KCNMB4 Gene Summary [Human]
MaxiK channels are large conductance, voltage and calcium-sensitive potassium channels which are fundamental to the control of smooth muscle tone and neuronal excitability. MaxiK channels can be formed by 2 subunits: the pore-forming alpha subunit and the modulatory beta subunit. The protein encoded by this gene is an auxiliary beta subunit which slows activation kinetics, leads to steeper calcium sensitivity, and shifts the voltage range of current activation to more negative potentials than does the beta 1 subunit. [provided by RefSeq, Jul 2008]
Details
| Type | Protein Coding |
| Official Symbol | KCNMB4 |
| Official Name | potassium calcium-activated channel subfamily M regulatory beta subunit 4 [Source:HGNC Symbol;Acc:HGNC:6289] |
| Ensembl ID | ENSG00000135643 |
| Bio databases IDs | |
| Aliases | potassium calcium-activated channel subfamily M regulatory beta subunit 4, BK channel beta subunit 4, MaxiK channel beta-subunit 4, big potassium channel beta subunit 4 |
| Synonyms | 1700058G18Rik, 2900045G12Rik, BKbeta4, Calcium activated potassium channel beta 4 subunit, Calcium activated potassium channel β 4 subunit, k(VCA)beta-4, k(VCA)β-4, potassium calcium-activated channel subfamily M regulatory beta subunit 4, potassium calcium-activated channel subfamily M regulatory β subunit 4, potassium large conductance calcium-activated channel, subfamily M, beta member 4, potassium large conductance calcium-activated channel, subfamily M, β member 4, slo-beta-4, slo-β-4 |
| Species | Human, Homo sapiens |
| Orthologies |
Protein Domains
A protein domain is a distinct structural or functional region within a protein that can evolve, function, and exist independently of the rest of the protein chain. These domains in human KCNMB4 often fold into stable, three-dimensional structures and are associated with specific biological functions, such as binding to DNA, other proteins, or small molecules.
- potassium channel
- Calcium-activated potassium channel, beta subunit
- calcium-activated potassium channel
- protein binding
- voltage-gated ion channel
- glycosylation site
- ion channel
Pathways
Biological processes and signaling networks where the KCNMB4 gene in human plays a role, providing insight into its function and relevance in health or disease.
Top Findings
The most significant associations for this gene, including commonly observed domains, pathway involvement, and functional highlights based on current data.
disease
- atrial fibrillation
- atrial flutter
- nonconvulsive seizure
- insomnia
- oral squamous cell carcinoma
- squamous cell cancer of the oral cavity
role in cell
- action potential
Subcellular Expression
Locations within the cell where the protein is known or predicted to be active, providing insight into its function and cellular context.
- Plasma Membrane
- cellular membrane
Gene Ontology Annotations
Describes the biological processes, cellular components, and molecular functions associated with the human KCNMB4 gene, providing context for its role in the cell.
Biological Process
Functions and activities the gene product is involved in
- potassium ion transport
- regulation of neurotransmitter secretion
- detection of calcium ion
- potassium ion transmembrane transport
- synaptic transmission
- regulation of action potential
- regulation of vasoconstriction
- regulation of action potential in neuron
Cellular Component
Where in the cell the gene product is active
- voltage-gated potassium channel complex
- synapse
- plasma membrane
Molecular Function
What the gene product does at the molecular level
- calcium-activated potassium channel activity
- protein binding
- potassium channel regulator activity