2013
3.15 Complex Systems: Photosynthesis
Pokhrel R, Brudvig G. 3.15 Complex Systems: Photosynthesis. 2013, 385-422. DOI: 10.1016/b978-0-08-097774-4.00313-2.Peer-Reviewed Original ResearchOxygen-evolving complexQuantum mechanics/molecular mechanicsPhotosystem IIOO bond formationDensity functional theory calculationsComplete catalytic cycleFunctional theory calculationsProton exit pathwayIron-sulfur centersMetal centerNatural photosynthesisModel complexesCatalytic cycleBond formationMolecular mechanicsFunctional mimicsElectronic characterizationTheory calculationsRole of chlorideOxygenic photosynthesisComplexesDetailed mechanismExit pathwayHydrogenasesPlastocyanin
2005
Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex
Howard D, Tinoco A, Brudvig G, Vrettos J, Allen B. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Journal Of Chemical Education 2005, 82: 791. DOI: 10.1021/ed082p791.Peer-Reviewed Original ResearchBioinorganic modelsWater oxidationMn4 clusterArtificial water oxidation catalystsBioinorganic model complexesCatalytic oxygen evolutionWater oxidation catalystsPhotosystem IIPhotosynthetic water oxidationUV-visible spectroscopyOxygen-Evolving ComplexDeuterium kinetic isotope effectsPhotosystem II Oxygen Evolving ComplexKinetic isotope effectsBioinorganic chemistryTerpy complexesInorganic synthesisPlace of H2OManganese complexesModel complexesPrimary oxidantManganese clusterOne-electronOxygen evolutionActive site
2003
Raman spectra and normal coordinate analyses of low-frequency vibrations of oxo-bridged manganese complexes
Cua A, Vrettos J, de Paula J, Brudvig G, Bocian D. Raman spectra and normal coordinate analyses of low-frequency vibrations of oxo-bridged manganese complexes. JBIC Journal Of Biological Inorganic Chemistry 2003, 8: 439-451. PMID: 12761665, DOI: 10.1007/s00775-002-0433-4.Peer-Reviewed Original Research
1999
A mechanistic and structural model for the formation and reactivity of a MnV[double bond, length half m-dash]O species in photosynthetic water oxidation
Limburg J, Szalai V, Brudvig G. A mechanistic and structural model for the formation and reactivity of a MnV[double bond, length half m-dash]O species in photosynthetic water oxidation. Dalton Transactions 1999, 0: 1353-1362. DOI: 10.1039/a807583b.Peer-Reviewed Original ResearchProtein complex photosystem IIPhotosynthetic water oxidationWater oxidationMn4 clusterModel complexesO bond-forming stepO bond-forming reactionsRedox-active tyrosine residueSubstrate water moleculesBond-forming reactionsO bond formationBond-forming stepHydrogen bond networkTetranuclear Mn clusterElectrophilic oxygen atomHydroxide ligandMnO speciesOrganic oxidationLength halfWater moleculesObserved reactivityBond formationNucleophilic attackOxygen atomsKey intermediate