2024
Mutation-induced shift of the photosystem II active site reveals insight into conserved water channels
Flesher D, Liu J, Wang J, Gisriel C, Yang K, Batista V, Debus R, Brudvig G. Mutation-induced shift of the photosystem II active site reveals insight into conserved water channels. Journal Of Biological Chemistry 2024, 300: 107475. PMID: 38879008, PMCID: PMC11294709, DOI: 10.1016/j.jbc.2024.107475.Peer-Reviewed Original ResearchOxygen-evolving complexPhotosystem II active sitePhotosystem IIJahn-Teller distortionPhotosystem II complexD1-Asp170Jahn-TellerResolution cryo-EM structureMutation-induced structural changesCryo-EM structureMagnetic propertiesD1 subunitActive siteOxygenic photosynthesisMutagenesis studiesLight-driven water oxidationSpectroscopic propertiesStructural basisSpectroscopic dataAmino acidsWater oxidation mechanismPhotosystemMutationsMutation-induced shiftWater oxidation
2023
Turning up the heat mimics allosteric signaling in imidazole-glycerol phosphate synthase
Maschietto F, Morzan U, Tofoleanu F, Gheeraert A, Chaudhuri A, Kyro G, Nekrasov P, Brooks B, Loria J, Rivalta I, Batista V. Turning up the heat mimics allosteric signaling in imidazole-glycerol phosphate synthase. Nature Communications 2023, 14: 2239. PMID: 37076500, PMCID: PMC10115891, DOI: 10.1038/s41467-023-37956-1.Peer-Reviewed Original ResearchConceptsEffector bindingImidazole Glycerol Phosphate SynthaseLocal amino acidsAmino acid dynamicsImidazole glycerolAllosteric drugsAllosteric activationAllosteric responsePhosphate synthaseAllosteric mechanismMode of activationEnzyme functionAmino acidsAllosteryDrug discoverySynthaseNuclear magnetic resonance spectroscopyBindingMolecular dynamics simulationsActivationAllostericCascadeDynamics simulations
2011
Reengineering Rate-Limiting, Millisecond Enzyme Motions by Introduction of an Unnatural Amino Acid
Watt ED, Rivalta I, Whittier SK, Batista VS, Loria JP. Reengineering Rate-Limiting, Millisecond Enzyme Motions by Introduction of an Unnatural Amino Acid. Biophysical Journal 2011, 101: 411-420. PMID: 21767494, PMCID: PMC3136797, DOI: 10.1016/j.bpj.2011.05.039.Peer-Reviewed Original ResearchConceptsUnnatural amino acidsAmino acidsMeiboom-Gill (CPMG) relaxation dispersion experimentsWild-type ribonuclease AProtein energy landscapesNonnatural amino acidsRelaxation dispersion experimentsSingle residueProtein motionsMillisecond motionsConformational motionsEnzyme motionsHistidine-48Ribonuclease ACatalytic turnoverSimilar pH rangeRate limitingMolecular dynamics simulationsEnergy landscapeCorrelated motionAcidCatalytic cycleDispersion experimentsResiduesDynamics simulations
2008
A Model of the Oxygen-Evolving Center of Photosystem II Predicted by Structural Refinement Based on EXAFS Simulations
Sproviero EM, Gascón JA, McEvoy JP, Brudvig GW, Batista VS. A Model of the Oxygen-Evolving Center of Photosystem II Predicted by Structural Refinement Based on EXAFS Simulations. Journal Of The American Chemical Society 2008, 130: 6728-6730. PMID: 18457397, PMCID: PMC2678715, DOI: 10.1021/ja801979n.Peer-Reviewed Original ResearchConceptsOxygen-evolving complexSpectroscopic dataPhotosystem IIOxygen-Evolving CenterIntermediate oxidation statesHigh-resolution spectroscopic dataOxidation stateCatalytic cycleMetal clustersEXAFS simulationsPolarized EXAFSXRD modelStructural refinementEXAFSComputational structural modelsSingle crystalsStructural modelDanglerAmino acidsIonsComplexesCrystalsMnAcidStructure