Abstract

Guanyl nucleotide binding proteins couple agonist interaction with cell-surface receptors to an intracellular enzymatic response. In the adenylate cyclase system, inhibitory and stimulatory effects are mediated through guanyl nucleotide binding proteins, Gi and Gs, respectively. In the visual excitation complex, the photon receptor rhodopsin is linked to its target, cGMP phosphodiesterase, through transducin (Gt). Bovine brain contains another guanyl nucleotide binding protein, Go. The proteins are heterotrimers of alpha, beta, and gamma subunits; the alpha subunits catalyze receptor-stimulated GTP hydrolysis. To examine the interaction of Go alpha with beta gamma subunits and rhodopsin, the proteins were reconstituted in phosphatidylcholine vesicles. The GTPase activity of Go alpha purified from bovine brain was stimulated by photolyzed, but not dark, rhodopsin and was enhanced by bovine retinal Gt beta gamma or by rabbit liver G beta gamma. Go alpha in the presence of G beta gamma is a substrate for pertussis toxin catalyzed ADP-ribosylation; the modification was inhibited by photolyzed rhodopsin and enhanced by guanosine 5'-O-(2-thiodiphosphate). ADP-Ribosylation of Go alpha by pertussis toxin inhibited photolyzed rhodopsin-stimulated, but not basal, GTPase activity. It would appear from this and prior studies that Go alpha is similar to Gt alpha and Gi alpha; all three proteins exhibit photolyzed rhodopsin-stimulated GTPase activity, are pertussis toxin substrates, and functionally couple to Gt beta gamma. Go alpha (39K) can be distinguished from Gi alpha (41K) but not from Gt alpha (39K) by molecular weight.(ABSTRACT TRUNCATED AT 250 WORDS)

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