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doi:10.1534/genetics.108.091603
A more recent version of this article appeared on September 1, 2008.
REGULAR RESEARCH PAPERS |
Three alpha subunits of heterotrimeric G proteins and an adenylyl cyclase have distinct roles in fruiting body development in the homothallic fungus Sordaria macrospora
Jens Kamerewerd 1, Malin Jansson 1, Minou Nowrousian 1, Stefanie Pöggeler 2 and Ulrich Kück 1*
1 Ruhr-Universität Bochum
2 Georg-August-Universität Göttingen
* To whom correspondence should be addressed. E-mail: ulrich.kueck{at}rub.de.
Submitted on May 16, 2008
Revised on June 12, 2008
Accepted on 23 June 2008
Sordaria macrospora, a self-fertile filamentous ascomycete, carries genes encoding three different 
subunits of heterotrimeric G proteins (gsa, G protein Sordaria alpha subunit). We generated knock-out strains for all three gsa genes (
gsa1, gsa2, and gsa3) as well as all combinations of double mutants. Phenotypic analysis of single and double mutants showed that the genes for G subunits have distinct roles in the sexual life cycle. While single mutants show some reduction of fertility, double mutants gsa1gsa2 and gsa1gsa3 are completely sterile. To test whether the pheromone receptors PRE1 and PRE2 mediate signaling via distinct G subunits, two recently generated pre strains were crossed with all gsa strains. Analyses of the corresponding double mutants revealed that compared to GSA2, GSA1 is a more predominant regulator of a signal transduction cascade downstream of the pheromone receptors and that GSA3 is involved in another signaling pathway that also contributes to fruiting body development and fertility. We further isolated the gene encoding adenylyl cyclase (sac1) for construction of a knock-out strain. Analyses of the three gsasac1 double mutants and one gsa2gsa3sac1 triple mutant indicate that SAC1 acts downstream of GSA3, parallel to a GSA1-GSA2-mediated signaling pathway. In addition, the function of STE12 and PRO41, two presumptive signaling components, was investigated in diverse double mutants lacking those developmental genes in combination with the gsa genes. This analysis was further completed by expression studies of the ste12 and pro41 transcripts in wild type and mutant strains. From the sum of all our data, we propose a model for how different G subunits interact with pheromone receptors, adenylyl cyclase and STE12 and thus cooperatively regulate sexual development in S. macrospora.
Key Words: Sordaria macrospora, adenylyl cyclase, fruiting body development, heterotrimeric G protein, pheromone receptors