[
Genes Dev,
1999]
A wide variety of extracellular stimuli induce signal transduction through receptors coupled to heterotrimeric G proteins, which consist of alpha, beta, and gamma subunits (Gilman 1987). The G alpha subunit has guanine nucleotide binding and GTP hydrolysis activities. Based on function and amino acid sequence homology, the Galpha, G alph i/o, G alpha q, and G alpha 12 (Simon et al. 1991; Hepler and Gilman 1992). As exemplified by the responsiveness of our five senses to environmental stimuli, signaling mediated by trimeric G proteins is often extremely rapid and transient. A key step in achieving such a raid response is the ability of the G alpha subunit to switch between it GDP- and GTP-bound forms. The nucleotide binding state of G alpha is regulated at both the GDP dissociation and GTP hydrolysis steps. Stimulation of receptors by agonists leads to a conformational change in the receptors which can function as a guanine nucleotide exchange factor to stimulate a rapid dissociation of GDP from the inactive G alpha. The nucleotide-free G alpha is then available to bind GTP, leading to the dissociation of G alpha from the G beta gamma heterodimer. Both the G alpha and G beat gamma subunits can interact with and regulate downstream effectors that include adenylyl cyclase, phospholipase C, and ion channels (Gilman 1987; Birnbaumer 1992).