Binding Affinities of Oxidized and Reduced Forms of Tetrahalogenated Benzoquinones to the QB Site in Oxygen-Evolving Photosystem II Particles from Synechococcus elongatus

Binding affinities of the Q_B site for four tetrahalogenatedbenzoquinones (THBQs) were investigated by measuring their abilityto serve as electron acceptors or act as inhibitors of oxygenevolution in Synechococcus photosystem II particles. Iodanil,bromanil and chloranil but not fluoranil induced a rapid oxidationof Q_A^– and doubled the area over the fluorescence inductioncurve, indicating dark oxidation of Q₄₀₀. Analyses of thesetwo THBQ-induced reactions and inhibition of the acceleratedQ_A^– oxidation by DCMU yielded binding constants of thequinones comparable to those determined from measurements ofoxygen evolution. Generally, THBQs bound tightly to the Q_B site.However, the binding affinity varied in a wide range with THBQs.The Q_B site bound iodanil with an extremely high affinity butfluoranil relatively weakly. The hydroquinone forms of the THBQsalso bound to the Q_B site and inhibited Q_A^– oxidationby Q_B. The concentrations of the hydroquinones required for50% inhibition of Q_A^– oxidation suggest that the Q_B sitebinds the hydroquinones more weakly than the corresponding quinonesexcept for fluoranil, which binds to the Q_B site more tightlyin its reduced form than in oxidized one. The abilities of THBQsto function as electron acceptors or inhibitors of oxygen evolution,and as oxidants of Q₄₀₀ in the dark, are discussed in relationto the binding affinities of the quinones to the Q_B site. ⁴Present address: Department of Biology, Faculty of Science,Toho University. Miyama 2-2-1, Funabashi, 274 Japan