Hypoxia enhances S-nitrosylation-mediated NMDA receptor inhibition via a thiol oxygen sensor motif - Wikidata - awgldk - TriplyDB

Hypoxia enhances S-nitrosylation-mediated NMDA receptor inhibition via a thiol oxygen sensor motif

Hypoxia enhances S-nitrosylation-mediated NMDA receptor inhibition via a thiol oxygen sensor motif

http://www.wikidata.org/entity/Q35758244

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Nitric Oxide-Mediated Posttranslational Modifications: Impacts at the Synapse Hypoxia tolerance, nitric oxide, and nitrite: lessons from extreme animals Glutamate receptor ion channels: structure, regulation, and function GOSPEL: a neuroprotective protein that binds to GAPDH upon S-nitrosylation Pharmacologically targeted NMDA receptor antagonism by NitroMemantine for cerebrovascular disease Protein S-nitrosylation and cardioprotection Essential role of hemoglobin beta-93-cysteine in posthypoxia facilitation of breathing in conscious mice Ventilatory responses during and following exposure to a hypoxic challenge in conscious mice deficient or null in S-nitrosoglutathione reductase.Involvement of S-nitrosylation of actin in inhibition of neurotransmitter release by nitric oxide.Parallel evolution of nitric oxide signaling: diversity of synthesis and memory pathways.Transcriptome sequencing of the blind subterranean mole rat, Spalax galili: utility and potential for the discovery of novel evolutionary patterns Transcriptome analysis of the spalax hypoxia survival response includes suppression of apoptosis and tight control of angiogenesis.Hypoxia limits inhibitory effects of Zn2+ on spreading depolarizations.Detection of protein S-nitrosylation with the biotin-switch technique.S-nitrosylation and S-palmitoylation reciprocally regulate synaptic targeting of PSD-95 Gene transfer of neuronal nitric oxide synthase to the paraventricular nucleus reduces the enhanced glutamatergic tone in rats with chronic heart failure.Cysteine 893 is a target of regulatory thiol modifications of GluA1 AMPA receptors.S-nitrosylation of peroxiredoxin 2 promotes oxidative stress-induced neuronal cell death in Parkinson's disease Nitric oxide potentiation of the homomeric ρ1 GABA(C) receptor function.Protein S-Nitrosylation as a Therapeutic Target for Neurodegenerative Diseases.Redox-based regulation of signal transduction: principles, pitfalls, and promises Time Domains of the Hypoxic Ventilatory Response and Their Molecular Basis.Regulation of the cardiac muscle ryanodine receptor by O(2) tension and S-nitrosoglutathione.Redox pioneer: Professor Stuart A. Lipton.Specificity in S-nitrosylation: a short-range mechanism for NO signaling?S-nitrosylation: specificity, occupancy, and interaction with other post-translational modifications.Repression of classical nuclear export by S-nitrosylation of CRM1.Redox reactions induced by nitrosative stress mediate protein misfolding and mitochondrial dysfunction in neurodegenerative diseases.S-nitrosylation of critical protein thiols mediates protein misfolding and mitochondrial dysfunction in neurodegenerative diseases.Nitric oxide signaling in brain function, dysfunction, and dementia.Redox modulation by S-nitrosylation contributes to protein misfolding, mitochondrial dynamics, and neuronal synaptic damage in neurodegenerative diseases.Modulation of ionotropic glutamate receptors and Acid-sensing ion channels by nitric oxide.Emerging role of protein-protein transnitrosylation in cell signaling pathways.Redox regulation of protein misfolding, mitochondrial dysfunction, synaptic damage, and cell death in neurodegenerative diseases.Aberrant protein s-nitrosylation in neurodegenerative diseases.S-Nitrosylation in Alzheimer's disease.S-nitrosation and neuronal plasticity.Opioid-induced hyperalgesia in chronic pain patients and the mitigating effects of gabapentin.Redox Signaling in Neurotransmission and Cognition During Aging.Ischemia-elicited oxidative modulation of Ca2+/calmodulin-dependent protein kinase II.

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P2860

Hypoxia enhances S-nitrosylation-mediated NMDA receptor inhibition via a thiol oxygen sensor motif

http://www.wikidata.org/entity/Q35758244

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Hypoxia enhances S-nitrosylati ...... ia a thiol oxygen sensor motif

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J.NEURON.2006.11.023

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Hypoxia enhances S-nitrosylati ...... ia a thiol oxygen sensor motif

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Dongxian Zhang

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Gary Tong

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Hiroto Takahashi

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Hiroyasu Furukawa

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Huei-Sheng Vincent Chen

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Robert Liddington

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Seung-Je Cho

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Stuart A Lipton

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Tomohiro Nakamura

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Wagner M Zago

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A synaptic model of memory: long-term potentiation in the hippocampus

Crystallography & NMR System: A New Software Suite for Macromolecular Structure Determination

Structural basis of the redox switch in the OxyR transcription factor

Mechanisms of activation, inhibition and specificity: crystal structures of the NMDA receptor NR1 ligand-binding core

A new generation of Ca2+ indicators with greatly improved fluorescence properties

S-nitrosylated protein-disulphide isomerase links protein misfolding to neurodegeneration

Identification of a phosphorylation site for calcium/calmodulindependent protein kinase II in the NR2B subunit of the N-methyl-D-aspartate receptor

Nitric oxide induces Zn2+ release from metallothionein by destroying zinc-sulphur clusters without concomitant formation of S-nitrosothiol

Barrel cortex critical period plasticity is independent of changes in NMDA receptor subunit composition

Developmental and regional expression in the rat brain and functional properties of four NMDA receptors

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