Abstract
Oxygen evolution was inhibited after reacting chloroplast membranes with four different water soluble protein modification reagents. Photosystem II photochemistry was not affected, whown by unimpaired oxidation of an alternate PSII donor, diphenyl carbazide. Concomitant with oxygen evolution inhibition by the diazonium reagent, there was a four-fold increase in covalent binding of the compound to the membranes, suggesting an electron transport dependent conformational change is involved in the effect. PSI cyclic electron flow with DCMU present did not potentiate the oxygen evolution inhibition nor the increased diazo coupling, indicating that the effect is not simply a manifestation of the same energized state driven by cyclic electron flow. Since the effects are due to non-membrane penetrating reagents, we conclude that a protein component associated with oxygen evolution is localized at the external surface of grana membranes.
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