A model of the oxygen-evolving center of photosystem II predicted by structural refinement based on EXAFS simulations

Authors

Eduardo M. Sproviero, Yale University
José A. Gascón, Yale University
James P. McEvoy, Yale University
Gary W. Brudvig, Yale University
Victor S. Batista, Yale University

Document Type

Article

Publication Date

5-28-2008

Abstract

A refined computational structural model of the oxygen-evolving complex (OEC) of photosystem II (PSII) is introduced. The model shows that the cuboidal core Mn3CaO4 with a "dangler" Mn ligated to a corner μ4-oxide ion is maximally consistent with the positioning of the amino acids around the metal cluster as characterized by XRD models and high-resolution spectroscopic data, including polarized EXAFS of oriented single crystals and isotropic EXAFS. It is, therefore, natural to expect that the proposed structural model should be particularly useful to establish the structure of the OEC, consistently with high-resolution spectroscopic data, and for elucidating the mechanism of water-splitting in PSII as described by the intermediate oxidation states of the EC along the catalytic cycle. Copyright © 2008 American Chemical Society.

Recommended Citation

Sproviero, Eduardo M.; Gascón, José A.; McEvoy, James P.; Brudvig, Gary W.; and Batista, Victor S., "A model of the oxygen-evolving center of photosystem II predicted by structural refinement based on EXAFS simulations" (2008). Regis University Faculty Publications (comprehensive list). 992.
https://epublications.regis.edu/facultypubs/992