Mechanism of increased BK channel activation from a channel mutation that causes epilepsy. - Wikidata - wikimedia - TriplyDB

Mechanism of increased BK channel activation from a channel mutation that causes epilepsy.

Mechanism of increased BK channel activation from a channel mutation that causes epilepsy.

http://www.wikidata.org/entity/Q37124257

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Hypoxia and ischemia-reperfusion: a BiK contribution?A DNA element regulates drug tolerance and withdrawal in Drosophila BK Channels in the Central Nervous System.Upregulation of STREX splice variant of the large conductance Ca2+-activated potassium (BK) channel in a rat model of mesial temporal lobe epilepsy An epilepsy/dyskinesia-associated mutation enhances BK channel activation by potentiating Ca2+ sensing.Altered expression and function of small-conductance (SK) Ca(2+)-activated K+ channels in pilocarpine-treated epileptic rats The regulation of BK channel activity by pre- and post-translational modifications.BK channel activation: structural and functional insights The brain-specific Beta4 subunit downregulates BK channel cell surface expression Alternatively spliced domains interact to regulate BK potassium channel gating.Fluorogenic Green-Inside Red-Outside (GIRO) Labeling Approach Reveals Adenylyl Cyclase-Dependent Control of BKα Surface Expression Methamphetamine Regulation of Firing Activity of Dopamine Neurons Phosphorylation of a constitutive serine inhibits BK channel variants containing the alternate exon "SRKR".Homeostatic regulation of neuronal excitability by K(+) channels in normal and diseased brains.Targeting BK (big potassium) channels in epilepsy.The BK channel: a vital link between cellular calcium and electrical signaling.BKCa channel dysfunction in neurological diseases Current understanding of iberiotoxin-resistant BK channels in the nervous system.Shaping of action potentials by type I and type II large-conductance Ca²+-activated K+ channels.Modulation by the BK accessory β4 subunit of phosphorylation-dependent changes in excitability of dentate gyrus granule neurons.Are big potassium-type Ca(2+)-activated potassium channels a viable target for the treatment of epilepsy?Potassium Channels in Epilepsy.Comparative effects of H+ and Ca2+ on large-conductance Ca2+- and voltage-gated Slo1 K+ channels.Knockout of the BK β4-subunit promotes a functional coupling of BK channels and ryanodine receptors that mediate a fAHP-induced increase in excitability.Downregulation of KCNMB4 expression and changes in BK channel subtype in hippocampal granule neurons following seizure activity.CNTF-Treated Astrocyte Conditioned Medium Enhances Large-Conductance Calcium-Activated Potassium Channel Activity in Rat Cortical Neurons.Potassium Channel Gain of Function in Epilepsy: An Unresolved Paradox.

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Mechanism of increased BK channel activation from a channel mutation that causes epilepsy.

http://www.wikidata.org/entity/Q37124257

description

article científic

@ca

article scientifique

@fr

articolo scientifico

@it

artigo científico

@pt

bilimsel makale

@tr

scientific article published on 09 February 2009

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

Mechanism of increased BK chan ...... mutation that causes epilepsy.

@en

Mechanism of increased BK chan ...... mutation that causes epilepsy.

@nl

type

label

Mechanism of increased BK chan ...... mutation that causes epilepsy.

@en

Mechanism of increased BK chan ...... mutation that causes epilepsy.

@nl

prefLabel

Mechanism of increased BK chan ...... mutation that causes epilepsy.

@en

Mechanism of increased BK chan ...... mutation that causes epilepsy.

@nl

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The Journal of General Physiology

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Mechanism of increased BK channel activation from a channel mutation that causes epilepsy

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Bin Wang

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Determinant for beta-subunit regulation in high-conductance voltage-activated and Ca(2+)-sensitive K+ channels: an additional transmembrane region at the N terminus

Structure of the RCK domain from the E. coli K+ channel and demonstration of its presence in the human BK channel

BKCa-Cav channel complexes mediate rapid and localized Ca2+-activated K+ signaling

Glutamate-mediated extrasynaptic inhibition: direct coupling of NMDA receptors to Ca(2+)-activated K+ channels.

Defining the BK channel domains required for beta1-subunit modulation.

Calcium-activated potassium channels: multiple contributions to neuronal function.

Mg2+ mediates interaction between the voltage sensor and cytosolic domain to activate BK channels

Mechanism of beta4 subunit modulation of BK channels.

An S6 mutation in BK channels reveals beta1 subunit effects on intrinsic and voltage-dependent gating

Mg2+ enhances voltage sensor/gate coupling in BK channels.

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283-294

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scholarly article

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10.1085/JGP.200810141

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3

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133

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Brad S. Rothberg

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2009-02-09T00:00:00Z

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23994609

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19204188

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2654085

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