QuickView for CACNA1S;jsessionid=2AC5C08BFD6B7107FBE0A6394C171D52;jsessionid=EECD14CEE1D5F8180DB4BCB967EC677B (gene)
- Gene Symbol:
- Cacna1s
Rattus norvegicus - Full name:
- calcium voltage-gated channel subunit alpha1 S
- Synonyms:
- Cchl1a3, RGD1565743, voltage-dependent L-type calcium channel subunit alpha-1S, ROB1, calcium channel, L type, alpha-1 polypeptide, isoform 3, skeletal muscle, calcium channel, voltage-dependent, L type, alpha 1S subunit, voltage-gated calcium channel subunit alpha Cav1.1
- Genomic Location:
- N/A
- Description:
-
skeletal isoform and subunit of voltage dependent L-type Ca+2 channel; may mediate renal Ca+2 reabsorption; may play a role in bone metabolism
- Orthologs:
- Homo sapiens , Mus musculus , Macaca mulatta , Gallus gallus , Pan troglodytes , Canis lupus familiaris , Danio rerio
- External Links:
- Entrez Gene
- Transcription Factor
Binding Sites:
GO Molecular Function
high voltage-gated calcium channel activity | voltage-gated ion channel activity | cation binding | passive transmembrane transporter activity | transmembrane transporter activity | ion gated channel activity | voltage-gated calcium channel activity | cation transmembrane transporter activity | transporter activity | calcium ion transmembrane transporter activity | ion transmembrane transporter activity | ion binding | protein binding | metal ion transmembrane transporter activity | voltage-gated cation channel activity | cation channel activity | inorganic cation transmembrane transporter activity | voltage-gated channel activity | channel activity | calcium channel activity | calmodulin binding | metal ion binding | ion channel activity | substrate-specific channel activity
GO Biological Process
myoblast fusion | muscle tissue development | regulation of localization | syncytium formation by plasma membrane fusion | high voltage-gated calcium channel activity | eye development | establishment of localization | cell differentiation | striated muscle cell development | response to drug | cellular response to caffeine | voltage-gated ion channel activity | calcium ion import | cellular process | localization | passive transmembrane transporter activity | metal ion transport | myotube cell development | endomembrane system organization | tissue development | muscle structure development | muscle cell differentiation | skeletal muscle organ development | transmembrane transporter activity | cellular response to organonitrogen compound | cellular component organization | muscle contraction | response to stimulus | ion gated channel activity | muscle cell development | cellular response to xenobiotic stimulus | skeletal muscle tissue development | extraocular skeletal muscle development | divalent metal ion transport | cellular response to organic cyclic compound | muscle fiber development | voltage-gated calcium channel activity | response to nitrogen compound | system development | multicellular organism development | syncytium formation | calcium ion transmembrane transport | response to purine-containing compound | ion transmembrane transport | cation transmembrane transporter activity | neuromuscular junction development | cellular response to alkaloid | calcium ion transmembrane transporter activity | synapse organization | ion transmembrane transporter activity | response to xenobiotic stimulus | sensory organ development | cellular response to drug | striated muscle tissue development | striated muscle contraction | striated muscle cell differentiation | cation transmembrane transport | skeletal muscle adaptation | response to organic substance | cellular response to purine-containing compound | metal ion transmembrane transporter activity | anatomical structure development | voltage-gated cation channel activity | calcium ion transport | response to caffeine | animal organ development | inorganic cation transmembrane transport | response to alkaloid | regulation of ion transmembrane transport | camera-type eye development | cation channel activity | anatomical structure formation involved in morphogenesis | transmembrane transport | inorganic cation transmembrane transporter activity | myotube differentiation | response to organic cyclic compound | cell development | voltage-gated channel activity | anatomical structure morphogenesis | cation transport | channel activity | regulation of ion transport | developmental process | organelle organization | calcium channel activity | regulation of transport | response to organonitrogen compound | ion channel activity | ossification | ion transport | skeletal system development | cellular response to organic substance | endoplasmic reticulum organization | substrate-specific channel activity | muscle organ development | muscle system process | skeletal muscle fiber development | multicellular organismal process
GO Cellular Component
supramolecular fiber | integral component of membrane | sarcoplasmic reticulum | intracellular membrane-bounded organelle | sarcolemma | sarcomere | voltage-gated calcium channel complex | cell | plasma membrane protein complex | intrinsic component of membrane | myofibril | cytoplasm | intracellular organelle | endoplasmic reticulum | contractile fiber | protein-containing complex | endomembrane system | plasma membrane | T-tubule | calcium channel complex | membrane-bounded organelle | organelle | I band | sarcoplasm | cell periphery | L-type voltage-gated calcium channel complex | transmembrane transporter complex | cation channel complex | ion channel complex | intracellular | membrane | supramolecular complex
