A mutation in SPC42, which encodes a component of the spindle pole body, results in production of two-spored asci in Saccharomyces cerevisiae.

Abstract

In the yeast Saccharomyces cerevisiae, SPC42 is an essential gene, which encodes one of the major components of the spindle pole body (SPB). We report on a mutation in the SPC42 gene (spc42-102) that results in a sporulation-specific defect. Mitotic growth of haploid and diploid spc42-102 strains is normal and both exhibit the same growth rates as the isogenic wild-type strains. Many diploid spc42-102/spc42-102 cells undergo normal meiotic nuclear divisions, producing four haploid nuclei. However, a significant fraction of meiotic spc42-102/spc42-102 cells contain two immature SPBs and aberrant nuclei that are not surrounded by a prospore membrane. Some 40% of the resultant asci contain only two spores, while wild-type diploid cells almost always produce four-spored asci. Segregation of auxotrophic markers that are tightly linked to the centromere reveals that two-spore asci formed from spc42-102/spc42-102 diploid cells exclusively contain nonsister haploid spores. Western analysis and measurements of the fluorescent signal from an Spc42p-GFP (green fluorescent protein) fusion reveal that the mutant strain fails to accumulate Spc42p at meiosis. Thus, our results suggest that insufficiency of Spc42p during meiosis results in a pair of immature nonsister SPBs that are not enclosed by prospore membrane.