Isolated bovine rod outer segment protein is phosphorylated with GTP-gamma-32P and ATP-gamma 32P and to a much lesser extent by CTP-gamma-32P and UTP-gamma-32P. Phosphorylation with both GTP (GTP-kinase activity) and ATP (ATP-kinase activity) is markedly stimulated by light; phosphorylation with GTP is lower in dark-adapted and higher in light-adapted rod outer segments than is phosphorylation with ATP. Km values of 20 and 200 muM and Vmax values of 2.1 and 5.9 nmol/(mg min(-1)) were calculated using ATP and GTP, respectively, in light-adapted outer segments. When outer segments are incubated with GTP-gamma-32P under the usual conditions employed in these experiments, no formation of ATP-gamma-32P was detected by the techniques of high-pressure liquid chromatography and thin-layer chromatography. In intact, light-bleached outer segments, GTP appears to specifically phosphorylate rhodopsin. Histone and phosvitin are not phosphorylated to any appreciable extent by GTP. Histone appears to block rhodopsin phosphorylation by GTP while histone and, to some extent, phosvitin, both act as substrates for ATP-kinase activity. Cyclic AMP and other adenine derivates have a marked inhibitory effect on GTP-kinase activity. Phosphate also inhibits GTP-kinase activity but stimulates ATP-kinase activity. Such differences in phosphorylation with GTP and ATP indicate that these activities are either due to separate enzyme systems or, if only one enzyme is involved, the activities are under separate physiological control in the photoreceptor unit.