CACNA1F (NM_005183) Human Untagged Clone
CAT#: SC303598
CACNA1F (untagged)-Human calcium channel, voltage-dependent, L type, alpha 1F subunit (CACNA1F)
"NM_005183" in other vectors (3)
Product Images
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Symbol | CACNA1F |
Synonyms | AIED; Cav1.4; Cav1.4alpha1; COD3; COD4; CORDX; CORDX3; CSNB2; CSNB2A; CSNBX2; JM8; JMC8; OA2 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>NCBI ORF sequence for NM_005183, the custom clone sequence may differ by one or more nucleotides
ATGTCGGAATCTGAAGGCGGGAAAGACACCACCCCAGAGCCCAGTCCAGCCAATGGGGCAGGCCCTGGTC CCGAATGGGGGCTGTGCCCCGGGCCCCCAGCTGTGGAAGGTGAAAGCAGTGGGGCATCAGGCCTAGGGAC CCCTAAGCGAAGAAACCAGCACAGCAAGCACAAGACAGTGGCAGTGGCCAGTGCCCAGCGGTCACCTCGG GCACTCTTCTGCCTCACCCTGGCCAATCCTCTGCGACGGTCCTGCATCAGCATCGTGGAGTGGAAGCCCT TCGACATCCTCATCCTGCTGACCATCTTTGCCAACTGCGTGGCCCTGGGAGTTTACATCCCCTTCCCTGA GGACGACTCCAACACTGCCAACCACAACCTGGAGCAGGTGGAGTACGTATTCCTGGTGATTTTCACTGTG GAGACGGTGCTCAAGATCGTGGCCTACGGGCTGGTGCTCCACCCCAGCGCCTACATCCGCAATGGCTGGA ACCTACTCGACTTCATCATCGTCGTGGTCGGGCTGTTCAGCGTTCTGCTGGAGCAGGGCCCCGGACGGCC AGGCGACGCCCCGCACACCGGGGGAAAGCCAGGAGGCTTCGATGTGAAGGCATTGAGGGCGTTTCGGGTG CTGCGGCCACTGAGGCTGGTGTCTGGGGTCCCGAGCCTGCACATAGTGCTCAATTCCATCATGAAGGCTC TGGTGCCGCTGCTGCACATTGCACTGCTCGTGCTCTTCGTCATCATCATTTATGCCATCATTGGGCTCGA GCTGTTCCTTGGACGAATGCACAAGACGTGCTACTTCCTGGGATCCGACATGGAAGCGGAGGAGGACCCA TCGCCCTGTGCGTCTTCGGGATCAGGGCGTGCGTGCACGCTGAACCAGACTGAGTGCCGCGGGCGCTGGC CAGGGCCCAATGGAGGCATCACCAACTTTGACAACTTCTTCTTCGCCATGCTGACAGTCTTCCAGTGTGT CACCATGGAAGGCTGGACCGATGTGCTCTACTGGATGCAAGATGCCATGGGGTATGAACTGCCCTGGGTG TACTTTGTGAGCCTTGTCATCTTTGGGTCCTTCTTCGTCCTCAACCTTGTGCTTGGCGTCCTGAGTGGGG AGTTCTCCAAGGAGAGAGAGAAAGCGAAAGCTCGCGGGGACTTCCAGAAGCAGCGGGAGAAGCAGCAGAT GGAGGAAGACCTGCGGGGCTACCTGGACTGGATCACTCAAGCCGAAGAGCTGGACATGGAGGACCCCTCC GCCGATGACAACCTTGGTTCTATGGCTGAAGAGGGCCGGGCGGGCCATCGGCCACAGCTGGCCGAGCTGA CCAATAGGAGGCGTGGACGTCTGCGCTGGTTCAGTCATTCTACTCGCTCCACACACTCCACCAGCAGCCA TGCCAGCCTCCCAGCCAGTGACACCGGTTCCATGACAGAGACCCAAGGCGATGAGGATGAGGAGGAGGGG GCTCTGGCCAGCTGTACACGCTGCCTAAACAAGATCATGAAAACCAGAGTCTGCCGCCGCCTCCGCCGAG CCAACCGGGTCCTTCGGGCACGCTGCCGTCGGGCAGTGAAGTCCAATGCCTGCTACTGGGCTGTGCTGTT GCTCGTCTTCCTCAACACGTTGACCATCGCCTCTGAGCACCACGGGCAGCCTGTGTGGCTCACCCAGATC CAGGAGTATGCCAACAAAGTGTTGCTCTGTCTGTTCACGGTGGAGATGCTTCTCAAATTGTACGGTCTGG GCCCCTCTGCCTATGTGTCTTCCTTCTTCAACCGCTTTGACTGCTTTGTGGTCTGTGGGGGCATCCTAGA GACCACCTTGGTGGAGGTGGGTGCCATGCAGCCCTTGGGCATCTCAGTGCTCCGATGTGTGCGCCTCCTC AGGATCTTTAAGGTCACCAGACACTGGGCTTCTCTGAGCAATCTGGTGGCATCCCTGCTCAATTCAATGA AATCCATCGCATCCTTGCTGCTTCTCCTCTTCCTCTTCATCATTATCTTCTCCCTGCTTGGCATGCAGCT GTTTGGGGGCAAGTTCAACTTTGACCAGACCCACACCAAGCGAAGCACCTTTGACACGTTCCCCCAGGCC CTCCTCACTGTCTTTCAGATCCTGACAGGTGAGGACTGGAACGTGGTCATGTATGATGGTATCATGGCAT ATGGTGGCCCCTTCTTCCCAGGAATGTTGGTGTGCATCTATTTCATCATTCTCTTCATCTGTGGCAACTA CATCCTGTTGAACGTGTTTCTTGCCATTGCTGTGGACAACCTGGCCAGTGGAGATGCAGGCACTGCCAAG GACAAGGGCGGGGAGAAGAGCAATGAGAAGGATCTCCCACAGGAGAATGAAGGCCTGGTGCCTGGTGTGG AGAAAGAGGAAGAGGAGGGTGCAAGGAGGGAAGGAGCAGACATGGAGGAGGAGGAGGAGGAGGAAGAAGA GGAAGAAGAGGAAGAAGAGGAAGAGGGTGCAGGGGGTGTGGAACTCCTGCAGGAAGTTGTACCCAAGGAG AAGGTGGTACCCATCCCTGAGGGCAGCGCCTTCTTCTGCCTCAGCCAAACCAACCCGCTGAGGAAGGGCT GCCACACCCTCATCCACCATCATGTCTTCACCAATCTTATCCTGGTGTTCATCATCCTCAGCAGTGTGTC CCTGGCCGCTGAGGACCCCATCCGAGCCCACTCCTTCCGCAACCATATTCTGGGTTACTTCGATTATGCC TTCACCTCCATTTTCACTGTGGAGATTCTACTAAAGATGACAGTGTTTGGGGCCTTCCTGCACCGCGGCT CCTTCTGCCGTAGCTGGTTTAATATGTTGGATCTGCTGGTGGTCAGTGTGTCCCTCATCTCCTTTGGCAT CCACTCCAGCGCCATCTCGGTGGTGAAGATTCTGCGAGTACTCCGAGTACTGCGGCCCCTCCGAGCCATC AACAGGGCCAAGGGACTCAAGCATGTGGTGCAGTGTGTATTTGTGGCCATCCGGACCATCGGAAACATCA TGATTGTCACCACACTTCTGCAATTTATGTTCGCCTGCATCGGGGTGCAGCTCTTCAAGGGGAAATTCTA CACCTGCACGGACGAGGCCAAACACACCCCTCAAGAATGCAAGGGCTCCTTCCTGGTATACCCAGATGGA GACGTGTCACGGCCCCTGGTCCGGGAGCGGCTCTGGGTCAACAGTGATTTCAACTTTGACAATGTCCTTT CAGCCATGATGGCCCTGTTCACTGTCTCCACCTTTGAAGGCTGGCCTGCACTGCTATACAAGGCCATCGA TGCATATGCAGAGGACCACGGCCCCATCTATAATTACCGTGTGGAGATCTCAGTGTTCTTCATTGTCTAC ATCATCATCATTGCGTTCTTCATGATGAACATCTTCGTGGGCTTCGTCATCATCACTTTCCGTGCCCAGG GCGAGCAGGAGTACCAAAACTGTGAGCTGGACAAGAACCAGCGTCAATGTGTGGAATATGCCCTCAAGGC CCAGCCACTCCGCCGTTACATCCCCAAGAACCCGCATCAGTATCGTGTGTGGGCCACTGTGAACTCTGCT GCCTTTGAGTACCTGATGTTCCTGCTCATCCTGCTCAACACAGTTGCCCTAGCCATGCAGCACTATGAGC AGACTGCTCCCTTCAACTATGCCATGGACATCCTCAACATGGTCTTCACTGGCCTCTTCACTATTGAGAT GGTGCTCAAAATCATCGCCTTCAAGCCCAAGCATTACTTCACTGATGCCTGGAACACGTTTGACGCTCTT ATTGTGGTGGGCAGCATAGTGGATATTGCCGTCACTGAAGTCAATAATGGTGGCCACCTTGGCGAGAGCT CTGAGGACAGCTCCCGCATTTCCATTACCTTCTTTCGCCTCTTCCGAGTTATGCGGCTGGTCAAGCTTCT CAGTAAGGGTGAAGGGATCCGCACATTGCTCTGGACATTCATCAAGTCCTTCCAGGCCTTGCCCTATGTG GCTCTTCTCATCGCAATGATATTCTTCATCTATGCCGTCATTGGCATGCAGATGTTCGGCAAGGTGGCTC TTCAGGATGGCACACAGATAAACCGAAACAACAACTTCCAGACCTTTCCACAGGCTGTGCTGCTTCTGTT CAGGTGTGCCACTGGTGAGGCATGGCAGGAGATAATGCTTGCCAGCCTTCCCGGAAATCGGTGTGATCCT GAGTCTGACTTCGGCCCTGGTGAAGAGTTTACCTGTGGTAGCAATTTTGCCATCGCCTATTTCATCAGCT TCTTCATGCTCTGTGCCTTCCTGATCATAAATCTCTTTGTGGCTGTGATCATGGACAACTTTGATTATCT CACCAGAGATTGGTCCATCCTGGGCCCCCATCACCTTGATGAATTCAAGAGGATCTGGTCTGAATATGAC CCTGGGGCCAAGGGCCGCATCAAACACTTGGATGTGGTTGCCCTGCTGAGACGTATCCAGCCCCCTCTGG GATTTGGGAAGCTGTGCCCACACCGAGTGGCCTGCAAGAGACTTGTGGCAATGAACATGCCCCTCAACTC AGATGGGACGGTGACATTCAACGCCACACTCTTTGCCCTGGTCCGGACATCCCTGAAGATCAAAACAGAA GGGAACCTGGAGCAAGCCAACCAGGAGCTGCGGATTGTCATCAAAAAGATCTGGAAGCGGATGAAACAGA AGCTGCTAGATGAGGTCATCCCCCCACCAGACGAGGAGGAGGTCACCGTGGGCAAATTCTACGCCACATT TCTGATCCAGGACTATTTCCGCAAATTCCGGCGGAGGAAAGAAAAAGGGCTACTAGGCAACGACGCCGCC CCTAGCACCTCTTCCGCCCTTCAGGCTGGTCTGCGGAGCCTGCAGGACTTGGGTCCTGAGATGCGGCAGG CCCTCACCTGTGACACAGAGGAGGAGGAAGAAGAGGGGCAGGAGGGAGTGGAGGAGGAAGATGAAAAGGA CTTGGAAACTAACAAAGCCACGATGGTCTCCCAGCCCTCAGCTCGCCGGGGCTCCGGGATTTCTGTGTCT CTGCCTGTCGGGGACAGACTTCCAGATTCACTCTCCTTTGGGCCCAGTGATGATGACAGGGGGACTCCCA CCTCCAGTCAGCCCAGTGTGCCCCAGGCTGGATCCAACACCCACAGGAGAGGCTCTGGGGCTCTCATTTT CACCATCCCAGAAGAAGGAAATTCTCAGCCCAAGGGAACCAAAGGGCAAAACAAGCAAGATGAGGATGAG GAAGTCCCTGATCGGCTTTCCTACCTAGATGAGCAGGCAGGGACTCCCCCGTGCTCAGTCCTTTTGCCAC CTCACAGAGCTCAGAGATACATGGATGGGCACCTGGTACCACGCCGCCGTCTGCTGCCCCCCACACCTGC AGGTCGGAAGCCCTCCTTCACCATCCAGTGTCTGCAGCGCCAGGGCAGTTGTGAGGATTTACCCATCCCA GGCACCTATCATCGTGGGCGAAATTCAGGGCCCAATAGGGCTCAGGGTTCCTGGGCAACACCACCTCAGC GGGGTCGGCTCCTGTATGCCCCGCTGTTGTTGGTGGAAGAGGGCGCAGCGGGGGAGGGGTACCTCGGCAG ATCCAGTGGCCCACTGCGCACCTTCACCTGTCTGCACGTGCCTGGAACCCACTCGGACCCCAGCCATGGG AAGAGGGGCAGTGCCGACAGCTTGGTGGAGGCTGTGCTTATCTCAGAGGGTCTGGGCCTCTTTGCTCGAG ACCCACGTTTCGTGGCCCTGGCCAAGCAGGAGATTGCAGATGCGTGTCGCCTGACGCTGGATGAGATGGA CAATGCTGCCAGTGACCTGCTGGCACAGGGAACCAGCTCTCTCTATAGCGACGAGGAGTCCATCCTCTCC CGCTTCGATGAGGAGGACTTGGGAGACGAGATGGCCTGCGTCCACGCCCTCTGA |
Restriction Sites | SgfI-MluI |
ACCN | NM_005183 |
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). |
OTI Annotation | This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA. |
Product Components | The cDNA clone is shipped in a 2-D bar-coded Matrix tube as dried plasmid DNA. The package also includes 100 pmols of both the corresponding 5' and 3' vector primers in separate vials. Every lot of primer is tested to provide clean sequencing of OriGene TrueClones. |
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_005183.3, NP_005174.2 |
RefSeq Size | 6070 bp |
RefSeq ORF | 5934 bp |
Locus ID | 778 |
Cytogenetics | Xp11.23 |
Protein Families | Druggable Genome, Ion Channels: Calcium, Transmembrane |
Protein Pathways | Alzheimer's disease, Arrhythmogenic right ventricular cardiomyopathy (ARVC), Calcium signaling pathway, Cardiac muscle contraction, Dilated cardiomyopathy, GnRH signaling pathway, Hypertrophic cardiomyopathy (HCM), MAPK signaling pathway, Vascular smooth muscle contraction |
Gene Summary | 'This gene encodes a multipass transmembrane protein that functions as an alpha-1 subunit of the voltage-dependent calcium channel, which mediates the influx of calcium ions into the cell. The encoded protein forms a complex of alpha-1, alpha-2/delta, beta, and gamma subunits in a 1:1:1:1 ratio. Mutations in this gene can cause X-linked eye disorders, including congenital stationary night blindness type 2A, cone-rod dystropy, and Aland Island eye disease. Alternatively spliced transcript variants encoding multiple isoforms have been observed. [provided by RefSeq, Aug 2013]' Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). |
Documents
Product Manuals |
FAQs |
Resources
Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RC211587 | CACNA1F (Myc-DDK-tagged)-Human calcium channel, voltage-dependent, L type, alpha 1F subunit (CACNA1F) |
USD 1,999.00 |
|
RG211587 | CACNA1F (GFP-tagged) - Human calcium channel, voltage-dependent, L type, alpha 1F subunit (CACNA1F) |
USD 2,200.00 |
|
RC211587L1 | Lenti ORF clone of Human calcium channel, voltage-dependent, L type, alpha 1F subunit (CACNA1F), Myc-DDK-tagged |
USD 2,724.00 |
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