The photosynthetic protein complex photosystem II oxidizes water to molecular oxygen at an embedded tetramanganese-calcium cluster. Resolving the geometric and electronic structure of this cluster in its highest metastable catalytic state (designated S3) is a prerequisite for understanding the mechanism of O-O bond formation. Here, multifrequency, multidimensional magnetic resonance spectroscopy reveals that all four manganese ions of the catalyst are structurally and electronically similar immediately before the final oxygen evolution step; they all exhibit a 4+ formal oxidation state and octahedral local geometry. Only one structural model derived from quantum chemical modeling is consistent with all magnetic resonance data; its formation requires the binding of an additional water molecule. O-O bond formation would then proceed by the coupling of two proximal manganese-bound oxygens in the transition state of the cofactor.
Montserrat Pérez Navarro, William Ames, Håkan Nilsson, Thomas Lohmiller, Dimitrios A. Pantazis, Leonid Rapatskiy, Marc M. Nowaczyk, Frank Neese, Alain Boussac, Johannes Messinger, Wolfgang Lubitz, Nicholas J. Cox
Leonid Rapatskiy, Nicholas J. Cox, Anton Savitsky, William Ames, Julia Sander, Marc M. Nowaczyk, Matthias Rögner, Alain Boussac, Frank Neese, Johannes Messinger, Wolfgang Lubitz
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