Thylakoid polypeptides of light and dark aged chloroplasts.

Spinach (Spinacia oleracea) chloroplasts were aged at 4 degrees C under red light and in the dark. The electron transport activity was monitored together with the thylakoid polypeptide patterns in sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The light-induced decay of photosystem II (PSII) activity (half-life, about 4 hours) was correlated with a decrease in polypeptides with apparent molecular weights of 36, 48, and 50 kilodaltons. There was very little decay of photosystem I (PSI) activity until after 8 hours illumination. Prior freezing of the chloroplasts enhanced the decrease in PSI activity which was correlated with chlorophyll-protein complex I (CPI) disappearance and an increase in a polypeptide with apparent molecular weight of 60 kilodalton. No variations were detected in the light-harvesting chlorophyll a/b protein. In the dark, the decay of PSII started at 4 to 6 hours and showed a half life of about 30 hours. PSI activity decay (half life about 6 days) occurred simultaneously with the disappearance of CPI. The use of bovine serum albumin (30 mg/mg of chlorophyll) in the light-induced decay experiments increased the stability of PSII more than 2-fold; in the dark experiments, the stability of both photosystems was also more than doubled and the stability of the CPI complex was considerably improved. Comparative electrophoresis of the purified proteins indicated no changes in the cytochrome f band or in the subunits of the ATPase coupling factor during the light-induced decay experiments. Heating of purified PSI particles prior to electrophoresis showed that the 60 kilodaltons polypeptide increased with the disappearance of CPI.