Scanning mutagenesis of regions in the Gα protein Gpa1 that are predicted to interact with yeast mating pheromone receptors

The mechanism by which receptors activate heterotrimeric G proteins was examined by scanning mutagenesis of the Saccharomyces cerevisiae pheromone-responsive Gα protein (Gpa1). The juxtaposition of high-resolution structures for rhodopsin and its cognate G protein transducin predicted that at least six regions of Gα are in close proximity to the receptor. Mutagenesis was targeted to residues in these domains in Gpa1, which included four loop regions (β2-β3, α2-β4, α3-β5, and α4-β6) as well as the N and C termini. The mutants displayed a range of phenotypes from nonsignaling to constitutive activation of the pheromone pathway. The constitutive activity of some mutants could be explained by decreased production of Gpa1, which permits unregulated signaling by Gβγ. However, the constitutive activity caused by the F344C and E335C mutations in the α2-β4 loop and F378C in the α3-β5 loop was not due to decreased protein levels, and was apparently due to defects in sequestering Gβγ. The strongest loss of the function mutant, which was not detectably induced by a pheromone, was caused by a K314C substitution in the β2-β3 loop. Several other mutations caused weak signaling phenotypes. Altogether, these results suggest that residues in different interface regions of Gα contribute to activation of signaling.