Abstract

The Photosystem II (PSII) water oxidation to molecular oxygen process is catalyzed by an oxygen-bridged Mn4CaO5 cluster, known as Oxygen Evolving Complex (OEC) of PSII. The Mn4CaO5 cluster undergoes periodically four one-electron oxidation steps, S0 → S1, S1 → S2, S2 → S3, S3 → S0. The O2 release takes place during the S3-[S4]-S0 transition, S4 being a transient. The intermediates of the S-state transitions are known as metalloradical intermediate states (SiYz) and involve the free radical of Tyrosine Z (Yz, TyrZ). In most metalloradical states it was established that Yz interacts magnetically with the Mn4CaO5 cluster. However, in Ca2+- depleted PSII preparations the spin-spin interaction between the Mn4O5 and Yz, during the formation of the S2Yz intermediate state was not strongly supported experimentally. In our effort to investigate the existence of the aforementioned interaction, we took advantance of the NIR sensitivity of the S2 state of Mn4 and examined whether the S2Yz EPR spectrum can be modified. Our EPR experiments, combined with the simulation analysis of the spectra show that reversible modification of the S2 EPR spectrum by NIR irradiation results in a reversible change of the Yz EPR signal shape. These observations strongly support the idea of the magnetic interaction between the Mn4 and tyrosyl radical, upon the formation of the S2Yz metalloradical state in Ca2+- depleted PSII membranes.

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