On the function of the fluorescence quenchers in chloroplasts and their relation to the primary electron acceptor of photosystem II.

Redox titrations of the fluorescence quenching components in chloroplasts indicate the presence of two components, one with E_m7.6 = + 25 mV and the second with E_m7.6 = -270 mV. These midpoint potentials are almost the same as those of two Photosystem II components previously shown to contribute to the chloroplast electrogenic reaction measured at 518 nm (R. Malkin, 1978, FEBS Lett.87, 329–333). Comparison of light-induced fluorescence yield changes with those obtained by redox titration suggests that both fluorescence quenchers are photoreduced. A direct demonstration of the photoreduction of the low-potential fluorescence quencher was observed in experiments at defined redox potentials. Fluorescence induction curves measured at low light intensity in the presence of 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) also showed a contribution from both fluorescence quenchers. An additional electron acceptor, other than the two fluorescence quenchers, was also identified in the acceptor complex. These results are discussed in terms of several electron acceptors functioning in the Photosystem II reaction center complex, and the possible function of these acceptors is considered.