The impact of tonic GABAA receptor-mediated inhibition on neuronal excitability varies across brain region and cell type.
about
Astrocytic Actions on Extrasynaptic Neuronal CurrentsZolpidem reduces hippocampal neuronal activity in freely behaving mice: a large scale calcium imaging study with miniaturized fluorescence microscopeTonic GABAA Receptors as Potential Target for the Treatment of Temporal Lobe Epilepsy.Sensitization of neurons in the central nucleus of the amygdala via the decreased GABAergic inhibition contributes to the development of neuropathic pain-related anxiety-like behaviors in ratsContribution of amygdala pathology to comorbid emotional disturbances in temporal lobe epilepsy.Reduction in focal ictal activity following transplantation of MGE interneurons requires expression of the GABAA receptor α4 subunit.Blocking the GABA transporter GAT-1 ameliorates spinal GABAergic disinhibition and neuropathic pain induced by paclitaxel.Ionotropic GABA and Glutamate Receptor Mutations and Human Neurologic Diseases.Wakefulness Is Governed by GABA and Histamine Cotransmission.Brief Dark Exposure Reduces Tonic Inhibition in Visual Cortex.Ectopic Expression of α6 and δ GABAA Receptor Subunits in Hilar Somatostatin Neurons Increases Tonic Inhibition and Alters Network Activity in the Dentate GyrusAcid-base physiology, neurobiology and behaviour in relation to CO2-induced ocean acidification.Segregation of Acetylcholine and GABA in the Rat Superior Cervical Ganglia: Functional Correlation.GABAergic Neuron-Specific Loss of Ube3a Causes Angelman Syndrome-Like EEG Abnormalities and Enhances Seizure Susceptibility.Effects of early-life exposure to THIP on phenotype development in a mouse model of Rett syndrome.GABA receptors in brain development, function, and injury.How sympathetic are your spinal cord circuits?Development of a Robust Mammalian Cell-based Assay for Studying Recombinant α4 β1/3 δ GABAA Receptor Subtypes.What's in a Name? Roles of RFamide-Related Peptides Beyond Gonadotrophin Inhibition.Angelman syndrome: Current and emerging therapies in 2016.The dynamics of GABA signaling: Revelations from the circadian pacemaker in the suprachiasmatic nucleus.Astrocyte dysfunction in Alzheimer disease.The Influence of Regional Distribution and Pharmacologic Specificity of GABAAR Subtype Expression on Anesthesia and Emergence.Honeybee Kenyon cells are regulated by a tonic GABA receptor conductance.GABAA receptor subunits in the human amygdala and hippocampus: Immunohistochemical distribution of 7 subunits.Methylmercury induces an initial increase in GABA-evoked currents in Xenopus oocytes expressing α1 and α6 subunit-containing GABAA receptors.δ-Subunit Containing GABAA Receptors Modulate Respiratory Networks.Contribution of genes in the GABAergic pathway to bipolar disorder and its executive function deficit in the Chinese Han population.Depolarizing, inhibitory GABA type A receptor activity regulates GABAergic synapse plasticity via ERK and BDNF signaling.Hippocampal GABAergic Inhibitory Interneurons.GABA type a receptor trafficking and the architecture of synaptic inhibition.Neurobiological correlates of state-dependent context fear.Mom Genes: A Role for Loss of Maternal Ube3a in GABAergic Neurons in Angelman Syndrome.Control of motor coordination by astrocytic tonic GABA release through modulation of excitation/inhibition balance in cerebellum.Common Ribs of Inhibitory Synaptic Dysfunction in the Umbrella of Neurodevelopmental Disorders.Calcium imaging and dynamic causal modelling reveal brain-wide changes in effective connectivity and synaptic dynamics during epileptic seizuresChemogenetic Isolation Reveals Synaptic Contribution of δ GABA Receptors in Mouse Dentate Granule NeuronsRobust Network Inhibition and Decay of Early-Phase LTP in the Hippocampal CA1 Subfield of the Amazon RodentThe role of loops B and C in determining the potentiation of GABA receptors by midazolam
P2860
Q26773150-0F607D32-7D40-4B10-B769-B9BE2D13A4E5Q27331440-2B4C4A7B-B088-4476-818E-9E38F31B723BQ27692644-EFA28A65-16AF-45C3-A462-98795F27D87AQ30593914-986BD696-9180-48AC-8D7B-1239D6B9FE85Q31015121-FCE4A786-7C00-4522-8CD5-EB81E7DF7FB1Q35338580-D3B432B3-6EB4-47C6-8BEC-21063B78F2F1Q35732644-E33A73B0-E1F8-4BA2-BE25-D9D42093BD21Q35745930-1B3EE49B-8F2F-4AE3-889F-723D74E8CB25Q35871824-6E4D4CC2-4DFA-4876-B431-2073861B98E4Q36339183-FCD3500D-E844-4D00-BA97-AE0DB1CF67DBQ36380912-189DAB67-7D1B-4CE5-ADCA-82EF86A8C2B0Q36405754-4CBA780C-F7FA-4885-B88B-4A353DF3D8CBQ36772773-01D7A3D3-6DB8-4C07-B0D3-433040DBCBF9Q36777517-9B108618-270F-4620-9663-453B142732DBQ37349496-1E9A0950-8CD2-4416-94B6-2EEAB6D31848Q38211328-478A4E28-ECC4-4768-881D-EAD56C078CA9Q38345492-8069B4AC-0D1B-41FC-8DB9-9C6F3887731DQ38712098-42C79649-FDB4-41B0-A7B1-4A89C97F775DQ38883710-F77FD017-6454-4296-BA04-526E5F106507Q39012491-F1071337-5200-417A-969E-B444FC493689Q39022788-C2727E68-21A9-4513-9246-1F39B183B762Q39280590-C1C76AA0-F98E-4414-82C7-0F9DC974B54DQ41525602-28E12CA8-2082-4CB5-80E0-395322979233Q42062119-41E75C8F-56D7-416A-928B-8019C5F14112Q46288122-14244322-E610-4052-8593-B930FA725455Q47118670-B0A628C7-1FF3-46F1-BAB4-CF6C2B9CE1A9Q47135476-7E0592FA-62D2-4019-8509-349DBE70F3FBQ47574628-49858C94-AA33-48C8-94AF-2A2D5C792043Q47710533-2BC33EF9-D4E6-423F-A232-186616A04B36Q47734973-D7370D79-52B2-4C70-BC59-EE28F6AAAC76Q47810846-AE2B048F-9C5B-498C-8665-18E30241625DQ48151839-217A4377-A96A-43CA-A997-A4B69D0E9CF2Q49467906-62A0BCC1-3D18-453F-ADD7-4E821241B157Q53071630-18697F23-0A27-4675-8479-EF1A47DE3AFCQ55098524-1ADF845D-20F2-4B81-8736-BDAFB9B00EB2Q57720829-04B46334-19DF-4D90-AD39-22B5C2D163F1Q57987415-5324310B-65AF-485A-93A9-ADDE84EEE19AQ58584005-527CA360-20EA-434D-BFC1-25D9E4F0005EQ59136162-3C412E3A-A61B-431E-ADF1-20C743C0937F
P2860
The impact of tonic GABAA receptor-mediated inhibition on neuronal excitability varies across brain region and cell type.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 03 February 2014
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The impact of tonic GABAA rece ...... ss brain region and cell type.
@en
The impact of tonic GABAA rece ...... ss brain region and cell type.
@nl
type
label
The impact of tonic GABAA rece ...... ss brain region and cell type.
@en
The impact of tonic GABAA rece ...... ss brain region and cell type.
@nl
prefLabel
The impact of tonic GABAA rece ...... ss brain region and cell type.
@en
The impact of tonic GABAA rece ...... ss brain region and cell type.
@nl
P2860
P921
P356
P1476
The impact of tonic GABAA rece ...... oss brain region and cell type
@en
P2093
Vallent Lee
P2860
P356
10.3389/FNCIR.2014.00003
P577
2014-02-03T00:00:00Z