Salt inactivation as a mechanistic probe of membrane-bound chloroplast coupling factor 1.

Abstract

Conditions are reported under which ATP protects membrane-bound coupling factor 1 against sodium bromide inactivation. The presence of Mg2+ was found to be obligatory for this protection. ADP and GTP also protected the enzyme against salt inactivation but to a much smaller extent. Other nucleotides tested were ineffective. At low ATP concentrations ADP prevented the effect of ATP and modified the saturation curve for ATP from hyperbolic to sigmoidal. Treatment of chloroplasts with 0.4 M MgCl2 or 2 M LiCl resulted in inactivation of photophosphorylation. In contrast to NaBr-depleted particles the MgCl2 or LiCl-depleted chloroplasts can be reconstituted by purified coupling factor 1. A binding site for Mg2+ and two different sites for ATP upon the coupling factor 1 are suggested to explain the mechanism of their protection against salt inactivation.