Abstract

Heterotrimeric G proteins transmit hormonal and sensory signals received by cell surface receptors to effector proteins that regulate cellular processes. Members of the highly conserved family of alpha subunits specifically modulate the activities of a diverse array of effector proteins. To investigate the determinants of alpha subunit-effector specificity, we localized the effector-specifying regions of alphai2, which inhibits adenylyl cyclase, and alphaq, which stimulates phosphoinositide phospholipase C using chimeric alpha subunits. The chimeras were generated using an in vivo recombination method in Escherichia coli. The effector-specifying regions of both alphai2 and alphaq were localized within the GTPase domain. An alphaq/alphai2/alphaq chimera containing only 78 alphai2 residues within the GTPase domain robustly inhibited adenylyl cyclase. This alphai2 segment includes regions corresponding to two of the three regions of alphas that activate adenylyl cyclase, but does not include any of the alpha subunit regions that switch conformation upon binding GTP. Replacement of the alphaq residues that comprise the helical domain with the homologous alphai2 residues resulted in a chimeric alpha subunit that activated phospholipase C. Combined with previous studies of the effector-specifying residues of alphas and alphat, our results suggest that the effector specificity of alpha subunits is generally determined by the GTPase and not the helical domain.