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SCN9A cDNA ORF clone, Homo sapiens (human)

Gene Symbol SCN9A
Entrez Gene ID 6335
Full Name sodium channel, voltage gated, type IX alpha subunit
Synonyms ETHA, FEB3B, GEFSP7, HSAN2D, NE-NA, NENA, Nav1.7, PN1, SFNP
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

2

2q24

Summary This gene encodes a voltage-gated sodium channel which plays a significant role in nociception signaling. Mutations in this gene have been associated with primary erythermalgia, channelopathy-associated insensitivity to pain, and paroxysmal extreme pain disorder. [provided by RefSeq, Aug 2009]. lac of sum
Disorder MIM:

603415

Disorder Html: Erythermalgia, primary, 133020 (3); Insensitivity to pain,

mRNA and Protein(s)

mRNA Protein Name
XM_005246757 XP_005246814 sodium channel protein type 9 subunit alpha isoform X1
XM_011511616 XP_011509918 sodium channel protein type 9 subunit alpha isoform X1
XM_011511617 XP_011509919 sodium channel protein type 9 subunit alpha isoform X2
XM_011511618 XP_011509920 sodium channel protein type 9 subunit alpha isoform X3
XM_011511619 XP_011509921 sodium channel protein type 9 subunit alpha isoform X4
NM_002977 NP_002968 sodium channel protein type 9 subunit alpha



Homo sapiens (human) SCN9A NP_002968.1
Pan troglodytes (chimpanzee) SCN9A XP_003309333.2
Macaca mulatta (Rhesus monkey) SCN9A XP_001101662.2
Canis lupus familiaris (dog) SCN9A XP_005640317.1
Bos taurus (cattle) SCN9A NP_001104257.1
Mus musculus (house mouse) Scn9a NP_061340.2
Rattus norvegicus (Norway rat) Scn9a NP_579823.1
Gallus gallus (chicken) SCN9A XP_004942840.1
Xenopus (Silurana) tropicalis (western clawed frog) scn2a XP_002939316.2


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

The following SCN9A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SCN9A cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID RefSeq Accession Definition **Vector *Turnaround time Price Select
OHu36521 XM_005246757 PREDICTED: Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00
OHu36521 XM_011511616 PREDICTED: Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00
OHu60379 XM_011511617 PREDICTED: Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00
OHu60380 XM_011511618 PREDICTED: Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), transcript variant X4, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00
OHu60381 XM_011511619 PREDICTED: Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), transcript variant X5, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $811.30
$1159.00
OHu22884 NM_002977 Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $923.30
$1319.00
Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.


CloneID OHu36521
Clone ID Related Accession (Same CDS sequence) XM_005246757 , XM_011511616
Accession Version XM_005246757.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5967bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 9 subunit alpha isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_005403.18) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
5881
5941
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCGTAT
TTAACAGAAT TTGTAAACCT AGGCAATGTT TCAGCTCTTC GAACTTTCAG AGTATTGAGA
GCTTTGAAAA CTATTTCTGT AATCCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGTGATAATA GATAAGGCAA CTTCTGATGA CAGCGGCACG
ACCAATCAAA TACACAAGAA AAGGCGTTGT AGTTCCTATC TCCTTTCAGA GGATATGCTG
AATGATCCCA ACCTCAGACA GAGAGCAATG AGTAGAGCAA GCATATTAAC AAACACTGTG
GAAGAACTTG AAGAGTCCAG ACAAAAATGT CCACCTTGGT GGTACAGATT TGCACACAAA
TTCTTGATCT GGAATTGCTC TCCATATTGG ATAAAATTCA AAAAGTGTAT CTATTTTATT
GTAATGGATC CTTTTGTAGA TCTTGCAATT ACCATTTGCA TAGTTTTAAA CACATTATTT
ATGGCTATGG AACACCACCC AATGACTGAG GAATTCAAAA ATGTACTTGC TATAGGAAAT
TTGGTCTTTA CTGGAATCTT TGCAGCTGAA ATGGTATTAA AACTGATTGC CATGGATCCA
TATGAGTATT TCCAAGTAGG CTGGAATATT TTTGACAGCC TTATTGTGAC TTTAAGTTTA
GTGGAGCTCT TTCTAGCAGA TGTGGAAGGA TTGTCAGTTC TGCGATCATT CAGACTGCTC
CGAGTCTTCA AGTTGGCAAA ATCCTGGCCA ACATTGAACA TGCTGATTAA GATCATTGGT
AACTCAGTAG GGGCTCTAGG TAACCTCACC TTAGTGTTGG CCATCATCGT CTTCATTTTT
GCTGTGGTCG GCATGCAGCT CTTTGGTAAG AGCTACAAAG AATGTGTCTG CAAGATCAAT
GATGACTGTA CGCTCCCACG GTGGCACATG AACGACTTCT TCCACTCCTT CCTGATTGTG
TTCCGCGTGC TGTGTGGAGA GTGGATAGAG ACCATGTGGG ACTGTATGGA GGTCGCTGGT
CAAGCTATGT GCCTTATTGT TTACATGATG GTCATGGTCA TTGGAAACCT GGTGGTCCTA
AACCTATTTC TGGCCTTATT ATTGAGCTCA TTTAGTTCAG ACAATCTTAC AGCAATTGAA
GAAGACCCTG ATGCAAACAA CCTCCAGATT GCAGTGACTA GAATTAAAAA GGGAATAAAT
TATGTGAAAC AAACCTTACG TGAATTTATT CTAAAAGCAT TTTCCAAAAA GCCAAAGATT
TCCAGGGAGA TAAGACAAGC AGAAGATCTG AATACTAAGA AGGAAAACTA TATTTCTAAC
CATACACTTG CTGAAATGAG CAAAGGTCAC AATTTCCTCA AGGAAAAAGA TAAAATCAGT
GGTTTTGGAA GCAGCGTGGA CAAACACTTG ATGGAAGACA GTGATGGTCA ATCATTTATT
CACAATCCCA GCCTCACAGT GACAGTGCCA ATTGCACCTG GGGAATCCGA TTTGGAAAAT
ATGAATGCTG AGGAACTTAG CAGTGATTCG GATAGTGAAT ACAGCAAAGT GAGATTAAAC
CGGTCAAGCT CCTCAGAGTG CAGCACAGTT GATAACCCTT TGCCTGGAGA AGGAGAAGAA
GCAGAGGCTG AACCTATGAA TTCCGATGAG CCAGAGGCCT GTTTCACAGA TGGTTGTGTA
TGGAGGTTCT CATGCTGCCA AGTTAACATA GAGTCAGGGA AAGGAAAAAT CTGGTGGAAC
ATCAGGAAAA CCTGCTACAA GATTGTTGAA CACAGTTGGT TTGAAAGCTT CATTGTCCTC
ATGATCCTGC TCAGCAGTGG TGCCCTGGCT TTTGAAGATA TTTATATTGA AAGGAAAAAG
ACCATTAAGA TTATCCTGGA GTATGCAGAC AAGATCTTCA CTTACATCTT CATTCTGGAA
ATGCTTCTAA AATGGATAGC ATATGGTTAT AAAACATATT TCACCAATGC CTGGTGTTGG
CTGGATTTCC TAATTGTTGA TGTTTCTTTG GTTACTTTAG TGGCAAACAC TCTTGGCTAC
TCAGATCTTG GCCCCATTAA ATCCCTTCGG ACACTGAGAG CTTTAAGACC TCTAAGAGCC
TTATCTAGAT TTGAAGGAAT GAGGGTCGTT GTGAATGCAC TCATAGGAGC AATTCCTTCC
ATCATGAATG TGCTACTTGT GTGTCTTATA TTCTGGCTGA TATTCAGCAT CATGGGAGTA
AATTTGTTTG CTGGCAAGTT CTATGAGTGT ATTAACACCA CAGATGGGTC ACGGTTTCCT
GCAAGTCAAG TTCCAAATCG TTCCGAATGT TTTGCCCTTA TGAATGTTAG TCAAAATGTG
CGATGGAAAA ACCTGAAAGT GAACTTTGAT AATGTCGGAC TTGGTTACCT ATCTCTGCTT
CAAGTTGCAA CTTTTAAGGG ATGGACGATT ATTATGTATG CAGCAGTGGA TTCTGTTAAT
GTAGACAAGC AGCCCAAATA TGAATATAGC CTCTACATGT ATATTTATTT TGTCGTCTTT
ATCATCTTTG GGTCATTCTT CACTTTGAAC TTGTTCATTG GTGTCATCAT AGATAATTTC
AACCAACAGA AAAAGAAGCT TGGAGGTCAA GACATCTTTA TGACAGAAGA ACAGAAGAAA
TACTATAATG CAATGAAAAA GCTGGGGTCC AAGAAGCCAC AAAAGCCAAT TCCTCGACCA
GGGAACAAAA TCCAAGGATG TATATTTGAC CTAGTGACAA ATCAAGCCTT TGATATTAGT
ATCATGGTTC TTATCTGTCT CAACATGGTA ACCATGATGG TAGAAAAGGA GGGTCAAAGT
CAACATATGA CTGAAGTTTT ATATTGGATA AATGTGGTTT TTATAATCCT TTTCACTGGA
GAATGTGTGC TAAAACTGAT CTCCCTCAGA CACTACTACT TCACTGTAGG ATGGAATATT
TTTGATTTTG TGGTTGTGAT TATCTCCATT GTAGGTATGT TTCTAGCTGA TTTGATTGAA
ACGTATTTTG TGTCCCCTAC CCTGTTCCGA GTGATCCGTC TTGCCAGGAT TGGCCGAATC
CTACGTCTAG TCAAAGGAGC AAAGGGGATC CGCACGCTGC TCTTTGCTTT GATGATGTCC
CTTCCTGCGT TGTTTAACAT CGGCCTCCTG CTCTTCCTGG TCATGTTCAT CTACGCCATC
TTTGGAATGT CCAACTTTGC CTATGTTAAA AAGGAAGATG GAATTAATGA CATGTTCAAT
TTTGAGACCT TTGGCAACAG TATGATTTGC CTGTTCCAAA TTACAACCTC TGCTGGCTGG
GATGGATTGC TAGCACCTAT TCTTAACAGT AAGCCACCCG ACTGTGACCC AAAAAAAGTT
CATCCTGGAA GTTCAGTTGA AGGAGACTGT GGTAACCCAT CTGTTGGAAT ATTCTACTTT
GTTAGTTATA TCATCATATC CTTCCTGGTT GTGGTGAACA TGTACATTGC AGTCATACTG
GAGAATTTTA GTGTTGCCAC TGAAGAAAGT ACTGAACCTC TGAGTGAGGA TGACTTTGAG
ATGTTCTATG AGGTTTGGGA GAAGTTTGAT CCCGATGCGA CCCAGTTTAT AGAGTTCTCT
AAACTCTCTG ATTTTGCAGC TGCCCTGGAT CCTCCTCTTC TCATAGCAAA ACCCAACAAA
GTCCAGCTCA TTGCCATGGA TCTGCCCATG GTTAGTGGTG ACCGGATCCA TTGTCTTGAC
ATCTTATTTG CTTTTACAAA GCGTGTTTTG GGTGAGAGTG GGGAGATGGA TTCTCTTCGT
TCACAGATGG AAGAAAGGTT CATGTCTGCA AATCCTTCCA AAGTGTCCTA TGAACCCATC
ACAACCACAC TAAAACGGAA ACAAGAGGAT GTGTCTGCTA CTGTCATTCA GCGTGCTTAT
AGACGTTACC GCTTAAGGCA AAATGTCAAA AATATATCAA GTATATACAT AAAAGATGGA
GACAGAGATG ATGATTTACT CAATAAAAAA GATATGGCTT TTGATAATGT TAATGAGAAC
TCAAGTCCAG AAAAAACAGA TGCCACTTCA TCCACCACCT CTCCACCTTC ATATGATAGT
GTAACAAAGC CAGACAAAGA GAAATATGAA CAAGACAGAA CAGAAAAGGA AGACAAAGGG
AAAGACAGCA AGGAAAGCAA AAAATAG

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

RefSeq XP_005246814.1
CDS315..6281
Misc Feature(1)777..1517(+)
Misc Feature(2)1776..2399(+)
Misc Feature(3)2646..3182(+)
Misc Feature(4)3258..3920(+)
Misc Feature(5)3996..4682(+)
Misc Feature(6)4686..4844(+)
Misc Feature(7)4728..4739(+)
Misc Feature(8)4782..4784(+)
Misc Feature(9)4959..5591(+)
Translation

Target ORF information:

RefSeq Version XM_005246757
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005246757

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCGTAT
TTAACAGAAT TTGTAAACCT AGGCAATGTT TCAGCTCTTC GAACTTTCAG AGTATTGAGA
GCTTTGAAAA CTATTTCTGT AATCCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGTGATAATA GATAAGGCAA CTTCTGATGA CAGCGGCACG
ACCAATCAAA TACACAAGAA AAGGCGTTGT AGTTCCTATC TCCTTTCAGA GGATATGCTG
AATGATCCCA ACCTCAGACA GAGAGCAATG AGTAGAGCAA GCATATTAAC AAACACTGTG
GAAGAACTTG AAGAGTCCAG ACAAAAATGT CCACCTTGGT GGTACAGATT TGCACACAAA
TTCTTGATCT GGAATTGCTC TCCATATTGG ATAAAATTCA AAAAGTGTAT CTATTTTATT
GTAATGGATC CTTTTGTAGA TCTTGCAATT ACCATTTGCA TAGTTTTAAA CACATTATTT
ATGGCTATGG AACACCACCC AATGACTGAG GAATTCAAAA ATGTACTTGC TATAGGAAAT
TTGGTCTTTA CTGGAATCTT TGCAGCTGAA ATGGTATTAA AACTGATTGC CATGGATCCA
TATGAGTATT TCCAAGTAGG CTGGAATATT TTTGACAGCC TTATTGTGAC TTTAAGTTTA
GTGGAGCTCT TTCTAGCAGA TGTGGAAGGA TTGTCAGTTC TGCGATCATT CAGACTGCTC
CGAGTCTTCA AGTTGGCAAA ATCCTGGCCA ACATTGAACA TGCTGATTAA GATCATTGGT
AACTCAGTAG GGGCTCTAGG TAACCTCACC TTAGTGTTGG CCATCATCGT CTTCATTTTT
GCTGTGGTCG GCATGCAGCT CTTTGGTAAG AGCTACAAAG AATGTGTCTG CAAGATCAAT
GATGACTGTA CGCTCCCACG GTGGCACATG AACGACTTCT TCCACTCCTT CCTGATTGTG
TTCCGCGTGC TGTGTGGAGA GTGGATAGAG ACCATGTGGG ACTGTATGGA GGTCGCTGGT
CAAGCTATGT GCCTTATTGT TTACATGATG GTCATGGTCA TTGGAAACCT GGTGGTCCTA
AACCTATTTC TGGCCTTATT ATTGAGCTCA TTTAGTTCAG ACAATCTTAC AGCAATTGAA
GAAGACCCTG ATGCAAACAA CCTCCAGATT GCAGTGACTA GAATTAAAAA GGGAATAAAT
TATGTGAAAC AAACCTTACG TGAATTTATT CTAAAAGCAT TTTCCAAAAA GCCAAAGATT
TCCAGGGAGA TAAGACAAGC AGAAGATCTG AATACTAAGA AGGAAAACTA TATTTCTAAC
CATACACTTG CTGAAATGAG CAAAGGTCAC AATTTCCTCA AGGAAAAAGA TAAAATCAGT
GGTTTTGGAA GCAGCGTGGA CAAACACTTG ATGGAAGACA GTGATGGTCA ATCATTTATT
CACAATCCCA GCCTCACAGT GACAGTGCCA ATTGCACCTG GGGAATCCGA TTTGGAAAAT
ATGAATGCTG AGGAACTTAG CAGTGATTCG GATAGTGAAT ACAGCAAAGT GAGATTAAAC
CGGTCAAGCT CCTCAGAGTG CAGCACAGTT GATAACCCTT TGCCTGGAGA AGGAGAAGAA
GCAGAGGCTG AACCTATGAA TTCCGATGAG CCAGAGGCCT GTTTCACAGA TGGTTGTGTA
TGGAGGTTCT CATGCTGCCA AGTTAACATA GAGTCAGGGA AAGGAAAAAT CTGGTGGAAC
ATCAGGAAAA CCTGCTACAA GATTGTTGAA CACAGTTGGT TTGAAAGCTT CATTGTCCTC
ATGATCCTGC TCAGCAGTGG TGCCCTGGCT TTTGAAGATA TTTATATTGA AAGGAAAAAG
ACCATTAAGA TTATCCTGGA GTATGCAGAC AAGATCTTCA CTTACATCTT CATTCTGGAA
ATGCTTCTAA AATGGATAGC ATATGGTTAT AAAACATATT TCACCAATGC CTGGTGTTGG
CTGGATTTCC TAATTGTTGA TGTTTCTTTG GTTACTTTAG TGGCAAACAC TCTTGGCTAC
TCAGATCTTG GCCCCATTAA ATCCCTTCGG ACACTGAGAG CTTTAAGACC TCTAAGAGCC
TTATCTAGAT TTGAAGGAAT GAGGGTCGTT GTGAATGCAC TCATAGGAGC AATTCCTTCC
ATCATGAATG TGCTACTTGT GTGTCTTATA TTCTGGCTGA TATTCAGCAT CATGGGAGTA
AATTTGTTTG CTGGCAAGTT CTATGAGTGT ATTAACACCA CAGATGGGTC ACGGTTTCCT
GCAAGTCAAG TTCCAAATCG TTCCGAATGT TTTGCCCTTA TGAATGTTAG TCAAAATGTG
CGATGGAAAA ACCTGAAAGT GAACTTTGAT AATGTCGGAC TTGGTTACCT ATCTCTGCTT
CAAGTTGCAA CTTTTAAGGG ATGGACGATT ATTATGTATG CAGCAGTGGA TTCTGTTAAT
GTAGACAAGC AGCCCAAATA TGAATATAGC CTCTACATGT ATATTTATTT TGTCGTCTTT
ATCATCTTTG GGTCATTCTT CACTTTGAAC TTGTTCATTG GTGTCATCAT AGATAATTTC
AACCAACAGA AAAAGAAGCT TGGAGGTCAA GACATCTTTA TGACAGAAGA ACAGAAGAAA
TACTATAATG CAATGAAAAA GCTGGGGTCC AAGAAGCCAC AAAAGCCAAT TCCTCGACCA
GGGAACAAAA TCCAAGGATG TATATTTGAC CTAGTGACAA ATCAAGCCTT TGATATTAGT
ATCATGGTTC TTATCTGTCT CAACATGGTA ACCATGATGG TAGAAAAGGA GGGTCAAAGT
CAACATATGA CTGAAGTTTT ATATTGGATA AATGTGGTTT TTATAATCCT TTTCACTGGA
GAATGTGTGC TAAAACTGAT CTCCCTCAGA CACTACTACT TCACTGTAGG ATGGAATATT
TTTGATTTTG TGGTTGTGAT TATCTCCATT GTAGGTATGT TTCTAGCTGA TTTGATTGAA
ACGTATTTTG TGTCCCCTAC CCTGTTCCGA GTGATCCGTC TTGCCAGGAT TGGCCGAATC
CTACGTCTAG TCAAAGGAGC AAAGGGGATC CGCACGCTGC TCTTTGCTTT GATGATGTCC
CTTCCTGCGT TGTTTAACAT CGGCCTCCTG CTCTTCCTGG TCATGTTCAT CTACGCCATC
TTTGGAATGT CCAACTTTGC CTATGTTAAA AAGGAAGATG GAATTAATGA CATGTTCAAT
TTTGAGACCT TTGGCAACAG TATGATTTGC CTGTTCCAAA TTACAACCTC TGCTGGCTGG
GATGGATTGC TAGCACCTAT TCTTAACAGT AAGCCACCCG ACTGTGACCC AAAAAAAGTT
CATCCTGGAA GTTCAGTTGA AGGAGACTGT GGTAACCCAT CTGTTGGAAT ATTCTACTTT
GTTAGTTATA TCATCATATC CTTCCTGGTT GTGGTGAACA TGTACATTGC AGTCATACTG
GAGAATTTTA GTGTTGCCAC TGAAGAAAGT ACTGAACCTC TGAGTGAGGA TGACTTTGAG
ATGTTCTATG AGGTTTGGGA GAAGTTTGAT CCCGATGCGA CCCAGTTTAT AGAGTTCTCT
AAACTCTCTG ATTTTGCAGC TGCCCTGGAT CCTCCTCTTC TCATAGCAAA ACCCAACAAA
GTCCAGCTCA TTGCCATGGA TCTGCCCATG GTTAGTGGTG ACCGGATCCA TTGTCTTGAC
ATCTTATTTG CTTTTACAAA GCGTGTTTTG GGTGAGAGTG GGGAGATGGA TTCTCTTCGT
TCACAGATGG AAGAAAGGTT CATGTCTGCA AATCCTTCCA AAGTGTCCTA TGAACCCATC
ACAACCACAC TAAAACGGAA ACAAGAGGAT GTGTCTGCTA CTGTCATTCA GCGTGCTTAT
AGACGTTACC GCTTAAGGCA AAATGTCAAA AATATATCAA GTATATACAT AAAAGATGGA
GACAGAGATG ATGATTTACT CAATAAAAAA GATATGGCTT TTGATAATGT TAATGAGAAC
TCAAGTCCAG AAAAAACAGA TGCCACTTCA TCCACCACCT CTCCACCTTC ATATGATAGT
GTAACAAAGC CAGACAAAGA GAAATATGAA CAAGACAGAA CAGAAAAGGA AGACAAAGGG
AAAGACAGCA AGGAAAGCAA AAAATAG

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

CloneID OHu36521
Clone ID Related Accession (Same CDS sequence) XM_005246757 , XM_011511616
Accession Version XM_011511616.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5967bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 9 subunit alpha isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_005403.18) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
5881
5941
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCGTAT
TTAACAGAAT TTGTAAACCT AGGCAATGTT TCAGCTCTTC GAACTTTCAG AGTATTGAGA
GCTTTGAAAA CTATTTCTGT AATCCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGTGATAATA GATAAGGCAA CTTCTGATGA CAGCGGCACG
ACCAATCAAA TACACAAGAA AAGGCGTTGT AGTTCCTATC TCCTTTCAGA GGATATGCTG
AATGATCCCA ACCTCAGACA GAGAGCAATG AGTAGAGCAA GCATATTAAC AAACACTGTG
GAAGAACTTG AAGAGTCCAG ACAAAAATGT CCACCTTGGT GGTACAGATT TGCACACAAA
TTCTTGATCT GGAATTGCTC TCCATATTGG ATAAAATTCA AAAAGTGTAT CTATTTTATT
GTAATGGATC CTTTTGTAGA TCTTGCAATT ACCATTTGCA TAGTTTTAAA CACATTATTT
ATGGCTATGG AACACCACCC AATGACTGAG GAATTCAAAA ATGTACTTGC TATAGGAAAT
TTGGTCTTTA CTGGAATCTT TGCAGCTGAA ATGGTATTAA AACTGATTGC CATGGATCCA
TATGAGTATT TCCAAGTAGG CTGGAATATT TTTGACAGCC TTATTGTGAC TTTAAGTTTA
GTGGAGCTCT TTCTAGCAGA TGTGGAAGGA TTGTCAGTTC TGCGATCATT CAGACTGCTC
CGAGTCTTCA AGTTGGCAAA ATCCTGGCCA ACATTGAACA TGCTGATTAA GATCATTGGT
AACTCAGTAG GGGCTCTAGG TAACCTCACC TTAGTGTTGG CCATCATCGT CTTCATTTTT
GCTGTGGTCG GCATGCAGCT CTTTGGTAAG AGCTACAAAG AATGTGTCTG CAAGATCAAT
GATGACTGTA CGCTCCCACG GTGGCACATG AACGACTTCT TCCACTCCTT CCTGATTGTG
TTCCGCGTGC TGTGTGGAGA GTGGATAGAG ACCATGTGGG ACTGTATGGA GGTCGCTGGT
CAAGCTATGT GCCTTATTGT TTACATGATG GTCATGGTCA TTGGAAACCT GGTGGTCCTA
AACCTATTTC TGGCCTTATT ATTGAGCTCA TTTAGTTCAG ACAATCTTAC AGCAATTGAA
GAAGACCCTG ATGCAAACAA CCTCCAGATT GCAGTGACTA GAATTAAAAA GGGAATAAAT
TATGTGAAAC AAACCTTACG TGAATTTATT CTAAAAGCAT TTTCCAAAAA GCCAAAGATT
TCCAGGGAGA TAAGACAAGC AGAAGATCTG AATACTAAGA AGGAAAACTA TATTTCTAAC
CATACACTTG CTGAAATGAG CAAAGGTCAC AATTTCCTCA AGGAAAAAGA TAAAATCAGT
GGTTTTGGAA GCAGCGTGGA CAAACACTTG ATGGAAGACA GTGATGGTCA ATCATTTATT
CACAATCCCA GCCTCACAGT GACAGTGCCA ATTGCACCTG GGGAATCCGA TTTGGAAAAT
ATGAATGCTG AGGAACTTAG CAGTGATTCG GATAGTGAAT ACAGCAAAGT GAGATTAAAC
CGGTCAAGCT CCTCAGAGTG CAGCACAGTT GATAACCCTT TGCCTGGAGA AGGAGAAGAA
GCAGAGGCTG AACCTATGAA TTCCGATGAG CCAGAGGCCT GTTTCACAGA TGGTTGTGTA
TGGAGGTTCT CATGCTGCCA AGTTAACATA GAGTCAGGGA AAGGAAAAAT CTGGTGGAAC
ATCAGGAAAA CCTGCTACAA GATTGTTGAA CACAGTTGGT TTGAAAGCTT CATTGTCCTC
ATGATCCTGC TCAGCAGTGG TGCCCTGGCT TTTGAAGATA TTTATATTGA AAGGAAAAAG
ACCATTAAGA TTATCCTGGA GTATGCAGAC AAGATCTTCA CTTACATCTT CATTCTGGAA
ATGCTTCTAA AATGGATAGC ATATGGTTAT AAAACATATT TCACCAATGC CTGGTGTTGG
CTGGATTTCC TAATTGTTGA TGTTTCTTTG GTTACTTTAG TGGCAAACAC TCTTGGCTAC
TCAGATCTTG GCCCCATTAA ATCCCTTCGG ACACTGAGAG CTTTAAGACC TCTAAGAGCC
TTATCTAGAT TTGAAGGAAT GAGGGTCGTT GTGAATGCAC TCATAGGAGC AATTCCTTCC
ATCATGAATG TGCTACTTGT GTGTCTTATA TTCTGGCTGA TATTCAGCAT CATGGGAGTA
AATTTGTTTG CTGGCAAGTT CTATGAGTGT ATTAACACCA CAGATGGGTC ACGGTTTCCT
GCAAGTCAAG TTCCAAATCG TTCCGAATGT TTTGCCCTTA TGAATGTTAG TCAAAATGTG
CGATGGAAAA ACCTGAAAGT GAACTTTGAT AATGTCGGAC TTGGTTACCT ATCTCTGCTT
CAAGTTGCAA CTTTTAAGGG ATGGACGATT ATTATGTATG CAGCAGTGGA TTCTGTTAAT
GTAGACAAGC AGCCCAAATA TGAATATAGC CTCTACATGT ATATTTATTT TGTCGTCTTT
ATCATCTTTG GGTCATTCTT CACTTTGAAC TTGTTCATTG GTGTCATCAT AGATAATTTC
AACCAACAGA AAAAGAAGCT TGGAGGTCAA GACATCTTTA TGACAGAAGA ACAGAAGAAA
TACTATAATG CAATGAAAAA GCTGGGGTCC AAGAAGCCAC AAAAGCCAAT TCCTCGACCA
GGGAACAAAA TCCAAGGATG TATATTTGAC CTAGTGACAA ATCAAGCCTT TGATATTAGT
ATCATGGTTC TTATCTGTCT CAACATGGTA ACCATGATGG TAGAAAAGGA GGGTCAAAGT
CAACATATGA CTGAAGTTTT ATATTGGATA AATGTGGTTT TTATAATCCT TTTCACTGGA
GAATGTGTGC TAAAACTGAT CTCCCTCAGA CACTACTACT TCACTGTAGG ATGGAATATT
TTTGATTTTG TGGTTGTGAT TATCTCCATT GTAGGTATGT TTCTAGCTGA TTTGATTGAA
ACGTATTTTG TGTCCCCTAC CCTGTTCCGA GTGATCCGTC TTGCCAGGAT TGGCCGAATC
CTACGTCTAG TCAAAGGAGC AAAGGGGATC CGCACGCTGC TCTTTGCTTT GATGATGTCC
CTTCCTGCGT TGTTTAACAT CGGCCTCCTG CTCTTCCTGG TCATGTTCAT CTACGCCATC
TTTGGAATGT CCAACTTTGC CTATGTTAAA AAGGAAGATG GAATTAATGA CATGTTCAAT
TTTGAGACCT TTGGCAACAG TATGATTTGC CTGTTCCAAA TTACAACCTC TGCTGGCTGG
GATGGATTGC TAGCACCTAT TCTTAACAGT AAGCCACCCG ACTGTGACCC AAAAAAAGTT
CATCCTGGAA GTTCAGTTGA AGGAGACTGT GGTAACCCAT CTGTTGGAAT ATTCTACTTT
GTTAGTTATA TCATCATATC CTTCCTGGTT GTGGTGAACA TGTACATTGC AGTCATACTG
GAGAATTTTA GTGTTGCCAC TGAAGAAAGT ACTGAACCTC TGAGTGAGGA TGACTTTGAG
ATGTTCTATG AGGTTTGGGA GAAGTTTGAT CCCGATGCGA CCCAGTTTAT AGAGTTCTCT
AAACTCTCTG ATTTTGCAGC TGCCCTGGAT CCTCCTCTTC TCATAGCAAA ACCCAACAAA
GTCCAGCTCA TTGCCATGGA TCTGCCCATG GTTAGTGGTG ACCGGATCCA TTGTCTTGAC
ATCTTATTTG CTTTTACAAA GCGTGTTTTG GGTGAGAGTG GGGAGATGGA TTCTCTTCGT
TCACAGATGG AAGAAAGGTT CATGTCTGCA AATCCTTCCA AAGTGTCCTA TGAACCCATC
ACAACCACAC TAAAACGGAA ACAAGAGGAT GTGTCTGCTA CTGTCATTCA GCGTGCTTAT
AGACGTTACC GCTTAAGGCA AAATGTCAAA AATATATCAA GTATATACAT AAAAGATGGA
GACAGAGATG ATGATTTACT CAATAAAAAA GATATGGCTT TTGATAATGT TAATGAGAAC
TCAAGTCCAG AAAAAACAGA TGCCACTTCA TCCACCACCT CTCCACCTTC ATATGATAGT
GTAACAAAGC CAGACAAAGA GAAATATGAA CAAGACAGAA CAGAAAAGGA AGACAAAGGG
AAAGACAGCA AGGAAAGCAA AAAATAG

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

RefSeq XP_011509918.1
CDS263..6229
Misc Feature(1)725..1465(+)
Misc Feature(2)1724..2347(+)
Misc Feature(3)2594..3130(+)
Misc Feature(4)3206..3868(+)
Misc Feature(5)3944..4630(+)
Misc Feature(6)4634..4792(+)
Misc Feature(7)4676..4687(+)
Misc Feature(8)4730..4732(+)
Misc Feature(9)4907..5539(+)
Translation

Target ORF information:

RefSeq Version XM_011511616
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), transcript variant X2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011511616

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCGTAT
TTAACAGAAT TTGTAAACCT AGGCAATGTT TCAGCTCTTC GAACTTTCAG AGTATTGAGA
GCTTTGAAAA CTATTTCTGT AATCCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGTGATAATA GATAAGGCAA CTTCTGATGA CAGCGGCACG
ACCAATCAAA TACACAAGAA AAGGCGTTGT AGTTCCTATC TCCTTTCAGA GGATATGCTG
AATGATCCCA ACCTCAGACA GAGAGCAATG AGTAGAGCAA GCATATTAAC AAACACTGTG
GAAGAACTTG AAGAGTCCAG ACAAAAATGT CCACCTTGGT GGTACAGATT TGCACACAAA
TTCTTGATCT GGAATTGCTC TCCATATTGG ATAAAATTCA AAAAGTGTAT CTATTTTATT
GTAATGGATC CTTTTGTAGA TCTTGCAATT ACCATTTGCA TAGTTTTAAA CACATTATTT
ATGGCTATGG AACACCACCC AATGACTGAG GAATTCAAAA ATGTACTTGC TATAGGAAAT
TTGGTCTTTA CTGGAATCTT TGCAGCTGAA ATGGTATTAA AACTGATTGC CATGGATCCA
TATGAGTATT TCCAAGTAGG CTGGAATATT TTTGACAGCC TTATTGTGAC TTTAAGTTTA
GTGGAGCTCT TTCTAGCAGA TGTGGAAGGA TTGTCAGTTC TGCGATCATT CAGACTGCTC
CGAGTCTTCA AGTTGGCAAA ATCCTGGCCA ACATTGAACA TGCTGATTAA GATCATTGGT
AACTCAGTAG GGGCTCTAGG TAACCTCACC TTAGTGTTGG CCATCATCGT CTTCATTTTT
GCTGTGGTCG GCATGCAGCT CTTTGGTAAG AGCTACAAAG AATGTGTCTG CAAGATCAAT
GATGACTGTA CGCTCCCACG GTGGCACATG AACGACTTCT TCCACTCCTT CCTGATTGTG
TTCCGCGTGC TGTGTGGAGA GTGGATAGAG ACCATGTGGG ACTGTATGGA GGTCGCTGGT
CAAGCTATGT GCCTTATTGT TTACATGATG GTCATGGTCA TTGGAAACCT GGTGGTCCTA
AACCTATTTC TGGCCTTATT ATTGAGCTCA TTTAGTTCAG ACAATCTTAC AGCAATTGAA
GAAGACCCTG ATGCAAACAA CCTCCAGATT GCAGTGACTA GAATTAAAAA GGGAATAAAT
TATGTGAAAC AAACCTTACG TGAATTTATT CTAAAAGCAT TTTCCAAAAA GCCAAAGATT
TCCAGGGAGA TAAGACAAGC AGAAGATCTG AATACTAAGA AGGAAAACTA TATTTCTAAC
CATACACTTG CTGAAATGAG CAAAGGTCAC AATTTCCTCA AGGAAAAAGA TAAAATCAGT
GGTTTTGGAA GCAGCGTGGA CAAACACTTG ATGGAAGACA GTGATGGTCA ATCATTTATT
CACAATCCCA GCCTCACAGT GACAGTGCCA ATTGCACCTG GGGAATCCGA TTTGGAAAAT
ATGAATGCTG AGGAACTTAG CAGTGATTCG GATAGTGAAT ACAGCAAAGT GAGATTAAAC
CGGTCAAGCT CCTCAGAGTG CAGCACAGTT GATAACCCTT TGCCTGGAGA AGGAGAAGAA
GCAGAGGCTG AACCTATGAA TTCCGATGAG CCAGAGGCCT GTTTCACAGA TGGTTGTGTA
TGGAGGTTCT CATGCTGCCA AGTTAACATA GAGTCAGGGA AAGGAAAAAT CTGGTGGAAC
ATCAGGAAAA CCTGCTACAA GATTGTTGAA CACAGTTGGT TTGAAAGCTT CATTGTCCTC
ATGATCCTGC TCAGCAGTGG TGCCCTGGCT TTTGAAGATA TTTATATTGA AAGGAAAAAG
ACCATTAAGA TTATCCTGGA GTATGCAGAC AAGATCTTCA CTTACATCTT CATTCTGGAA
ATGCTTCTAA AATGGATAGC ATATGGTTAT AAAACATATT TCACCAATGC CTGGTGTTGG
CTGGATTTCC TAATTGTTGA TGTTTCTTTG GTTACTTTAG TGGCAAACAC TCTTGGCTAC
TCAGATCTTG GCCCCATTAA ATCCCTTCGG ACACTGAGAG CTTTAAGACC TCTAAGAGCC
TTATCTAGAT TTGAAGGAAT GAGGGTCGTT GTGAATGCAC TCATAGGAGC AATTCCTTCC
ATCATGAATG TGCTACTTGT GTGTCTTATA TTCTGGCTGA TATTCAGCAT CATGGGAGTA
AATTTGTTTG CTGGCAAGTT CTATGAGTGT ATTAACACCA CAGATGGGTC ACGGTTTCCT
GCAAGTCAAG TTCCAAATCG TTCCGAATGT TTTGCCCTTA TGAATGTTAG TCAAAATGTG
CGATGGAAAA ACCTGAAAGT GAACTTTGAT AATGTCGGAC TTGGTTACCT ATCTCTGCTT
CAAGTTGCAA CTTTTAAGGG ATGGACGATT ATTATGTATG CAGCAGTGGA TTCTGTTAAT
GTAGACAAGC AGCCCAAATA TGAATATAGC CTCTACATGT ATATTTATTT TGTCGTCTTT
ATCATCTTTG GGTCATTCTT CACTTTGAAC TTGTTCATTG GTGTCATCAT AGATAATTTC
AACCAACAGA AAAAGAAGCT TGGAGGTCAA GACATCTTTA TGACAGAAGA ACAGAAGAAA
TACTATAATG CAATGAAAAA GCTGGGGTCC AAGAAGCCAC AAAAGCCAAT TCCTCGACCA
GGGAACAAAA TCCAAGGATG TATATTTGAC CTAGTGACAA ATCAAGCCTT TGATATTAGT
ATCATGGTTC TTATCTGTCT CAACATGGTA ACCATGATGG TAGAAAAGGA GGGTCAAAGT
CAACATATGA CTGAAGTTTT ATATTGGATA AATGTGGTTT TTATAATCCT TTTCACTGGA
GAATGTGTGC TAAAACTGAT CTCCCTCAGA CACTACTACT TCACTGTAGG ATGGAATATT
TTTGATTTTG TGGTTGTGAT TATCTCCATT GTAGGTATGT TTCTAGCTGA TTTGATTGAA
ACGTATTTTG TGTCCCCTAC CCTGTTCCGA GTGATCCGTC TTGCCAGGAT TGGCCGAATC
CTACGTCTAG TCAAAGGAGC AAAGGGGATC CGCACGCTGC TCTTTGCTTT GATGATGTCC
CTTCCTGCGT TGTTTAACAT CGGCCTCCTG CTCTTCCTGG TCATGTTCAT CTACGCCATC
TTTGGAATGT CCAACTTTGC CTATGTTAAA AAGGAAGATG GAATTAATGA CATGTTCAAT
TTTGAGACCT TTGGCAACAG TATGATTTGC CTGTTCCAAA TTACAACCTC TGCTGGCTGG
GATGGATTGC TAGCACCTAT TCTTAACAGT AAGCCACCCG ACTGTGACCC AAAAAAAGTT
CATCCTGGAA GTTCAGTTGA AGGAGACTGT GGTAACCCAT CTGTTGGAAT ATTCTACTTT
GTTAGTTATA TCATCATATC CTTCCTGGTT GTGGTGAACA TGTACATTGC AGTCATACTG
GAGAATTTTA GTGTTGCCAC TGAAGAAAGT ACTGAACCTC TGAGTGAGGA TGACTTTGAG
ATGTTCTATG AGGTTTGGGA GAAGTTTGAT CCCGATGCGA CCCAGTTTAT AGAGTTCTCT
AAACTCTCTG ATTTTGCAGC TGCCCTGGAT CCTCCTCTTC TCATAGCAAA ACCCAACAAA
GTCCAGCTCA TTGCCATGGA TCTGCCCATG GTTAGTGGTG ACCGGATCCA TTGTCTTGAC
ATCTTATTTG CTTTTACAAA GCGTGTTTTG GGTGAGAGTG GGGAGATGGA TTCTCTTCGT
TCACAGATGG AAGAAAGGTT CATGTCTGCA AATCCTTCCA AAGTGTCCTA TGAACCCATC
ACAACCACAC TAAAACGGAA ACAAGAGGAT GTGTCTGCTA CTGTCATTCA GCGTGCTTAT
AGACGTTACC GCTTAAGGCA AAATGTCAAA AATATATCAA GTATATACAT AAAAGATGGA
GACAGAGATG ATGATTTACT CAATAAAAAA GATATGGCTT TTGATAATGT TAATGAGAAC
TCAAGTCCAG AAAAAACAGA TGCCACTTCA TCCACCACCT CTCCACCTTC ATATGATAGT
GTAACAAAGC CAGACAAAGA GAAATATGAA CAAGACAGAA CAGAAAAGGA AGACAAAGGG
AAAGACAGCA AGGAAAGCAA AAAATAG

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

CloneID OHu60379
Clone ID Related Accession (Same CDS sequence) XM_011511617
Accession Version XM_011511617.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5967bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 9 subunit alpha isoform X2
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_005403.18) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
5881
5941
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCATAT
GTGACAGAGT TTGTGGACCT GGGCAATGTC TCAGCATTGA GAACATTCAG AGTTCTCCGA
GCATTGAAAA CAATTTCAGT CATTCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGTGATAATA GATAAGGCAA CTTCTGATGA CAGCGGCACG
ACCAATCAAA TACACAAGAA AAGGCGTTGT AGTTCCTATC TCCTTTCAGA GGATATGCTG
AATGATCCCA ACCTCAGACA GAGAGCAATG AGTAGAGCAA GCATATTAAC AAACACTGTG
GAAGAACTTG AAGAGTCCAG ACAAAAATGT CCACCTTGGT GGTACAGATT TGCACACAAA
TTCTTGATCT GGAATTGCTC TCCATATTGG ATAAAATTCA AAAAGTGTAT CTATTTTATT
GTAATGGATC CTTTTGTAGA TCTTGCAATT ACCATTTGCA TAGTTTTAAA CACATTATTT
ATGGCTATGG AACACCACCC AATGACTGAG GAATTCAAAA ATGTACTTGC TATAGGAAAT
TTGGTCTTTA CTGGAATCTT TGCAGCTGAA ATGGTATTAA AACTGATTGC CATGGATCCA
TATGAGTATT TCCAAGTAGG CTGGAATATT TTTGACAGCC TTATTGTGAC TTTAAGTTTA
GTGGAGCTCT TTCTAGCAGA TGTGGAAGGA TTGTCAGTTC TGCGATCATT CAGACTGCTC
CGAGTCTTCA AGTTGGCAAA ATCCTGGCCA ACATTGAACA TGCTGATTAA GATCATTGGT
AACTCAGTAG GGGCTCTAGG TAACCTCACC TTAGTGTTGG CCATCATCGT CTTCATTTTT
GCTGTGGTCG GCATGCAGCT CTTTGGTAAG AGCTACAAAG AATGTGTCTG CAAGATCAAT
GATGACTGTA CGCTCCCACG GTGGCACATG AACGACTTCT TCCACTCCTT CCTGATTGTG
TTCCGCGTGC TGTGTGGAGA GTGGATAGAG ACCATGTGGG ACTGTATGGA GGTCGCTGGT
CAAGCTATGT GCCTTATTGT TTACATGATG GTCATGGTCA TTGGAAACCT GGTGGTCCTA
AACCTATTTC TGGCCTTATT ATTGAGCTCA TTTAGTTCAG ACAATCTTAC AGCAATTGAA
GAAGACCCTG ATGCAAACAA CCTCCAGATT GCAGTGACTA GAATTAAAAA GGGAATAAAT
TATGTGAAAC AAACCTTACG TGAATTTATT CTAAAAGCAT TTTCCAAAAA GCCAAAGATT
TCCAGGGAGA TAAGACAAGC AGAAGATCTG AATACTAAGA AGGAAAACTA TATTTCTAAC
CATACACTTG CTGAAATGAG CAAAGGTCAC AATTTCCTCA AGGAAAAAGA TAAAATCAGT
GGTTTTGGAA GCAGCGTGGA CAAACACTTG ATGGAAGACA GTGATGGTCA ATCATTTATT
CACAATCCCA GCCTCACAGT GACAGTGCCA ATTGCACCTG GGGAATCCGA TTTGGAAAAT
ATGAATGCTG AGGAACTTAG CAGTGATTCG GATAGTGAAT ACAGCAAAGT GAGATTAAAC
CGGTCAAGCT CCTCAGAGTG CAGCACAGTT GATAACCCTT TGCCTGGAGA AGGAGAAGAA
GCAGAGGCTG AACCTATGAA TTCCGATGAG CCAGAGGCCT GTTTCACAGA TGGTTGTGTA
TGGAGGTTCT CATGCTGCCA AGTTAACATA GAGTCAGGGA AAGGAAAAAT CTGGTGGAAC
ATCAGGAAAA CCTGCTACAA GATTGTTGAA CACAGTTGGT TTGAAAGCTT CATTGTCCTC
ATGATCCTGC TCAGCAGTGG TGCCCTGGCT TTTGAAGATA TTTATATTGA AAGGAAAAAG
ACCATTAAGA TTATCCTGGA GTATGCAGAC AAGATCTTCA CTTACATCTT CATTCTGGAA
ATGCTTCTAA AATGGATAGC ATATGGTTAT AAAACATATT TCACCAATGC CTGGTGTTGG
CTGGATTTCC TAATTGTTGA TGTTTCTTTG GTTACTTTAG TGGCAAACAC TCTTGGCTAC
TCAGATCTTG GCCCCATTAA ATCCCTTCGG ACACTGAGAG CTTTAAGACC TCTAAGAGCC
TTATCTAGAT TTGAAGGAAT GAGGGTCGTT GTGAATGCAC TCATAGGAGC AATTCCTTCC
ATCATGAATG TGCTACTTGT GTGTCTTATA TTCTGGCTGA TATTCAGCAT CATGGGAGTA
AATTTGTTTG CTGGCAAGTT CTATGAGTGT ATTAACACCA CAGATGGGTC ACGGTTTCCT
GCAAGTCAAG TTCCAAATCG TTCCGAATGT TTTGCCCTTA TGAATGTTAG TCAAAATGTG
CGATGGAAAA ACCTGAAAGT GAACTTTGAT AATGTCGGAC TTGGTTACCT ATCTCTGCTT
CAAGTTGCAA CTTTTAAGGG ATGGACGATT ATTATGTATG CAGCAGTGGA TTCTGTTAAT
GTAGACAAGC AGCCCAAATA TGAATATAGC CTCTACATGT ATATTTATTT TGTCGTCTTT
ATCATCTTTG GGTCATTCTT CACTTTGAAC TTGTTCATTG GTGTCATCAT AGATAATTTC
AACCAACAGA AAAAGAAGCT TGGAGGTCAA GACATCTTTA TGACAGAAGA ACAGAAGAAA
TACTATAATG CAATGAAAAA GCTGGGGTCC AAGAAGCCAC AAAAGCCAAT TCCTCGACCA
GGGAACAAAA TCCAAGGATG TATATTTGAC CTAGTGACAA ATCAAGCCTT TGATATTAGT
ATCATGGTTC TTATCTGTCT CAACATGGTA ACCATGATGG TAGAAAAGGA GGGTCAAAGT
CAACATATGA CTGAAGTTTT ATATTGGATA AATGTGGTTT TTATAATCCT TTTCACTGGA
GAATGTGTGC TAAAACTGAT CTCCCTCAGA CACTACTACT TCACTGTAGG ATGGAATATT
TTTGATTTTG TGGTTGTGAT TATCTCCATT GTAGGTATGT TTCTAGCTGA TTTGATTGAA
ACGTATTTTG TGTCCCCTAC CCTGTTCCGA GTGATCCGTC TTGCCAGGAT TGGCCGAATC
CTACGTCTAG TCAAAGGAGC AAAGGGGATC CGCACGCTGC TCTTTGCTTT GATGATGTCC
CTTCCTGCGT TGTTTAACAT CGGCCTCCTG CTCTTCCTGG TCATGTTCAT CTACGCCATC
TTTGGAATGT CCAACTTTGC CTATGTTAAA AAGGAAGATG GAATTAATGA CATGTTCAAT
TTTGAGACCT TTGGCAACAG TATGATTTGC CTGTTCCAAA TTACAACCTC TGCTGGCTGG
GATGGATTGC TAGCACCTAT TCTTAACAGT AAGCCACCCG ACTGTGACCC AAAAAAAGTT
CATCCTGGAA GTTCAGTTGA AGGAGACTGT GGTAACCCAT CTGTTGGAAT ATTCTACTTT
GTTAGTTATA TCATCATATC CTTCCTGGTT GTGGTGAACA TGTACATTGC AGTCATACTG
GAGAATTTTA GTGTTGCCAC TGAAGAAAGT ACTGAACCTC TGAGTGAGGA TGACTTTGAG
ATGTTCTATG AGGTTTGGGA GAAGTTTGAT CCCGATGCGA CCCAGTTTAT AGAGTTCTCT
AAACTCTCTG ATTTTGCAGC TGCCCTGGAT CCTCCTCTTC TCATAGCAAA ACCCAACAAA
GTCCAGCTCA TTGCCATGGA TCTGCCCATG GTTAGTGGTG ACCGGATCCA TTGTCTTGAC
ATCTTATTTG CTTTTACAAA GCGTGTTTTG GGTGAGAGTG GGGAGATGGA TTCTCTTCGT
TCACAGATGG AAGAAAGGTT CATGTCTGCA AATCCTTCCA AAGTGTCCTA TGAACCCATC
ACAACCACAC TAAAACGGAA ACAAGAGGAT GTGTCTGCTA CTGTCATTCA GCGTGCTTAT
AGACGTTACC GCTTAAGGCA AAATGTCAAA AATATATCAA GTATATACAT AAAAGATGGA
GACAGAGATG ATGATTTACT CAATAAAAAA GATATGGCTT TTGATAATGT TAATGAGAAC
TCAAGTCCAG AAAAAACAGA TGCCACTTCA TCCACCACCT CTCCACCTTC ATATGATAGT
GTAACAAAGC CAGACAAAGA GAAATATGAA CAAGACAGAA CAGAAAAGGA AGACAAAGGG
AAAGACAGCA AGGAAAGCAA AAAATAG

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

RefSeq XP_011509919.1
CDS315..6281
Misc Feature(1)777..1517(+)
Misc Feature(2)1776..2399(+)
Misc Feature(3)2646..3182(+)
Misc Feature(4)3258..3920(+)
Misc Feature(5)3996..4682(+)
Misc Feature(6)4686..4844(+)
Misc Feature(7)4728..4739(+)
Misc Feature(8)4782..4784(+)
Misc Feature(9)4959..5591(+)
Translation

Target ORF information:

RefSeq Version XM_011511617
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011511617

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCATAT
GTGACAGAGT TTGTGGACCT GGGCAATGTC TCAGCATTGA GAACATTCAG AGTTCTCCGA
GCATTGAAAA CAATTTCAGT CATTCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGTGATAATA GATAAGGCAA CTTCTGATGA CAGCGGCACG
ACCAATCAAA TACACAAGAA AAGGCGTTGT AGTTCCTATC TCCTTTCAGA GGATATGCTG
AATGATCCCA ACCTCAGACA GAGAGCAATG AGTAGAGCAA GCATATTAAC AAACACTGTG
GAAGAACTTG AAGAGTCCAG ACAAAAATGT CCACCTTGGT GGTACAGATT TGCACACAAA
TTCTTGATCT GGAATTGCTC TCCATATTGG ATAAAATTCA AAAAGTGTAT CTATTTTATT
GTAATGGATC CTTTTGTAGA TCTTGCAATT ACCATTTGCA TAGTTTTAAA CACATTATTT
ATGGCTATGG AACACCACCC AATGACTGAG GAATTCAAAA ATGTACTTGC TATAGGAAAT
TTGGTCTTTA CTGGAATCTT TGCAGCTGAA ATGGTATTAA AACTGATTGC CATGGATCCA
TATGAGTATT TCCAAGTAGG CTGGAATATT TTTGACAGCC TTATTGTGAC TTTAAGTTTA
GTGGAGCTCT TTCTAGCAGA TGTGGAAGGA TTGTCAGTTC TGCGATCATT CAGACTGCTC
CGAGTCTTCA AGTTGGCAAA ATCCTGGCCA ACATTGAACA TGCTGATTAA GATCATTGGT
AACTCAGTAG GGGCTCTAGG TAACCTCACC TTAGTGTTGG CCATCATCGT CTTCATTTTT
GCTGTGGTCG GCATGCAGCT CTTTGGTAAG AGCTACAAAG AATGTGTCTG CAAGATCAAT
GATGACTGTA CGCTCCCACG GTGGCACATG AACGACTTCT TCCACTCCTT CCTGATTGTG
TTCCGCGTGC TGTGTGGAGA GTGGATAGAG ACCATGTGGG ACTGTATGGA GGTCGCTGGT
CAAGCTATGT GCCTTATTGT TTACATGATG GTCATGGTCA TTGGAAACCT GGTGGTCCTA
AACCTATTTC TGGCCTTATT ATTGAGCTCA TTTAGTTCAG ACAATCTTAC AGCAATTGAA
GAAGACCCTG ATGCAAACAA CCTCCAGATT GCAGTGACTA GAATTAAAAA GGGAATAAAT
TATGTGAAAC AAACCTTACG TGAATTTATT CTAAAAGCAT TTTCCAAAAA GCCAAAGATT
TCCAGGGAGA TAAGACAAGC AGAAGATCTG AATACTAAGA AGGAAAACTA TATTTCTAAC
CATACACTTG CTGAAATGAG CAAAGGTCAC AATTTCCTCA AGGAAAAAGA TAAAATCAGT
GGTTTTGGAA GCAGCGTGGA CAAACACTTG ATGGAAGACA GTGATGGTCA ATCATTTATT
CACAATCCCA GCCTCACAGT GACAGTGCCA ATTGCACCTG GGGAATCCGA TTTGGAAAAT
ATGAATGCTG AGGAACTTAG CAGTGATTCG GATAGTGAAT ACAGCAAAGT GAGATTAAAC
CGGTCAAGCT CCTCAGAGTG CAGCACAGTT GATAACCCTT TGCCTGGAGA AGGAGAAGAA
GCAGAGGCTG AACCTATGAA TTCCGATGAG CCAGAGGCCT GTTTCACAGA TGGTTGTGTA
TGGAGGTTCT CATGCTGCCA AGTTAACATA GAGTCAGGGA AAGGAAAAAT CTGGTGGAAC
ATCAGGAAAA CCTGCTACAA GATTGTTGAA CACAGTTGGT TTGAAAGCTT CATTGTCCTC
ATGATCCTGC TCAGCAGTGG TGCCCTGGCT TTTGAAGATA TTTATATTGA AAGGAAAAAG
ACCATTAAGA TTATCCTGGA GTATGCAGAC AAGATCTTCA CTTACATCTT CATTCTGGAA
ATGCTTCTAA AATGGATAGC ATATGGTTAT AAAACATATT TCACCAATGC CTGGTGTTGG
CTGGATTTCC TAATTGTTGA TGTTTCTTTG GTTACTTTAG TGGCAAACAC TCTTGGCTAC
TCAGATCTTG GCCCCATTAA ATCCCTTCGG ACACTGAGAG CTTTAAGACC TCTAAGAGCC
TTATCTAGAT TTGAAGGAAT GAGGGTCGTT GTGAATGCAC TCATAGGAGC AATTCCTTCC
ATCATGAATG TGCTACTTGT GTGTCTTATA TTCTGGCTGA TATTCAGCAT CATGGGAGTA
AATTTGTTTG CTGGCAAGTT CTATGAGTGT ATTAACACCA CAGATGGGTC ACGGTTTCCT
GCAAGTCAAG TTCCAAATCG TTCCGAATGT TTTGCCCTTA TGAATGTTAG TCAAAATGTG
CGATGGAAAA ACCTGAAAGT GAACTTTGAT AATGTCGGAC TTGGTTACCT ATCTCTGCTT
CAAGTTGCAA CTTTTAAGGG ATGGACGATT ATTATGTATG CAGCAGTGGA TTCTGTTAAT
GTAGACAAGC AGCCCAAATA TGAATATAGC CTCTACATGT ATATTTATTT TGTCGTCTTT
ATCATCTTTG GGTCATTCTT CACTTTGAAC TTGTTCATTG GTGTCATCAT AGATAATTTC
AACCAACAGA AAAAGAAGCT TGGAGGTCAA GACATCTTTA TGACAGAAGA ACAGAAGAAA
TACTATAATG CAATGAAAAA GCTGGGGTCC AAGAAGCCAC AAAAGCCAAT TCCTCGACCA
GGGAACAAAA TCCAAGGATG TATATTTGAC CTAGTGACAA ATCAAGCCTT TGATATTAGT
ATCATGGTTC TTATCTGTCT CAACATGGTA ACCATGATGG TAGAAAAGGA GGGTCAAAGT
CAACATATGA CTGAAGTTTT ATATTGGATA AATGTGGTTT TTATAATCCT TTTCACTGGA
GAATGTGTGC TAAAACTGAT CTCCCTCAGA CACTACTACT TCACTGTAGG ATGGAATATT
TTTGATTTTG TGGTTGTGAT TATCTCCATT GTAGGTATGT TTCTAGCTGA TTTGATTGAA
ACGTATTTTG TGTCCCCTAC CCTGTTCCGA GTGATCCGTC TTGCCAGGAT TGGCCGAATC
CTACGTCTAG TCAAAGGAGC AAAGGGGATC CGCACGCTGC TCTTTGCTTT GATGATGTCC
CTTCCTGCGT TGTTTAACAT CGGCCTCCTG CTCTTCCTGG TCATGTTCAT CTACGCCATC
TTTGGAATGT CCAACTTTGC CTATGTTAAA AAGGAAGATG GAATTAATGA CATGTTCAAT
TTTGAGACCT TTGGCAACAG TATGATTTGC CTGTTCCAAA TTACAACCTC TGCTGGCTGG
GATGGATTGC TAGCACCTAT TCTTAACAGT AAGCCACCCG ACTGTGACCC AAAAAAAGTT
CATCCTGGAA GTTCAGTTGA AGGAGACTGT GGTAACCCAT CTGTTGGAAT ATTCTACTTT
GTTAGTTATA TCATCATATC CTTCCTGGTT GTGGTGAACA TGTACATTGC AGTCATACTG
GAGAATTTTA GTGTTGCCAC TGAAGAAAGT ACTGAACCTC TGAGTGAGGA TGACTTTGAG
ATGTTCTATG AGGTTTGGGA GAAGTTTGAT CCCGATGCGA CCCAGTTTAT AGAGTTCTCT
AAACTCTCTG ATTTTGCAGC TGCCCTGGAT CCTCCTCTTC TCATAGCAAA ACCCAACAAA
GTCCAGCTCA TTGCCATGGA TCTGCCCATG GTTAGTGGTG ACCGGATCCA TTGTCTTGAC
ATCTTATTTG CTTTTACAAA GCGTGTTTTG GGTGAGAGTG GGGAGATGGA TTCTCTTCGT
TCACAGATGG AAGAAAGGTT CATGTCTGCA AATCCTTCCA AAGTGTCCTA TGAACCCATC
ACAACCACAC TAAAACGGAA ACAAGAGGAT GTGTCTGCTA CTGTCATTCA GCGTGCTTAT
AGACGTTACC GCTTAAGGCA AAATGTCAAA AATATATCAA GTATATACAT AAAAGATGGA
GACAGAGATG ATGATTTACT CAATAAAAAA GATATGGCTT TTGATAATGT TAATGAGAAC
TCAAGTCCAG AAAAAACAGA TGCCACTTCA TCCACCACCT CTCCACCTTC ATATGATAGT
GTAACAAAGC CAGACAAAGA GAAATATGAA CAAGACAGAA CAGAAAAGGA AGACAAAGGG
AAAGACAGCA AGGAAAGCAA AAAATAG

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

CloneID OHu60380
Clone ID Related Accession (Same CDS sequence) XM_011511618
Accession Version XM_011511618.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5934bp)
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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 9 subunit alpha isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_005403.18) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
5881
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCATAT
GTGACAGAGT TTGTGGACCT GGGCAATGTC TCAGCATTGA GAACATTCAG AGTTCTCCGA
GCATTGAAAA CAATTTCAGT CATTCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGGCACGACC AATCAAATAC ACAAGAAAAG GCGTTGTAGT
TCCTATCTCC TTTCAGAGGA TATGCTGAAT GATCCCAACC TCAGACAGAG AGCAATGAGT
AGAGCAAGCA TATTAACAAA CACTGTGGAA GAACTTGAAG AGTCCAGACA AAAATGTCCA
CCTTGGTGGT ACAGATTTGC ACACAAATTC TTGATCTGGA ATTGCTCTCC ATATTGGATA
AAATTCAAAA AGTGTATCTA TTTTATTGTA ATGGATCCTT TTGTAGATCT TGCAATTACC
ATTTGCATAG TTTTAAACAC ATTATTTATG GCTATGGAAC ACCACCCAAT GACTGAGGAA
TTCAAAAATG TACTTGCTAT AGGAAATTTG GTCTTTACTG GAATCTTTGC AGCTGAAATG
GTATTAAAAC TGATTGCCAT GGATCCATAT GAGTATTTCC AAGTAGGCTG GAATATTTTT
GACAGCCTTA TTGTGACTTT AAGTTTAGTG GAGCTCTTTC TAGCAGATGT GGAAGGATTG
TCAGTTCTGC GATCATTCAG ACTGCTCCGA GTCTTCAAGT TGGCAAAATC CTGGCCAACA
TTGAACATGC TGATTAAGAT CATTGGTAAC TCAGTAGGGG CTCTAGGTAA CCTCACCTTA
GTGTTGGCCA TCATCGTCTT CATTTTTGCT GTGGTCGGCA TGCAGCTCTT TGGTAAGAGC
TACAAAGAAT GTGTCTGCAA GATCAATGAT GACTGTACGC TCCCACGGTG GCACATGAAC
GACTTCTTCC ACTCCTTCCT GATTGTGTTC CGCGTGCTGT GTGGAGAGTG GATAGAGACC
ATGTGGGACT GTATGGAGGT CGCTGGTCAA GCTATGTGCC TTATTGTTTA CATGATGGTC
ATGGTCATTG GAAACCTGGT GGTCCTAAAC CTATTTCTGG CCTTATTATT GAGCTCATTT
AGTTCAGACA ATCTTACAGC AATTGAAGAA GACCCTGATG CAAACAACCT CCAGATTGCA
GTGACTAGAA TTAAAAAGGG AATAAATTAT GTGAAACAAA CCTTACGTGA ATTTATTCTA
AAAGCATTTT CCAAAAAGCC AAAGATTTCC AGGGAGATAA GACAAGCAGA AGATCTGAAT
ACTAAGAAGG AAAACTATAT TTCTAACCAT ACACTTGCTG AAATGAGCAA AGGTCACAAT
TTCCTCAAGG AAAAAGATAA AATCAGTGGT TTTGGAAGCA GCGTGGACAA ACACTTGATG
GAAGACAGTG ATGGTCAATC ATTTATTCAC AATCCCAGCC TCACAGTGAC AGTGCCAATT
GCACCTGGGG AATCCGATTT GGAAAATATG AATGCTGAGG AACTTAGCAG TGATTCGGAT
AGTGAATACA GCAAAGTGAG ATTAAACCGG TCAAGCTCCT CAGAGTGCAG CACAGTTGAT
AACCCTTTGC CTGGAGAAGG AGAAGAAGCA GAGGCTGAAC CTATGAATTC CGATGAGCCA
GAGGCCTGTT TCACAGATGG TTGTGTATGG AGGTTCTCAT GCTGCCAAGT TAACATAGAG
TCAGGGAAAG GAAAAATCTG GTGGAACATC AGGAAAACCT GCTACAAGAT TGTTGAACAC
AGTTGGTTTG AAAGCTTCAT TGTCCTCATG ATCCTGCTCA GCAGTGGTGC CCTGGCTTTT
GAAGATATTT ATATTGAAAG GAAAAAGACC ATTAAGATTA TCCTGGAGTA TGCAGACAAG
ATCTTCACTT ACATCTTCAT TCTGGAAATG CTTCTAAAAT GGATAGCATA TGGTTATAAA
ACATATTTCA CCAATGCCTG GTGTTGGCTG GATTTCCTAA TTGTTGATGT TTCTTTGGTT
ACTTTAGTGG CAAACACTCT TGGCTACTCA GATCTTGGCC CCATTAAATC CCTTCGGACA
CTGAGAGCTT TAAGACCTCT AAGAGCCTTA TCTAGATTTG AAGGAATGAG GGTCGTTGTG
AATGCACTCA TAGGAGCAAT TCCTTCCATC ATGAATGTGC TACTTGTGTG TCTTATATTC
TGGCTGATAT TCAGCATCAT GGGAGTAAAT TTGTTTGCTG GCAAGTTCTA TGAGTGTATT
AACACCACAG ATGGGTCACG GTTTCCTGCA AGTCAAGTTC CAAATCGTTC CGAATGTTTT
GCCCTTATGA ATGTTAGTCA AAATGTGCGA TGGAAAAACC TGAAAGTGAA CTTTGATAAT
GTCGGACTTG GTTACCTATC TCTGCTTCAA GTTGCAACTT TTAAGGGATG GACGATTATT
ATGTATGCAG CAGTGGATTC TGTTAATGTA GACAAGCAGC CCAAATATGA ATATAGCCTC
TACATGTATA TTTATTTTGT CGTCTTTATC ATCTTTGGGT CATTCTTCAC TTTGAACTTG
TTCATTGGTG TCATCATAGA TAATTTCAAC CAACAGAAAA AGAAGCTTGG AGGTCAAGAC
ATCTTTATGA CAGAAGAACA GAAGAAATAC TATAATGCAA TGAAAAAGCT GGGGTCCAAG
AAGCCACAAA AGCCAATTCC TCGACCAGGG AACAAAATCC AAGGATGTAT ATTTGACCTA
GTGACAAATC AAGCCTTTGA TATTAGTATC ATGGTTCTTA TCTGTCTCAA CATGGTAACC
ATGATGGTAG AAAAGGAGGG TCAAAGTCAA CATATGACTG AAGTTTTATA TTGGATAAAT
GTGGTTTTTA TAATCCTTTT CACTGGAGAA TGTGTGCTAA AACTGATCTC CCTCAGACAC
TACTACTTCA CTGTAGGATG GAATATTTTT GATTTTGTGG TTGTGATTAT CTCCATTGTA
GGTATGTTTC TAGCTGATTT GATTGAAACG TATTTTGTGT CCCCTACCCT GTTCCGAGTG
ATCCGTCTTG CCAGGATTGG CCGAATCCTA CGTCTAGTCA AAGGAGCAAA GGGGATCCGC
ACGCTGCTCT TTGCTTTGAT GATGTCCCTT CCTGCGTTGT TTAACATCGG CCTCCTGCTC
TTCCTGGTCA TGTTCATCTA CGCCATCTTT GGAATGTCCA ACTTTGCCTA TGTTAAAAAG
GAAGATGGAA TTAATGACAT GTTCAATTTT GAGACCTTTG GCAACAGTAT GATTTGCCTG
TTCCAAATTA CAACCTCTGC TGGCTGGGAT GGATTGCTAG CACCTATTCT TAACAGTAAG
CCACCCGACT GTGACCCAAA AAAAGTTCAT CCTGGAAGTT CAGTTGAAGG AGACTGTGGT
AACCCATCTG TTGGAATATT CTACTTTGTT AGTTATATCA TCATATCCTT CCTGGTTGTG
GTGAACATGT ACATTGCAGT CATACTGGAG AATTTTAGTG TTGCCACTGA AGAAAGTACT
GAACCTCTGA GTGAGGATGA CTTTGAGATG TTCTATGAGG TTTGGGAGAA GTTTGATCCC
GATGCGACCC AGTTTATAGA GTTCTCTAAA CTCTCTGATT TTGCAGCTGC CCTGGATCCT
CCTCTTCTCA TAGCAAAACC CAACAAAGTC CAGCTCATTG CCATGGATCT GCCCATGGTT
AGTGGTGACC GGATCCATTG TCTTGACATC TTATTTGCTT TTACAAAGCG TGTTTTGGGT
GAGAGTGGGG AGATGGATTC TCTTCGTTCA CAGATGGAAG AAAGGTTCAT GTCTGCAAAT
CCTTCCAAAG TGTCCTATGA ACCCATCACA ACCACACTAA AACGGAAACA AGAGGATGTG
TCTGCTACTG TCATTCAGCG TGCTTATAGA CGTTACCGCT TAAGGCAAAA TGTCAAAAAT
ATATCAAGTA TATACATAAA AGATGGAGAC AGAGATGATG ATTTACTCAA TAAAAAAGAT
ATGGCTTTTG ATAATGTTAA TGAGAACTCA AGTCCAGAAA AAACAGATGC CACTTCATCC
ACCACCTCTC CACCTTCATA TGATAGTGTA ACAAAGCCAG ACAAAGAGAA ATATGAACAA
GACAGAACAG AAAAGGAAGA CAAAGGGAAA GACAGCAAGG AAAGCAAAAA ATAG

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

RefSeq XP_011509920.1
CDS315..6248
Misc Feature(1)777..1517(+)
Misc Feature(2)1776..2366(+)
Misc Feature(3)2613..3149(+)
Misc Feature(4)3225..3887(+)
Misc Feature(5)3963..4649(+)
Misc Feature(6)4653..4811(+)
Misc Feature(7)4695..4706(+)
Misc Feature(8)4749..4751(+)
Misc Feature(9)4926..5558(+)
Translation

Target ORF information:

RefSeq Version XM_011511618
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), transcript variant X4, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011511618

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCATAT
GTGACAGAGT TTGTGGACCT GGGCAATGTC TCAGCATTGA GAACATTCAG AGTTCTCCGA
GCATTGAAAA CAATTTCAGT CATTCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGGCACGACC AATCAAATAC ACAAGAAAAG GCGTTGTAGT
TCCTATCTCC TTTCAGAGGA TATGCTGAAT GATCCCAACC TCAGACAGAG AGCAATGAGT
AGAGCAAGCA TATTAACAAA CACTGTGGAA GAACTTGAAG AGTCCAGACA AAAATGTCCA
CCTTGGTGGT ACAGATTTGC ACACAAATTC TTGATCTGGA ATTGCTCTCC ATATTGGATA
AAATTCAAAA AGTGTATCTA TTTTATTGTA ATGGATCCTT TTGTAGATCT TGCAATTACC
ATTTGCATAG TTTTAAACAC ATTATTTATG GCTATGGAAC ACCACCCAAT GACTGAGGAA
TTCAAAAATG TACTTGCTAT AGGAAATTTG GTCTTTACTG GAATCTTTGC AGCTGAAATG
GTATTAAAAC TGATTGCCAT GGATCCATAT GAGTATTTCC AAGTAGGCTG GAATATTTTT
GACAGCCTTA TTGTGACTTT AAGTTTAGTG GAGCTCTTTC TAGCAGATGT GGAAGGATTG
TCAGTTCTGC GATCATTCAG ACTGCTCCGA GTCTTCAAGT TGGCAAAATC CTGGCCAACA
TTGAACATGC TGATTAAGAT CATTGGTAAC TCAGTAGGGG CTCTAGGTAA CCTCACCTTA
GTGTTGGCCA TCATCGTCTT CATTTTTGCT GTGGTCGGCA TGCAGCTCTT TGGTAAGAGC
TACAAAGAAT GTGTCTGCAA GATCAATGAT GACTGTACGC TCCCACGGTG GCACATGAAC
GACTTCTTCC ACTCCTTCCT GATTGTGTTC CGCGTGCTGT GTGGAGAGTG GATAGAGACC
ATGTGGGACT GTATGGAGGT CGCTGGTCAA GCTATGTGCC TTATTGTTTA CATGATGGTC
ATGGTCATTG GAAACCTGGT GGTCCTAAAC CTATTTCTGG CCTTATTATT GAGCTCATTT
AGTTCAGACA ATCTTACAGC AATTGAAGAA GACCCTGATG CAAACAACCT CCAGATTGCA
GTGACTAGAA TTAAAAAGGG AATAAATTAT GTGAAACAAA CCTTACGTGA ATTTATTCTA
AAAGCATTTT CCAAAAAGCC AAAGATTTCC AGGGAGATAA GACAAGCAGA AGATCTGAAT
ACTAAGAAGG AAAACTATAT TTCTAACCAT ACACTTGCTG AAATGAGCAA AGGTCACAAT
TTCCTCAAGG AAAAAGATAA AATCAGTGGT TTTGGAAGCA GCGTGGACAA ACACTTGATG
GAAGACAGTG ATGGTCAATC ATTTATTCAC AATCCCAGCC TCACAGTGAC AGTGCCAATT
GCACCTGGGG AATCCGATTT GGAAAATATG AATGCTGAGG AACTTAGCAG TGATTCGGAT
AGTGAATACA GCAAAGTGAG ATTAAACCGG TCAAGCTCCT CAGAGTGCAG CACAGTTGAT
AACCCTTTGC CTGGAGAAGG AGAAGAAGCA GAGGCTGAAC CTATGAATTC CGATGAGCCA
GAGGCCTGTT TCACAGATGG TTGTGTATGG AGGTTCTCAT GCTGCCAAGT TAACATAGAG
TCAGGGAAAG GAAAAATCTG GTGGAACATC AGGAAAACCT GCTACAAGAT TGTTGAACAC
AGTTGGTTTG AAAGCTTCAT TGTCCTCATG ATCCTGCTCA GCAGTGGTGC CCTGGCTTTT
GAAGATATTT ATATTGAAAG GAAAAAGACC ATTAAGATTA TCCTGGAGTA TGCAGACAAG
ATCTTCACTT ACATCTTCAT TCTGGAAATG CTTCTAAAAT GGATAGCATA TGGTTATAAA
ACATATTTCA CCAATGCCTG GTGTTGGCTG GATTTCCTAA TTGTTGATGT TTCTTTGGTT
ACTTTAGTGG CAAACACTCT TGGCTACTCA GATCTTGGCC CCATTAAATC CCTTCGGACA
CTGAGAGCTT TAAGACCTCT AAGAGCCTTA TCTAGATTTG AAGGAATGAG GGTCGTTGTG
AATGCACTCA TAGGAGCAAT TCCTTCCATC ATGAATGTGC TACTTGTGTG TCTTATATTC
TGGCTGATAT TCAGCATCAT GGGAGTAAAT TTGTTTGCTG GCAAGTTCTA TGAGTGTATT
AACACCACAG ATGGGTCACG GTTTCCTGCA AGTCAAGTTC CAAATCGTTC CGAATGTTTT
GCCCTTATGA ATGTTAGTCA AAATGTGCGA TGGAAAAACC TGAAAGTGAA CTTTGATAAT
GTCGGACTTG GTTACCTATC TCTGCTTCAA GTTGCAACTT TTAAGGGATG GACGATTATT
ATGTATGCAG CAGTGGATTC TGTTAATGTA GACAAGCAGC CCAAATATGA ATATAGCCTC
TACATGTATA TTTATTTTGT CGTCTTTATC ATCTTTGGGT CATTCTTCAC TTTGAACTTG
TTCATTGGTG TCATCATAGA TAATTTCAAC CAACAGAAAA AGAAGCTTGG AGGTCAAGAC
ATCTTTATGA CAGAAGAACA GAAGAAATAC TATAATGCAA TGAAAAAGCT GGGGTCCAAG
AAGCCACAAA AGCCAATTCC TCGACCAGGG AACAAAATCC AAGGATGTAT ATTTGACCTA
GTGACAAATC AAGCCTTTGA TATTAGTATC ATGGTTCTTA TCTGTCTCAA CATGGTAACC
ATGATGGTAG AAAAGGAGGG TCAAAGTCAA CATATGACTG AAGTTTTATA TTGGATAAAT
GTGGTTTTTA TAATCCTTTT CACTGGAGAA TGTGTGCTAA AACTGATCTC CCTCAGACAC
TACTACTTCA CTGTAGGATG GAATATTTTT GATTTTGTGG TTGTGATTAT CTCCATTGTA
GGTATGTTTC TAGCTGATTT GATTGAAACG TATTTTGTGT CCCCTACCCT GTTCCGAGTG
ATCCGTCTTG CCAGGATTGG CCGAATCCTA CGTCTAGTCA AAGGAGCAAA GGGGATCCGC
ACGCTGCTCT TTGCTTTGAT GATGTCCCTT CCTGCGTTGT TTAACATCGG CCTCCTGCTC
TTCCTGGTCA TGTTCATCTA CGCCATCTTT GGAATGTCCA ACTTTGCCTA TGTTAAAAAG
GAAGATGGAA TTAATGACAT GTTCAATTTT GAGACCTTTG GCAACAGTAT GATTTGCCTG
TTCCAAATTA CAACCTCTGC TGGCTGGGAT GGATTGCTAG CACCTATTCT TAACAGTAAG
CCACCCGACT GTGACCCAAA AAAAGTTCAT CCTGGAAGTT CAGTTGAAGG AGACTGTGGT
AACCCATCTG TTGGAATATT CTACTTTGTT AGTTATATCA TCATATCCTT CCTGGTTGTG
GTGAACATGT ACATTGCAGT CATACTGGAG AATTTTAGTG TTGCCACTGA AGAAAGTACT
GAACCTCTGA GTGAGGATGA CTTTGAGATG TTCTATGAGG TTTGGGAGAA GTTTGATCCC
GATGCGACCC AGTTTATAGA GTTCTCTAAA CTCTCTGATT TTGCAGCTGC CCTGGATCCT
CCTCTTCTCA TAGCAAAACC CAACAAAGTC CAGCTCATTG CCATGGATCT GCCCATGGTT
AGTGGTGACC GGATCCATTG TCTTGACATC TTATTTGCTT TTACAAAGCG TGTTTTGGGT
GAGAGTGGGG AGATGGATTC TCTTCGTTCA CAGATGGAAG AAAGGTTCAT GTCTGCAAAT
CCTTCCAAAG TGTCCTATGA ACCCATCACA ACCACACTAA AACGGAAACA AGAGGATGTG
TCTGCTACTG TCATTCAGCG TGCTTATAGA CGTTACCGCT TAAGGCAAAA TGTCAAAAAT
ATATCAAGTA TATACATAAA AGATGGAGAC AGAGATGATG ATTTACTCAA TAAAAAAGAT
ATGGCTTTTG ATAATGTTAA TGAGAACTCA AGTCCAGAAA AAACAGATGC CACTTCATCC
ACCACCTCTC CACCTTCATA TGATAGTGTA ACAAAGCCAG ACAAAGAGAA ATATGAACAA
GACAGAACAG AAAAGGAAGA CAAAGGGAAA GACAGCAAGG AAAGCAAAAA ATAG

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

CloneID OHu60381
Clone ID Related Accession (Same CDS sequence) XM_011511619
Accession Version XM_011511619.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4515bp)
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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 9 subunit alpha isoform X4
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_005403.18) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCGTAT
TTAACAGAAT TTGTAAACCT AGGCAATGTT TCAGCTCTTC GAACTTTCAG AGTATTGAGA
GCTTTGAAAA CTATTTCTGT AATCCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGTGATAATA GATAAGGCAA CTTCTGATGA CAGCGGCACG
ACCAATCAAA TACACAAGAA AAGGCGTTGT AGTTCCTATC TCCTTTCAGA GGATATGCTG
AATGATCCCA ACCTCAGACA GAGAGCAATG AGTAGAGCAA GCATATTAAC AAACACTGTG
GAAGAACTTG AAGAGTCCAG ACAAAAATGT CCACCTTGGT GGTACAGATT TGCACACAAA
TTCTTGATCT GGAATTGCTC TCCATATTGG ATAAAATTCA AAAAGTGTAT CTATTTTATT
GTAATGGATC CTTTTGTAGA TCTTGCAATT ACCATTTGCA TAGTTTTAAA CACATTATTT
ATGGCTATGG AACACCACCC AATGACTGAG GAATTCAAAA ATGTACTTGC TATAGGAAAT
TTGGTCTTTA CTGGAATCTT TGCAGCTGAA ATGGTATTAA AACTGATTGC CATGGATCCA
TATGAGTATT TCCAAGTAGG CTGGAATATT TTTGACAGCC TTATTGTGAC TTTAAGTTTA
GTGGAGCTCT TTCTAGCAGA TGTGGAAGGA TTGTCAGTTC TGCGATCATT CAGACTGCTC
CGAGTCTTCA AGTTGGCAAA ATCCTGGCCA ACATTGAACA TGCTGATTAA GATCATTGGT
AACTCAGTAG GGGCTCTAGG TAACCTCACC TTAGTGTTGG CCATCATCGT CTTCATTTTT
GCTGTGGTCG GCATGCAGCT CTTTGGTAAG AGCTACAAAG AATGTGTCTG CAAGATCAAT
GATGACTGTA CGCTCCCACG GTGGCACATG AACGACTTCT TCCACTCCTT CCTGATTGTG
TTCCGCGTGC TGTGTGGAGA GTGGATAGAG ACCATGTGGG ACTGTATGGA GGTCGCTGGT
CAAGCTATGT GCCTTATTGT TTACATGATG GTCATGGTCA TTGGAAACCT GGTGGTCCTA
AACCTATTTC TGGCCTTATT ATTGAGCTCA TTTAGTTCAG ACAATCTTAC AGCAATTGAA
GAAGACCCTG ATGCAAACAA CCTCCAGATT GCAGTGACTA GAATTAAAAA GGGAATAAAT
TATGTGAAAC AAACCTTACG TGAATTTATT CTAAAAGCAT TTTCCAAAAA GCCAAAGATT
TCCAGGGAGA TAAGACAAGC AGAAGATCTG AATACTAAGA AGGAAAACTA TATTTCTAAC
CATACACTTG CTGAAATGAG CAAAGGTCAC AATTTCCTCA AGGAAAAAGA TAAAATCAGT
GGTTTTGGAA GCAGCGTGGA CAAACACTTG ATGGAAGACA GTGATGGTCA ATCATTTATT
CACAATCCCA GCCTCACAGT GACAGTGCCA ATTGCACCTG GGGAATCCGA TTTGGAAAAT
ATGAATGCTG AGGAACTTAG CAGTGATTCG GATAGTGAAT ACAGCAAAGT GAGATTAAAC
CGGTCAAGCT CCTCAGAGTG CAGCACAGTT GATAACCCTT TGCCTGGAGA AGGAGAAGAA
GCAGAGGCTG AACCTATGAA TTCCGATGAG CCAGAGGCCT GTTTCACAGA TGGTTGTGTA
TGGAGGTTCT CATGCTGCCA AGTTAACATA GAGTCAGGGA AAGGAAAAAT CTGGTGGAAC
ATCAGGAAAA CCTGCTACAA GATTGTTGAA CACAGTTGGT TTGAAAGCTT CATTGTCCTC
ATGATCCTGC TCAGCAGTGG TGCCCTGGCT TTTGAAGATA TTTATATTGA AAGGAAAAAG
ACCATTAAGA TTATCCTGGA GTATGCAGAC AAGATCTTCA CTTACATCTT CATTCTGGAA
ATGCTTCTAA AATGGATAGC ATATGGTTAT AAAACATATT TCACCAATGC CTGGTGTTGG
CTGGATTTCC TAATTGTTGA TGTTTCTTTG GTTACTTTAG TGGCAAACAC TCTTGGCTAC
TCAGATCTTG GCCCCATTAA ATCCCTTCGG ACACTGAGAG CTTTAAGACC TCTAAGAGCC
TTATCTAGAT TTGAAGGAAT GAGGGTCGTT GTGAATGCAC TCATAGGAGC AATTCCTTCC
ATCATGAATG TGCTACTTGT GTGTCTTATA TTCTGGCTGA TATTCAGCAT CATGGGAGTA
AATTTGTTTG CTGGCAAGTT CTATGAGTGT ATTAACACCA CAGATGGGTC ACGGTTTCCT
GCAAGTCAAG TTCCAAATCG TTCCGAATGT TTTGCCCTTA TGAATGTTAG TCAAAATGTG
CGATGGAAAA ACCTGAAAGT GAACTTTGAT AATGTCGGAC TTGGTTACCT ATCTCTGCTT
CAAGTTGCAA CTTTTAAGGG ATGGACGATT ATTATGTATG CAGCAGTGGA TTCTGTTAAT
GTAGACAAGC AGCCCAAATA TGAATATAGC CTCTACATGT ATATTTATTT TGTCGTCTTT
ATCATCTTTG GGTCATTCTT CACTTTGAAC TTGTTCATTG GTGTCATCAT AGATAATTTC
AACCAACAGA AAAAGAAGCT TGGAGGTCAA GACATCTTTA TGACAGAAGA ACAGAAGAAA
TACTATAATG CAATGAAAAA GCTGGGGTCC AAGAAGCCAC AAAAGCCAAT TCCTCGACCA
GGGGTATGTT TCTAG

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

RefSeq XP_011509921.1
CDS315..4829
Misc Feature(1)777..1517(+)
Misc Feature(2)1776..2399(+)
Misc Feature(3)2646..3182(+)
Misc Feature(4)3258..3920(+)
Misc Feature(5)3996..4682(+)
Misc Feature(6)4686..4826(+)
Misc Feature(7)4728..4739(+)
Misc Feature(8)4782..4784(+)
Translation

Target ORF information:

RefSeq Version XM_011511619
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), transcript variant X5, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011511619

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
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCGTAT
TTAACAGAAT TTGTAAACCT AGGCAATGTT TCAGCTCTTC GAACTTTCAG AGTATTGAGA
GCTTTGAAAA CTATTTCTGT AATCCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGTGATAATA GATAAGGCAA CTTCTGATGA CAGCGGCACG
ACCAATCAAA TACACAAGAA AAGGCGTTGT AGTTCCTATC TCCTTTCAGA GGATATGCTG
AATGATCCCA ACCTCAGACA GAGAGCAATG AGTAGAGCAA GCATATTAAC AAACACTGTG
GAAGAACTTG AAGAGTCCAG ACAAAAATGT CCACCTTGGT GGTACAGATT TGCACACAAA
TTCTTGATCT GGAATTGCTC TCCATATTGG ATAAAATTCA AAAAGTGTAT CTATTTTATT
GTAATGGATC CTTTTGTAGA TCTTGCAATT ACCATTTGCA TAGTTTTAAA CACATTATTT
ATGGCTATGG AACACCACCC AATGACTGAG GAATTCAAAA ATGTACTTGC TATAGGAAAT
TTGGTCTTTA CTGGAATCTT TGCAGCTGAA ATGGTATTAA AACTGATTGC CATGGATCCA
TATGAGTATT TCCAAGTAGG CTGGAATATT TTTGACAGCC TTATTGTGAC TTTAAGTTTA
GTGGAGCTCT TTCTAGCAGA TGTGGAAGGA TTGTCAGTTC TGCGATCATT CAGACTGCTC
CGAGTCTTCA AGTTGGCAAA ATCCTGGCCA ACATTGAACA TGCTGATTAA GATCATTGGT
AACTCAGTAG GGGCTCTAGG TAACCTCACC TTAGTGTTGG CCATCATCGT CTTCATTTTT
GCTGTGGTCG GCATGCAGCT CTTTGGTAAG AGCTACAAAG AATGTGTCTG CAAGATCAAT
GATGACTGTA CGCTCCCACG GTGGCACATG AACGACTTCT TCCACTCCTT CCTGATTGTG
TTCCGCGTGC TGTGTGGAGA GTGGATAGAG ACCATGTGGG ACTGTATGGA GGTCGCTGGT
CAAGCTATGT GCCTTATTGT TTACATGATG GTCATGGTCA TTGGAAACCT GGTGGTCCTA
AACCTATTTC TGGCCTTATT ATTGAGCTCA TTTAGTTCAG ACAATCTTAC AGCAATTGAA
GAAGACCCTG ATGCAAACAA CCTCCAGATT GCAGTGACTA GAATTAAAAA GGGAATAAAT
TATGTGAAAC AAACCTTACG TGAATTTATT CTAAAAGCAT TTTCCAAAAA GCCAAAGATT
TCCAGGGAGA TAAGACAAGC AGAAGATCTG AATACTAAGA AGGAAAACTA TATTTCTAAC
CATACACTTG CTGAAATGAG CAAAGGTCAC AATTTCCTCA AGGAAAAAGA TAAAATCAGT
GGTTTTGGAA GCAGCGTGGA CAAACACTTG ATGGAAGACA GTGATGGTCA ATCATTTATT
CACAATCCCA GCCTCACAGT GACAGTGCCA ATTGCACCTG GGGAATCCGA TTTGGAAAAT
ATGAATGCTG AGGAACTTAG CAGTGATTCG GATAGTGAAT ACAGCAAAGT GAGATTAAAC
CGGTCAAGCT CCTCAGAGTG CAGCACAGTT GATAACCCTT TGCCTGGAGA AGGAGAAGAA
GCAGAGGCTG AACCTATGAA TTCCGATGAG CCAGAGGCCT GTTTCACAGA TGGTTGTGTA
TGGAGGTTCT CATGCTGCCA AGTTAACATA GAGTCAGGGA AAGGAAAAAT CTGGTGGAAC
ATCAGGAAAA CCTGCTACAA GATTGTTGAA CACAGTTGGT TTGAAAGCTT CATTGTCCTC
ATGATCCTGC TCAGCAGTGG TGCCCTGGCT TTTGAAGATA TTTATATTGA AAGGAAAAAG
ACCATTAAGA TTATCCTGGA GTATGCAGAC AAGATCTTCA CTTACATCTT CATTCTGGAA
ATGCTTCTAA AATGGATAGC ATATGGTTAT AAAACATATT TCACCAATGC CTGGTGTTGG
CTGGATTTCC TAATTGTTGA TGTTTCTTTG GTTACTTTAG TGGCAAACAC TCTTGGCTAC
TCAGATCTTG GCCCCATTAA ATCCCTTCGG ACACTGAGAG CTTTAAGACC TCTAAGAGCC
TTATCTAGAT TTGAAGGAAT GAGGGTCGTT GTGAATGCAC TCATAGGAGC AATTCCTTCC
ATCATGAATG TGCTACTTGT GTGTCTTATA TTCTGGCTGA TATTCAGCAT CATGGGAGTA
AATTTGTTTG CTGGCAAGTT CTATGAGTGT ATTAACACCA CAGATGGGTC ACGGTTTCCT
GCAAGTCAAG TTCCAAATCG TTCCGAATGT TTTGCCCTTA TGAATGTTAG TCAAAATGTG
CGATGGAAAA ACCTGAAAGT GAACTTTGAT AATGTCGGAC TTGGTTACCT ATCTCTGCTT
CAAGTTGCAA CTTTTAAGGG ATGGACGATT ATTATGTATG CAGCAGTGGA TTCTGTTAAT
GTAGACAAGC AGCCCAAATA TGAATATAGC CTCTACATGT ATATTTATTT TGTCGTCTTT
ATCATCTTTG GGTCATTCTT CACTTTGAAC TTGTTCATTG GTGTCATCAT AGATAATTTC
AACCAACAGA AAAAGAAGCT TGGAGGTCAA GACATCTTTA TGACAGAAGA ACAGAAGAAA
TACTATAATG CAATGAAAAA GCTGGGGTCC AAGAAGCCAC AAAAGCCAAT TCCTCGACCA
GGGGTATGTT TCTAG

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

CloneID OHu22884
Clone ID Related Accession (Same CDS sequence) NM_002977
Accession Version NM_002977.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5934bp)
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
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product sodium channel protein type 9 subunit alpha
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL517958.3, AK307549.1, AC108146.3, DQ857292.1, X82835.1, AC107082.3 and BU742924.1. This sequence is a reference standard in the RefSeqGene project. On Aug 19, 2009 this sequence version replaced gi:148596979. 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## CDS exon combination :: X82835.1, DQ857292.1 [ECO:0000331] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCGTAT
TTAACAGAAT TTGTAAACCT AGGCAATGTT TCAGCTCTTC GAACTTTCAG AGTATTGAGA
GCTTTGAAAA CTATTTCTGT AATCCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGGCACGACC AATCAAATAC ACAAGAAAAG GCGTTGTAGT
TCCTATCTCC TTTCAGAGGA TATGCTGAAT GATCCCAACC TCAGACAGAG AGCAATGAGT
AGAGCAAGCA TATTAACAAA CACTGTGGAA GAACTTGAAG AGTCCAGACA AAAATGTCCA
CCTTGGTGGT ACAGATTTGC ACACAAATTC TTGATCTGGA ATTGCTCTCC ATATTGGATA
AAATTCAAAA AGTGTATCTA TTTTATTGTA ATGGATCCTT TTGTAGATCT TGCAATTACC
ATTTGCATAG TTTTAAACAC ATTATTTATG GCTATGGAAC ACCACCCAAT GACTGAGGAA
TTCAAAAATG TACTTGCTAT AGGAAATTTG GTCTTTACTG GAATCTTTGC AGCTGAAATG
GTATTAAAAC TGATTGCCAT GGATCCATAT GAGTATTTCC AAGTAGGCTG GAATATTTTT
GACAGCCTTA TTGTGACTTT AAGTTTAGTG GAGCTCTTTC TAGCAGATGT GGAAGGATTG
TCAGTTCTGC GATCATTCAG ACTGCTCCGA GTCTTCAAGT TGGCAAAATC CTGGCCAACA
TTGAACATGC TGATTAAGAT CATTGGTAAC TCAGTAGGGG CTCTAGGTAA CCTCACCTTA
GTGTTGGCCA TCATCGTCTT CATTTTTGCT GTGGTCGGCA TGCAGCTCTT TGGTAAGAGC
TACAAAGAAT GTGTCTGCAA GATCAATGAT GACTGTACGC TCCCACGGTG GCACATGAAC
GACTTCTTCC ACTCCTTCCT GATTGTGTTC CGCGTGCTGT GTGGAGAGTG GATAGAGACC
ATGTGGGACT GTATGGAGGT CGCTGGTCAA GCTATGTGCC TTATTGTTTA CATGATGGTC
ATGGTCATTG GAAACCTGGT GGTCCTAAAC CTATTTCTGG CCTTATTATT GAGCTCATTT
AGTTCAGACA ATCTTACAGC AATTGAAGAA GACCCTGATG CAAACAACCT CCAGATTGCA
GTGACTAGAA TTAAAAAGGG AATAAATTAT GTGAAACAAA CCTTACGTGA ATTTATTCTA
AAAGCATTTT CCAAAAAGCC AAAGATTTCC AGGGAGATAA GACAAGCAGA AGATCTGAAT
ACTAAGAAGG AAAACTATAT TTCTAACCAT ACACTTGCTG AAATGAGCAA AGGTCACAAT
TTCCTCAAGG AAAAAGATAA AATCAGTGGT TTTGGAAGCA GCGTGGACAA ACACTTGATG
GAAGACAGTG ATGGTCAATC ATTTATTCAC AATCCCAGCC TCACAGTGAC AGTGCCAATT
GCACCTGGGG AATCCGATTT GGAAAATATG AATGCTGAGG AACTTAGCAG TGATTCGGAT
AGTGAATACA GCAAAGTGAG ATTAAACCGG TCAAGCTCCT CAGAGTGCAG CACAGTTGAT
AACCCTTTGC CTGGAGAAGG AGAAGAAGCA GAGGCTGAAC CTATGAATTC CGATGAGCCA
GAGGCCTGTT TCACAGATGG TTGTGTACGG AGGTTCTCAT GCTGCCAAGT TAACATAGAG
TCAGGGAAAG GAAAAATCTG GTGGAACATC AGGAAAACCT GCTACAAGAT TGTTGAACAC
AGTTGGTTTG AAAGCTTCAT TGTCCTCATG ATCCTGCTCA GCAGTGGTGC CCTGGCTTTT
GAAGATATTT ATATTGAAAG GAAAAAGACC ATTAAGATTA TCCTGGAGTA TGCAGACAAG
ATCTTCACTT ACATCTTCAT TCTGGAAATG CTTCTAAAAT GGATAGCATA TGGTTATAAA
ACATATTTCA CCAATGCCTG GTGTTGGCTG GATTTCCTAA TTGTTGATGT TTCTTTGGTT
ACTTTAGTGG CAAACACTCT TGGCTACTCA GATCTTGGCC CCATTAAATC CCTTCGGACA
CTGAGAGCTT TAAGACCTCT AAGAGCCTTA TCTAGATTTG AAGGAATGAG GGTCGTTGTG
AATGCACTCA TAGGAGCAAT TCCTTCCATC ATGAATGTGC TACTTGTGTG TCTTATATTC
TGGCTGATAT TCAGCATCAT GGGAGTAAAT TTGTTTGCTG GCAAGTTCTA TGAGTGTATT
AACACCACAG ATGGGTCACG GTTTCCTGCA AGTCAAGTTC CAAATCGTTC CGAATGTTTT
GCCCTTATGA ATGTTAGTCA AAATGTGCGA TGGAAAAACC TGAAAGTGAA CTTTGATAAT
GTCGGACTTG GTTACCTATC TCTGCTTCAA GTTGCAACTT TTAAGGGATG GACGATTATT
ATGTATGCAG CAGTGGATTC TGTTAATGTA GACAAGCAGC CCAAATATGA ATATAGCCTC
TACATGTATA TTTATTTTGT CGTCTTTATC ATCTTTGGGT CATTCTTCAC TTTGAACTTG
TTCATTGGTG TCATCATAGA TAATTTCAAC CAACAGAAAA AGAAGCTTGG AGGTCAAGAC
ATCTTTATGA CAGAAGAACA GAAGAAATAC TATAATGCAA TGAAAAAGCT GGGGTCCAAG
AAGCCACAAA AGCCAATTCC TCGACCAGGG AACAAAATCC AAGGATGTAT ATTTGACCTA
GTGACAAATC AAGCCTTTGA TATTAGTATC ATGGTTCTTA TCTGTCTCAA CATGGTAACC
ATGATGGTAG AAAAGGAGGG TCAAAGTCAA CATATGACTG AAGTTTTATA TTGGATAAAT
GTGGTTTTTA TAATCCTTTT CACTGGAGAA TGTGTGCTAA AACTGATCTC CCTCAGACAC
TACTACTTCA CTGTAGGATG GAATATTTTT GATTTTGTGG TTGTGATTAT CTCCATTGTA
GGTATGTTTC TAGCTGATTT GATTGAAACG TATTTTGTGT CCCCTACCCT GTTCCGAGTG
ATCCGTCTTG CCAGGATTGG CCGAATCCTA CGTCTAGTCA AAGGAGCAAA GGGGATCCGC
ACGCTGCTCT TTGCTTTGAT GATGTCCCTT CCTGCGTTGT TTAACATCGG CCTCCTGCTC
TTCCTGGTCA TGTTCATCTA CGCCATCTTT GGAATGTCCA ACTTTGCCTA TGTTAAAAAG
GAAGATGGAA TTAATGACAT GTTCAATTTT GAGACCTTTG GCAACAGTAT GATTTGCCTG
TTCCAAATTA CAACCTCTGC TGGCTGGGAT GGATTGCTAG CACCTATTCT TAACAGTAAG
CCACCCGACT GTGACCCAAA AAAAGTTCAT CCTGGAAGTT CAGTTGAAGG AGACTGTGGT
AACCCATCTG TTGGAATATT CTACTTTGTT AGTTATATCA TCATATCCTT CCTGGTTGTG
GTGAACATGT ACATTGCAGT CATACTGGAG AATTTTAGTG TTGCCACTGA AGAAAGTACT
GAACCTCTGA GTGAGGATGA CTTTGAGATG TTCTATGAGG TTTGGGAGAA GTTTGATCCC
GATGCGACCC AGTTTATAGA GTTCTCTAAA CTCTCTGATT TTGCAGCTGC CCTGGATCCT
CCTCTTCTCA TAGCAAAACC CAACAAAGTC CAGCTCATTG CCATGGATCT GCCCATGGTT
AGTGGTGACC GGATCCATTG TCTTGACATC TTATTTGCTT TTACAAAGCG TGTTTTGGGT
GAGAGTGGGG AGATGGATTC TCTTCGTTCA CAGATGGAAG AAAGGTTCAT GTCTGCAAAT
CCTTCCAAAG TGTCCTATGA ACCCATCACA ACCACACTAA AACGGAAACA AGAGGATGTG
TCTGCTACTG TCATTCAGCG TGCTTATAGA CGTTACCGCT TAAGGCAAAA TGTCAAAAAT
ATATCAAGTA TATACATAAA AGATGGAGAC AGAGATGATG ATTTACTCAA TAAAAAAGAT
ATGGCTTTTG ATAATGTTAA TGAGAACTCA AGTCCAGAAA AAACAGATGC CACTTCATCC
ACCACCTCTC CACCTTCATA TGATAGTGTA ACAAAGCCAG ACAAAGAGAA ATATGAACAA
GACAGAACAG AAAAGGAAGA CAAAGGGAAA GACAGCAAGG AAAGCAAAAA ATAG

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

RefSeq NP_002968.1
CDS342..6275
Misc Feature(1)321..323(+)
Misc Feature(2)702..1556(+)
Misc Feature(3)705..776(+)
Misc Feature(4)801..860(+)
Misc Feature(5)804..1544(+)
Misc Feature(6)900..956(+)
Misc Feature(7)975..1034(+)
Misc Feature(8)1083..1154(+)
Misc Feature(9)1476..1553(+)
Misc Feature(10)1803..2393(+)
Misc Feature(11)2520..3215(+)
Misc Feature(12)2523..2597(+)
Misc Feature(13)2631..2702(+)
Misc Feature(14)2640..3176(+)
Misc Feature(15)2727..2786(+)
Misc Feature(16)2805..2864(+)
Misc Feature(17)2913..2975(+)
Misc Feature(18)3135..3212(+)
Misc Feature(19)3252..3914(+)
Misc Feature(20)3867..4682(+)
Misc Feature(21)3870..3941(+)
Misc Feature(22)3981..4058(+)
Misc Feature(23)3990..4676(+)
Misc Feature(24)4077..4142(+)
Misc Feature(25)4155..4220(+)
Misc Feature(26)4278..4361(+)
Misc Feature(27)4599..4679(+)
Misc Feature(28)4680..4838(+)
Misc Feature(29)4722..4733(+)
Misc Feature(30)4776..4778(+)
Misc Feature(31)4776..4778(+)
Misc Feature(32)4836..5591(+)
Misc Feature(33)4839..4910(+)
Misc Feature(34)4944..5015(+)
Misc Feature(35)4953..5585(+)
Misc Feature(36)5034..5105(+)
Misc Feature(37)5136..5201(+)
Misc Feature(38)5247..5315(+)
Misc Feature(39)5514..5588(+)
Exon (1)1..291
Gene:SCN9A
Gene Synonym:
Exon (2)292..599
Gene:SCN9A
Gene Synonym:
Exon (3)600..718
Gene:SCN9A
Gene Synonym:
Exon (4)719..808
Gene:SCN9A
Gene Synonym:
Exon (5)809..937
Gene:SCN9A
Gene Synonym:
Exon (6)938..1029
Gene:SCN9A
Gene Synonym:
Exon (7)1030..1242
Gene:SCN9A
Gene Synonym:
Exon (8)1243..1306
Gene:SCN9A
Gene Synonym:
Exon (9)1307..1448
Gene:SCN9A
Gene Synonym:
Exon (10)1449..1655
Gene:SCN9A
Gene Synonym:
Exon (11)1656..1943
Gene:SCN9A
Gene Synonym:
Exon (12)1944..2282
Gene:SCN9A
Gene Synonym:
Exon (13)2283..2412
Gene:SCN9A
Gene Synonym:
Exon (14)2413..2651
Gene:SCN9A
Gene Synonym:
Exon (15)2652..2825
Gene:SCN9A
Gene Synonym:
Exon (16)2826..3182
Gene:SCN9A
Gene Synonym:
Exon (17)3183..3659
Gene:SCN9A
Gene Synonym:
Exon (18)3660..3780
Gene:SCN9A
Gene Synonym:
Exon (19)3781..3935
Gene:SCN9A
Gene Synonym:
Exon (20)3936..4109
Gene:SCN9A
Gene Synonym:
Exon (21)4110..4232
Gene:SCN9A
Gene Synonym:
Exon (22)4233..4514
Gene:SCN9A
Gene Synonym:
Exon (23)4515..4568
Gene:SCN9A
Gene Synonym:
Exon (24)4569..4706
Gene:SCN9A
Gene Synonym:
Exon (25)4707..4811
Gene:SCN9A
Gene Synonym:
Exon (26)4812..5082
Gene:SCN9A
Gene Synonym:
Exon (27)5083..9762
Gene:SCN9A
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_002977
Organism Homo sapiens (human)
Definition Homo sapiens sodium channel, voltage gated, type IX alpha subunit (SCN9A), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_002977

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
ATGGCAATGT TGCCTCCCCC AGGACCTCAG AGCTTTGTCC ATTTCACAAA ACAGTCTCTT 
GCCCTCATTG AACAACGCAT TGCTGAAAGA AAATCAAAGG AACCCAAAGA AGAAAAGAAA
GATGATGATG AAGAAGCCCC AAAGCCAAGC AGTGACTTGG AAGCTGGCAA ACAGCTGCCC
TTCATCTATG GGGACATTCC TCCCGGCATG GTGTCAGAGC CCCTGGAGGA CTTGGACCCC
TACTATGCAG ACAAAAAGAC TTTCATAGTA TTGAACAAAG GGAAAACAAT CTTCCGTTTC
AATGCCACAC CTGCTTTATA TATGCTTTCT CCTTTCAGTC CTCTAAGAAG AATATCTATT
AAGATTTTAG TACACTCCTT ATTCAGCATG CTCATCATGT GCACTATTCT GACAAACTGC
ATATTTATGA CCATGAATAA CCCACCGGAC TGGACCAAAA ATGTCGAGTA CACTTTTACT
GGAATATATA CTTTTGAATC ACTTGTAAAA ATCCTTGCAA GAGGCTTCTG TGTAGGAGAA
TTCACTTTTC TTCGTGACCC GTGGAACTGG CTGGATTTTG TCGTCATTGT TTTTGCGTAT
TTAACAGAAT TTGTAAACCT AGGCAATGTT TCAGCTCTTC GAACTTTCAG AGTATTGAGA
GCTTTGAAAA CTATTTCTGT AATCCCAGGC CTGAAGACAA TTGTAGGGGC TTTGATCCAG
TCAGTGAAGA AGCTTTCTGA TGTCATGATC CTGACTGTGT TCTGTCTGAG TGTGTTTGCA
CTAATTGGAC TACAGCTGTT CATGGGAAAC CTGAAGCATA AATGTTTTCG AAATTCACTT
GAAAATAATG AAACATTAGA AAGCATAATG AATACCCTAG AGAGTGAAGA AGACTTTAGA
AAATATTTTT ATTACTTGGA AGGATCCAAA GATGCTCTCC TTTGTGGTTT CAGCACAGAT
TCAGGTCAGT GTCCAGAGGG GTACACCTGT GTGAAAATTG GCAGAAACCC TGATTATGGC
TACACGAGCT TTGACACTTT CAGCTGGGCC TTCTTAGCCT TGTTTAGGCT AATGACCCAA
GATTACTGGG AAAACCTTTA CCAACAGACG CTGCGTGCTG CTGGCAAAAC CTACATGATC
TTCTTTGTCG TAGTGATTTT CCTGGGCTCC TTTTATCTAA TAAACTTGAT CCTGGCTGTG
GTTGCCATGG CATATGAAGA ACAGAACCAG GCAAACATTG AAGAAGCTAA ACAGAAAGAA
TTAGAATTTC AACAGATGTT AGACCGTCTT AAAAAAGAGC AAGAAGAAGC TGAGGCAATT
GCAGCGGCAG CGGCTGAATA TACAAGTATT AGGAGAAGCA GAATTATGGG CCTCTCAGAG
AGTTCTTCTG AAACATCCAA ACTGAGCTCT AAAAGTGCTA AAGAAAGAAG AAACAGAAGA
AAGAAAAAGA ATCAAAAGAA GCTCTCCAGT GGAGAGGAAA AGGGAGATGC TGAGAAATTG
TCGAAATCAG AATCAGAGGA CAGCATCAGA AGAAAAAGTT TCCACCTTGG TGTCGAAGGG
CATAGGCGAG CACATGAAAA GAGGTTGTCT ACCCCCAATC AGTCACCACT CAGCATTCGT
GGCTCCTTGT TTTCTGCAAG GCGAAGCAGC AGAACAAGTC TTTTTAGTTT CAAAGGCAGA
GGAAGAGATA TAGGATCTGA GACTGAATTT GCCGATGATG AGCACAGCAT TTTTGGAGAC
AATGAGAGCA GAAGGGGCTC ACTGTTTGTG CCCCACAGAC CCCAGGAGCG ACGCAGCAGT
AACATCAGCC AAGCCAGTAG GTCCCCACCA ATGCTGCCGG TGAACGGGAA AATGCACAGT
GCTGTGGACT GCAACGGTGT GGTCTCCCTG GTTGATGGAC GCTCAGCCCT CATGCTCCCC
AATGGACAGC TTCTGCCAGA GGGCACGACC AATCAAATAC ACAAGAAAAG GCGTTGTAGT
TCCTATCTCC TTTCAGAGGA TATGCTGAAT GATCCCAACC TCAGACAGAG AGCAATGAGT
AGAGCAAGCA TATTAACAAA CACTGTGGAA GAACTTGAAG AGTCCAGACA AAAATGTCCA
CCTTGGTGGT ACAGATTTGC ACACAAATTC TTGATCTGGA ATTGCTCTCC ATATTGGATA
AAATTCAAAA AGTGTATCTA TTTTATTGTA ATGGATCCTT TTGTAGATCT TGCAATTACC
ATTTGCATAG TTTTAAACAC ATTATTTATG GCTATGGAAC ACCACCCAAT GACTGAGGAA
TTCAAAAATG TACTTGCTAT AGGAAATTTG GTCTTTACTG GAATCTTTGC AGCTGAAATG
GTATTAAAAC TGATTGCCAT GGATCCATAT GAGTATTTCC AAGTAGGCTG GAATATTTTT
GACAGCCTTA TTGTGACTTT AAGTTTAGTG GAGCTCTTTC TAGCAGATGT GGAAGGATTG
TCAGTTCTGC GATCATTCAG ACTGCTCCGA GTCTTCAAGT TGGCAAAATC CTGGCCAACA
TTGAACATGC TGATTAAGAT CATTGGTAAC TCAGTAGGGG CTCTAGGTAA CCTCACCTTA
GTGTTGGCCA TCATCGTCTT CATTTTTGCT GTGGTCGGCA TGCAGCTCTT TGGTAAGAGC
TACAAAGAAT GTGTCTGCAA GATCAATGAT GACTGTACGC TCCCACGGTG GCACATGAAC
GACTTCTTCC ACTCCTTCCT GATTGTGTTC CGCGTGCTGT GTGGAGAGTG GATAGAGACC
ATGTGGGACT GTATGGAGGT CGCTGGTCAA GCTATGTGCC TTATTGTTTA CATGATGGTC
ATGGTCATTG GAAACCTGGT GGTCCTAAAC CTATTTCTGG CCTTATTATT GAGCTCATTT
AGTTCAGACA ATCTTACAGC AATTGAAGAA GACCCTGATG CAAACAACCT CCAGATTGCA
GTGACTAGAA TTAAAAAGGG AATAAATTAT GTGAAACAAA CCTTACGTGA ATTTATTCTA
AAAGCATTTT CCAAAAAGCC AAAGATTTCC AGGGAGATAA GACAAGCAGA AGATCTGAAT
ACTAAGAAGG AAAACTATAT TTCTAACCAT ACACTTGCTG AAATGAGCAA AGGTCACAAT
TTCCTCAAGG AAAAAGATAA AATCAGTGGT TTTGGAAGCA GCGTGGACAA ACACTTGATG
GAAGACAGTG ATGGTCAATC ATTTATTCAC AATCCCAGCC TCACAGTGAC AGTGCCAATT
GCACCTGGGG AATCCGATTT GGAAAATATG AATGCTGAGG AACTTAGCAG TGATTCGGAT
AGTGAATACA GCAAAGTGAG ATTAAACCGG TCAAGCTCCT CAGAGTGCAG CACAGTTGAT
AACCCTTTGC CTGGAGAAGG AGAAGAAGCA GAGGCTGAAC CTATGAATTC CGATGAGCCA
GAGGCCTGTT TCACAGATGG TTGTGTACGG AGGTTCTCAT GCTGCCAAGT TAACATAGAG
TCAGGGAAAG GAAAAATCTG GTGGAACATC AGGAAAACCT GCTACAAGAT TGTTGAACAC
AGTTGGTTTG AAAGCTTCAT TGTCCTCATG ATCCTGCTCA GCAGTGGTGC CCTGGCTTTT
GAAGATATTT ATATTGAAAG GAAAAAGACC ATTAAGATTA TCCTGGAGTA TGCAGACAAG
ATCTTCACTT ACATCTTCAT TCTGGAAATG CTTCTAAAAT GGATAGCATA TGGTTATAAA
ACATATTTCA CCAATGCCTG GTGTTGGCTG GATTTCCTAA TTGTTGATGT TTCTTTGGTT
ACTTTAGTGG CAAACACTCT TGGCTACTCA GATCTTGGCC CCATTAAATC CCTTCGGACA
CTGAGAGCTT TAAGACCTCT AAGAGCCTTA TCTAGATTTG AAGGAATGAG GGTCGTTGTG
AATGCACTCA TAGGAGCAAT TCCTTCCATC ATGAATGTGC TACTTGTGTG TCTTATATTC
TGGCTGATAT TCAGCATCAT GGGAGTAAAT TTGTTTGCTG GCAAGTTCTA TGAGTGTATT
AACACCACAG ATGGGTCACG GTTTCCTGCA AGTCAAGTTC CAAATCGTTC CGAATGTTTT
GCCCTTATGA ATGTTAGTCA AAATGTGCGA TGGAAAAACC TGAAAGTGAA CTTTGATAAT
GTCGGACTTG GTTACCTATC TCTGCTTCAA GTTGCAACTT TTAAGGGATG GACGATTATT
ATGTATGCAG CAGTGGATTC TGTTAATGTA GACAAGCAGC CCAAATATGA ATATAGCCTC
TACATGTATA TTTATTTTGT CGTCTTTATC ATCTTTGGGT CATTCTTCAC TTTGAACTTG
TTCATTGGTG TCATCATAGA TAATTTCAAC CAACAGAAAA AGAAGCTTGG AGGTCAAGAC
ATCTTTATGA CAGAAGAACA GAAGAAATAC TATAATGCAA TGAAAAAGCT GGGGTCCAAG
AAGCCACAAA AGCCAATTCC TCGACCAGGG AACAAAATCC AAGGATGTAT ATTTGACCTA
GTGACAAATC AAGCCTTTGA TATTAGTATC ATGGTTCTTA TCTGTCTCAA CATGGTAACC
ATGATGGTAG AAAAGGAGGG TCAAAGTCAA CATATGACTG AAGTTTTATA TTGGATAAAT
GTGGTTTTTA TAATCCTTTT CACTGGAGAA TGTGTGCTAA AACTGATCTC CCTCAGACAC
TACTACTTCA CTGTAGGATG GAATATTTTT GATTTTGTGG TTGTGATTAT CTCCATTGTA
GGTATGTTTC TAGCTGATTT GATTGAAACG TATTTTGTGT CCCCTACCCT GTTCCGAGTG
ATCCGTCTTG CCAGGATTGG CCGAATCCTA CGTCTAGTCA AAGGAGCAAA GGGGATCCGC
ACGCTGCTCT TTGCTTTGAT GATGTCCCTT CCTGCGTTGT TTAACATCGG CCTCCTGCTC
TTCCTGGTCA TGTTCATCTA CGCCATCTTT GGAATGTCCA ACTTTGCCTA TGTTAAAAAG
GAAGATGGAA TTAATGACAT GTTCAATTTT GAGACCTTTG GCAACAGTAT GATTTGCCTG
TTCCAAATTA CAACCTCTGC TGGCTGGGAT GGATTGCTAG CACCTATTCT TAACAGTAAG
CCACCCGACT GTGACCCAAA AAAAGTTCAT CCTGGAAGTT CAGTTGAAGG AGACTGTGGT
AACCCATCTG TTGGAATATT CTACTTTGTT AGTTATATCA TCATATCCTT CCTGGTTGTG
GTGAACATGT ACATTGCAGT CATACTGGAG AATTTTAGTG TTGCCACTGA AGAAAGTACT
GAACCTCTGA GTGAGGATGA CTTTGAGATG TTCTATGAGG TTTGGGAGAA GTTTGATCCC
GATGCGACCC AGTTTATAGA GTTCTCTAAA CTCTCTGATT TTGCAGCTGC CCTGGATCCT
CCTCTTCTCA TAGCAAAACC CAACAAAGTC CAGCTCATTG CCATGGATCT GCCCATGGTT
AGTGGTGACC GGATCCATTG TCTTGACATC TTATTTGCTT TTACAAAGCG TGTTTTGGGT
GAGAGTGGGG AGATGGATTC TCTTCGTTCA CAGATGGAAG AAAGGTTCAT GTCTGCAAAT
CCTTCCAAAG TGTCCTATGA ACCCATCACA ACCACACTAA AACGGAAACA AGAGGATGTG
TCTGCTACTG TCATTCAGCG TGCTTATAGA CGTTACCGCT TAAGGCAAAA TGTCAAAAAT
ATATCAAGTA TATACATAAA AGATGGAGAC AGAGATGATG ATTTACTCAA TAAAAAAGAT
ATGGCTTTTG ATAATGTTAA TGAGAACTCA AGTCCAGAAA AAACAGATGC CACTTCATCC
ACCACCTCTC CACCTTCATA TGATAGTGTA ACAAAGCCAG ACAAAGAGAA ATATGAACAA
GACAGAACAG AAAAGGAAGA CAAAGGGAAA GACAGCAAGG AAAGCAAAAA ATAG

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

 
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