Control of light-activated phosphorylation in frog photoreceptor membranes.

In this paper, we examine some factors which regulate the efficiency of light in activating rhodopsin phosphorylation. We have measured phosphate incorporation after illumination in suspensions of bullfrog rod outer segments incubated with [gamma-32P]ATP. We observed that delaying ATP addition after illumination causes maximum phosphate incorporation to decrease 80% within 2 h. This decay occurs in urea-treated, extracted rod outer segment membranes. The decay of the light effect is not influenced by regeneration of opsin to rhodopsin or the presence of long-lived photoproducts. However, regeneration of opsin increases the amount of phosphorylation initiated by a second exposure to light. Further phosphorylation can also occur after phosphate groups have been removed from the membranes by dephosphorylation. Finally, we have confirmed our earlier observation that small amounts of light (bleaching less than 5% of the rhodopsin present) are more effective, by tenfold, in initiating phosphorylation than are larger amounts.