QuickView for RyR (gene)

GO Molecular Function

calcium-induced calcium release activity | ligand-gated calcium channel activity | voltage-gated ion channel activity | cation binding | passive transmembrane transporter activity | enzyme binding | ribonucleotide binding | transmembrane transporter activity | ligand-gated ion channel activity | nucleotide binding | ion gated channel activity | ryanodine-sensitive calcium-release channel activity | carbohydrate derivative binding | voltage-gated calcium channel activity | ATP binding | anion binding | adenyl nucleotide binding | cation transmembrane transporter activity | purine nucleotide binding | transporter activity | calcium ion transmembrane transporter activity | ion transmembrane transporter activity | ion binding | organic cyclic compound binding | calcium-release channel activity | purine ribonucleoside triphosphate binding | protein binding | metal ion transmembrane transporter activity | voltage-gated cation channel activity | cation channel activity | calcium ion binding | inorganic cation transmembrane transporter activity | purine ribonucleotide binding | intracellular ligand-gated ion channel activity | voltage-gated channel activity | adenyl ribonucleotide binding | channel activity | drug binding | protease binding | calcium channel activity | calmodulin binding | metal ion binding | ion channel activity | heterocyclic compound binding | substrate-specific channel activity | small molecule binding

GO Biological Process

response to extracellular stimulus | regulation of muscle system process | response to nutrient levels | response to ATP | muscle tissue development | intracellular signal transduction | calcium ion transmembrane import into cytosol | cytosolic calcium ion transport | regulation of localization | calcium-induced calcium release activity | ligand-gated calcium channel activity | establishment of localization | negative regulation of cellular process | bone development | cell differentiation | striated muscle cell development | cellular response to extracellular stimulus | response to drug | cellular response to caffeine | cellular chemical homeostasis | voltage-gated ion channel activity | response to organophosphorus | cellular process | localization | cellular homeostasis | heart morphogenesis | passive transmembrane transporter activity | metal ion transport | myotube cell development | response to hypoxia | establishment of localization in cell | tissue development | muscle structure development | muscle cell differentiation | skeletal muscle organ development | regulation of cellular process | regulation of cytosolic calcium ion concentration | transmembrane transporter activity | ligand-gated ion channel activity | cellular response to organonitrogen compound | calcium ion homeostasis | calcium ion transport into cytosol | muscle contraction | response to stimulus | ion gated channel activity | muscle cell development | release of sequestered calcium ion into cytosol by sarcoplasmic reticulum | cellular response to xenobiotic stimulus | ryanodine-sensitive calcium-release channel activity | response to stress | skeletal muscle tissue development | cellular localization | divalent metal ion transport | cellular response to organic cyclic compound | muscle fiber development | metal ion homeostasis | voltage-gated calcium channel activity | response to nitrogen compound | system development | cellular response to nutrient levels | response to oxygen levels | multicellular organism development | calcium ion transmembrane transport | response to purine-containing compound | regulation of muscle contraction | ion transmembrane transport | cellular response to ATP | outflow tract morphogenesis | cation transmembrane transporter activity | cellular ion homeostasis | animal organ morphogenesis | positive regulation of cytosolic calcium ion concentration | response to nutrient | cellular response to alkaloid | calcium ion transmembrane transporter activity | ion transmembrane transporter activity | second-messenger-mediated signaling | negative regulation of sequestering of calcium ion | skin development | response to xenobiotic stimulus | cation homeostasis | cellular response to drug | striated muscle tissue development | cellular cation homeostasis | cell communication | heart development | cellular calcium ion homeostasis | homeostatic process | calcium-release channel activity | striated muscle cell differentiation | ossification involved in bone maturation | release of sequestered calcium ion into cytosol | calcium-mediated signaling | cation transmembrane transport | cellular response to nutrient | response to organic substance | cellular response to purine-containing compound | metal ion transmembrane transporter activity | anatomical structure development | voltage-gated cation channel activity | developmental maturation | chemical homeostasis | calcium ion transport | response to caffeine | regulation of sequestering of calcium ion | animal organ development | ion homeostasis | inorganic cation transmembrane transport | response to alkaloid | cation channel activity | bone maturation | transmembrane transport | signaling | inorganic cation transmembrane transporter activity | myotube differentiation | response to organic cyclic compound | sarcoplasmic reticulum calcium ion transport | cell development | intracellular ligand-gated ion channel activity | voltage-gated channel activity | anatomical structure morphogenesis | release of sequestered calcium ion into cytosol by endoplasmic reticulum | cation transport | channel activity | developmental process | calcium channel activity | response to organonitrogen compound | cellular metal ion homeostasis | ion channel activity | ossification | ion transport | skeletal system development | cellular response to organic substance | circulatory system development | divalent inorganic cation homeostasis | substrate-specific channel activity | muscle organ development | muscle system process | signal transduction | skeletal muscle fiber development | multicellular organismal process

GO Cellular Component

supramolecular fiber | integral component of membrane | cytoplasmic side of plasma membrane | sarcoplasmic reticulum | intracellular membrane-bounded organelle | sarcolemma | extrinsic component of membrane | organelle membrane | sarcomere | cytoplasmic vesicle | cell | cytoplasmic side of membrane | smooth endoplasmic reticulum | extrinsic component of plasma membrane | intrinsic component of membrane | myofibril | cytoplasm | intracellular organelle | endoplasmic reticulum | contractile fiber | nuclear outer membrane-endoplasmic reticulum membrane network | protein-containing complex | endomembrane system | endoplasmic reticulum membrane | plasma membrane | extrinsic component of cytoplasmic side of plasma membrane | vesicle | junctional membrane complex | cytoplasmic region | T-tubule | calcium channel complex | cell cortex | membrane-bounded organelle | sarcoplasmic reticulum membrane | organelle | I band | vesicle membrane | sarcoplasm | cell periphery | transmembrane transporter complex | cation channel complex | terminal cisterna | ion channel complex | Z disc | intracellular vesicle | intracellular | membrane | supramolecular complex | cytoplasmic vesicle membrane

PATHWAYS

No pathways found.

PROTEIN FAMILY

RIH domain | B30.2/SPRY domain | EF-hand domain | Ryanodine receptor Ryr | SPRY domain | Ion transport domain | Ryanodine Receptor TM 4-6 | EF-hand domain pair | Concanavalin A-like lectin/glucanase domain superfamily | Ryanodine receptor | RyR/IP3R Homology associated domain | Inositol 1,4,5-trisphosphate/ryanodine receptor | Ryanodine receptor-related | MIR motif | Ryanodine receptor 1 | Ryanodine receptor, SPRY domain 1 | Ryanodine receptor, SPRY domain 3 | Ryanodine receptor, SPRY domain 2 | RyR/IP3 receptor binding core, RIH domain superfamily | Mir domain superfamily