Polylysine-enhanced effectiveness of plastocyanin in photosystem I

Abstract

1. Chloroplast fragments from either Chlamydomonas reinhardi or spinach, which lack plastocyanin, or from Euglena gracilis depleted of cytochrome c552, require a large excess of exogenously added plastocyanin or cytochrome c552 to restore Photosystem I activity. 2. In the presence of a small amount of polylysine, Photosystem I activity of chloroplast fragments is stimulated greatly by plastocyanin or cytochrome c552, and the reaction is saturated at a lower concentration of these proteins. Higher concentrations of polylysine inhibit Photosystem I activity; the inhibition is not reversed by plastocyanin or cytochrome c552. 3. Salt protects chloroplast fragments from stimulation by polylysine plus plastocyanin or cytochrome c552, and also reverses this stimulation. 4. The data suggest that polylysine, at low concentration, enhances binding of plastocyanin or cytochrome c552 to chloroplast membranes, thereby increasing the effective concentration at their site of function. The total inhibition of Photosystem I activity, independent of the presence of plastocyanin or cytochrome c552, at higher polylysine concentrations is similar probably to that observed previously in chloroplasts which retain their plastocyanin.