Characteristics of the Mg2+-ATPase Activity Associated with the Membrane-Bound Maize Coupling Factor

Abstract

The membrane-bound coupling factor of maize mesophyll thylakoids is a latent ATPase. Mg(2+)-ATPase activity can be induced in the light with either dithiothreitol or low concentrations of trypsin. Maize thylakoids that are activated with light plus trypsin exhibit considerably higher levels of activity in Na(2)SO(3)-dependent Mg(2+)-ATPase assays compared to thylakoids that are light and dithiothreitol activated (1400 micromoles per milligram of chlorophyll per hour versus 200 micromoles per milligram of chlorophyll per hour). Treatment with light and dithiothreitol or light plus trypsin were also required to demonstrate high levels of octyl glucoside-dependent Mg(2+)-ATPase activity in maize mesophyll thylakoids. Only small differences in octyl glucoside-dependent Mg(2+)-ATPase activity were observed in preparations that were activated in the light with either trypsin or dithiothreitol. Mg(2+)-ATPase activity can also be induced in maize mesophyll chloroplasts by illuminating intact preparations under appropriate conditions. Little or no ATPase activity was observed in the absence of illumination or in the presence of light plus methyl viologen. The active state decayed in the dark with a t((1/2)) of 6 to 7 minutes at room temperature. Based on the effect of the thiol oxidant, o-iodosobenzoate, and the uncoupler, nigericin, on the kinetics of deactivation of ATPase activity in intact maize chloroplasts, it appears that the activation process requires a transmembrane proton gradient and reduction of a key disulfide bridge in the gamma of chloroplast coupling factor one.