Isolation of an oxygen-evolving Photosystem II preparation containing only one tightly bound calcium atom from a chlorophyll b-deficient mutant of rice

Oxygen-evolving Photosystem II (PS II) particles were prepared from the thylakoid membranes of a chlorophyll b-less rice mutant, which totally lacks light-harvesting chlorophyll a/b proteins, after solubilization with β-octylglucoside. The preparation was essentially free of Photosystem I as judged from its low-temperature fluorescence spectrum and polypeptide composition. The PS II particles contained all the major subunit polypeptides of the PS II reaction center core complexes and the three extrinsic proteins related to oxygen evolution. The relative abundances of the 33, 21 and 15 kDa proteins were 100, 64 and 20%, respectively, of the corresponding proteins in the mutant thylakoids. The chlorophyll-to-Q_A ratio was 53 and there was only one bound Ca²⁺ per Q_A. Thus, one of the two bound Ca²⁺ present in the oxygen-evolving PS II membrane preparations from wild-type rice (Shen J.-R., Satoh, K. and Katoh, S. (1988) Biochim. Biophys. Acta 933, 358-364) is missing. The mutant PS II particles were highly active in oxygen evolution in the absence of exogenously added Ca²⁺, although addition of 5 mM Ca²⁺ enhanced the activity by 30%. When the 21 and 15 kDa proteins were supplemented to the particles, the Ca²⁺-effect disappeared and the rate of oxygen evolution increased to a level exceeding 1000 μmol O₂ per mg chlorophyll per h. The results indicate that the number of Ca²⁺ needed to promote a high rate of oxygen evolution is one per PS II in higher plants.