about
Binding mode of an α-amino acid-linked quinoxaline-2,3-dione analogue at glutamate receptor subtype GluK1Automating single subunit counting of membrane proteins in mammalian cellsKainate receptor pore-forming and auxiliary subunits regulate channel block by a novel mechanismDistinct Structural Pathways Coordinate the Activation of AMPA Receptor-Auxiliary Subunit Complexes.Ionotropic glutamate receptors & CNS disorders.Mitochondrial reactive oxygen species regulate the strength of inhibitory GABA-mediated synaptic transmissionIon-dependent gating of kainate receptors.Thinking of Co²⁺-staining explant tissue or cultured cells? How to make it reliable and specific.Ionotropic glutamate receptors made crystal clear.Transmembrane AMPA receptor regulatory protein regulation of competitive antagonism: a problem of interpretation.Cations but not anions regulate the responsiveness of kainate receptors.Functional characterization and in silico docking of full and partial GluK2 kainate receptor agonists.Na+/Cl- dipole couples agonist binding to kainate receptor activation.External ions are coactivators of kainate receptors.Concanavalin-A reports agonist-induced conformational changes in the intact GluR6 kainate receptor.Allosteric regulation and spatial distribution of kainate receptors bound to ancillary proteins.Defining the structural relationship between kainate-receptor deactivation and desensitizationNovel α1 and γ2 GABAA receptor subunit mutations in families with idiopathic generalized epilepsy.Excitotoxic death of retinal neurons in vivo occurs via a non-cell-autonomous mechanism.Coupling cellular metabolism to neuronal signalling.α6-Containing GABAA Receptors Are the Principal Mediators of Inhibitory Synapse Strengthening by Insulin in Cerebellar Granule Cells.Hydrogen peroxide increases GABAA receptor-mediated tonic current in hippocampal neurons.Stargazin and cornichon-3 relieve polyamine block of AMPA receptors by enhancing blocker permeation.Discovery of novel small-molecule antagonists for GluK2.Soluble Tumor Necrosis Factor Alpha Promotes Retinal Ganglion Cell Death in Glaucoma via Calcium-Permeable AMPA Receptor Activation.Neurophysiology of inhibitory and excitatory amino acid receptors.Light triggers expression of philanthotoxin-insensitive Ca2+-permeable AMPA receptors in the developing rat retina.Polyamine-mediated channel block of ionotropic glutamate receptors and its regulation by auxiliary proteinsLigand-gated ion channels: from genes to behaviourIonotropic glutamate receptors: alive and kickingShared and unique aspects of ligand- and voltage-gated ion-channel gatingNitric oxide signaling strengthens inhibitory synapses of cerebellar molecular layer interneurons through a GABARAP-dependent mechanismNanoscale Mobility of the Apo State and TARP Stoichiometry Dictate the Gating Behavior of Alternatively Spliced AMPA ReceptorsCerebellar Stellate Cell Excitability Is Coordinated by Shifts in the Gating Behavior of Voltage-Gated Na+ and A-Type K+ Channels
P50
Q27700165-FC923B08-C6F4-43A9-89BB-2C851C31B17CQ34397095-40FD0107-2FA6-4F7F-86B2-A4F896F539F2Q36758886-A696AF6F-91FB-4F2B-979B-8821A729BCB1Q36761408-BB76A423-442F-4C38-AE23-AA1F25556B9DQ37143580-4772C15C-97A3-4C1D-AF4E-EF63E410AEB0Q37159042-B04FEE23-BEB1-4CDA-96BE-04C97B3E2B30Q37613298-D4154FC9-926D-49F7-A983-3F0330F5E3C9Q38003388-83226DD7-CCF9-4C4C-8464-533F987A8297Q38279580-CC2A49DE-082B-4C54-9498-66740B35836DQ39463619-B303D426-3128-4C7F-A7D8-297F50D4534BQ39595217-461B066A-BFAD-47C9-AD5B-52D8B21FA8F6Q39882433-E361BA31-5CDE-426F-AD9F-37FF84B61BEFQ40117282-4F08250A-9E5C-4CA2-92FB-923273514BEEQ40275643-CC101FAF-3B62-46F6-B041-54496C1A754CQ40324619-A2D2F684-1456-4980-AB50-DA62BF23BD18Q40673372-91AC5DC9-B056-4A77-97B8-C1278EF0B4FCQ42382298-E5D75B42-C9B7-478C-929B-F158A57DF800Q42607120-97116B41-19EE-41AB-BF11-4ADAAA61BB23Q46031528-6796937B-054C-42A0-9C07-733264AAF448Q46684610-3248EE73-A00F-48BB-84DB-771FE38FFC4AQ46706420-F1DF2C20-291F-4F15-B83B-5A9093AFD907Q46855734-FC9888DE-F9E7-4E79-A9BB-DD78E13D8DC1Q47313718-B368DB69-D441-4993-9928-84AD476C898EQ48084571-F879200B-80E1-4DFD-A94D-AD31CC9619B4Q48137954-3AEFE4E4-F263-426D-A8D4-1BEEA968CDBAQ48357656-83FB1940-C9E1-4702-A303-DB8035193C37Q51989151-3BF831B6-92D4-4064-8AE8-D973B068258AQ58544820-AF5701DB-873C-412B-A3B4-2D7BAAA5E62BQ83159452-CE9C1766-EF15-45A3-B639-D1DAE4F30EC0Q86448436-32CBDEA6-7218-4954-8460-F05E131A4D85Q89022924-BD0260A2-4A74-4316-B725-9E62DB71667BQ90315756-F3196AEA-B426-4FD0-A021-3E330235282CQ91749323-252FEBCC-8B5E-4607-A8C3-4D4E0403A9CFQ92171206-B2A4D169-9074-48B7-8B57-23E51710DC5B
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Derek Bowie
@ast
Derek Bowie
@en
Derek Bowie
@es
Derek Bowie
@nl
Derek Bowie
@sl
type
label
Derek Bowie
@ast
Derek Bowie
@en
Derek Bowie
@es
Derek Bowie
@nl
Derek Bowie
@sl
prefLabel
Derek Bowie
@ast
Derek Bowie
@en
Derek Bowie
@es
Derek Bowie
@nl
Derek Bowie
@sl
P106
P21
P31
P496
0000-0001-9491-8768