Abstract
We investigated the dependence of both the quantum yield of charge separation and pathways of charge recombination on the free energy level of the radical pair state P+Ph− in photosystem II. This was done by comparing the basal (F0) fluorescence yield and the recombination rate of the S2QA− state in various strains of Chlamydomonas reindhardtii in which the strength of a H-bond to the pheophytin bound to the D1 subunit has been modified by site-directed mutagenesis. In agreement with previous results with homologous mutants in the cyanobacterium Synechocystis, the quantum yield decreased and the recombination of S2QA− was slowed down when the energy level of the radical pair was increased. The decreased quantum yield is analyzed in terms of a modified equilibrium between exciton and radical pair. The effects on the recombination rate confirm that in the wild type the process involves the P+Ph− state. Analysis of these results shows that, as in the case of Synechocystis, the energy level of the P+Ph− is less negative than currently thought by about 250 meV. An important consequence is a similar upward revision of the potential of the P+/P couple.
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