Spinach-thylakoid phosphorylation: Studies on the kinetics of changes in photosystem antenna size, spill-over and phosphorylation of light-harvesting chlorophyll [formula omitted] protein

Abstract

The kinetics of LHCP phosphorylation and associated changes in photosystem cross-section and energy ‘spill-over’ from PS II to PS I have been examined in isolated spinach chloroplasts. During an initial phosphorylation period of 3–6 min, in the presence of saturating concentrations of Mg 2+, the increase in PS I and decrease in PS II cross-section are largely completed, as judged by both measurements of the steady-state redox state of Q and fluorescence yield changes. This corresponds to a period of rapid 32P incorporation into the low-molecular weight LHCP polypeptide. Subsequent to this initial 3–6-min period there is substantial further phosphorylation of both LHCP polypeptides, which is not accompanied by significant changes in photosystem cross-section, even after the chloroplasts had been unstacked with extensive mixing of PS I and PS II by Mg-removal. It is suggested that there exists a specific ‘mobile’ population of LHCP molecules which is rapidly phosphorylated and which may be enriched in the low-molecular-weight polypeptide. In addition, measurements of the kinetics of the ‘spill-over’ changes upon either Mg 2+ addition or removal indicate that the continued phosphorylation of LHCP is able to increase the ‘spill-over’ process under favourable ionic conditions.