The site of KCN inhibition in the photosynthetic electron transport pathway.

Abstract

Abstract Treatment of chloroplasts with high concentrations of KCN inhibits reactions which involve Photosystem I (e.g. electron transport from water or diaminodurene to methylviologen), but not those assumed to by-pass Photosystem I (e.g. electron transport from water to quinonediimides). The spectrophotometric experiments described in this paper showed that KCN inhibits the oxidation of cytochrome f by far-red light without blocking its reduction by red light. Both optical and EPR experiments indicated that KCN does not inhibit the photooxidation of P700 but markedly slows down the subsequent dark decay (reduction). Reduction of P700 by Photosystem II is prevented by KCN. It is concluded that KCN blocks electron transfer between cytochrome f and P700, i.e. the reaction step which is believed to be mediated by plastocyanin. In KCN-poisoned chloroplasts the slow dark reduction of P700 following photooxidation is greatly accelerated by reduced 2,6-dichlorophenolindophenol or by reduced N-methylphenazonium methosulfate (PMS), but not by diaminodurene. It appears that the reduced indophenol dye and reduced PMS are capable of donating electrons directly to P700, at least partially by-passing the KCN block.