Inhibitor binding to isolated chloroplast cytochrome bf complex

Effects of three inhibitors of quinol oxidation in the chloroplast cytochrome bf complex (stigmatellin, tridecylstigmatellin and dibromothymoquinone) were studied in an isolated system comprising Photosystem I (PS I) particles, plastocyanin (PC) and cytochrome bf complex, in the absence of quinol or quinone. Addition of these inhibitors increased the extent of cytochrome f oxidation after a laser flash created oxidised PS I reaction centre (P700) and PC, and decreased somewhat the extent of PC oxidation. The re-reduction of oxidised P700 was more complete than when inhibitor was absent. The data were simulated with reactions which included the putative reduction of cytochrome f by the Rieske centre (FeS) and different rate-coefficients according as to whether inhibitor was bound to the bf complex or not. It was concluded that under the conditions studied the Rieske centre donated electrons to oxidised cytochrome f and plastocyanin with an average rate coefficient of 35 s^–1. This electron transfer was prevented by any of the three inhibitors, which also increased the equilibrium coefficient for the cytochrome f/PC reaction by a maximum factor of two. This increase corresponded to a decrease in the back reaction coefficient and an increase in the forward rate. The equilibrium coefficient for the reduction of oxidised P700 by PC was about 2 in the absence of inhibitor but increased to about 20 in their presence, but only if cytochrome bf complex was additionally present. This was attributed to the transient formation of complexes between P700 with bound plastocyanin, and bf complex. The operative mid-point potential of FeS, if that of cytochrome f is 370 mV, was 390 mV. Deviations in midpoint potentials (P700/plastocyanin) from solution values were attributed to the bound state of the reactants. Estimates were made of the binding coefficient of each of the three inhibitors to p-sites in the cytochrome bf complex in the absence of competing quinol. A stoichiometry of two inhibitors per bf dimer was necessary to cause the above changes in reduction potential of cyt f and PC. A result of one inhibitor per dimer was statistically unlikely, particularly in the case of tridecylstigmatellin.Abbreviations Cyt- cytochrome - DBMIB(H₂)- 2,5-dibromo-3--ethyl-6-isopropyl-p-benzoquinone (reduced) - E _m- midpoint reduction potential of a couple relative to the standard hydrogen electrode - e-t- electron transfer - FeS (or R)- Rieske iron-sulphur centre - HEPES- N-2-hydroxyethylpiperazine-N-2-ethanesulphonic acid - Mega-9- nonoyl-N-methylglucamide - n-site (Q_r-site)- quinone reduction site in cytochrome bf complex - PC- plastocyanin - p-site (Q_o-site)- quinol oxidation site in cytochrome bf complex - PQ- plastoquinone - PSI- Photosystem I - P700- reaction centre in Photosystem I - TDS- tridecyl stigmatellin