A Nucleolar Protein That Affects Mating Efficiency in Saccharomyces cerevisiae by Altering the Morphological Response to Pheromone

A Nucleolar Protein That Affects Mating Efficiency in Saccharomyces cerevisiae by Altering the Morphological Response to Pheromone

Jinah Kim^a and Jeanne P. Hirsch^a
^a Department of Cell Biology and Anatomy, Mount Sinai School of Medicine, New York, New York 10029

Corresponding author: Jeanne P. Hirsch, Department of Cell Biology and Anatomy, Mount Sinai School of Medicine, New York, NY 10029.

Communicating editor: D. BOTSTEIN

SSF1 and SSF2 are redundant essential yeast genes that, whenoverexpressed, increase the mating efficiency of cells containinga defective Ste4p G_ß subunit. To identify the precisefunction of these genes in mating, different responses to pheromonewere assayed in cells that either lacked or overexpressed SSFgene products. Cells containing null alleles of both SSF1 andSSF2 displayed the normal transcriptional induction responseto pheromone but were unable to form mating projections. Overexpressionof SSF1 conferred the ability to form mating projections oncells containing a temperature-sensitive STE4 allele, but hadonly a small effect on transcriptional induction. SSF1 overexpressionpreferentially increased the mating efficiency of a strain containinga null allele of SPA2, a gene that functions specifically incell morphology. To investigate whether Ssf1p plays a directphysical role in mating projection formation, its subcellularlocation was determined. An Ssf1p-GFP fusion was found to localizeto the nucleolus, implying that the role of SSF gene productsin projection formation is indirect. The region of Ssf1p-GFPlocalization in cells undergoing projection formation was largerand more diffuse, and was often present in a specific orientationwith respect to the projection. Although the function of Ssf1pappears to originate in the nucleus, it is likely that it ultimatelyacts on one or more of the proteins that is directly involvedin the morphological response to pheromone. Because many ofthe proteins required for projection formation during matingare also required for bud formation during vegetative growth,regulation of the activity or amount of one or more of theseproteins by Ssf1p could explain its role in both mating anddividing cells.

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