Biophysical properties of acid-sensing ion channels (ASICs).
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Nanoparticle-Based and Bioengineered Probes and Sensors to Detect Physiological and Pathological Biomarkers in Neural CellsInsights into the channel gating of P2X receptors from structures, dynamics and small moleculesEpithelial sodium channel (ENaC) family: Phylogeny, structure-function, tissue distribution, and associated inherited diseasesASIC and ENaC type sodium channels: conformational states and the structures of the ion selectivity filtersA selectivity filter at the intracellular end of the acid-sensing ion channel pore.Glucose Deficiency Elevates Acid-Sensing Ion Channel 2a Expression and Increases Seizure Susceptibility in Temporal Lobe EpilepsyAcid-sensing ion channels: potential therapeutic targets for neurologic diseases.ASIC1a Deficient Mice Show Unaltered Neurodegeneration in the Subacute MPTP Model of Parkinson Disease.PIP Water Transport and Its pH Dependence Are Regulated by Tetramer Stoichiometry.A modulatory role of ASICs on GABAergic synapses in rat hippocampal cell culturesAcid-sensing ion channels are expressed in the ventrolateral medulla and contribute to central chemoreception.Expression of acid-sensing ion channels and selection of reference genes in mouse and naked mole rat.Bile acids potentiate proton-activated currents in Xenopus laevis oocytes expressing human acid-sensing ion channel (ASIC1a).Permissive role of cytosolic pH acidification in neurodegeneration: A closer look at its causes and consequences.Deactivation kinetics of acid-sensing ion channel 1a are strongly pH-sensitive.Properties of acid-induced currents in mouse dorsal root ganglia neurons.Non-proton ligand-sensing domain of acid-sensing ion channel 3 is required for itch sensation.Functional and pharmacological characterization of two different ASIC1a/2a heteromers reveals their sensitivity to the spider toxin PcTx1.Glioblastoma cancer stem cell lines express functional acid sensing ion channels ASIC1a and ASIC3.Acid-Sensing Ion Channels as Potential Therapeutic Targets in Neurodegeneration and Neuroinflammation.Identification of a cono-RFamide from the venom of Conus textile that targets ASIC3 and enhances muscle pain.Naked mole-rat acid-sensing ion channel 3 forms nonfunctional homomers, but functional heteromers.The nonproton ligand of acid-sensing ion channel 3 activates mollusk-specific FaNaC channels via a mechanism independent of the native FMRFamide peptide.Endomorphins potentiate acid-sensing ion channel currents and enhance the lactic acid-mediated increase in arterial blood pressure: effects amplified in hindlimb ischaemia.Proton-independent activation of acid-sensing ion channel ASIC3 by alkaloid lindoldhamine from Laurus nobilis.Acid-sensing ion channels are tuned to follow high-frequency stimuli.Human ASIC1a mediates stronger acid-induced responses as compared with mouse ASIC1a.Naked mole-rat cortical neurons are resistant to acid-induced cell death.Protons as Messengers of Intercellular Communication in the Nervous System
P2860
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P2860
Biophysical properties of acid-sensing ion channels (ASICs).
description
2015 nî lūn-bûn
@nan
2015 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Biophysical properties of acid-sensing ion channels (ASICs).
@ast
Biophysical properties of acid-sensing ion channels (ASICs).
@en
Biophysical properties of acid-sensing ion channels
@nl
type
label
Biophysical properties of acid-sensing ion channels (ASICs).
@ast
Biophysical properties of acid-sensing ion channels (ASICs).
@en
Biophysical properties of acid-sensing ion channels
@nl
prefLabel
Biophysical properties of acid-sensing ion channels (ASICs).
@ast
Biophysical properties of acid-sensing ion channels (ASICs).
@en
Biophysical properties of acid-sensing ion channels
@nl
P1433
P1476
Biophysical properties of acid-sensing ion channels (ASICs)
@en
P2093
Michael Pusch
P356
10.1016/J.NEUROPHARM.2014.12.016
P577
2015-01-10T00:00:00Z