2020
Identification of a Na+‑Binding Site near the Oxygen-Evolving Complex of Spinach Photosystem II
Wang J, Perez-Cruet JM, Huang HL, Reiss K, Gisriel CJ, Banerjee G, Kaur D, Ghosh I, Dziarski A, Gunner MR, Batista VS, Brudvig GW. Identification of a Na+‑Binding Site near the Oxygen-Evolving Complex of Spinach Photosystem II. Biochemistry 2020, 59: 2823-2831. PMID: 32650633, DOI: 10.1021/acs.biochem.0c00303.Peer-Reviewed Original ResearchConceptsOxygen-evolving complexSpinach photosystem IIRedox-active Mn ionPhotosystem IIOxygen evolution activityQuantum mechanical calculationsOxomanganese clusterHydroxide anionCommon counterionCryo-electron microscopy mapMechanical calculationsAmino acid residuesMn ionsIonsElectrostatic simulationsMicroscopy mapsAcid residuesComplexesDeprotonationAnionsCounterionsNaChlorideSitesCl
2013
Electrostatic Effects on Proton Coupled Electron Transfer in Oxomanganese Complexes Inspired by the Oxygen-Evolving Complex of Photosystem II
Amin M, Vogt L, Vassiliev S, Rivalta I, Sultan MM, Bruce D, Brudvig GW, Batista VS, Gunner MR. Electrostatic Effects on Proton Coupled Electron Transfer in Oxomanganese Complexes Inspired by the Oxygen-Evolving Complex of Photosystem II. The Journal Of Physical Chemistry B 2013, 117: 6217-6226. PMID: 23570540, PMCID: PMC3753004, DOI: 10.1021/jp403321b.Peer-Reviewed Original ResearchConceptsOxomanganese complexesElectron transferOxygen-evolving complexComplexes 6Electrostatic effectsΜ-oxo bridgeDensity functional theory levelTerminal water ligandsBiomimetic oxomanganese complexesPhotosystem IIOxidation state transitionsContinuum electrostatic modelWater ligandsLigand substituentsOxidation midpoint potentialsOxo bridgeCalculated pKaProton transferElectrostatic interactionsTheory levelElectrostatic contributionMidpoint potentialMn oxidationElectrostatic modelFree energy
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
2006
Characterization of synthetic oxomanganese complexes and the inorganic core of the O2-evolving complex in photosystem II: Evaluation of the DFT/B3LYP level of theory
Sproviero EM, Gascon JA, McEvoy JP, Brudvig GW, Batista VS. Characterization of synthetic oxomanganese complexes and the inorganic core of the O2-evolving complex in photosystem II: Evaluation of the DFT/B3LYP level of theory. Journal Of Inorganic Biochemistry 2006, 100: 786-800. PMID: 16510187, DOI: 10.1016/j.jinorgbio.2006.01.017.Peer-Reviewed Original ResearchConceptsDFT/B3LYP levelOxomanganese complexesDFT/B3LYPB3LYP levelDensity functional theory (DFT) B3LYP levelBecke-3-LeeOxygen-evolving complexPhotosystem IISpin electronic statesInorganic coreImidazole ligandsMn complexesMu-oxoMagnetic experimental dataElectronic propertiesModest basis setsBasis setHybrid densityMechanistic studiesMn trimersComplexesMagnetic propertiesB3LYPTetramerBenchmark calculations