3 Ontology Annotations
| GO Term | Gene Name |
|---|---|
| GO:0005245 | IPR005444 |
| GO:0070588 | IPR005444 |
| GO:0005891 | IPR005444 |
1 Parent Features
| DB identifier | Type | Name |
|---|---|---|
| IPR000584 | Family | Voltage-dependent calcium channel, L-type, beta subunit |
| Type: | Family | Name: | Voltage-dependent calcium channel, L-type, beta-2 subunit |
| Description: | Ca2+ ions are unique in that they not only carry charge but they are also the most widely used of diffusible second messengers. Voltage-dependent Ca2+ channels (VDCC) are a family of molecules that allow cells to couple electrical activity to intracellular Ca2+ signalling. The opening and closing of these channels by depolarizing stimuli, such as action potentials, allows Ca2+ ions to enter neurons down a steep electrochemical gradient, producing transient intracellular Ca2+ signals. Many of the processes that occur in neurons, including transmitter release, gene transcription and metabolism are controlled by Ca2+ influx occurring simultaneously at different cellular locales. The pore is formed by the alpha-1 subunit which incorporates the conduction pore, the voltage sensor and gating apparatus, and the known sites of channel regulation by second messengers, drugs, and toxins []. The activity of this pore is modulated by 4 tightly-coupled subunits: an intracellular beta subunit; a transmembrane gamma subunit; and a disulphide-linked complex of alpha-2 and delta subunits, which are proteolytically cleaved from the same gene product. Properties of the protein including gating voltage-dependence, G protein modulation and kinase susceptibility can be influenced by these subunits.Voltage-gated calcium channels are classified as T, L, N, P, Q and R, and are distinguished by their sensitivity to pharmacological blocks, single-channel conductance kinetics, and voltage-dependence. On the basis of their voltage activation properties, the voltage-gated calcium classes can be further divided into two broad groups: the low (T-type) and high (L, N, P, Q and R-type) threshold-activated channels.Co-expression of beta subunit mRNA with alpha-1 subunit mRNA in xenopus oocytes produces increased calcium currents, which are accompanied by a shift in the voltage-dependence of activation to more negative membrane potentials. Conversely, microinjection of antisense oligonucleotides to beta subunit mRNA produces decreased calcium currents and shifts voltage-dependent activation to more positive membrane potentials. There are four distinct beta subunits: beta-1, beta-2, beta-3 and beta-4; and the magnitude of the shift in the voltage-dependence of activation of change to membrane potentials varies with the particular subtype [].There are 4 splice variants of the beta-2 subunit: beta-2a, beta-2b, beta-2c and beta-2d. Beta-2a and beta-2b are expressed in animal heart, aorta and brain, and are 606- and 632-residue proteins, respectively. Beta-2c and beta-2d (655 and 604 residues, respectively) are expressed in brain, recentstudies showing beta-2c to be expressed also in heart. All splice variants differ in their N-terminal regions []. | Short Name: | VDCC_L_b2su |
| GO Term | Gene Name |
|---|---|
| GO:0005245 | IPR005444 |
| GO:0070588 | IPR005444 |
| GO:0005891 | IPR005444 |
| DB identifier | Type | Name |
|---|---|---|
| IPR000584 | Family | Voltage-dependent calcium channel, L-type, beta subunit |
