G-protein beta gamma dimers. Membrane targeting requires subunit coexpression and intact gamma C-A-A-X domain.

Attachment of heterotrimeric G-proteins to the inner face of the plasma membrane is fundamental to their role as signal transducers by allowing interaction with both receptors and effectors. Certain G-protein alpha subunits are anchored to the membrane by covalent myristoylation. The beta gamma complex is required for G-protein interaction with receptors and is independently membrane associated through an unknown mechanism. A series of carboxyl-terminal modifications including isoprenylation which may contribute to membrane attachment has been identified recently in G-protein gamma subunits. Expression and membrane targeting of beta and gamma subunits were examined in COS cells. The expression of either subunit was found to require cotransfection with both beta and gamma cDNAs. Mutation of the carboxyl-terminal cysteine residue of gamma shown to undergo isoprenylation and carboxymethyl-esterification preserved beta gamma expression but blocked isoprenylation and membrane attachment. These results implicate the carboxyl-terminal processing of G-protein gamma subunits and beta coexpression as necessary and sufficient for membrane targeting of the beta gamma complex.