Mechanism of the light state transition in photosynthesis. II. Analysis of phosphorylated polypeptides in the red alga, Porphyridium cruentum

Abstract

The possible involvement of a reversible protein phosphorylation event in the regulation of excitation energy distribution was studied in the red alga Porphyridium cruentum. Whole cells were incubated in phosphate-depleted growth medium containing carrier-free [ 32P]orthophosphate for several hours to label the intracellular phosphate pools, and they were then converted to State 1 or State 2 by illumination using blue or green light, respectively. The successful transition to State 1 or State 2 was verified by 77 K fluorescence spectroscopy of the chlorophyll emission and the cells were then denatured using either acetone, trichloroacetic acid or boiling detergent. The whole cell lysates were solubilized, treated with RNAase, and analyzed for phosphoproteins by SDS-polyacrylamide gel electrophoresis. At least twelve polypeptides were found to be phosphorylated but no changes in specific radioactivity of the polypeptides were detected when samples from cells in State 1 and State 2 were compared. We conclude that a reversible protein phosphorylation event is not implicated in the state transition in P. cruentum. A model is presented for the mechanism of the light state transition in organisms that contain phycobilisomes which is different from the mechanism of energy distribution proposed for higher plants.