G protein-effector coupling: interactions of recombinant inhibitory gamma subunit with transducin and phosphodiesterase

A bacterial expression vector for the inhibitory gamma subunit of retinal rod phosphodiesterase has been constructed by inserting a mouse gamma cDNA into pUC19. Escherichia coli 222 transformed with this plasmid produces a 12-kDa recombinant protein consisting of 18 additional amino acids attached to the amino terminus of gamma. The fusion protein, designated beta-gal-gamma, has been refolded into an active form in formic acid and partially purified by gel filtration chromatography. Despite a large extended sequence at the amino terminus, beta-gal-gamma is able to inhibit the activity of trypsin-activated phosphodiesterase, bind tightly to the catalytic alpha beta subunits, and interact with the alpha subunit of transducin in a nucleotide-dependent manner. The availability of large quantities of active bacterial gamma, together with the ability to change its primary structure by site-directed mutagenesis, promises to provide considerable new information on the interaction between transducin and phosphodiesterase, as well as insights into the molecular mechanism of G protein-effector coupling.