Cacna1e (NM_009782) Mouse Untagged Clone

CAT#: MC225252

Cacna1e (untagged) - Mouse calcium channel, voltage-dependent, R type, alpha 1E subunit (Cacna1e), (10ug)



  "NM_009782" in other vectors (2)

CNY 36,390.00


货期*
12周

规格
    • 10 ug

Product images

经常一起买 (3)
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Synonyms A430040I15; alp; alpha1E; BII; Cach6; Cacnl1a6; Cav2; Cav2.3; Cchr; Cchra1
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225252 representing NM_009782
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCTCGCTTCGGGGAGGCGGTGGTCGTTGGCAGGCCAGGCTCAGGCGATGGAGACTCGGACCAGAGCA
GGAACCGACAAGGAACCCCCGTCCCGGCCTCGGGGCCGGCGGCCGCCTACAAGCAGTCAAAAGCGCAGAG
GGCGCGGACTATGGCTTTGTACAACCCCATACCAGTCCGGCAGAACTGTTTCACGGTCAACAGATCCCTG
TTCATCTTCGGAGAAGATAACATTGTCAGGAAATACGCCAAGAAGCTCATCGATTGGCCGCCATTTGAGT
ACATGATCCTGGCCACCATCATTGCCAACTGCATCGTCTTGGCCCTGGAGCAGCATCTTCCTGAGGATGA
CAAGACCCCAATGTCTCGAAGACTGGAGAAGACAGAACCATATTTCATTGGGATCTTCTGCTTTGAAGCT
GGGATCAAAATTGTGGCTCTAGGGTTCATCTTCCATAAGGGTTCATACCTCCGTAATGGCTGGAATGTCA
TGGACTTCATCGTGGTCCTTAGTGGCATCCTGGCCACTGCGGGAACCCACTTCAACACCCACGTGGACCT
GCGGACCCTCCGGGCTGTGCGTGTCCTGAGGCCTTTAAAGCTGGTATCAGGAATACCTAGCCTGCAGATC
GTGCTGAAGTCTATCATGAAGGCCATGGTGCCTCTTCTGCAGATTGGCCTTCTGCTCTTCTTTGCCATCC
TCATGTTTGCTATCATTGGCTTGGAGTTCTACAGTGGCAAGTTGCATCGAGCATGCTTCATGAACAATTC
AGGTATTCTAGAGGGGTTTGATCCTCCTCACCCGTGTGGTGTGCAAGGCTGCCCGGCTGGTTATGAATGT
AAGGACTGGATCGGCCCCAATGACGGGATCACCCAGTTTGACAACATCCTTTTTGCCGTGCTGACTGTCT
TCCAATGCATCACTATGGAAGGGTGGACCACTGTGCTGTACAATACCAATGATGCCTTAGGAGCCACCTG
GAACTGGCTGTACTTCATCCCTCTCATCATCATCGGATCCTTCTTTGTTCTCAACCTCGTCCTGGGAGTG
CTTTCCGGGGAATTTGCCAAAGAAAGAGAGAGAGTGGAGAACCGAAGAGCGTTCATGAAGCTCCGGCGCC
AGCAACAGATTGAGCGAGAATTGAACGGCTACCGTGCCTGGATAGACAAAGCAGAGGAAGTCATGCTTGC
TGAAGAAAATAAAAACTCGGGAACATCAGCCTTGGAAGTGCTTCGAAGGGCAACCATCAAAAGGAGCCGG
ACGGAGGCCATGACCCGAGACTCCAGCGATGAGCACTGCGTTGATATCTCTTCAGTGGGCACACCTCTTG
CCAGAGCCAGTATCAAGAGCACAAAAGTAGATGGGGCCTCCTATTTCCGGCACAAGGAACGGCTTCTGCG
CATCTCTATCCGCCACATGGTCAAGTCCCAAGTCTTTTACTGGATCGTCCTGAGTGTTGTGGCTCTTAAT
ACTGCCTGTGTGGCCATTGTTCATCACAACCAGCCACAGTGGCTCACTCACCTCCTCTACTATGCAGAGT
TTTTGTTTCTGGGACTCTTCCTGTTGGAGATGTCCCTGAAGATGTATGGCATGGGGCCACGCCTCTATTT
TCACTCATCCTTCAACTGCTTTGATTTTGGGGTCACAGTGGGCAGCATCTTTGAGGTTGTCTGGGCAATC
TTCAGACCTGGCACATCTTTTGGAATCAGTGTCTTACGAGCTCTCCGGCTCCTAAGGATATTTAAAATAA
CCAAGTATTGGGCATCCCTCCGGAATCTGGTTGTCTCCTTGATGAGCTCCATGAAGTCTATCATCAGCTT
ACTCTTCCTTCTCTTCCTCTTCATCGTTGTCTTTGCTCTCCTGGGAATGCAGCTCTTTGGAGGCAGGTTT
AACTTTAATGATGGGACTCCTTCAGCTAATTTTGACACCTTCCCTGCAGCTATCATGACAGTGTTCCAGA
TCCTGACAGGGGAAGACTGGAATGAGGTGATGTACAATGGCATTCGCTCCCAGGGTGGGGTCAGCTCAGG
CATGTGGTCTGCCATCTACTTCATTGTGCTCACCTTGTTTGGAAACTACACGCTGCTAAATGTATTCTTG
GCCATCGCTGTGGACAATCTGGCCAATGCCCAGGAACTGACCAAGGATGAGCAGGAGGAAGAAGAAGCCT
TCAACCAGAAACATGCACTGCAGAAGGCCAAGGAGGTCAGCCCGATGTCTGCTCCCAACATGCCTTCCAT
TGAAAGAGACAGAAGGAGAAGACACCACATGTCGATGTGGGAGCCACGCAGCAGCCACCTGAGGGAGCGG
AGGCGCCGGCACCACATGTCTGTGTGGGAACAACGCACCAGCCAGCTGAGGAGGCACATGCAAATGTCTA
GCCAAGAAGCCCTCAACAAAGAGGAGGCCCCGCCAATGAACCCCCTCAATCCACTCAACCCACTGAGTCC
TCTCAACCCCCTCAATGCTCACCCCAGCCTTTATCGGAGGCCCAGGCCCATTGAGGGCCTAGCCCTAGGT
CTGGGTCTTGAAAAGTGTGAAGAAGAACGCATCAGTCGTGGGGGCTCCCTCAAGGGGGACATAGGGGGCC
TGACTAGCGCCCTGGACAACCAGAGGAGCCCCTTGTCCTTGGGCAAACGGGAGCCACCGTGGCTGCCTAG
ATCCTGTCATGGAAACTGTGACCCAATCCAGCAGGAGGCTGGGGGAGGAGAGACTGTGGTGACTTTTGAG
GACCGGGCCAGGCACAGGCAGAGTCAGAGGCGAAGCCGGCATCGCCGAGTCAGGACTGAGGGCAAGGACT
CTGCCTCTGCATCCCGAAGCAGGTCTGCCAGCCAGGAGCGGAGTCTGGATGAAGGGGTGTCCGTTGAGGG
GGAGAAGGAACATGAGCCTCACAGCAGCCACAGGAGCAAAGAGCCGACCATCCACGAAGAGGAGAGAACC
CAGGACTTAAGGAGGACCAACAGTCTGATGGTCCCCAGGGGCTCTGGACTGGTAGGGGCTCTTGATGAAG
CAGAAACACCTCTAGTCCAGCCCCAACCTGAGCTGGAAGTGGGGAAGGATGCAGCTCTGACAGAGCAGGA
GGCTGAAGGCAGCAGTGAACAAGCCCTTCTTGGGGACGTACAGCTGGATGTGGGCCGGGGCATTAGCCAG
AGTGAACCGGATCTCTCCTGCATGACAGCCAACATGGACAAGGCTACCACGGAGAGCACCAGTGTCACGG
TCGCCATCCCTGATGTGGACCCCTTGGTGGACTCGACAGTGGTGAACATTAGCAACAAGACGGATGGAGA
AGCCAGTCCCTTGAAGGAGGCAGAGACTAAAGAGGAAGAAGAAGAGGTAGAGAAGAAGAAGAAGCAGAAG
AAGGAGAAGCGAGAGACTGGAAAAGCCATGGTGCCCCATAGCTCTATGTTCATCTTCAGCACCACTAACC
CGATCCGCAGGGCCTGCCACTACATTGTGAACCTACGCTACTTTGAAATGTGCATTCTCTTGGTGATTGC
GGCCAGCAGCATTGCCCTGGCAGCCGAGGACCCTGTACTAACTAACTCGGAGCGTAACAAAGTCCTGAGA
TATTTCGACTATGTTTTCACAGGAGTGTTTACCTTTGAGATGGTTATAAAGATGATAGACCAAGGCTTGA
TCCTGCAGGATGGATCATACTTCAGAGACCTCTGGAACATCCTGGACTTTGTAGTAGTGGTTGGTGCATT
GGTAGCATTTGCTCTGGCGAACGCTTTGGGAACCAACAAGGGGAGGGATATCAAGACTATCAAGTCTCTG
AGGGTACTTCGAGTTCTGCGGCCACTGAAAACCATCAAGCGCTTGCCCAAGCTGAAGGCTGTGTTTGACT
GCGTGGTGACCTCCTTGAAGAATGTCTTCAACATACTCATTGTCTACAAGCTCTTCATGTTCATCTTTGC
CGTCATCGCTGTTCAGCTATTCAAAGGAAAGTTCTTTTATTGCACTGACAGTTCCAAGGACACAGAGAAG
GAGTGCATAGGCAACTATGTAGACCACGAGAAAAACAAGATGGAGGTGAAGGGCCGGGAATGGAAGCGTC
ATGAATTCCACTATGACAACATCATCTGGGCCCTGCTTACCCTCTTCACAGTCTCTACAGGGGAAGGATG
GCCTCAGGTTCTGCAGCACTCTGTAGATGTGACAGAGGAGGACAGAGGCCCAAGTCGCAGCAACCGCATG
GAGATGTCCATCTTTTATGTGGTCTACTTTGTGGTCTTCCCTTTCTTCTTTGTCAATATCTTCGTGGCTC
TCATTATCATCACCTTCCAGGAGCAAGGGGACAAGATGATGGAGGAGTGTAGCCTGGAGAAGAATGAGCG
GGCATGCATCGACTTCGCCATTAGTGCCAAACCTCTCACCCGCTACATGCCACAGAACAGGCACACCTTC
CAGTACCGTGTGTGGCACTTTGTAGTCTCCCCATCCTTTGAGTATACCATCATGGCCATGATTGCCTTGA
ACACTGTCGTGCTGATGATGAAGTACTACTCTGCTCCTTGCACCTATGAGCTCGCCTTAAAGTACCTGAA
CATCGCCTTCACTATGGTGTTTTCCCTGGAGTGTGTCCTAAAGGTCATTGCTTTCGGCTTCCTGAACTAT
TTCCGAGATACCTGGAACATCTTTGACTTCATCACGGTGATCGGCAGTATCACAGAAATTATCCTGACAG
ATAGCAAGCTGGTGAACACCAGTGGCTTCAATATGAGCTTTCTGAAGCTCTTCCGAGCTGCACGGCTCAT
AAAGCTTCTGAGACAGGGCTACACCATCCGCATCTTACTGTGGACCTTCGTGCAGTCCTTTAAGGCTCTT
CCCTACGTCTGCCTTCTCATTGCCATGCTTTTCTTCATCTACGCCATCATTGGGATGCAGGTGTTTGGAA
ACATAAAGTTAGATGAGGAGAGTCACATCAACCGGCACAACAACTTCCGGAGTTTCTTTGGATCCCTCAT
GCTGCTTTTCAGGAGTGCCACGGGGGAGGCTTGGCAGGAGATTATGCTGTCCTGTCTCGGTGAGAAGGGT
TGTGAGCCTGACACCACTGCACCCTCAGGGCAGAATGAGAGTGAGCGCTGTGGCACTGACCTGGCCTACG
TTTATTTTGTCTCCTTCATCTTCTTCTGCTCCTTCCTGATGCTCAACCTGTTCGTGGCTGTCATCATGGA
CAACTTTGAGTACCTGACTCGAGATTCCTCCATCCTGGGGCCTCACCACTTAGATGAGTTTGTCCGTGTC
TGGGCAGAATATGACAGAGCAGCATGTGGCCGCATCCATTACACTGAGATGTATGAAATGCTGACTCTCA
TGTCACCACCGCTAGGCCTCGGCAAGAGATGTCCCTCCAAAGTGGCCTATAAGAGGCTGGTCCTGATGAA
CATGCCAGTGGCTGAGGACATGACAGTCCACTTCACCTCCACACTTATGGCTCTGATCCGGACAGCTCTG
GACATTAAAATCGCCAAAGGTGGTGCAGACAGACAGCAGCTAGACTCGGAGCTGCAAAAAGAGACCCTGG
CCATTTGGCCTCACCTGTCCCAAAAGATGTTGGATCTGCTTGTGCCCATGCCCAAAGCCTCTGACCTGAC
TGTGGGCAAGATCTATGCAGCAATGATGATCATGGACTACTATAAACAGAGTAAGGTAAAGAAACAGAGA
CAGCAGCTGGAAGAACAGAAAAATGCACCCATGTTCCAGCGCATGGAGCCCTCATCACTGCCTCAGGAGA
TCATTGCTAATGCCAAAGCCCTGCCTTATCTCCAGCAGGACCCTGTTTCTGGCCTGAGTGGTCGGAGTGG
ATACCCTTCAATGAGTCCACTCTCCCCTCAAGAAATATTCCAGTTGGCTTGTATGGACCCAGCGGATGAT
GGACAATTCCAGGAACAACAATCTCTGGTGGTAACAGACCCTAGCTCTATGCGACGTTCATTTTCTACAA
TTCGGGATAAGCGTTCAAATTCCTCCTGGTTGGAGGAGTTCTCCATGGAACGCAGCAGTGAAAACACTTA
CAAGTCGCGGCGCAGAAGTTACCATTCCTCCCTGAGGCTGTCAGCACACCGCCTGAATTCTGACTCTGGT
CACAAGTCTGACACTCACCGATCAGGAGGCAGGGAGAGAGGCCGATCCAAAGAACGAAAGCACCTCCTCT
CTCCAGATGTCTCCCGCTGCAATTCTGAAGAGCGAGGGACCCAGGCCGACTGGGAGTCCCCAGAACGTCG
CCAGTCCAGGTCACCCAGTGAAGGAAGGTCACAGACCCCCAATAGACAGGGTACCGGTTCCCTAAGTGAG
AGCTCCATCCCCTCTATTTCCGACACCAGCACCCCAAGACGAAGCCGTCGCCAGCTCCCACCTGTGCCAC
CAAAGCCTCGTCCCCTCCTCTCCTACAGCTCCCTGATGAGACACACTGGCGGCATCTCTCCACCTCCTGA
TGGAAGTGAGGGTGGATCCCCACTGGCCTCTCAAGCTCTGGAGAGCAACAGCGCTTGCCTGACCGAGTCT
TCCAACTCCTTGCACCCCCAGCAGGGCCAGCATCCTTCCCCACAGCACTACATCTCCGAGCCCTATCTGG
CCCTCCATGAAGACTCCCACGCCTCAGACTGTGGCGAGGAGGAGACACTCACCTTTGAGGCAGCCGTAGC
CACTAGCTTGGGCCGGTCCAATACCATTGGCTCTGCGCCACCCCTACGGCACAGCTGGCAGATGCCTAAT
GGGCACTATCGGCGGCGGAGGCGTGGGGGGCCTGGGCCTGGCATGATGTGTGGAGCTGTCAGTGACCTCC
TGAGTGACACGGAAGAAGACGATAAGTGCTAG


ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_009782
Insert Size 6822 bp
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.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Reference Data
RefSeq NM_009782.3, NP_033912.2
RefSeq Size 12697 bp
RefSeq ORF 6822 bp
Locus ID 12290
Gene Summary This gene encodes an integral membrane protein that belongs to the calcium channel alpha-1 subunits family. Voltage-sensitive calcium channels mediate the entry of calcium ions into excitable cells and are also involved in a variety of calcium-dependent processes. Voltage-dependent calcium channels are multi-subunit complexes, comprised of alpha-1, alpha-2, beta and delta subunits in a 1:1:1:1 ratio. The isoform alpha-1E gives rise to R-type calcium currents and belongs to the high-voltage activated group. Calcium channels containing the alpha-1E subunit may be involved in the modulation of neuronal firing patterns, an important component of information processing. [provided by RefSeq, Jul 2008]
*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

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