Abstract
Abstract Spinach chloroplast thylakoid membranes were chemically modified with membrane penetrating reagents reactive toward protein carboxyl groups, a carbodiimide and the nucleophiles [14C]glycine ethyl ester or [3H]serotonin. The reagents, being weak bases, were accumulated within the inner aqueous space in the light, due to the low pH inside. Both the accumulation and the low pH stimulating effect on the carbodiimide activation step contributed to a greater labeling in the light compared to dark, and uncouplers inhibited most of the light-dependent increase. Hence, it is likely that the proteins showing the light-dependent, uncoupler-sensitive labeling have those parts located within the inner aqueous space or within the membrane itself. While many membrane proteins which separated on sodium dodecyl sulfate-polyacrylamide gels (12.5–25% gradient) showed some increased labeling in the light, the most conspicuous were the four polypeptides of the chlorophyll a b light-harvesting complex. The light-harvesting complex was purified from dark- and light-treated, labeled membranes. The resultant preparation showed about a sixfold, light-dependent, uncoupler-sensitive labeling increase compared to dark conditions. Polypeptides near 6 and 8 kdalton showed light-dependent, uncoupler-resistent increases in carboxyl group modification, which could be due to localized acidic conditions near sites of proton release.
Published Version
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