The purified alpha subunits of Go and Gi from bovine brain require beta gamma for association with phospholipid vesicles.

The purified G-proteins from bovine brain were examined for potential solubility in the absence of detergent. The isolated alpha o and alpha i subunits migrated through sucrose with rates consistent with the existence of monomeric species either in the presence or the absence of cholate. The beta gamma subunits or holo-G-proteins aggregated extensively if cholate was absent. Al3+, Mg2+, and F- prevented the aggregation of alpha o and alpha i caused by the addition of beta gamma and could also prevent the aggregation of alpha s when Gs was examined at higher temperature. The association of subunits with phospholipid vesicles was examined. Whereas beta gamma associated totally with phospholipid vesicles, purified alpha o showed little interaction. alpha o did bind to vesicles containing beta gamma (beta gamma vesicles) in a saturable fashion that indicated a stoichiometric association between the subunits. Treatment with guanosine 5'-(3-O-thio)triphosphate could partially dissociate alpha o that was bound to beta gamma vesicles. These data suggest that beta gamma may be an anchor for association of alpha subunits with membranes and that regulation by these proteins may not be limited to the plasma membrane. This possibility and its implications are discussed. The reversible association of alpha o to beta gamma vesicles may provide a very sensitive system for the study of the interactions between these subunits.