2To whom correspondence should be addressed.
Submitted March 18, 1996; revision submitted December 3, 1996.
Photoinduced production of H2O2 was studied in subchloroplast oxygen-evolving photosystem II (PS II) particles and isolated complexes of PS II reaction centers using luminol-peroxidase chemiluminescence and pulse photoactivation. The photoinduced production of H2O2 in subchloroplast PS II particles is suppressed by inhibitors of electron transfer between the primary (QA) and secondary (QB) quinone acceptors of PS II (3-(3,4-dichlorophenyl)-1,1-dimethyl urea, o-phenanthroline) or scavengers of ***O2- (nitroblue tetrazolium or cytochrome c). The rate of photoinduced production of H2O2 in subchloroplast PS II particles depends on pH and is maximal at pH 8.5 (4.5 µmoles H2O2/mg Chl per hour). The photoinduced production of H2O2 in isolated reaction center complexes is 0.1 H2O2 molecule per reaction center per saturating flash. This reaction is suppressed by K-15, an inhibitor of electron transfer in PS II, which accelerates the charge recombination in the ion-radical pair [P680+ Pheo-]. The photoinduced production of H2O2 at the acceptor side of PS II is a result of the interaction between molecular oxygen and reduced electron acceptors of PS II (pheophytin and plastoquinone QB).
KEY WORDS: photosynthesis, photosystem II, hydrogen peroxide.