Nav1.8 (SCN10A) (NM_001293306) Human Untagged Clone

Specifications

Product Data
Type	Human Untagged Clone
Tag	Tag Free
Synonyms	FEPS2; Nav1.8; PN3; SNS
Vector	pCMV6-Entry
E. coli Selection	Kanamycin (25 ug/mL)
Mammalian Cell Selection	Neomycin
Sequence Data	Fully Sequenced ORF (showhide) >NCBI ORF sequence for NM_001293306, the custom clone sequence may differ by one or more nucleotides ATGGAATTCCCCATTGGATCCCTCGAAACTAACAACTTCCGTCGCTTTACTCCGGAGTCACTGGTGGAGA TAGAGAAGCAAATTGCTGCCAAGCAGGGAACAAAGAAAGCCAGAGAGAAGCATAGGGAGCAGAAGGACCA AGAAGAGAAGCCTCGGCCCCAGCTGGACTTGAAAGCCTGCAACCAGCTGCCCAAGTTCTATGGTGAGCTC CCAGCAGAACTGATCGGGGAGCCCCTGGAGGATCTAGATCCGTTCTACAGCACACACCGGACATTTATGG TGCTGAACAAAGGGAGGACCATTTCCCGGTTTAGTGCCACTCGGGCCCTGTGGCTATTCAGTCCTTTCAA CCTGATCAGAAGAACGGCCATCAAAGTGTCTGTCCACTCGTGGTTCAGTTTATTTATTACGGTCACTATT TTGGTTAATTGTGTGTGCATGACCCGAACTGACCTTCCAGAGAAAATTGAATATGTCTTCACTGTCATTT ACACCTTTGAAGCCTTGATAAAGATACTGGCAAGAGGATTTTGTCTAAATGAGTTCACGTACCTGAGAGA TCCTTGGAACTGGCTGGATTTTAGCGTCATTACCCTGGCATATGTTGGCACAGCAATAGATCTCCGTGGG ATCTCAGGCCTGCGGACATTCAGAGTTCTTAGAGCATTAAAAACAGTTTCTGTGATCCCAGGCCTGAAGG TCATTGTGGGGGCCCTGATTCACTCAGTGAAGAAACTGGCTGATGTGACCATCCTCACCATCTTCTGCCT AAGTGTTTTTGCCTTGGTGGGGCTGCAACTCTTCAAGGGCAACCTCAAAAATAAATGTGTCAAGAATGAC ATGGCTGTCAATGAGACAACCAACTACTCATCTCACAGAAAACCAGATATCTACATAAATAAGCGAGGCA CTTCTGACCCCTTACTGTGTGGCAATGGATCTGACTCAGGCCACTGCCCTGATGGTTATATCTGCCTTAA AACTTCTGACAACCCGGATTTTAACTACACCAGCTTTGATTCCTTTGCTTGGGCTTTCCTCTCACTGTTC CGCCTCATGACACAGGATTCCTGGGAACGCCTCTACCAGCAGACCCTGAGGACTTCTGGGAAAATCTATA TGATCTTTTTTGTGCTCGTAATCTTCCTGGGATCTTTCTACCTGGTCAACTTGATCTTGGCTGTAGTCAC CATGGCGTATGAGGAGCAGAACCAGGCAACCACTGATGAAATTGAAGCAAAGGAGAAGAAGTTCCAGGAG GCCCTCGAGATGCTCCGGAAGGAGCAGGAGGTGCTAGCAGCACTAGGGATTGACACAACCTCTCTCCACT CCCACAATGGATCACCTTTAACCTCCAAAAATGCCAGTGAGAGAAGGCATAGAATAAAGCCAAGAGTGTC AGAGGGCTCCACAGAAGACAACAAATCACCCCGCTCTGATCCTTACAACCAGCGCAGGATGTCTTTTCTA GGCCTCGCCTCTGGAAAACGCCGGGCTAGTCATGGCAGTGTGTTCCATTTCCGGTCCCCTGGCCGAGATA TCTCACTCCCTGAGGGAGTCACAGATGATGGAGTCTTTCCTGGAGACCACGAAAGCCATCGGGGCTCTCT GCTGCTGGGTGGGGGTGCTGGCCAGCAAGGCCCCCTCCCTAGAAGCCCTCTTCCTCAACCCAGCAACCCT GACTCCAGGCATGGAGAAGATGAACACCAACCGCCGCCCACTAGTGAGCTTGCCCCTGGAGCTGTCGATG TCTCGGCATTCGATGCAGGACAAAAGAAGACTTTCTTGTCAGCAGAATACTTAGATGAACCTTTCCGGGC CCAAAGGGCAATGAGTGTTGTCAGTATCATAACCTCCGTCCTTGAGGAACTCGAGGAGTCTGAACAGAAG TGCCCACCCTGCTTGACCAGCTTGTCTCAGAAGTATCTGATCTGGGATTGCTGCCCCATGTGGGTGAAGC TCAAGACAATTCTCTTTGGGCTTGTGACGGATCCCTTTGCAGAGCTCACCATCACCTTGTGCATCGTGGT GAACACCATCTTCATGGCCATGGAGCACCATGGCATGAGCCCTACCTTCGAAGCCATGCTCCAGATAGGC AACATCGTCTTTACCATATTTTTTACTGCTGAAATGGTCTTCAAAATCATTGCCTTCGACCCATACTATT ATTTCCAGAAGAAGTGGAATATCTTTGACTGCATCATCGTCACTGTGAGTCTGCTAGAGCTGGGCGTGGC CAAGAAGGGAAGCCTGTCTGTGCTGCGGAGCTTCCGCTTGCTGCGCGTATTCAAGCTGGCCAAATCCTGG CCCACCTTAAACACACTCATCAAGATCATCGGAAACTCAGTGGGGGCACTGGGGAACCTCACCATCATCC TGGCCATCATTGTCTTTGTCTTTGCTCTGGTTGGCAAGCAGCTCCTAGGGGAAAACTACCGTAACAACCG AAAAAATATCTCCGCGCCCCATGAAGACTGGCCCCGCTGGCACATGCACGACTTCTTCCACTCTTTCCTC ATTGTCTTCCGTATCCTCTGTGGAGAGTGGATTGAGAACATGTGGGCCTGCATGGAAGTTGGCCAAAAAT CCATATGCCTCATCCTTTTCTTGACGGTGATGGTGCTAGGGAACCTGGTGGTGCTTAACCTGTTCATCGC CCTGCTATTGAACTCTTTCAGTGCTGACAACCTCACAGCCCCGGAGGACGATGGGGAGGTGAACAACCTG CAGGTGGCCCTGGCACGGATCCAGGTCTTTGGCCATCGTACCAAACAGGCTCTTTGCAGCTTCTTCAGCA GGTCCTGCCCATTCCCCCAGCCCAAGGCAGAGCCTGAGCTGGTGGTGAAACTCCCACTCTCCAGCTCCAA GGCTGAGAACCACATTGCTGCCAACACTGCCAGGGGGAGCTCTGGAGGGCTCCAAGCTCCCAGAGGCCCC AGGGATGAGCACAGTGACTTCATCGCTAATCCGACTGTGTGGGTCTCTGTGCCCATTGCTGAGGGTGAAT CTGATCTTGATGACTTGGAGGATGATGGTGGGGAAGATGCTCAGAGCTTCCAGCAGGAAGTGATCCCCAA AGGACAGGAGCAGCTGCAGCAAGTCGAGAGGTGTGGGGACCACCTGACACCCAGGAGCCCAGGCACTGGA ACATCTTCTGAGGACCTGGCTCCATCCCTGGGTGAGACGTGGAAAGATGAGTCTGTTCCTCAGGTCCCTG CTGAGGGAGTGGACGACACAAGCTCCTCTGAGGGCAGCACGGTGGACTGCCTAGATCCTGAGGAAATCCT GAGGAAGATCCCTGAGCTGGCAGATGACCTGGAAGAACCAGATGACTGCTTCACAGAAGGATGCATTCGC CACTGTCCCTGCTGCAAACTGGATACCACCAAGAGTCCATGGGATGTGGGCTGGCAGGTGCGCAAGACTT GCTACCGTATCGTGGAGCACAGCTGGTTTGAGAGCTTCATCATCTTCATGATCCTGCTCAGCAGTGGATC TCTGGCCTTTGAAGACTATTACCTGGACCAGAAGCCCACGGTGAAAGCTTTGCTGGAGTACACTGACAGG GTCTTCACCTTTATCTTTGTGTTCGAGATGCTGCTTAAGTGGGTGGCCTATGGCTTCAAAAAGTACTTCA CCAATGCCTGGTGCTGGCTGGACTTCCTCATTGTGAATATCTCACTGATAAGTCTCACAGCGAAGATTCT GGAATATTCTGAAGTGGCTCCCATCAAAGCCCTTCGAACCCTTCGCGCTCTGCGGCCACTGCGGGCTCTT TCTCGATTTGAAGGCATGCGGGTGGTGGTGGATGCCCTGGTGGGCGCCATCCCATCCATCATGAATGTCC TCCTCGTCTGCCTCATCTTCTGGCTCATCTTCAGCATCATGGGTGTGAACCTCTTCGCAGGGAAGTTTTG GAGGTGCATCAACTATACCGATGGAGAGTTTTCCCTTGTACCTTTGTCGATTGTGAATAACAAGTCTGAC TGCAAGATTCAAAACTCCACTGGCAGCTTCTTCTGGGTCAATGTGAAAGTCAACTTTGATAATGTTGCAA TGGGTTACCTTGCACTTCTGCAGGTGGCAACCTTTAAAGGCTGGATGGACATTATGTATGCAGCTGTTGA TTCCCGGGAGGTCAACATGCAACCCAAGTGGGAGGACAACGTGTACATGTATTTGTACTTTGTCATCTTC ATCATTTTTGGAGGCTTCTTCACACTGAATCTCTTTGTTGGGGTCATAATTGACAACTTCAATCAACAGA AAAAAAAGTTAGGGGGCCAGGACATCTTCATGACAGAGGAGCAGAAGAAATACTACAATGCCATGAAGAA GTTGGGCTCCAAGAAGCCCCAGAAGCCCATCCCACGGCCCCTGAACAAGTTCCAGGGTTTTGTCTTTGAC ATCGTGACCAGACAAGCTTTTGACATCACCATCATGGTCCTCATCTGCCTCAACATGATCACCATGATGG TGGAGACTGATGACCAAAGTGAAGAAAAGACGAAAATTCTGGGCAAAATCAACCAGTTCTTTGTGGCCGT CTTCACAGGCGAATGTGTCATGAAGATGTTCGCTTTGAGGCAGTACTACTTCACAAATGGCTGGAATGTG TTTGACTTCATTGTGGTGGTTCTCTCCATTGCGAGCCTGATTTTTTCTGCAATTCTTAAGTCACTTCAAA GTTACTTCTCCCCAACGCTCTTCAGAGTCATCCGCCTGGCCCGAATTGGCCGCATCCTCAGACTGATCCG AGCGGCCAAGGGGATCCGCACACTGCTCTTTGCCCTCATGATGTCCCTGCCTGCCCTCTTCAACATCGGG CTGTTGCTATTCCTTGTCATGTTCATCTACTCTATCTTCGGTATGTCCAGCTTTCCCCATGTGAGGTGGG AGGCTGGCATCGACGACATGTTCAACTTCCAGACCTTCGCCAACAGCATGCTGTGCCTCTTCCAGATTAC CACGTCGGCCGGCTGGGATGGCCTCCTCAGCCCCATCCTCAACACAGGGCCCCCCTACTGTGACCCCAAT CTGCCCAACAGCAATGGCACCAGAGGGGACTGTGGGAGCCCAGCCGTAGGCATCATCTTCTTCACCACCT ACATCATCATCTCCTTCCTCATCGTGGTCAACATGTACATTGCAGTGATTCTGGAGAACTTCAATGTGGC CACGGAGGAGAGCACTGAGCCCCTGAGTGAGGACGACTTTGACATGTTCTATGAGACCTGGGAGAAGTTT GACCCAGAGGCCACTCAGTTTATTACCTTTTCTGCTCTCTCGGACTTTGCAGACACTCTCTCTGGTCCCC TGAGAATCCCAAAACCCAATCGAAATATACTGATCCAGATGGACCTGCCTTTGGTCCCTGGAGATAAGAT CCACTGCTTGGACATCCTTTTTGCTTTCACCAAGAATGTCCTAGGAGAATCCGGGGAGTTGGATTCTCTG AAGGCAAATATGGAGGAGAAGTTTATGGCAACTAATCTTTCAAAATCATCCTATGAACCAATAGCAACCA CTCTCCGATGGAAGCAAGAAGACATTTCAGCCACTGTCATTCAAAAGGCCTATCGGAGCTATGTGCTGCA CCGCTCCATGGCACTCTCTAACACCCCATGTGTGCCCAGAGCTGAGGAGGAGGCTGCATCACTCCCAGAT GAAGGTTTTGTTGCATTCACAGCAAATGAAAATTGTGTACTCCCAGACAAATCTGAAACTGCTTCTGCCA CATCATTCCCACCGTCCTATGAGAGTGTCACTAGAGGCCTTAGTGATAGAGTCAACATGAGGACATCTAG CTCAATACAAAATGAAGATGAAGCCACCAGTATGGAGCTGATTGCCCCTGGGCCCTAG
Restriction Sites	SgfI-MluI
ACCN	NM_001293306
OTI Disclaimer	Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
Product Components	The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water).
Reconstitution	1. Centrifuge at 5,000xg for 5min. 2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA. 3. Close the tube and incubate for 10 minutes at room temperature. 4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom. 5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.
Reference Data
RefSeq	NM_001293306.2, NP_001280235.2
RefSeq Size	5871 bp
RefSeq ORF	5868 bp
Locus ID	6336
UniProt ID	Q9Y5Y9
Protein Families	Druggable Genome, Ion Channels: Sodium, Transmembrane
Gene Summary	The protein encoded by this gene is a tetrodotoxin-resistant voltage-gated sodium channel alpha subunit. The properties of the channel formed by the encoded transmembrane protein can be altered by interaction with different beta subunits. This protein may be involved in the onset of pain associated with peripheral neuropathy. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Jun 2014] Transcript Variant: This variant (2) uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. This results in a shorter protein (isoform 2), compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments.

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