Clustering of inhibitory neurotransmitter receptors at developing postsynaptic sites: the membrane activation model.
about
Gephyrin, the enigmatic organizer at GABAergic synapsesGenetical genomic determinants of alcohol consumption in rats and humansCaffeine inhibition of ionotropic glycine receptorsNeuronal cotransport of glycine receptor and the scaffold protein gephyrinDefects of the Glycinergic Synapse in Zebrafish.The Intracellular Loop of the Glycine Receptor: It's not all about the SizeX-ray crystal structure of the trimeric N-terminal domain of gephyrinSolution structure of human GABA(A) receptor-associated protein GABARAP: implications for biolgoical funcrion and its regulationIdentification of a gephyrin-binding motif in the GDP/GTP exchange factor collybistinStructural characterization of gephyrin by AFM and SAXS reveals a mixture of compact and extended statesDistribution of transcripts for the brain-specific GDP/GTP exchange factor collybistin in the developing mouse brainBiochemical characterization of the high affinity binding between the glycine receptor and gephyrinActivated radixin is essential for GABAA receptor alpha5 subunit anchoring at the actin cytoskeletonLocalization of the presynaptic cytomatrix protein Piccolo at ribbon and conventional synapses in the rat retina: comparison with BassoonA novel glycine receptor beta subunit splice variant predicts an unorthodox transmembrane topology. Assembly into heteromeric receptor complexesThe residence time of GABA(A)Rs at inhibitory synapses is determined by direct binding of the receptor α1 subunit to gephyrinSpecificity of Collybistin-Phosphoinositide Interactions: IMPACT OF THE INDIVIDUAL PROTEIN DOMAINS.The role of collybistin in gephyrin clustering at inhibitory synapses: facts and open questions.Development of glycinergic innervation to the murine LSO and SPN in the presence and absence of the MNTBGenome-wide association study of copy number variants suggests LTBP1 and FGD4 are important for alcohol drinkingPlasticity at glycinergic synapses in dorsal cochlear nucleus of rats with behavioral evidence of tinnitus.Glycinergic synapse development, plasticity, and homeostasis in zebrafish.Synaptic activation modifies microtubules underlying transport of postsynaptic cargo.A balanced chromosomal translocation disrupting ARHGEF9 is associated with epilepsy, anxiety, aggression, and mental retardation.Endosomal Phosphatidylinositol 3-Phosphate Promotes Gephyrin Clustering and GABAergic Neurotransmission at Inhibitory Postsynapses.The cysteine-rich with EGF-like domains 2 (CRELD2) protein interacts with the large cytoplasmic domain of human neuronal nicotinic acetylcholine receptor alpha4 and beta2 subunits.Splice-specific functions of gephyrin in molybdenum cofactor biosynthesis.Acidosis, acid-sensing ion channels, and neuronal cell death.Neurotransmitter receptor trafficking and the regulation of synaptic strength.Dual role of the RIC-3 protein in trafficking of serotonin and nicotinic acetylcholine receptors.Deciphering the structural framework of glycine receptor anchoring by gephyrinFriedreich ataxia: failure of GABA-ergic and glycinergic synaptic transmission in the dentate nucleus.Electron tomography on γ-aminobutyric acid-ergic synapses reveals a discontinuous postsynaptic network of filaments.Protein kinase C-dependent growth-associated protein 43 phosphorylation regulates gephyrin aggregation at developing GABAergic synapses.Radixin regulates synaptic GABAA receptor density and is essential for reversal learning and short-term memory.Postsynaptic scaffold proteins at non-synaptic sites. The role of postsynaptic scaffold proteins in motor-protein-receptor complexes.Impaired GABAergic transmission and altered hippocampal synaptic plasticity in collybistin-deficient miceSticking together.Inhibitory glycine receptors: an update.Differential distribution of glycine receptor subtypes at the rat calyx of Held synapse.
P2860
Q21129486-9A966FC6-1D3B-4D93-B419-E0524994DDA5Q21245326-C53944CB-0DD8-40B1-A3C8-538FF73CAEC6Q24658074-82175BD5-5351-454E-A0C2-A0429EF7AB3CQ24683956-01924096-8EFA-418F-BAEB-6D1D219E0EFBQ26738425-DA981B93-6297-4576-9FDD-72984404C4B1Q26743781-DAD652F0-C692-4795-9F08-C4A85E97BBC2Q27631420-4DEA2D03-C507-46E7-B08B-349DF9A20DB7Q27638130-B7088E33-6F7D-43E2-BD6C-2834BAD5E083Q28208050-1F26948D-9AE4-4680-A971-183540E7717CQ28299928-9DAF75DE-348E-4647-B6F5-D3BB78D9D647Q28513254-A8853B8A-DE92-4627-B636-5B30076A1315Q28566296-5B16C79C-D4AC-48B8-915D-D3D664E1504EQ28568588-92A40BA5-D5A6-4AF2-889E-02CF0EAA36B2Q28570505-435B4536-880E-443B-8D66-3281009BA772Q28577129-651B2464-F499-4B0F-884B-9D861E961B32Q28593470-98F8B1BF-0355-4F36-975E-12C0FF5138CFQ30009073-4859DB66-8D29-4129-A9E7-980BB96F015AQ30010281-D35DACA6-CD9B-442B-94BE-93A1254FB5C1Q30428679-2A4A200A-04D8-403A-8354-128353B07561Q30471123-2F9277B0-BBC0-4812-A960-38C99BCF5096Q30478473-26539C44-0689-4CB1-AD62-81A51E631189Q30483529-AD0A20E1-D3AC-4667-A9FA-4549F523123BQ30487600-9270881F-85B4-4E5E-A1BF-39488D93E622Q30538580-6B242902-A5B7-47FE-95B6-B9C1055D8B54Q30836646-DDBD90CF-A847-45D6-9675-22F56CFB230AQ33225618-6FB06102-607E-43F0-8141-1C2995D361EEQ34011096-3E0E23C6-5321-4FCE-A028-1A2DD6D40FEEQ34217798-280F797A-0E2A-4448-8E4C-236BEB5B42DDQ34291845-BA88F770-DB68-4E18-AF4B-A201DE715258Q34422754-4959B3FE-F344-47AF-930B-D8CA42850446Q34500858-EB954EFB-5D1D-4DC3-85E0-6C0599C38908Q34964308-B4DD9C4B-CD05-4E13-9DAC-98E8BABD4C10Q34975368-59B33CD5-3DC4-47A5-8BEC-B3433F7AB37DQ35516501-A612C5EE-C7F6-47D9-87EC-570D1C8D1B73Q35543244-71711FA8-CF44-402B-AA65-1F09DDEBC892Q36005852-EC3AC4B9-D465-499E-BDF8-41A365D8FE1EQ36013388-30A04F13-1391-4D75-9CF4-5678AB3B49DEQ36115038-F7858857-E3FB-484E-895F-A76DB5531138Q36418772-4BE28597-8187-4D4B-ACD1-87CBCB498CA6Q36492400-D82CCFE5-6130-4BD7-8A7B-4123AC53A02E
P2860
Clustering of inhibitory neurotransmitter receptors at developing postsynaptic sites: the membrane activation model.
description
2000 nî lūn-bûn
@nan
2000 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Clustering of inhibitory neuro ...... the membrane activation model.
@ast
Clustering of inhibitory neuro ...... the membrane activation model.
@en
Clustering of inhibitory neuro ...... the membrane activation model.
@nl
type
label
Clustering of inhibitory neuro ...... the membrane activation model.
@ast
Clustering of inhibitory neuro ...... the membrane activation model.
@en
Clustering of inhibitory neuro ...... the membrane activation model.
@nl
prefLabel
Clustering of inhibitory neuro ...... the membrane activation model.
@ast
Clustering of inhibitory neuro ...... the membrane activation model.
@en
Clustering of inhibitory neuro ...... the membrane activation model.
@nl
P1476
Clustering of inhibitory neuro ...... the membrane activation model.
@en
P2093
P304
P356
10.1016/S0166-2236(00)01627-1
P577
2000-09-01T00:00:00Z