QuickView for SCN1B (gene)
- Gene Symbol:
- SCN1B
Homo sapiens - Full name:
- sodium voltage-gated channel beta subunit 1
- Synonyms:
- ATFB13, BRGDA5, EIEE52, GEFSP1, sodium channel subunit beta-1, sodium channel, voltage gated, type I beta subunit, sodium channel, voltage-gated, type I, beta
- Genomic Location:
- Chr 19: 40213374-40223193
- Description:
-
Voltage-gated sodium channels are heteromeric proteins that function in the generation and propagation of action potentials in muscle and neuronal cells. They are composed of one alpha and two beta subunits, where the alpha subunit provides channel activity and the beta-1 subunit modulates the kinetics of channel inactivation. This gene encodes a s...
- Orthologs:
- Mus musculus , Rattus norvegicus , Macaca mulatta , Canis lupus familiaris , Danio rerio , Bos taurus , Pan troglodytes
- External Links:
- Entrez Gene
- Transcription Factor
Binding Sites:
- miRNA binding sites
(Source: TargetScan):
- Cytogenetic Map:
-
19q13.11
GO Molecular Function
sodium channel inhibitor activity | voltage-gated ion channel activity | channel regulator activity | passive transmembrane transporter activity | sodium channel regulator activity | voltage-gated sodium channel activity | transmembrane transporter activity | ion gated channel activity | ion channel inhibitor activity | molecular function regulator | ion channel binding | channel inhibitor activity | cation transmembrane transporter activity | transporter activity | ion transmembrane transporter activity | voltage-gated sodium channel activity involved in cardiac muscle cell action potential | protein binding | metal ion transmembrane transporter activity | voltage-gated sodium channel activity involved in Purkinje myocyte action potential | sodium ion transmembrane transporter activity | sodium channel activity | cation channel activity | inorganic cation transmembrane transporter activity | monovalent inorganic cation transmembrane transporter activity | voltage-gated channel activity | channel activity | ion channel activity | substrate-specific channel activity
GO Biological Process
cell morphogenesis | regulation of ventricular cardiac muscle cell membrane repolarization | heart process | actin filament-based process | positive regulation of cellular component organization | regulation of neurogenesis | neuron projection morphogenesis | regulation of sodium ion transmembrane transporter activity | regulation of cell development | regulation of localization | sodium channel inhibitor activity | regulation of sodium ion transport | establishment of localization | positive regulation of developmental process | cell differentiation | nervous system development | membrane depolarization during action potential | cell part morphogenesis | neurogenesis | voltage-gated ion channel activity | generation of neurons | response to pyrethroid | cellular process | Purkinje myocyte to ventricular cardiac muscle cell signaling | channel regulator activity | central nervous system neuron axonogenesis | localization | cell projection morphogenesis | passive transmembrane transporter activity | regulation of sodium ion transmembrane transport | metal ion transport | chemical synaptic transmission | neuron development | central nervous system neuron differentiation | axon guidance | regulation of neuron projection development | regulation of cell differentiation | actin filament-based movement | regulation of cellular process | sodium channel regulator activity | membrane depolarization during cardiac muscle cell action potential | voltage-gated sodium channel activity | transmembrane transporter activity | heart contraction | cellular component organization | actin-mediated cell contraction | muscle contraction | response to stimulus | ion gated channel activity | cell morphogenesis involved in neuron differentiation | ion channel inhibitor activity | neuron projection guidance | regulation of blood circulation | regulation of heart rate | blood circulation | cell-cell signaling | molecular function regulator | regulation of membrane potential | locomotion | central nervous system neuron development | system development | central nervous system projection neuron axonogenesis | channel inhibitor activity | positive regulation of neuron projection development | multicellular organism development | ion transmembrane transport | regulation of neuron differentiation | axon development | nervous system process | synaptic signaling | sodium ion transport | cation transmembrane transporter activity | regulation of membrane depolarization | monovalent inorganic cation transport | positive regulation of cell projection organization | cardiac muscle cell action potential involved in contraction | ion transmembrane transporter activity | axonogenesis | positive regulation of cell differentiation | voltage-gated sodium channel activity involved in cardiac muscle cell action potential | response to toxic substance | cell-cell signaling involved in cardiac conduction | regulation of heart contraction | cell morphogenesis involved in differentiation | cell communication | regulation of atrial cardiac muscle cell membrane depolarization | cardiac muscle cell contraction | homeostatic process | positive regulation of transport | striated muscle contraction | neuronal action potential propagation | response to insecticide | neuron differentiation | cation transmembrane transport | regulation of heart rate by cardiac conduction | membrane depolarization during Purkinje myocyte cell action potential | corticospinal neuron axon guidance | metal ion transmembrane transporter activity | anatomical structure development | positive regulation of neurogenesis | cell projection organization | positive regulation of cell development | corticospinal tract morphogenesis | voltage-gated sodium channel activity involved in Purkinje myocyte action potential | cell communication involved in cardiac conduction | chemical homeostasis | cell adhesion | membrane depolarization | neuron projection development | sodium ion transmembrane transport | positive regulation of ion transport | positive regulation of sodium ion transport | ion homeostasis | sodium ion transmembrane transporter activity | inorganic cation transmembrane transport | regulation of ion transmembrane transport | sodium channel activity | cation channel activity | transmembrane transport | action potential | signaling | inorganic cation transmembrane transporter activity | monovalent inorganic cation transmembrane transporter activity | cell development | regulation of transmembrane transporter activity | regulation of ion transmembrane transporter activity | voltage-gated channel activity | anatomical structure morphogenesis | cation transport | channel activity | regulation of nervous system development | regulation of developmental process | regulation of ion transport | developmental process | regulation of transport | cardiac muscle cell action potential | transmission of nerve impulse | central nervous system development | ion channel activity | positive regulation of neuron differentiation | ion transport | cardiac muscle contraction | regulation of cell projection organization | chemotaxis | substrate-specific channel activity | regulation of membrane repolarization | regulation of cellular component organization | muscle system process | cardiac conduction | multicellular organismal process
GO Cellular Component
intercalated disc | integral component of membrane | voltage-gated sodium channel complex | sarcolemma | neuron projection | cell | plasma membrane protein complex | intrinsic component of membrane | main axon | cell-cell junction | cell-cell contact zone | protein-containing complex | cell projection | plasma membrane | node of Ranvier | integral component of plasma membrane | T-tubule | extracellular region | sodium channel complex | cell periphery | axon | transmembrane transporter complex | cation channel complex | ion channel complex | cell junction | membrane | intrinsic component of plasma membrane
