2000
Neuronal Protection by Nitric Oxide-Related Species
Lipton S, Choi Y, Sucher N, Chen H. Neuronal Protection by Nitric Oxide-Related Species. 2000, 143-152. DOI: 10.1007/978-4-431-67949-3_9.Peer-Reviewed Original ResearchRedox-related speciesFree sulfhydryl groupsSufficient redox potentialNO groupSulfhydryl groupsOrganic synthesisProtein cysteine residuesSingle sulfhydryl groupRedox potentialChemical reactionsRedox agentsCysteine sulfhydrylsDistinctive chemistryAdditional electronLess electronBiological systemsRedox modulationOxideDisulfide bondsCysteine residuesEndogenous redox agentsDifferent biological effectsChemistryElectronsLipoic acid
1998
Chapter 6 Redox modulation of the NMDA receptor by NO-related species
Lipton S, Rayudu P, Choi Y, Sucher N, Chen H. Chapter 6 Redox modulation of the NMDA receptor by NO-related species. Progress In Brain Research 1998, 118: 73-82. PMID: 9932435, DOI: 10.1016/s0079-6123(08)63201-x.Peer-Reviewed Original ResearchConceptsChemical reactionsMechanism of reactionRedox stateReactive thiol groupsCatalytic amountFurther oxidationThiol groupsElectron acceptorPreferred reactionReceptor sulfhydryl groupsChemical evidenceSinglet stateNO groupBiological activityMolecular switchReactionThiolsDisulfide bondsSulfhydryl groupsCritical thiolsO2NOS-nitrosylationRedox modulationBondsNeuroprotective versus neurodestructive effects of NO‐related species
Lipton S, Choi Y, Sucher N, Chen H. Neuroprotective versus neurodestructive effects of NO‐related species. BioFactors 1998, 8: 33-40. PMID: 9699006, DOI: 10.1002/biof.5520080107.Peer-Reviewed Original ResearchConceptsNMDA receptorsCentral nervous systemNMDA receptor subunitsNeuronal injuryNeurodestructive effectsNervous systemRedox modulationReceptor subunitsNitric oxideExcessive Ca2Protective actionChannel activitySuperoxide anionNO groupReceptorsS-nitrosylationGroupDiverse tissuesNeuroprotectionInjuryBrainNO-NMDA Receptor Interactions: A Neuromolecular Approach to Novel Therapeutics
Lipton S, Choi Y, Sucher N, Chen H. NO-NMDA Receptor Interactions: A Neuromolecular Approach to Novel Therapeutics. Ernst Schering Foundation Symposium Proceedings 1998, 95-108. DOI: 10.1007/978-3-662-03596-2_5.Peer-Reviewed Original ResearchRedox-related speciesFree sulfhydryl groupsSufficient redox potentialRedox modulationSulfhydryl groupsProtein cysteine residuesEndogenous redox agentsOrganic synthesisSingle sulfhydryl groupRedox potentialProtein functionRedox agentsCysteine residuesDistinctive chemistryNO groupCell typesDisulfide bondsGroup donorBiological systemsReceptor interactionDifferent biological effectsSpeciesOxygen speciesNovel therapeuticsEndogenous sources