
Gene Synonym:
Exon (17)3088..3225
Gene:SCN10A
Gene Synonym:
Exon (18)3226..3349
Gene:SCN10A
Gene Synonym:
Exon (19)3350..3504
Gene:SCN10A
Gene Synonym:
Exon (20)3505..3678
Gene:SCN10A
Gene Synonym:
Exon (21)3679..3801
Gene:SCN10A
Gene Synonym:
Exon (22)3802..4086
Gene:SCN10A
Gene Synonym:
Exon (23)4087..4140
Gene:SCN10A
Gene Synonym:
Exon (24)4141..4278
Gene:SCN10A
Gene Synonym:
Exon (25)4279..4383
Gene:SCN10A
Gene Synonym:
Exon (26)4384..4654
Gene:SCN10A
Gene Synonym:
Exon (27)4655..5871
Gene:SCN10A
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001293306
Organism Homo sapiens (human)
Definition Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001293306

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
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCG TGGTTCAGTT TATTTATTAC GGTCACTATT
TTGGTTAATT GTGTGTGCAT GACCCGAACT GACCTTCCAG AGAAAATTGA ATATGTCTTC
ACTGTCATTT ACACCTTTGA AGCCTTGATA AAGATACTGG CAAGAGGATT TTGTCTAAAT
GAGTTCACGT ACCTGAGAGA TCCTTGGAAC TGGCTGGATT TTAGCGTCAT TACCCTGGCA
TATGTTGGCA CAGCAATAGA TCTCCGTGGG ATCTCAGGCC TGCGGACATT CAGAGTTCTT
AGAGCATTAA AAACAGTTTC TGTGATCCCA GGCCTGAAGG TCATTGTGGG GGCCCTGATT
CACTCAGTGA AGAAACTGGC TGATGTGACC ATCCTCACCA TCTTCTGCCT AAGTGTTTTT
GCCTTGGTGG GGCTGCAACT CTTCAAGGGC AACCTCAAAA ATAAATGTGT CAAGAATGAC
ATGGCTGTCA ATGAGACAAC CAACTACTCA TCTCACAGAA AACCAGATAT CTACATAAAT
AAGCGAGGCA CTTCTGACCC CTTACTGTGT GGCAATGGAT CTGACTCAGG CCACTGCCCT
GATGGTTATA TCTGCCTTAA AACTTCTGAC AACCCGGATT TTAACTACAC CAGCTTTGAT
TCCTTTGCTT GGGCTTTCCT CTCACTGTTC CGCCTCATGA CACAGGATTC CTGGGAACGC
CTCTACCAGC AGACCCTGAG GACTTCTGGG AAAATCTATA TGATCTTTTT TGTGCTCGTA
ATCTTCCTGG GATCTTTCTA CCTGGTCAAC TTGATCTTGG CTGTAGTCAC CATGGCGTAT
GAGGAGCAGA ACCAGGCAAC CACTGATGAA ATTGAAGCAA AGGAGAAGAA GTTCCAGGAG
GCCCTCGAGA TGCTCCGGAA GGAGCAGGAG GTGCTAGCAG CACTAGGGAT TGACACAACC
TCTCTCCACT CCCACAATGG ATCACCTTTA ACCTCCAAAA ATGCCAGTGA GAGAAGGCAT
AGAATAAAGC CAAGAGTGTC AGAGGGCTCC ACAGAAGACA ACAAATCACC CCGCTCTGAT
CCTTACAACC AGCGCAGGAT GTCTTTTCTA GGCCTCGCCT CTGGAAAACG CCGGGCTAGT
CATGGCAGTG TGTTCCATTT CCGGTCCCCT GGCCGAGATA TCTCACTCCC TGAGGGAGTC
ACAGATGATG GAGTCTTTCC TGGAGACCAC GAAAGCCATC GGGGCTCTCT GCTGCTGGGT
GGGGGTGCTG GCCAGCAAGG CCCCCTCCCT AGAAGCCCTC TTCCTCAACC CAGCAACCCT
GACTCCAGGC ATGGAGAAGA TGAACACCAA CCGCCGCCCA CTAGTGAGCT TGCCCCTGGA
GCTGTCGATG TCTCGGCATT CGATGCAGGA CAAAAGAAGA CTTTCTTGTC AGCAGAATAC
TTAGATGAAC CTTTCCGGGC CCAAAGGGCA ATGAGTGTTG TCAGTATCAT AACCTCCGTC
CTTGAGGAAC TCGAGGAGTC TGAACAGAAG TGCCCACCCT GCTTGACCAG CTTGTCTCAG
AAGTATCTGA TCTGGGATTG CTGCCCCATG TGGGTGAAGC TCAAGACAAT TCTCTTTGGG
CTTGTGACGG ATCCCTTTGC AGAGCTCACC ATCACCTTGT GCATCGTGGT GAACACCATC
TTCATGGCCA TGGAGCACCA TGGCATGAGC CCTACCTTCG AAGCCATGCT CCAGATAGGC
AACATCGTCT TTACCATATT TTTTACTGCT GAAATGGTCT TCAAAATCAT TGCCTTCGAC
CCATACTATT ATTTCCAGAA GAAGTGGAAT ATCTTTGACT GCATCATCGT CACTGTGAGT
CTGCTAGAGC TGGGCGTGGC CAAGAAGGGA AGCCTGTCTG TGCTGCGGAG CTTCCGCTTG
CTGCGCGTAT TCAAGCTGGC CAAATCCTGG CCCACCTTAA ACACACTCAT CAAGATCATC
GGAAACTCAG TGGGGGCACT GGGGAACCTC ACCATCATCC TGGCCATCAT TGTCTTTGTC
TTTGCTCTGG TTGGCAAGCA GCTCCTAGGG GAAAACTACC GTAACAACCG AAAAAATATC
TCCGCGCCCC ATGAAGACTG GCCCCGCTGG CACATGCACG ACTTCTTCCA CTCTTTCCTC
ATTGTCTTCC GTATCCTCTG TGGAGAGTGG ATTGAGAACA TGTGGGCCTG CATGGAAGTT
GGCCAAAAAT CCATATGCCT CATCCTTTTC TTGACGGTGA TGGTGCTAGG GAACCTGGTG
GTGCTTAACC TGTTCATCGC CCTGCTATTG AACTCTTTCA GTGCTGACAA CCTCACAGCC
CCGGAGGACG ATGGGGAGGT GAACAACCTG CAGGTGGCCC TGGCACGGAT CCAGGTCTTT
GGCCATCGTA CCAAACAGGC TCTTTGCAGC TTCTTCAGCA GGTCCTGCCC ATTCCCCCAG
CCCAAGGCAG AGCCTGAGCT GGTGGTGAAA CTCCCACTCT CCAGCTCCAA GGCTGAGAAC
CACATTGCTG CCAACACTGC CAGGGGGAGC TCTGGAGGGC TCCAAGCTCC CAGAGGCCCC
AGGGATGAGC ACAGTGACTT CATCGCTAAT CCGACTGTGT GGGTCTCTGT GCCCATTGCT
GAGGGTGAAT CTGATCTTGA TGACTTGGAG GATGATGGTG GGGAAGATGC TCAGAGCTTC
CAGCAGGAAG TGATCCCCAA AGGACAGGAG CAGCTGCAGC AAGTCGAGAG GTGTGGGGAC
CACCTGACAC CCAGGAGCCC AGGCACTGGA ACATCTTCTG AGGACCTGGC TCCATCCCTG
GGTGAGACGT GGAAAGATGA GTCTGTTCCT CAGGTCCCTG CTGAGGGAGT GGACGACACA
AGCTCCTCTG AGGGCAGCAC GGTGGACTGC CTAGATCCTG AGGAAATCCT GAGGAAGATC
CCTGAGCTGG CAGATGACCT GGAAGAACCA GATGACTGCT TCACAGAAGG ATGCATTCGC
CACTGTCCCT GCTGCAAACT GGATACCACC AAGAGTCCAT GGGATGTGGG CTGGCAGGTG
CGCAAGACTT GCTACCGTAT CGTGGAGCAC AGCTGGTTTG AGAGCTTCAT CATCTTCATG
ATCCTGCTCA GCAGTGGATC TCTGGCCTTT GAAGACTATT ACCTGGACCA GAAGCCCACG
GTGAAAGCTT TGCTGGAGTA CACTGACAGG GTCTTCACCT TTATCTTTGT GTTCGAGATG
CTGCTTAAGT GGGTGGCCTA TGGCTTCAAA AAGTACTTCA CCAATGCCTG GTGCTGGCTG
GACTTCCTCA TTGTGAATAT CTCACTGATA AGTCTCACAG CGAAGATTCT GGAATATTCT
GAAGTGGCTC CCATCAAAGC CCTTCGAACC CTTCGCGCTC TGCGGCCACT GCGGGCTCTT
TCTCGATTTG AAGGCATGCG GGTGGTGGTG GATGCCCTGG TGGGCGCCAT CCCATCCATC
ATGAATGTCC TCCTCGTCTG CCTCATCTTC TGGCTCATCT TCAGCATCAT GGGTGTGAAC
CTCTTCGCAG GGAAGTTTTG GAGGTGCATC AACTATACCG ATGGAGAGTT TTCCCTTGTA
CCTTTGTCGA TTGTGAATAA CAAGTCTGAC TGCAAGATTC AAAACTCCAC TGGCAGCTTC
TTCTGGGTCA ATGTGAAAGT CAACTTTGAT AATGTTGCAA TGGGTTACCT TGCACTTCTG
CAGGTGGCAA CCTTTAAAGG CTGGATGGAC ATTATGTATG CAGCTGTTGA TTCCCGGGAG
GTCAACATGC AACCCAAGTG GGAGGACAAC GTGTACATGT ATTTGTACTT TGTCATCTTC
ATCATTTTTG GAGGCTTCTT CACACTGAAT CTCTTTGTTG GGGTCATAAT TGACAACTTC
AATCAACAGA AAAAAAAGTT AGGGGGCCAG GACATCTTCA TGACAGAGGA GCAGAAGAAA
TACTACAATG CCATGAAGAA GTTGGGCTCC AAGAAGCCCC AGAAGCCCAT CCCACGGCCC
CTGAACAAGT TCCAGGGTTT TGTCTTTGAC ATCGTGACCA GACAAGCTTT TGACATCACC
ATCATGGTCC TCATCTGCCT CAACATGATC ACCATGATGG TGGAGACTGA TGACCAAAGT
GAAGAAAAGA CGAAAATTCT GGGCAAAATC AACCAGTTCT TTGTGGCCGT CTTCACAGGC
GAATGTGTCA TGAAGATGTT CGCTTTGAGG CAGTACTACT TCACAAATGG CTGGAATGTG
TTTGACTTCA TTGTGGTGGT TCTCTCCATT GCGAGCCTGA TTTTTTCTGC AATTCTTAAG
TCACTTCAAA GTTACTTCTC CCCAACGCTC TTCAGAGTCA TCCGCCTGGC CCGAATTGGC
CGCATCCTCA GACTGATCCG AGCGGCCAAG GGGATCCGCA CACTGCTCTT TGCCCTCATG
ATGTCCCTGC CTGCCCTCTT CAACATCGGG CTGTTGCTAT TCCTTGTCAT GTTCATCTAC
TCTATCTTCG GTATGTCCAG CTTTCCCCAT GTGAGGTGGG AGGCTGGCAT CGACGACATG
TTCAACTTCC AGACCTTCGC CAACAGCATG CTGTGCCTCT TCCAGATTAC CACGTCGGCC
GGCTGGGATG GCCTCCTCAG CCCCATCCTC AACACAGGGC CCCCCTACTG TGACCCCAAT
CTGCCCAACA GCAATGGCAC CAGAGGGGAC TGTGGGAGCC CAGCCGTAGG CATCATCTTC
TTCACCACCT ACATCATCAT CTCCTTCCTC ATCGTGGTCA ACATGTACAT TGCAGTGATT
CTGGAGAACT TCAATGTGGC CACGGAGGAG AGCACTGAGC CCCTGAGTGA GGACGACTTT
GACATGTTCT ATGAGACCTG GGAGAAGTTT GACCCAGAGG CCACTCAGTT TATTACCTTT
TCTGCTCTCT CGGACTTTGC AGACACTCTC TCTGGTCCCC TGAGAATCCC AAAACCCAAT
CGAAATATAC TGATCCAGAT GGACCTGCCT TTGGTCCCTG GAGATAAGAT CCACTGCTTG
GACATCCTTT TTGCTTTCAC CAAGAATGTC CTAGGAGAAT CCGGGGAGTT GGATTCTCTG
AAGGCAAATA TGGAGGAGAA GTTTATGGCA ACTAATCTTT CAAAATCATC CTATGAACCA
ATAGCAACCA CTCTCCGATG GAAGCAAGAA GACATTTCAG CCACTGTCAT TCAAAAGGCC
TATCGGAGCT ATGTGCTGCA CCGCTCCATG GCACTCTCTA ACACCCCATG TGTGCCCAGA
GCTGAGGAGG AGGCTGCATC ACTCCCAGAT GAAGGTTTTG TTGCATTCAC AGCAAATGAA
AATTGTGTAC TCCCAGACAA ATCTGAAACT GCTTCTGCCA CATCATTCCC ACCGTCCTAT
GAGAGTGTCA CTAGAGGCCT TAGTGATAGA GTCAACATGA GGACATCTAG CTCAATACAA
AATGAAGATG AAGCCACCAG TATGGAGCTG ATTGCCCCTG GGCCCTAG

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

CloneID OHu60386
Clone ID Related Accession (Same CDS sequence) NM_001293307
Accession Version NM_001293307.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5577bp)
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 15-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 10 subunit alpha isoform 3
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC116038.3, AC137625.2 and AF117907.1. On Oct 2, 2014 this sequence version replaced gi:648216357. Transcript Variant: This variant (3) lacks an exon in the coding region, compared to variant 1. The encoded isoform (3) is shorter, compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2144333 [ECO:0000350] ##Evidence-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCG TGGTTCAGTT TATTTATTAC GGTCACTATT
TTGGTTAATT GTGTGTGCAT GACCCGAACT GACCTTCCAG AGAAAATTGA ATATGTCTTC
ACTGTCATTT ACACCTTTGA AGCCTTGATA AAGATACTGG CAAGAGGATT TTGTCTAAAT
GAGTTCACGT ACCTGAGAGA TCCTTGGAAC TGGCTGGATT TTAGCGTCAT TACCCTGGCA
TATGTTGGCA CAGCAATAGA TCTCCGTGGG ATCTCAGGCC TGCGGACATT CAGAGTTCTT
AGAGCATTAA AAACAGTTTC TGTGATCCCA GGCCTGAAGG TCATTGTGGG GGCCCTGATT
CACTCAGTGA AGAAACTGGC TGATGTGACC ATCCTCACCA TCTTCTGCCT AAGTGTTTTT
GCCTTGGTGG GGCTGCAACT CTTCAAGGGC AACCTCAAAA ATAAATGTGT CAAGAATGAC
ATGGCTGTCA ATGAGACAAC CAACTACTCA TCTCACAGAA AACCAGATAT CTACATAAAT
AAGCGAGGCA CTTCTGACCC CTTACTGTGT GGCAATGGAT CTGACTCAGG CCACTGCCCT
GATGGTTATA TCTGCCTTAA AACTTCTGAC AACCCGGATT TTAACTACAC CAGCTTTGAT
TCCTTTGCTT GGGCTTTCCT CTCACTGTTC CGCCTCATGA CACAGGATTC CTGGGAACGC
CTCTACCAGC AGACCCTGAG GACTTCTGGG AAAATCTATA TGATCTTTTT TGTGCTCGTA
ATCTTCCTGG GATCTTTCTA CCTGGTCAAC TTGATCTTGG CTGTAGTCAC CATGGCGTAT
GAGGAGCAGA ACCAGGCAAC CACTGATGAA ATTGAAGCAA AGGAGAAGAA GTTCCAGGAG
GCCCTCGAGA TGCTCCGGAA GGAGCAGGAG GTGCTAGCAG CACTAGGGAT TGACACAACC
TCTCTCCACT CCCACAATGG ATCACCTTTA ACCTCCAAAA ATGCCAGTGA GAGAAGGCAT
AGAATAAAGC CAAGAGTGTC AGAGGGCTCC ACAGAAGACA ACAAATCACC CCGCTCTGAT
CCTTACAACC AGCGCAGGAT GGCATTCGAT GCAGGACAAA AGAAGACTTT CTTGTCAGCA
GAATACTTAG ATGAACCTTT CCGGGCCCAA AGGGCAATGA GTGTTGTCAG TATCATAACC
TCCGTCCTTG AGGAACTCGA GGAGTCTGAA CAGAAGTGCC CACCCTGCTT GACCAGCTTG
TCTCAGAAGT ATCTGATCTG GGATTGCTGC CCCATGTGGG TGAAGCTCAA GACAATTCTC
TTTGGGCTTG TGACGGATCC CTTTGCAGAG CTCACCATCA CCTTGTGCAT CGTGGTGAAC
ACCATCTTCA TGGCCATGGA GCACCATGGC ATGAGCCCTA CCTTCGAAGC CATGCTCCAG
ATAGGCAACA TCGTCTTTAC CATATTTTTT ACTGCTGAAA TGGTCTTCAA AATCATTGCC
TTCGACCCAT ACTATTATTT CCAGAAGAAG TGGAATATCT TTGACTGCAT CATCGTCACT
GTGAGTCTGC TAGAGCTGGG CGTGGCCAAG AAGGGAAGCC TGTCTGTGCT GCGGAGCTTC
CGCTTGCTGC GCGTATTCAA GCTGGCCAAA TCCTGGCCCA CCTTAAACAC ACTCATCAAG
ATCATCGGAA ACTCAGTGGG GGCACTGGGG AACCTCACCA TCATCCTGGC CATCATTGTC
TTTGTCTTTG CTCTGGTTGG CAAGCAGCTC CTAGGGGAAA ACTACCGTAA CAACCGAAAA
AATATCTCCG CGCCCCATGA AGACTGGCCC CGCTGGCACA TGCACGACTT CTTCCACTCT
TTCCTCATTG TCTTCCGTAT CCTCTGTGGA GAGTGGATTG AGAACATGTG GGCCTGCATG
GAAGTTGGCC AAAAATCCAT ATGCCTCATC CTTTTCTTGA CGGTGATGGT GCTAGGGAAC
CTGGTGGTGC TTAACCTGTT CATCGCCCTG CTATTGAACT CTTTCAGTGC TGACAACCTC
ACAGCCCCGG AGGACGATGG GGAGGTGAAC AACCTGCAGG TGGCCCTGGC ACGGATCCAG
GTCTTTGGCC ATCGTACCAA ACAGGCTCTT TGCAGCTTCT TCAGCAGGTC CTGCCCATTC
CCCCAGCCCA AGGCAGAGCC TGAGCTGGTG GTGAAACTCC CACTCTCCAG CTCCAAGGCT
GAGAACCACA TTGCTGCCAA CACTGCCAGG GGGAGCTCTG GAGGGCTCCA AGCTCCCAGA
GGCCCCAGGG ATGAGCACAG TGACTTCATC GCTAATCCGA CTGTGTGGGT CTCTGTGCCC
ATTGCTGAGG GTGAATCTGA TCTTGATGAC TTGGAGGATG ATGGTGGGGA AGATGCTCAG
AGCTTCCAGC AGGAAGTGAT CCCCAAAGGA CAGCAGGAGC AGCTGCAGCA AGTCGAGAGG
TGTGGGGACC ACCTGACACC CAGGAGCCCA GGCACTGGAA CATCTTCTGA GGACCTGGCT
CCATCCCTGG GTGAGACGTG GAAAGATGAG TCTGTTCCTC AGGTCCCTGC TGAGGGAGTG
GACGACACAA GCTCCTCTGA GGGCAGCACG GTGGACTGCC TAGATCCTGA GGAAATCCTG
AGGAAGATCC CTGAGCTGGC AGATGACCTG GAAGAACCAG ATGACTGCTT CACAGAAGGA
TGCATTCGCC ACTGTCCCTG CTGCAAACTG GATACCACCA AGAGTCCATG GGATGTGGGC
TGGCAGGTGC GCAAGACTTG CTACCGTATC GTGGAGCACA GCTGGTTTGA GAGCTTCATC
ATCTTCATGA TCCTGCTCAG CAGTGGATCT CTGGCCTTTG AAGACTATTA CCTGGACCAG
AAGCCCACGG TGAAAGCTTT GCTGGAGTAC ACTGACAGGG TCTTCACCTT TATCTTTGTG
TTCGAGATGC TGCTTAAGTG GGTGGCCTAT GGCTTCAAAA AGTACTTCAC CAATGCCTGG
TGCTGGCTGG ACTTCCTCAT TGTGAATATC TCACTGATAA GTCTCACAGC GAAGATTCTG
GAATATTCTG AAGTGGCTCC CATCAAAGCC CTTCGAACCC TTCGCGCTCT GCGGCCACTG
CGGGCTCTTT CTCGATTTGA AGGCATGCGG GTGGTGGTGG ATGCCCTGGT GGGCGCCATC
CCATCCATCA TGAATGTCCT CCTCGTCTGC CTCATCTTCT GGCTCATCTT CAGCATCATG
GGTGTGAACC TCTTCGCAGG GAAGTTTTGG AGGTGCATCA ACTATACCGA TGGAGAGTTT
TCCCTTGTAC CTTTGTCGAT TGTGAATAAC AAGTCTGACT GCAAGATTCA AAACTCCACT
GGCAGCTTCT TCTGGGTCAA TGTGAAAGTC AACTTTGATA ATGTTGCAAT GGGTTACCTT
GCACTTCTGC AGGTGGCAAC CTTTAAAGGC TGGATGGACA TTATGTATGC AGCTGTTGAT
TCCCGGGAGG TCAACATGCA ACCCAAGTGG GAGGACAACG TGTACATGTA TTTGTACTTT
GTCATCTTCA TCATTTTTGG AGGCTTCTTC ACACTGAATC TCTTTGTTGG GGTCATAATT
GACAACTTCA ATCAACAGAA AAAAAAGTTA GGGGGCCAGG ACATCTTCAT GACAGAGGAG
CAGAAGAAAT ACTACAATGC CATGAAGAAG TTGGGCTCCA AGAAGCCCCA GAAGCCCATC
CCACGGCCCC TGAACAAGTT CCAGGGTTTT GTCTTTGACA TCGTGACCAG ACAAGCTTTT
GACATCACCA TCATGGTCCT CATCTGCCTC AACATGATCA CCATGATGGT GGAGACTGAT
GACCAAAGTG AAGAAAAGAC GAAAATTCTG GGCAAAATCA ACCAGTTCTT TGTGGCCGTC
TTCACAGGCG AATGTGTCAT GAAGATGTTC GCTTTGAGGC AGTACTACTT CACAAATGGC
TGGAATGTGT TTGACTTCAT TGTGGTGGTT CTCTCCATTG CGAGCCTGAT TTTTTCTGCA
ATTCTTAAGT CACTTCAAAG TTACTTCTCC CCAACGCTCT TCAGAGTCAT CCGCCTGGCC
CGAATTGGCC GCATCCTCAG ACTGATCCGA GCGGCCAAGG GGATCCGCAC ACTGCTCTTT
GCCCTCATGA TGTCCCTGCC TGCCCTCTTC AACATCGGGC TGTTGCTATT CCTTGTCATG
TTCATCTACT CTATCTTCGG TATGTCCAGC TTTCCCCATG TGAGGTGGGA GGCTGGCATC
GACGACATGT TCAACTTCCA GACCTTCGCC AACAGCATGC TGTGCCTCTT CCAGATTACC
ACGTCGGCCG GCTGGGATGG CCTCCTCAGC CCCATCCTCA ACACAGGGCC CCCCTACTGT
GACCCCAATC TGCCCAACAG CAATGGCACC AGAGGGGACT GTGGGAGCCC AGCCGTAGGC
ATCATCTTCT TCACCACCTA CATCATCATC TCCTTCCTCA TCGTGGTCAA CATGTACATT
GCAGTGATTC TGGAGAACTT CAATGTGGCC ACGGAGGAGA GCACTGAGCC CCTGAGTGAG
GACGACTTTG ACATGTTCTA TGAGACCTGG GAGAAGTTTG ACCCAGAGGC CACTCAGTTT
ATTACCTTTT CTGCTCTCTC GGACTTTGCA GACACTCTCT CTGGTCCCCT GAGAATCCCA
AAACCCAATC GAAATATACT GATCCAGATG GACCTGCCTT TGGTCCCTGG AGATAAGATC
CACTGCTTGG ACATCCTTTT TGCTTTCACC AAGAATGTCC TAGGAGAATC CGGGGAGTTG
GATTCTCTGA AGGCAAATAT GGAGGAGAAG TTTATGGCAA CTAATCTTTC AAAATCATCC
TATGAACCAA TAGCAACCAC TCTCCGATGG AAGCAAGAAG ACATTTCAGC CACTGTCATT
CAAAAGGCCT ATCGGAGCTA TGTGCTGCAC CGCTCCATGG CACTCTCTAA CACCCCATGT
GTGCCCAGAG CTGAGGAGGA GGCTGCATCA CTCCCAGATG AAGGTTTTGT TGCATTCACA
GCAAATGAAA ATTGTGTACT CCCAGACAAA TCTGAAACTG CTTCTGCCAC ATCATTCCCA
CCGTCCTATG AGAGTGTCAC TAGAGGCCTT AGTGATAGAG TCAACATGAG GACATCTAGC
TCAATACAAA ATGAAGATGA AGCCACCAGT ATGGAGCTGA TTGCCCCTGG GCCCTAG

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

RefSeq NP_001280236.2
CDS1..5577
Misc Feature(1)373..1200(+)
Misc Feature(2)376..447(+)
Misc Feature(3)463..522(+)
Misc Feature(4)466..1188(+)
Misc Feature(5)562..618(+)
Misc Feature(6)637..696(+)
Misc Feature(7)745..816(+)
Misc Feature(8)1120..1197(+)
Misc Feature(9)1801..2373(+)
Misc Feature(10)2416..3192(+)
Misc Feature(11)3268..3957(+)
Misc Feature(12)3961..4119(+)
Misc Feature(13)4003..4014(+)
Misc Feature(14)4057..4059(+)
Misc Feature(15)4237..4740(+)
Exon (1)1..270
Gene:SCN10A
Gene Synonym:
Exon (2)271..389
Gene:SCN10A
Gene Synonym:
Exon (3)390..470
Gene:SCN10A
Gene Synonym:
Exon (4)471..599
Gene:SCN10A
Gene Synonym:
Exon (5)600..691
Gene:SCN10A
Gene Synonym:
Exon (6)692..883
Gene:SCN10A
Gene Synonym:
Exon (7)884..950
Gene:SCN10A
Gene Synonym:
Exon (8)951..1092
Gene:SCN10A
Gene Synonym:
Exon (9)1093..1290
Gene:SCN10A
Gene Synonym:
Exon (10)1291..1461
Gene:SCN10A
Gene Synonym:
Exon (11)1462..1573
Gene:SCN10A
Gene Synonym:
Exon (12)1574..1812
Gene:SCN10A
Gene Synonym:
Exon (13)1813..1986
Gene:SCN10A
Gene Synonym:
Exon (14)1987..2346
Gene:SCN10A
Gene Synonym:
Exon (15)2347..2793
Gene:SCN10A
Gene Synonym:
Exon (16)2794..2934
Gene:SCN10A
Gene Synonym:
Exon (17)2935..3058
Gene:SCN10A
Gene Synonym:
Exon (18)3059..3213
Gene:SCN10A
Gene Synonym:
Exon (19)3214..3387
Gene:SCN10A
Gene Synonym:
Exon (20)3388..3510
Gene:SCN10A
Gene Synonym:
Exon (21)3511..3795
Gene:SCN10A
Gene Synonym:
Exon (22)3796..3849
Gene:SCN10A
Gene Synonym:
Exon (23)3850..3987
Gene:SCN10A
Gene Synonym:
Exon (24)3988..4092
Gene:SCN10A
Gene Synonym:
Exon (25)4093..4363
Gene:SCN10A
Gene Synonym:
Exon (26)4364..5580
Gene:SCN10A
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001293307
Organism Homo sapiens (human)
Definition Homo sapiens sodium channel, voltage gated, type X alpha subunit (SCN10A), transcript variant 3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001293307

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
ATGGAATTCC CCATTGGATC CCTCGAAACT AACAACTTCC GTCGCTTTAC TCCGGAGTCA 
CTGGTGGAGA TAGAGAAGCA AATTGCTGCC AAGCAGGGAA CAAAGAAAGC CAGAGAGAAG
CATAGGGAGC AGAAGGACCA AGAAGAGAAG CCTCGGCCCC AGCTGGACTT GAAAGCCTGC
AACCAGCTGC CCAAGTTCTA TGGTGAGCTC CCAGCAGAAC TGATCGGGGA GCCCCTGGAG
GATCTAGATC CGTTCTACAG CACACACCGG ACATTTATGG TGCTGAACAA AGGGAGGACC
ATTTCCCGGT TTAGTGCCAC TCGGGCCCTG TGGCTATTCA GTCCTTTCAA CCTGATCAGA
AGAACGGCCA TCAAAGTGTC TGTCCACTCG TGGTTCAGTT TATTTATTAC GGTCACTATT
TTGGTTAATT GTGTGTGCAT GACCCGAACT GACCTTCCAG AGAAAATTGA ATATGTCTTC
ACTGTCATTT ACACCTTTGA AGCCTTGATA AAGATACTGG CAAGAGGATT TTGTCTAAAT
GAGTTCACGT ACCTGAGAGA TCCTTGGAAC TGGCTGGATT TTAGCGTCAT TACCCTGGCA
TATGTTGGCA CAGCAATAGA TCTCCGTGGG ATCTCAGGCC TGCGGACATT CAGAGTTCTT
AGAGCATTAA AAACAGTTTC TGTGATCCCA GGCCTGAAGG TCATTGTGGG GGCCCTGATT
CACTCAGTGA AGAAACTGGC TGATGTGACC ATCCTCACCA TCTTCTGCCT AAGTGTTTTT
GCCTTGGTGG GGCTGCAACT CTTCAAGGGC AACCTCAAAA ATAAATGTGT CAAGAATGAC
ATGGCTGTCA ATGAGACAAC CAACTACTCA TCTCACAGAA AACCAGATAT CTACATAAAT
AAGCGAGGCA CTTCTGACCC CTTACTGTGT GGCAATGGAT CTGACTCAGG CCACTGCCCT
GATGGTTATA TCTGCCTTAA AACTTCTGAC AACCCGGATT TTAACTACAC CAGCTTTGAT
TCCTTTGCTT GGGCTTTCCT CTCACTGTTC CGCCTCATGA CACAGGATTC CTGGGAACGC
CTCTACCAGC AGACCCTGAG GACTTCTGGG AAAATCTATA TGATCTTTTT TGTGCTCGTA
ATCTTCCTGG GATCTTTCTA CCTGGTCAAC TTGATCTTGG CTGTAGTCAC CATGGCGTAT
GAGGAGCAGA ACCAGGCAAC CACTGATGAA ATTGAAGCAA AGGAGAAGAA GTTCCAGGAG
GCCCTCGAGA TGCTCCGGAA GGAGCAGGAG GTGCTAGCAG CACTAGGGAT TGACACAACC
TCTCTCCACT CCCACAATGG ATCACCTTTA ACCTCCAAAA ATGCCAGTGA GAGAAGGCAT
AGAATAAAGC CAAGAGTGTC AGAGGGCTCC ACAGAAGACA ACAAATCACC CCGCTCTGAT
CCTTACAACC AGCGCAGGAT GGCATTCGAT GCAGGACAAA AGAAGACTTT CTTGTCAGCA
GAATACTTAG ATGAACCTTT CCGGGCCCAA AGGGCAATGA GTGTTGTCAG TATCATAACC
TCCGTCCTTG AGGAACTCGA GGAGTCTGAA CAGAAGTGCC CACCCTGCTT GACCAGCTTG
TCTCAGAAGT ATCTGATCTG GGATTGCTGC CCCATGTGGG TGAAGCTCAA GACAATTCTC
TTTGGGCTTG TGACGGATCC CTTTGCAGAG CTCACCATCA CCTTGTGCAT CGTGGTGAAC
ACCATCTTCA TGGCCATGGA GCACCATGGC ATGAGCCCTA CCTTCGAAGC CATGCTCCAG
ATAGGCAACA TCGTCTTTAC CATATTTTTT ACTGCTGAAA TGGTCTTCAA AATCATTGCC
TTCGACCCAT ACTATTATTT CCAGAAGAAG TGGAATATCT TTGACTGCAT CATCGTCACT
GTGAGTCTGC TAGAGCTGGG CGTGGCCAAG AAGGGAAGCC TGTCTGTGCT GCGGAGCTTC
CGCTTGCTGC GCGTATTCAA GCTGGCCAAA TCCTGGCCCA CCTTAAACAC ACTCATCAAG
ATCATCGGAA ACTCAGTGGG GGCACTGGGG AACCTCACCA TCATCCTGGC CATCATTGTC
TTTGTCTTTG CTCTGGTTGG CAAGCAGCTC CTAGGGGAAA ACTACCGTAA CAACCGAAAA
AATATCTCCG CGCCCCATGA AGACTGGCCC CGCTGGCACA TGCACGACTT CTTCCACTCT
TTCCTCATTG TCTTCCGTAT CCTCTGTGGA GAGTGGATTG AGAACATGTG GGCCTGCATG
GAAGTTGGCC AAAAATCCAT ATGCCTCATC CTTTTCTTGA CGGTGATGGT GCTAGGGAAC
CTGGTGGTGC TTAACCTGTT CATCGCCCTG CTATTGAACT CTTTCAGTGC TGACAACCTC
ACAGCCCCGG AGGACGATGG GGAGGTGAAC AACCTGCAGG TGGCCCTGGC ACGGATCCAG
GTCTTTGGCC ATCGTACCAA ACAGGCTCTT TGCAGCTTCT TCAGCAGGTC CTGCCCATTC
CCCCAGCCCA AGGCAGAGCC TGAGCTGGTG GTGAAACTCC CACTCTCCAG CTCCAAGGCT
GAGAACCACA TTGCTGCCAA CACTGCCAGG GGGAGCTCTG GAGGGCTCCA AGCTCCCAGA
GGCCCCAGGG ATGAGCACAG TGACTTCATC GCTAATCCGA CTGTGTGGGT CTCTGTGCCC
ATTGCTGAGG GTGAATCTGA TCTTGATGAC TTGGAGGATG ATGGTGGGGA AGATGCTCAG
AGCTTCCAGC AGGAAGTGAT CCCCAAAGGA CAGCAGGAGC AGCTGCAGCA AGTCGAGAGG
TGTGGGGACC ACCTGACACC CAGGAGCCCA GGCACTGGAA CATCTTCTGA GGACCTGGCT
CCATCCCTGG GTGAGACGTG GAAAGATGAG TCTGTTCCTC AGGTCCCTGC TGAGGGAGTG
GACGACACAA GCTCCTCTGA GGGCAGCACG GTGGACTGCC TAGATCCTGA GGAAATCCTG
AGGAAGATCC CTGAGCTGGC AGATGACCTG GAAGAACCAG ATGACTGCTT CACAGAAGGA
TGCATTCGCC ACTGTCCCTG CTGCAAACTG GATACCACCA AGAGTCCATG GGATGTGGGC
TGGCAGGTGC GCAAGACTTG CTACCGTATC GTGGAGCACA GCTGGTTTGA GAGCTTCATC
ATCTTCATGA TCCTGCTCAG CAGTGGATCT CTGGCCTTTG AAGACTATTA CCTGGACCAG
AAGCCCACGG TGAAAGCTTT GCTGGAGTAC ACTGACAGGG TCTTCACCTT TATCTTTGTG
TTCGAGATGC TGCTTAAGTG GGTGGCCTAT GGCTTCAAAA AGTACTTCAC CAATGCCTGG
TGCTGGCTGG ACTTCCTCAT TGTGAATATC TCACTGATAA GTCTCACAGC GAAGATTCTG
GAATATTCTG AAGTGGCTCC CATCAAAGCC CTTCGAACCC TTCGCGCTCT GCGGCCACTG
CGGGCTCTTT CTCGATTTGA AGGCATGCGG GTGGTGGTGG ATGCCCTGGT GGGCGCCATC
CCATCCATCA TGAATGTCCT CCTCGTCTGC CTCATCTTCT GGCTCATCTT CAGCATCATG
GGTGTGAACC TCTTCGCAGG GAAGTTTTGG AGGTGCATCA ACTATACCGA TGGAGAGTTT
TCCCTTGTAC CTTTGTCGAT TGTGAATAAC AAGTCTGACT GCAAGATTCA AAACTCCACT
GGCAGCTTCT TCTGGGTCAA TGTGAAAGTC AACTTTGATA ATGTTGCAAT GGGTTACCTT
GCACTTCTGC AGGTGGCAAC CTTTAAAGGC TGGATGGACA TTATGTATGC AGCTGTTGAT
TCCCGGGAGG TCAACATGCA ACCCAAGTGG GAGGACAACG TGTACATGTA TTTGTACTTT
GTCATCTTCA TCATTTTTGG AGGCTTCTTC ACACTGAATC TCTTTGTTGG GGTCATAATT
GACAACTTCA ATCAACAGAA AAAAAAGTTA GGGGGCCAGG ACATCTTCAT GACAGAGGAG
CAGAAGAAAT ACTACAATGC CATGAAGAAG TTGGGCTCCA AGAAGCCCCA GAAGCCCATC
CCACGGCCCC TGAACAAGTT CCAGGGTTTT GTCTTTGACA TCGTGACCAG ACAAGCTTTT
GACATCACCA TCATGGTCCT CATCTGCCTC AACATGATCA CCATGATGGT GGAGACTGAT
GACCAAAGTG AAGAAAAGAC GAAAATTCTG GGCAAAATCA ACCAGTTCTT TGTGGCCGTC
TTCACAGGCG AATGTGTCAT GAAGATGTTC GCTTTGAGGC AGTACTACTT CACAAATGGC
TGGAATGTGT TTGACTTCAT TGTGGTGGTT CTCTCCATTG CGAGCCTGAT TTTTTCTGCA
ATTCTTAAGT CACTTCAAAG TTACTTCTCC CCAACGCTCT TCAGAGTCAT CCGCCTGGCC
CGAATTGGCC GCATCCTCAG ACTGATCCGA GCGGCCAAGG GGATCCGCAC ACTGCTCTTT
GCCCTCATGA TGTCCCTGCC TGCCCTCTTC AACATCGGGC TGTTGCTATT CCTTGTCATG
TTCATCTACT CTATCTTCGG TATGTCCAGC TTTCCCCATG TGAGGTGGGA GGCTGGCATC
GACGACATGT TCAACTTCCA GACCTTCGCC AACAGCATGC TGTGCCTCTT CCAGATTACC
ACGTCGGCCG GCTGGGATGG CCTCCTCAGC CCCATCCTCA ACACAGGGCC CCCCTACTGT
GACCCCAATC TGCCCAACAG CAATGGCACC AGAGGGGACT GTGGGAGCCC AGCCGTAGGC
ATCATCTTCT TCACCACCTA CATCATCATC TCCTTCCTCA TCGTGGTCAA CATGTACATT
GCAGTGATTC TGGAGAACTT CAATGTGGCC ACGGAGGAGA GCACTGAGCC CCTGAGTGAG
GACGACTTTG ACATGTTCTA TGAGACCTGG GAGAAGTTTG ACCCAGAGGC CACTCAGTTT
ATTACCTTTT CTGCTCTCTC GGACTTTGCA GACACTCTCT CTGGTCCCCT GAGAATCCCA
AAACCCAATC GAAATATACT GATCCAGATG GACCTGCCTT TGGTCCCTGG AGATAAGATC
CACTGCTTGG ACATCCTTTT TGCTTTCACC AAGAATGTCC TAGGAGAATC CGGGGAGTTG
GATTCTCTGA AGGCAAATAT GGAGGAGAAG TTTATGGCAA CTAATCTTTC AAAATCATCC
TATGAACCAA TAGCAACCAC TCTCCGATGG AAGCAAGAAG ACATTTCAGC CACTGTCATT
CAAAAGGCCT ATCGGAGCTA TGTGCTGCAC CGCTCCATGG CACTCTCTAA CACCCCATGT
GTGCCCAGAG CTGAGGAGGA GGCTGCATCA CTCCCAGATG AAGGTTTTGT TGCATTCACA
GCAAATGAAA ATTGTGTACT CCCAGACAAA TCTGAAACTG CTTCTGCCAC ATCATTCCCA
CCGTCCTATG AGAGTGTCAC TAGAGGCCTT AGTGATAGAG TCAACATGAG GACATCTAGC
TCAATACAAA ATGAAGATGA AGCCACCAGT ATGGAGCTGA TTGCCCCTGG GCCCTAG

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

 
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