Issue 7, 2011

Proton-coupled electron transfer of tyrosines in Photosystem II and model systems for artificial photosynthesis: the role of a redox-active link between catalyst and photosensitizer

Abstract

Water oxidation in Photosystem II is dependent on a particular amino acid residue, TyrosineZ. This is a redox intermediate in steady state oxygen evolution and transfers electrons from the water splitting CaMn4 cluster to the central chlorophyll radical P680+. This Perspective discusses the functional principles of TyrosineZ as a proton-coupled redox active link, as well as mechanistic studies of synthetic model systems and implications for artificial photosynthesis. Experimental studies of temperature dependence and kinetic isotope effects are important tools to understand these reactions. We emphasize the importance of proton transfer distance and hydrogen bond dynamics that are responsible for variation in the rate of PCET by several orders of magnitude. The mechanistic principles discussed and their functional significance are not limited to tyrosine and biological systems, but are important to take into account when constructing artificial photosynthetic systems. Of particular importance is the role of proton transfer management in water splitting and solar fuel catalysis.

Graphical abstract: Proton-coupled electron transfer of tyrosines in Photosystem II and model systems for artificial photosynthesis: the role of a redox-active link between catalyst and photosensitizer

Article information

Article type
Perspective
Submitted
23 Mar 2011
Accepted
27 Apr 2011
First published
07 Jun 2011

Energy Environ. Sci., 2011,4, 2379-2388

Proton-coupled electron transfer of tyrosines in Photosystem II and model systems for artificial photosynthesis: the role of a redox-active link between catalyst and photosensitizer

L. Hammarström and S. Styring, Energy Environ. Sci., 2011, 4, 2379 DOI: 10.1039/C1EE01348C

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