Membrane‐bound coupling factor ATPase activity during light‐induced chloroplast development in Euglena gracilis

Abstract

Dark‐grown non‐dividing cells of Euglena gracilis Klebs var. bacillaris Cori were exposed to light for up to 72 h and thylakoid membrane fractions were isolated by sedimentation in sucrose step gradients at various stages of development. The membrane‐bound coupling factor (CF1)‐ATPase activity of these prothylakoids (0 h of light) and developing thylakoid membranes (12 to 72 h of light) was characterized by its cation specificity and sensitivity to inhibitors. The enzyme at all stages of development was activated by Mg2+ and to a lesser extent by Ca2+; Mn2+ was found to activate, as well as or better than Mg2 + at comparable concentrations. The activity of the enzyme was almost completely inhibited by dicyclohexylcarbodiimide (DCCD; 0.3 mM), but was insensitive to oligomycin, valinomycin and carbonyl cyanide P‐trifluoromethoxyphenylhydrazone (FCCP). Low concentrations of NH4CI gave a slight stimulation of enzyme activity, whereas high concentrations of the uncoupler were inhibitory. The specific activity of the membrane‐bound CF,‐ATPase was highest in prothylakoid membranes. Specific activity decreased on a thylakoid protein or chlorophyll basis during the first 12 h of development, and achieved a steady state level by 48 h following light induction. Estimates of total CF1‐ATPase activity per cell indicate that the time for major synthesis of the enzyme is between 12 and 3d h ol development. These results suggest that following an initial lag period in membrane development lasting about 12 h, there is a formation of CF1‐ATPase that accompanies further thylakoid membrane development.