Voltage-dependent P/Q-type calcium channel subunit alpha-1A

NameVoltage-dependent P/Q-type calcium channel subunit alpha-1A
SynonymsBI Brain calcium channel I CACH4 CACN3 CACNL1A4 Calcium channel, L type, alpha-1 polypeptide isoform 4 Voltage-gated calcium channel subunit alpha Cav2.1
Gene NameCACNA1A
OrganismHuman
Amino acid sequence
>lcl|BSEQ0000709|Voltage-dependent P/Q-type calcium channel subunit alpha-1A
MARFGDEMPARYGGGGSGAAAGVVVGSGGGRGAGGSRQGGQPGAQRMYKQSMAQRARTMA
LYNPIPVRQNCLTVNRSLFLFSEDNVVRKYAKKITEWPPFEYMILATIIANCIVLALEQH
LPDDDKTPMSERLDDTEPYFIGIFCFEAGIKIIALGFAFHKGSYLRNGWNVMDFVVVLTG
ILATVGTEFDLRTLRAVRVLRPLKLVSGIPSLQVVLKSIMKAMIPLLQIGLLLFFAILIF
AIIGLEFYMGKFHTTCFEEGTDDIQGESPAPCGTEEPARTCPNGTKCQPYWEGPNNGITQ
FDNILFAVLTVFQCITMEGWTDLLYNSNDASGNTWNWLYFIPLIIIGSFFMLNLVLGVLS
GEFAKERERVENRRAFLKLRRQQQIERELNGYMEWISKAEEVILAEDETDGEQRHPFDGA
LRRTTIKKSKTDLLNPEEAEDQLADIASVGSPFARASIKSAKLENSTFFHKKERRMRFYI
RRMVKTQAFYWTVLSLVALNTLCVAIVHYNQPEWLSDFLYYAEFIFLGLFMSEMFIKMYG
LGTRPYFHSSFNCFDCGVIIGSIFEVIWAVIKPGTSFGISVLRALRLLRIFKVTKYWASL
RNLVVSLLNSMKSIISLLFLLFLFIVVFALLGMQLFGGQFNFDEGTPPTNFDTFPAAIMT
VFQILTGEDWNEVMYDGIKSQGGVQGGMVFSIYFIVLTLFGNYTLLNVFLAIAVDNLANA
QELTKDEQEEEEAANQKLALQKAKEVAEVSPLSAANMSIAVKEQQKNQKPAKSVWEQRTS
EMRKQNLLASREALYNEMDPDERWKAAYTRHLRPDMKTHLDRPLVVDPQENRNNNTNKSR
AAEPTVDQRLGQQRAEDFLRKQARYHDRARDPSGSAGLDARRPWAGSQEAELSREGPYGR
ESDHHAREGSLEQPGFWEGEAERGKAGDPHRRHVHRQGGSRESRSGSPRTGADGEHRRHR
AHRRPGEEGPEDKAERRARHREGSRPARGGEGEGEGPDGGERRRRHRHGAPATYEGDARR
EDKERRHRRRKENQGSGVPVSGPNLSTTRPIQQDLGRQDPPLAEDIDNMKNNKLATAESA
APHGSLGHAGLPQSPAKMGNSTDPGPMLAIPAMATNPQNAASRRTPNNPGNPSNPGPPKT
PENSLIVTNPSGTQTNSAKTARKPDHTTVDIPPACPPPLNHTVVQVNKNANPDPLPKKEE
EKKEEEEDDRGEDGPKPMPPYSSMFILSTTNPLRRLCHYILNLRYFEMCILMVIAMSSIA
LAAEDPVQPNAPRNNVLRYFDYVFTGVFTFEMVIKMIDLGLVLHQGAYFRDLWNILDFIV
VSGALVAFAFTGNSKGKDINTIKSLRVLRVLRPLKTIKRLPKLKAVFDCVVNSLKNVFNI
LIVYMLFMFIFAVVAVQLFKGKFFHCTDESKEFEKDCRGKYLLYEKNEVKARDREWKKYE
FHYDNVLWALLTLFTVSTGEGWPQVLKHSVDATFENQGPSPGYRMEMSIFYVVYFVVFPF
FFVNIFVALIIITFQEQGDKMMEEYSLEKNERACIDFAISAKPLTRHMPQNKQSFQYRMW
QFVVSPPFEYTIMAMIALNTIVLMMKFYGASVAYENALRVFNIVFTSLFSLECVLKVMAF
GILNYFRDAWNIFDFVTVLGSITDILVTEFGNNFINLSFLRLFRAARLIKLLRQGYTIRI
LLWTFVQSFKALPYVCLLIAMLFFIYAIIGMQVFGNIGIDVEDEDSDEDEFQITEHNNFR
TFFQALMLLFRSATGEAWHNIMLSCLSGKPCDKNSGILTRECGNEFAYFYFVSFIFLCSF
LMLNLFVAVIMDNFEYLTRDSSILGPHHLDEYVRVWAEYDPAAWGRMPYLDMYQMLRHMS
PPLGLGKKCPARVAYKRLLRMDLPVADDNTVHFNSTLMALIRTALDIKIAKGGADKQQMD
AELRKEMMAIWPNLSQKTLDLLVTPHKSTDLTVGKIYAAMMIMEYYRQSKAKKLQAMREE
QDRTPLMFQRMEPPSPTQEGGPGQNALPSTQLDPGGALMAHESGLKESPSWVTQRAQEMF
QKTGTWSPEQGPPTDMPNSQPNSQSVEMREMGRDGYSDSEHYLPMEGQGRAASMPRLPAE
NQRRRGRPRGNNLSTISDTSPMKRSASVLGPKARRLDDYSLERVPPEENQRHHQRRRDRS
HRASERSLGRYTDVDTGLGTDLSMTTQSGDLPSKERDQERGRPKDRKHRQHHHHHHHHHH
PPPPDKDRYAQERPDHGRARARDQRWSRSPSEGREHMAHRQGSSSVSGSPAPSTSGTSTP
RRGRRQLPQTPSTPRPHVSYSPVIRKAGGSGPPQQQQQQQQQQQAVARPGRAATSGPRRY
PGPTAEPLAGDRPPTGGHSSGRSPRMERRVPGPARSESPRACRHGGARWPASGPHVSEGP
PGPRHHGYYRGSDYDEADGPGSGGGEEAMAGAYDAPPPVRHASSGATGRSPRTPRASGPA
CASPSRHGRRLPNGYYPAHGLARPRGPGSRKGLHEPYSESDDDWC
Number of residues2505
Molecular Weight282362.39
Theoretical pI9.1
GO Classification
Functions
    metal ion binding
voltage-gated calcium channel activity
syntaxin binding
high voltage-gated calcium channel activity
Processes
    transmission of nerve impulse
cerebellum maturation
regulation of insulin secretion
synapse assembly
synaptic transmission
gamma-aminobutyric acid secretion
dendrite morphogenesis
vestibular nucleus development
adult walking behavior
musculoskeletal movement, spinal reflex action
neuromuscular synaptic transmission
cellular chloride ion homeostasis
negative regulation of hormone biosynthetic process
sulfur amino acid metabolic process
behavioral response to pain
small molecule metabolic process
neurotransmitter metabolic process
membrane depolarization
synaptic transmission, glutamatergic
receptor clustering
membrane depolarization during action potential
calcium ion import
glucose metabolic process
regulation of acetylcholine secretion, neurotransmission
cell death
calcium ion-dependent exocytosis
regulation of axonogenesis
hormone metabolic process
gamma-aminobutyric acid signaling pathway
calcium ion-dependent exocytosis of neurotransmitter
positive regulation of cytosolic calcium ion concentration
regulation of calcium ion-dependent exocytosis
negative regulation of neuron apoptotic process
cerebellar molecular layer development
rhythmic synaptic transmission
neuromuscular process controlling balance
cell growth
cerebellar Purkinje cell differentiation
energy reserve metabolic process
spinal cord motor neuron differentiation
Components
    cell projection
cytoplasm
integral component of membrane
voltage-gated calcium channel complex
cytosol
nucleus
neuronal cell body
plasma membrane
dendrite
General FunctionVoltage-gated calcium channel activity
Specific FunctionVoltage-sensitive calcium channels (VSCC) mediate the entry of calcium ions into excitable cells and are also involved in a variety of calcium-dependent processes, including muscle contraction, hormone or neurotransmitter release, gene expression, cell motility, cell division and cell death. The isoform alpha-1A gives rise to P and/or Q-type calcium currents. P/Q-type calcium channels belong to the 'high-voltage activated' (HVA) group and are blocked by the funnel toxin (Ftx) and by the omega-agatoxin-IVA (omega-Aga-IVA). They are however insensitive to dihydropyridines (DHP), and omega-conotoxin-GVIA (omega-CTx-GVIA).
Transmembrane Regions99-117 136-155 168-185 191-209 229-248 336-360 488-506 522-541 550-568 579-597 617-636 690-714 1243-1261 1278-1297 1310-1328 1340-1358 1378-1397 1485-1509 1565-1593 1599-1618 1627-1645 1653-1671 1691-1710 1783-1807
GenBank Protein ID2213913
UniProtKB IDO00555
UniProtKB Entry NameCAC1A_HUMAN
Cellular LocationMembrane
Gene sequence
>lcl|BSEQ0010260|Voltage-dependent P/Q-type calcium channel subunit alpha-1A (CACNA1A)
ATGGCCCGCTTCGGAGACGAGATGCCGGCCCGCTACGGGGGAGGAGGCTCCGGGGCAGCC
GCCGGGGTGGTCGTGGGCAGCGGAGGCGGGCGAGGAGCCGGGGGCAGCCGGCAGGGCGGG
CAGCCCGGGGCGCAAAGGATGTACAAGCAGTCAATGGCGCAGAGAGCGCGGACCATGGCA
CTCTACAACCCCATCCCCGTCCGACAGAACTGCCTCACGGTTAACCGGTCTCTCTTCCTC
TTCAGCGAAGACAACGTGGTGAGAAAATACGCCAAAAAGATCACCGAATGGCCTCCCTTT
GAATATATGATTTTAGCCACCATCATAGCGAATTGCATCGTCCTCGCACTGGAGCAGCAT
CTGCCTGATGATGACAAGACCCCGATGTCTGAACGGCTGGATGACACAGAACCATACTTC
ATTGGAATTTTTTGTTTCGAGGCTGGAATTAAAATCATTGCCCTTGGGTTTGCCTTCCAC
AAAGGCTCCTACTTGAGGAATGGCTGGAATGTCATGGACTTTGTGGTGGTGCTAACGGGC
ATCTTGGCGACAGTTGGGACGGAGTTTGACCTACGGACGCTGAGGGCAGTTCGAGTGCTG
CGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCCTGAAGTCGATCATG
AAGGCGATGATCCCTTTGCTGCAGATCGGCCTCCTCCTATTTTTTGCAATCCTTATTTTT
GCAATCATAGGGTTAGAATTTTATATGGGAAAATTTCATACCACCTGCTTTGAAGAGGGG
ACAGATGACATTCAGGGTGAGTCTCCGGCTCCATGTGGGACAGAAGAGCCCGCCCGCACC
TGCCCCAATGGGACCAAATGTCAGCCCTACTGGGAAGGGCCCAACAACGGGATCACTCAG
TTCGACAACATCCTGTTTGCAGTGCTGACTGTTTTCCAGTGCATAACCATGGAAGGGTGG
ACTGATCTCCTCTACAATAGCAACGATGCCTCAGGGAACACTTGGAACTGGTTGTACTTC
ATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTTGTGCTGGGTGTGCTGTCA
GGGGAGTTTGCCAAAGAAAGGGAACGGGTGGAGAACCGGCGGGCTTTTCTGAAGCTGAGG
CGGCAACAACAGATTGAACGTGAGCTCAATGGGTACATGGAGTGGATCTCAAAAGCAGAA
GAGGTGATCCTCGCCGAGGATGAAACTGACGGGGAGCAGAGGCATCCCTTTGATGGAGCT
CTGCGGAGAACCACCATAAAGAAAAGCAAGACAGATTTGCTCAACCCCGAAGAGGCTGAG
GATCAGCTGGCTGATATAGCCTCTGTGGGTTCTCCCTTCGCCCGAGCCAGCATTAAAAGT
GCCAAGCTGGAGAACTCGACCTTTTTTCACAAAAAGGAGAGGAGGATGCGTTTCTACATC
CGCCGCATGGTCAAAACTCAGGCCTTCTACTGGACTGTACTCAGTTTGGTAGCTCTCAAC
ACGCTGTGTGTTGCTATTGTTCACTACAACCAGCCCGAGTGGCTCTCCGACTTCCTTTAC
TATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGG
CTTGGGACGCGGCCTTACTTCCACTCTTCCTTCAACTGCTTTGACTGTGGGGTTATCATT
GGGAGCATCTTCGAGGTCATCTGGGCTGTCATAAAACCTGGCACATCCTTTGGAATCAGC
GTGTTACGAGCCCTCAGGTTATTGCGTATTTTCAAAGTCACAAAGTACTGGGCATCTCTC
AGAAACCTGGTCGTCTCTCTCCTCAACTCCATGAAGTCCATCATCAGCCTGTTGTTTCTC
CTTTTCCTGTTCATTGTCGTCTTCGCCCTTTTGGGAATGCAACTCTTCGGCGGCCAGTTT
AATTTCGATGAAGGGACTCCTCCCACCAACTTCGATACTTTTCCAGCAGCAATAATGACG
GTGTTTCAGATCCTGACGGGCGAAGACTGGAACGAGGTCATGTACGACGGGATCAAGTCT
CAGGGGGGCGTGCAGGGCGGCATGGTGTTCTCCATCTATTTCATTGTACTGACGCTCTTT
GGGAACTACACCCTCCTGAATGTGTTCTTGGCCATCGCTGTGGACAATCTGGCCAACGCC
CAGGAGCTCACCAAGGTGGAGGCGGACGAGCAAGAGGAAGAAGAAGCAGCGAACCAGAAA
CTTGCCCTACAGAAAGCCAAGGAGGTGGCAGAAGTGAGTCCTCTGTCCGCGGCCAACATG
TCTATAGCTGTGAAAGAGCAACAGAAGAATCAAAAGCCAGCCAAGTCCGTGTGGGAGCAG
CGGACCAGTGAGATGCGAAAGCAGAACTTGCTGGCCAGCCGGGAGGCCCTGTATAACGAA
ATGGACCCGGACGAGCGCTGGAAGGCTGCCTACACGCGGCACCTGCGGCCAGACATGAAG
ACGCACTTGGACCGGCCGCTGGTGGTGGACCCGCAGGAGAACCGCAACAACAACACCAAC
AAGAGCCGGGCGGCCGAGCCCACCGTGGACCAGCGCCTCGGCCAGCAGCGCGCCGAGGAC
TTCCTCAGGAAACAGGCCCGCTACCACGATCGGGCCCGGGACCCCAGCGGCTCGGCGGGC
CTGGACGCACGGAGGCCCTGGGCGGGAAGCCAGGAGGCCGAGCTGAGCCGGGAGGGACCC
TACGGCCGCGAGTCGGACCACCACGCCCGGGAGGGCAGCCTGGAGCAACCCGGGTTCTGG
GAGGGCGAGGCCGAGCGAGGCAAGGCCGGGGACCCCCACCGGAGGCACGTGCACCGGCAG
GGGGGCAGCAGGGAGAGCCGCAGCGGGTCCCCGCGCACGGGCGCGGACGGGGAGCATCGA
CGTCATCGCGCGCACCGCAGGCCCGGGGAGGAGGGTCCGGAGGACAAGGCGGAGCGGAGG
GCGCGGCACCGCGAGGGCAGCCGGCCGGCCCGGGGCGGCGAGGGCGAGGGCGAGGGCCCC
GACGGGGGCGAGCGCAGGAGAAGGCACCGGCATGGCGCTCCAGCCACGTACGAGGGGGAC
GCGCGGAGGGAGGACAAGGAGCGGAGGCATCGGAGGAGGAAAGAGAACCAGGGCTCCGGG
GTCCCTGTGTCGGGCCCCAACCTGTCAACCACCCGGCCAATCCAGCAGGACCTGGGCCGC
CAAGACCCACCCCTGGCAGAGGATATTGACAACATGAAGAACAACAAGCTGGCCACCGCG
GAGTCGGCCGCTCCCCACGGCAGCCTTGGCCACGCCGGCCTGCCCCAGAGCCCAGCCAAG
ATGGGAAACAGCACCGACCCCGGCCCCATGCTGGCCATCCCTGCCATGGCCACCAACCCC
CAGAACGCCGCCAGCCGCCGGACGCCCAACAACCCGGGGAACCCATCCAATCCCGGCCCC
CCCAAGACCCCCGAGAATAGCCTTATCGTCACCAACCCCAGCGGCACCCAGACCAATTCA
GCTAAGACTGCCAGGAAACCCGACCACACCACAGTGGACATCCCCCCAGCCTGCCCACCC
CCCCTCAACCACACCGTCGTACAAGTGAACAAAAACGCCAACCCAGACCCACTGCCAAAA
AAAGAGGAAGAGAAGAAGGAGGAGGAGGAAGACGACCGTGGGGAAGACGGCCCTAAGCCA
ATGCCTCCCTATAGCTCCATGTTCATCCTGTCCACGACCAACCCCCTTCGCCGCCTGTGC
CATTACATCCTGAACCTGCGCTACTTTGAGATGTGCATCCTCATGGTCATTGCCATGAGC
AGCATCGCCCTGGCCGCCGAGGACCCTGTGCAGCCCAACGCACCTCGGAACAACGTGCTG
CGATACTTTGACTACGTTTTTACAGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATT
GACCTGGGGCTCGTCCTGCATCAGGGTGCCTACTTCCGTGACCTCTGGAATATTCTCGAC
TTCATAGTGGTCAGTGGGGCCCTGGTAGCCTTTGCCTTCACTGGCAATAGCAAAGGAAAA
GACATCAACACGATTAAATCCCTCCGAGTCCTCCGGGTGCTACGACCTCTTAAAACCATC
AAGCGGCTGCCAAAGCTCAAGGCTGTGTTTGACTGTGTGGTGAACTCACTTAAAAACGTC
TTCAACATCCTCATCGTCTACATGCTATTCATGTTCATCTTCGCCGTGGTGGCTGTGCAG
CTCTTCAAGGGGAAATTCTTCCACTGCACTGACGAGTCCAAAGAGTTTGAGAAAGATTGT
CGAGGCAAATACCTCCTCTACGAGAAGAATGAGGTGAAGGCGCGAGACCGGGAGTGGAAG
AAGTATGAATTCCATTACGACAATGTGCTGTGGGCTCTGCTGACCCTCTTCACCGTGTCC
ACGGGAGAAGGCTGGCCACAGGTCCTCAAGCATTCGGTGGACGCCACCTTTGAGAACCAG
GGCCCCAGCCCCGGGTACCGCATGGAGATGTCCATTTTCTACGTCGTCTACTTTGTGGTG
TTCCCCTTCTTCTTTGTCAATATCTTTGTGGCCTTGATCATCATCACCTTCCAGGAGCAA
GGGGACAAGATGATGGAGGAATACAGCCTGGAGAAAAATGAGAGGGCCTGCATTGATTTC
GCCATCAGCGCCAAGCCGCTGACCCGACACATGCCGCAGAACAAGCAGAGCTTCCAGTAC
CGCATGTGGCAGTTCGTGGTGTCTCCGCCTTTCGAGTACACGATCATGGCCATGATCGCC
CTCAACACCATCGTGCTTATGATGAAGTTCTATGGGGCTTCTGTTGCTTATGAAAATGCC
CTGCGGGTGTTCAACATCGTCTTCACCTCCCTCTTCTCTCTGGAATGTGTGCTGAAAGTC
ATGGCTTTTGGGATTCTGAATTATTTCCGCGATGCCTGGAACATCTTCGACTTTGTGACT
GTTCTGGGCAGCATCACCGATATCCTCGTGACTGAGTTTGGGAATCCGAATAACTTCATC
AACCTGAGCTTTCTCCGCCTCTTCCGAGCTGCCCGGCTCATCAAACTTCTCCGTCAGGGT
TACACCATCCGCATTCTTCTCTGGACCTTTGTGCAGTCCTTCAAGGCCCTGCCTTATGTC
TGTCTGCTGATCGCCATGCTCTTCTTCATCTATGCCATCATTGGGATGCAGGTGTTTGGT
AACATTGGCATCGACGTGGAGGACGAGGACAGTGATGAAGATGAGTTCCAAATCACTGAG
CACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTTCTCTTCCGGAGTGCCACCGGG
GAAGCTTGGCACAACATCATGCTTTCCTGCCTCAGCGGGAAACCGTGTGATAAGAACTCT
GGCATCCTGACTCGAGAGTGTGGCAATGAATTTGCTTATTTTTACTTTGTTTCCTTCATC
TTCCTCTGCTCGTTTCTGATGCTGAATCTCTTTGTCGCCGTCATCATGGACAACTTTGAG
TACCTCACCCGAGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAGTACGTGCGTGTC
TGGGCCGAGTATGACCCCGCAGCTTGGGGCCGCATGCCTTACCTGGACATGTATCAGATG
CTGAGACACATGTCTCCGCCCCTGGGTCTGGGGAAGAAGTGTCCGGCCAGAGTGGCTTAC
AAGCGGCTTCTGCGGATGGACCTGCCCGTCGCAGATGACAACACCGTCCACTTCAATTCC
ACCCTCATGGCTCTGATCCGCACAGCCCTGGACATCAAGATTGCCAAGGGAGGAGCCGAC
AAACAGCAGATGGACGCTGAGCTGCGGAAGGAGATGATGGCGATTTGGCCCAATCTGTCC
CAGAAGACGCTAGACCTGCTGGTCACACCTCACAAGTCCACGGACCTCACCGTGGGGAAG
ATCTACGCAGCCATGATGATCATGGAGTACTACCGGCAGAGCAAGGCCAAGAAGCTGCAG
GCCATGCGCGAGGAGCAGGACCGGACACCCCTCATGTTCCAGCGCATGGAGCCCCCGTCC
CCAACGCAGGAAGGGGGACCTGGCCAGAACGCCCTCCCCTCCACCCAGCTGGACCCAGGA
GGAGCCCTGATGGCTCACGAAAGCGGCCTCAAGGAGAGCCCGTCCTGGGTGACCCAGCGT
GCCCAGGAGATGTTCCAGAAGACGGGCACATGGAGTCCGGAACAAGGCCCCCCTACCGAC
ATGCCCAACAGCCAGCCTAACTCTCAGTCCGTGGAGATGCGAGAGATGGGCAGAGATGGC
TACTCCGACAGCGAGCACTACCTCCCCATGGAAGGCCAGGGCCGGGCTGCCTCCATGCCC
CGCCTCCCTGCAGAGAACCAGAGGAGAAGGGGCCGGCCACGTGGGAATAACCTCAGTACC
ATCTCAGACACCAGCCCCATGAAGCGTTCAGCCTCCGTGCTGGGCCCCAAGGCCCGACGC
CTGGACGATTACTCGCTGGAGCGGGTCCCGCCCGAGGAGAACCAGCGGCACCACCAGCGG
CGCCGCGACCGCAGCCACCGCGCCTCTGAGCGCTCCCTGGGCCGCTACACCGATGTGGAC
ACAGGCTTGGGGACAGACCTGAGCATGACCACCCAATCCGGGGACCTGCCGTCGAAGGAG
CGGGACCAGGAGCGGGGCCGGCCCAAGGATCGGAAGCATCGACAGCACCACCACCACCAC
CACCACCACCACCATCCCCCGCCCCCCGACAAGGACCGCTATGCCCAGGAACGGCCGGAC
CACGGCCGGGCACGGGCTCGGGACCAGCGCTGGTCCCGCTCGCCCAGCGAGGGCCGAGAG
CACATGGCGCACCGGCAGTAG
GenBank Gene IDAF004884
GeneCard IDNone
GenAtlas IDCACNA1A
HGNC IDHGNC:1388
Chromosome Location19
Locus19p13.2-p13.1
References
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