The Gβ-Subunit-Encoding Gene bpp1 Controls Cyclic-AMP Signaling in Ustilago maydis

Abstract

In the phytopathogenic fungus Ustilago maydis , fusion of haploid cells is a prerequisite for infection. This process is controlled by a pheromone-receptor system. The receptors belong to the seven-transmembrane class that are coupled to heterotrimeric G proteins. Of four Gα subunits in U. maydis , only gpa3 has a function during mating and cyclic AMP (cAMP) signaling. Activation of the cAMP cascade induces pheromone gene expression; however, it does not lead to the induction of conjugation tubes seen after pheromone stimulation. To investigate the possibility that a Gβ subunit participates in pheromone signaling, we isolated the single β subunit gene, bpp1 , from U. maydis. bpp1 deletion mutants grew filamentously and showed attenuated pheromone gene expression, phenotypes associated with Δgpa3 strains. In addition, a constitutively active allele of gpa3 suppressed the phenotype of the bpp1 deletion strains. We suggest that Bpp1 and Gpa3 are components of the same heterotrimeric G protein acting on adenylyl cyclase. Interestingly, while Δgpa3 strains are impaired in pathogenicity, Δ bpp1 mutants are able to induce plant tumors. This could indicate that Gpa3 operates independently of Bpp1 during pathogenic development.