about
CRMP2 tethers kainate receptor activity to cytoskeleton dynamics during neuronal maturationGluR5 and GluR6 kainate receptor subunits coexist in hippocampal neurons and coassemble to form functional receptorsA role for SNAP25 in internalization of kainate receptors and synaptic plasticityA mosaic of functional kainate receptors in hippocampal interneuronsOptical control of endogenous receptors and cellular excitability using targeted covalent photoswitchesA meeting to remember: meeting on memory and related disordersCoexpression of N-methyl-D-aspartate and phencyclidine receptors in Xenopus oocytes injected with rat brain mRNAEpilog: Cajal's unique and legitimated school.mRNA from NCB-20 cells encodes the N-methyl-D-aspartate/phencyclidine receptor: a Xenopus oocyte expression study.N-methyl-D-aspartate activates different channels than do kainate and quisqualate.Roles and rules of kainate receptors in synaptic transmission.Pharmacological intervention at ionotropic glutamate receptor complexes.Functional kainate-selective glutamate receptors in cultured hippocampal neurons.Glycine decreases desensitization of N-methyl-D-aspartate (NMDA) receptors expressed in Xenopus oocytes and is required for NMDA responses.Kainate receptors in health and disease.Increased Dosage of High-Affinity Kainate Receptor Gene grik4 Alters Synaptic Transmission and Reproduces Autism Spectrum Disorders Features.Non-canonical Signaling, the Hidden Life of Ligand-Gated Ion Channels.Characterization of alternatively spliced isoforms of AMPA receptor subunits encoding truncated receptors.Molecular mechanism of AMPA receptor noncompetitive antagonism.Intersubunit cooperativity in the NMDA receptor.Activation and desensitization properties of native and recombinant kainate receptors.A proteomic analysis reveals the interaction of GluK1 ionotropic kainate receptor subunits with Go proteins.Functional N-methyl-D-aspartate receptors in clonal rat phaeochromocytoma cells.Glutamate receptors of the kainate type and synaptic transmission.Single central nervous system neurons in culture.Kainate reveals its targets.Amelioration of ischemic brain damage by peritoneal dialysis.Spermine regulates N-methyl-D-aspartate receptor desensitization.Low chloride-dependent release of taurine by a furosemide-sensitive process in the in vivo rat hippocampus.Basal concentration and evoked changes of extracellular taurine in the rat hippocampus in vivo.Variation of potassium ion concentrations in the rat hippocampus specifically affects extracellular taurine levels.In vivo determination of extracellular concentration of amino acids in the rat hippocampus. A method based on brain dialysis and computerized analysis.Control of cortical GABA circuitry development by Nrg1 and ErbB4 signalling.Kainate receptors keep the excitement high.Functional characterization of CP-465,022, a selective, noncompetitive AMPA receptor antagonist.Noncanonical signaling by ionotropic kainate receptors.A role for extracellular Na+ in the channel gating of native and recombinant kainate receptors.[Synaptic physiology of the kainate receptors and its influence in epileptogenesis]Dual signaling by mGluR5a results in bi-directional modulation of N-type Ca2+ channels.Spontaneous activity regulates Robo1 transcription to mediate a switch in thalamocortical axon growth.
P50
Q28510117-04F275C8-BEC7-455A-9BE4-95F423A82A50Q28568974-76D78650-D5E1-4DD8-B999-AA26BC543A61Q28591013-D570ACBE-F6D6-4F4A-92C3-89AB8C8D386CQ28594162-DB363F00-DC27-48DD-9062-7361C0AE4A21Q28828824-AA3853A3-A138-4E9D-A4AF-AA20415648ABQ31048916-52362101-9EF6-48F0-9C7E-83A7ED558FCDQ33572077-CC925F11-ECEF-406C-BBF2-34EC7EB70349Q33835962-01B276A8-0E7B-4FC7-A452-D2C376838EE0Q33841873-589B5E76-F45B-47B2-856E-F870F423E155Q33845727-4294ADD0-1FAF-4A13-B509-E13B9CE9DDEFQ35141747-92681D8F-F2AA-47A6-A397-C2CA7984D342Q36638720-96A92F0E-E511-4654-AF46-38BEC88826DDQ36721527-31790F81-BCF6-471F-99B9-8F8DEA601A67Q37723850-B5C68C0C-AB9F-4D52-903A-6423F89306EAQ38153877-8D134733-785E-4BCB-8F27-20142962BBA3Q38829647-E5D33D0D-3B48-4E93-9FE2-7BFD86BC9C57Q38986372-7F9334E2-3138-47EF-8D33-574FECCFFB7BQ40038302-85ED8867-4FDC-4490-99FD-312E513A9C54Q40359241-FD77A0AB-7644-4248-9062-DC2DA41FDC5EQ40761115-1FB04D27-73B1-4425-9B8D-0A49BA77A6F0Q40989162-CC4ECD63-FF61-4A12-BBC0-67AC052A6418Q41125183-661B2B10-8BD5-4066-90DA-9F17EF099302Q41238764-10DB0E59-3A99-428A-9BAB-0B660836CD37Q41326331-B4AF8E08-FA66-49B3-B404-7A5491B545B2Q41619847-17E4310E-9529-4E28-8FE6-EC940A97E90FQ41680097-FDB90FC3-B887-4C8B-9858-8A055F03E4CDQ41905922-2A79B8FC-7D6E-4DEA-BE49-97D15D06DF46Q42137301-1D83437C-6F8B-4C6C-B679-0D820355AFC8Q42518907-BAC25FD5-EA70-4C44-A72D-3F886D357904Q42520037-15A976E4-579F-42C7-B9E1-FFA29A3A1298Q42525080-2C1EFDD2-E8C2-491E-9C68-C1D06FDDC655Q42526175-3ED48A53-75CD-4F96-AFF5-467D644FBAB3Q43099025-055DF9AA-897F-4618-9AD2-D4B0BF04FDE4Q43527400-F1B57A83-292B-41C3-89E4-A7CADD188CEDQ43862475-32A74655-7CE0-4945-A9E2-95A41BD747A4Q44535299-B3BAE84F-0D37-42F0-93CD-710E2AA6C62BQ44595351-96BF617E-1468-463A-9AC7-C964C5D42B07Q44847131-E13B3C19-B86C-411E-B0CE-D58F71CEB3A9Q45118997-FA987251-F737-46BA-AC7C-759DA1251E5DQ45345112-344FF49B-5358-4EDE-87D8-F9948B5E03EE
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Juan Lerma
@ast
Juan Lerma
@en
Juan Lerma
@es
Juan Lerma
@sl
type
label
Juan Lerma
@ast
Juan Lerma
@en
Juan Lerma
@es
Juan Lerma
@sl
prefLabel
Juan Lerma
@ast
Juan Lerma
@en
Juan Lerma
@es
Juan Lerma
@sl
P1053
G-7907-2015
P106
P21
P31
P3829
P496
0000-0001-7838-5199