Abstract

The effect of salt addition on the rate of reduction of P-700 oxidized by flash illumination was analyzed. In broken chloroplasts, the rate of P-700 reduction was accelerated by salts of mono-, di- and trivalent cations, with the increasing effectiveness in this order, in the presence of various artificial electron donors or acceptors. The rate was not dependent on the concentration and the valence of anions. On the other hand, in Photosystem I-enriched subchloroplast particles, added KCl did not induce the acceleration of direct reduction of P-700 by reduced DCIP. At low KCl concentrations (below 10 mM), the rate of P-700 reduction was also accelerated by added KCl in sonicated chloroplasts to which purified plastocyanin was added. The curves of dependence of the reduction rate on plastocyanin concentration were not of the Michaelis-Menten type, but sigmoidal. The maximal of P-700 reduction was higher at higher salt concentrations and the half-maximal plastocyanin concentration for P-700 reduction became lower with increasing NaCl concentrations. In broken chloroplasts treated with 50 mM glutaraldehyde, the rate of P-700 reduction was not accelerated by added KCl. The Debye-Hückel theory and the Gouy-Chapman theory were applied to our data to analyze the electrostatic interaction between electron tranfer components on thylakoid membranes. It is suggested that the major factor determining the rate of P-700 reduction is the donation of electrons from plastocyanin to P-700. Most of the observed effect is probably due to the increase in the local concentration or accessibility of plastocyanin to the site of P-700 reduction which is expected when the negative surface potential rises when salt is added.

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