Reconstitution of the GTP-dependent adenylate cyclase from products of the yeast CYR1 and RAS2 genes in Escherichia coli.

Abstract

Plasmids carrying the CYR1 gene of yeast Saccharomyces cerevisiae, which encodes adenylate cyclase, were introduced into the cya mutant strain of Escherichia coli. The transformants had a GTP-independent adenylate cyclase activity but did not produce cAMP. The E. coli transformant carrying the yeast RAS2 or RAS2val19 gene had no adenylate cyclase activity. Transformant cells carrying both CYR1 and RAS2 produced GTP-dependent adenylate cyclase and cAMP, and those carrying CYR1 and RAS2val19 produced GTP-independent adenylate cyclase and a large amount of cAMP. Production of cAMP in the transformant carrying CYR1 and either RAS2 or RAS2val19 was confirmed by staining colonies on maltose-MacConkey plates and by measuring induction of beta-galactosidase by isopropyl beta-D-thiogalactopyranoside. Mixing a crude extract from the E. coli transformant carrying CYR1 with a crude extract from cells carrying RAS2 reconstituted the GTP-dependent adenylate cyclase. Reconstitution of the GTP-dependent adenylate cyclase was observed by mixing the plasma membrane fraction of yeast CYR1 ras1 ras2 bcy1 mutant and a crude extract from the E. coli transformant carrying RAS2 or by mixing a crude extract from the E. coli transformant carrying CYR1 and the membrane fraction of yeast cyr1 RAS1 RAS2 BCY1 mutant. The data suggest that the yeast GTP-dependent adenylate cyclase consists of catalytic and regulatory subunits encoded by the CYR1 and RAS2 genes, respectively.