An Oscillating Manganese Electron Paramagnetic Resonance Signal from the S0 State of the Oxygen Evolving Complex in Photosystem II

Abstract

Photosynthesis produces the oxygen necessary for all aerobic life. During this process, the manganese-containing oxygen evolving complex (OEC) in photosystem II (PSII), cycles through five oxidation states, S₀−S₄. One of these, S₂, is known to be paramagnetic and gives rise to electron paramagnetic resonance (EPR) signals used to probe the catalytic structure and function of the OEC. The S₀ state has long been thought to be paramagnetic. We report here a Mn EPR signal from the previously EPR invisible S₀ state. The new signal oscillates with a period of four, indicating that it originates from fully active PSII centers. Although similar to the S₂ state multiline signal, the new signal is wider (2200 gauss compared with 1850 gauss in samples produced by flashing), with different peak intensity and separation (82 gauss compared with 89 gauss). These characteristics are consistent with the S₀ state EPR signal arising from a coupled Mn^II−Mn^III intermediate. The new signal is more stable than the S₂ state signal and its decay in tens of minutes is indicative of it originating from the S₀ state. The S₀ state signal will provide invaluable information toward the understanding of oxygen evolution in plants.