Hyscore And Dft Studies Of Proton-Coupled Electron Transfer In A Bioinspired Artificial Photosynthetic Reaction Center

The photosynthetic water-oxidation reaction is catalyzed by the oxygen-evolving complex in photosystem II (PSII) that comprises the Mn4CaO5 cluster, with partic-ipation of the redox-active tyrosine residue (Y-Z) and a hydrogen-bonded network of amino acids and water molecules. It has been proposed that the strong hydrogen bond between Y-Z and D1-His190 likely renders Y-Z kinetically and ther-modynamically competent leading to highly efficient water oxidation. However, a detailed understanding of the proton-coupled electron transfer (PCET) at Y-Z re-mains elusive owing to the transient nature of its intermediate states involving Y-Z,. Herein, we employ a combination of high-resolution two-dimensional 14N hy-perfine sublevel correlation spectroscopy and density functional theory methods to investigate a bioinspired artificial photosynthetic reaction center that mimics the PCET process involving the Y-Z residue of PSII. Our results underscore the importance of proximal water molecules and charge delocalization on the elec-tronic structure of the artificial reaction center.