The intrinsic gating of inward rectifier K+ channels expressed from the murine IRK1 gene depends on voltage, K+ and Mg2+
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The tetravalent organic cation spermine causes the gating of the IRK1 channel expressed in murine fibroblast cellsK(+) channelepsy: progress in the neurobiology of potassium channels and epilepsy.A transcriptomic analysis of type I-III neurons in the bed nucleus of the stria terminalisLocalization and age-dependent expression of the inward rectifier K+ channel subunit Kir 5.1 in a mammalian reproductive system.The extracellular K+ concentration dependence of outward currents through Kir2.1 channels is regulated by extracellular Na+ and Ca2+.Assembly of ROMK1 (Kir 1.1a) inward rectifier K+ channel subunits involves multiple interaction sitesIdentification of the Conformational transition pathway in PIP2 Opening Kir Channels.A novel frequency analysis method for assessing K(ir)2.1 and Na (v)1.5 currents.Subunit positional effects revealed by novel heteromeric inwardly rectifying K+ channels.Novel gating mechanism of polyamine block in the strong inward rectifier K channel Kir2.1.IRK1 inward rectifier K(+) channels exhibit no intrinsic rectification.Interaction mechanisms between polyamines and IRK1 inward rectifier K+ channels.Phosphoinositide-mediated gating of inwardly rectifying K(+) channels.A single aspartate residue is involved in both intrinsic gating and blockage by Mg2+ of the inward rectifier, IRK1.The dependence of Ag+ block of a potassium channel, murine kir2.1, on a cysteine residue in the selectivity filter.Update on the implication of potassium channels in autism: K(+) channelautism spectrum disorder.Two modes of polyamine block regulating the cardiac inward rectifier K+ current IK1 as revealed by a study of the Kir2.1 channel expressed in a human cell line.Constitutive expression of a Mg2+-inhibited K+ current and a TRPM7-like current in human erythroleukemia cells.A repolarization-induced transient increase in the outward current of the inward rectifier K+ channel in guinea-pig cardiac myocytes.Permeation and block of rat GluR6 glutamate receptor channels by internal and external polyamines.Time-dependent outward currents through the inward rectifier potassium channel IRK1. The role of weak blocking molecules.Direct endosomal acidification by the outwardly rectifying CLC-5 Cl(-)/H(+) exchanger.Two Kir2.1 channel populations with different sensitivities to Mg(2+) and polyamine block: a model for the cardiac strong inward rectifier K(+) channel.Direct block of native and cloned (Kir2.1) inward rectifier K+ channels by chloroethylclonidine.Multiple promoter elements interact to control the transcription of the potassium channel gene, KCNJ2.The use of the rat LAP LCR and promoter for the high-level constitutive expression of K+ channel cDNAs in a rat liver cell line.Physiological and molecular characterization of an IRK-type inward rectifier K+ channel in a tumour mast cell line.Inward rectifier potassium currents in mammalian skeletal muscle fibres.The K+ channel signature sequence of murine Kir2.1: mutations that affect microscopic gating but not ionic selectivity.Mechanism of rectification in inward-rectifier K+ channels.Functional consequences of polyamine synthesis inhibition by L-alpha-difluoromethylornithine (DFMO): cellular mechanisms for DFMO-mediated ototoxicity.Transient outward current carried by inwardly rectifying K+ channels in guinea pig ventricular myocytes dialyzed with low-K+ solution.A weakly inward rectifying potassium channel of the salmon brain. Glutamate 179 in the second transmembrane domain is insufficient for strong rectification.Permeation properties and differential expression across the auditory receptor epithelium of an inward rectifier K+ channel cloned from the chick inner ear.Differential expression of intrinsic membrane currents in defined cell types of the anterolateral bed nucleus of the stria terminalis.
P2860
Q28379235-099285FE-7788-4D88-B0DD-BAB638E2DEE1Q30449041-6D6EA939-E3FA-4941-BCED-C3A5FE39E78BQ30469105-4A0EB59A-F880-467D-BEB1-9CD555348CE9Q30638224-A06B331C-5691-4453-B275-72640D829CD8Q34003945-261F9631-BECA-4B9F-AF57-3BAF89749158Q34167570-42152CFB-63F0-4131-8D44-2D02A53E5F55Q35716412-EFD1ED42-55A3-4F05-B150-1380B6D5F9DBQ35848491-FFA3C5C3-09ED-437F-BC00-F9E3D53452DAQ35851925-B114E781-8BA3-4EEB-8F02-13BE9E64EE34Q36412119-39235BF8-9022-4074-AA41-53AC318EFE68Q36436459-41BD5BDE-683A-40E6-959B-7D82F351B888Q36436623-56E60EB9-BEEC-4276-B8C2-EF904CD83660Q36829579-AB53A342-3B42-486C-9E38-69E9E80C563BQ38306779-3CE4713D-1B13-44FD-A3DC-84D971A6A662Q38335212-DB00B9B8-9916-430C-B017-76A6722DE56BQ38382507-2551E52D-2F53-4052-A86B-761122AE15D0Q39385587-8F6EEA37-DE7C-4A9C-9DB0-57CFABF4A140Q39434223-E7F2B583-4EAE-496B-BBFD-CF0D544FFB59Q39446571-2A7B882F-4204-45A2-8614-DBB672AA9A68Q39453945-74B73A64-05CF-40AE-831A-ED94DF17CD2BQ39458210-F2C35F1F-5979-4040-836D-7C9A963E5ADFQ39710634-580B65A1-037B-4395-8628-5822C0E751E8Q40477316-1F76C690-68AB-4450-A9DE-B57BB95D86F9Q40923697-8D2C81CD-7236-49CD-BF9A-FE74C595F789Q41014688-53EA054F-44D4-4E56-AD68-34DABB13D75FQ41175575-34DC2EFF-BF6C-4CFD-B15D-3D393C7108B9Q41356009-0B56D9F1-7A01-41DB-9E93-F568FD258341Q41643865-81590F89-A544-46E6-B7B1-012B84E80497Q42642296-C8BC88A3-0548-419F-8497-D7F950451AF1Q42978407-DFBBEA8E-0824-48F6-B91F-2A62FEBDEEB4Q44688125-27B14780-E0DD-4B8C-9670-0C19F628911DQ46880917-F8875A28-9519-43E3-8CE1-E7B6A862837EQ48063000-592C18B2-E6CA-4CBD-A5DC-4D6376A4D4A2Q48071379-7A9B6310-4A91-4E92-A440-C9E64A66EF09Q48151711-AAC9CEFE-A900-4736-89A0-F2582C9F86B4
P2860
The intrinsic gating of inward rectifier K+ channels expressed from the murine IRK1 gene depends on voltage, K+ and Mg2+
description
1994 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1994 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 1994
@ast
im Februar 1994 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 1994/02/15)
@sk
vědecký článek publikovaný v roce 1994
@cs
wetenschappelijk artikel (gepubliceerd op 1994/02/15)
@nl
наукова стаття, опублікована в лютому 1994
@uk
مقالة علمية (نشرت في 15-2-1994)
@ar
name
The intrinsic gating of inward ...... epends on voltage, K+ and Mg2+
@ast
The intrinsic gating of inward ...... epends on voltage, K+ and Mg2+
@en
The intrinsic gating of inward ...... epends on voltage, K+ and Mg2+
@nl
type
label
The intrinsic gating of inward ...... epends on voltage, K+ and Mg2+
@ast
The intrinsic gating of inward ...... epends on voltage, K+ and Mg2+
@en
The intrinsic gating of inward ...... epends on voltage, K+ and Mg2+
@nl
prefLabel
The intrinsic gating of inward ...... epends on voltage, K+ and Mg2+
@ast
The intrinsic gating of inward ...... epends on voltage, K+ and Mg2+
@en
The intrinsic gating of inward ...... epends on voltage, K+ and Mg2+
@nl
P2093
P2860
P1476
The intrinsic gating of inward ...... epends on voltage, K+ and Mg2+
@en
P2093
E. C. Conley
I. A. Khan
N. B. Standen
N. W. Davies
P. A. Shelton
P. R. Stanfield
W. J. Brammar
P2860
P356
10.1113/JPHYSIOL.1994.SP020044
P407
P577
1994-02-15T00:00:00Z