Two signals are required for meiosis and spore formation in the yeast Saccharomyces cerevisiae: starvation and the MAT products al and a2, which determine the a/a cell type. These signals lead to increased expression of the IMEI (inducer of meiosis) gene, which is required for sporulation and sporulation-specific gene expression. We report here the sequence of the IME1 gene and the consequences of IMEI expression from the GAL] promoter. The deduced IMEI product is a 360-amino-acid protein with a tyrosine-rich C-terminal region. Expression Sporulation of the yeast Saccharomyces cerevisiae is a cellular differentiation pathway (reviewed in references 12 and 26). It is normally restricted to one type of cell, the a/a cell, and is induced by nitrogen starvation. These circumstances lead to arrest of the mitotic cell cycle, to expression of sporulation-specific genes, and to initiation of the sporulation program. Cells engage in meiotic DNA synthesis, recombination, and two meiotic divisions. Each of the four meiotic products is packaged into a spore, and the four spores of the cell are encased in a sac, the ascus. Sporulation thus includes meiosis and spore formation.One of the earliest unique events in starved a/a cells is elevated accumulation of IME1 RNA (22,28,38; reviewed in reference 27). The IME1 product is thought to play a pivotal role in activating meiosis, because multicopy IME1 plasmids permit sporulation in cells that lack the determinants of a/a cell type, the MATal and MATa2 gene products, and also permit meiotic recombination in the absence of nitrogen starvation (22,38 Sporulation is accompanied by express'ion of a unique set of genes, the sporulation-specific genes. Some of these genes are essential for particular meiotic events, and others have no essential role in sporulation under laboratory conditions (1,6,11,14,17,21,25,26,33,34,42,45,47). These genes fall into early, middle, and late expression classes (1,23,25,26 The imel-12, ime2-2, gal80, ho::LYS2, his4-G, and his4-N mutations have previously been described, as have the auxotrophic markers in these strains (28,38). We note that the ho::LYS2 insertion confers a weak Lys' phenotype.The a/a diploid (strain 545) was derived from an a/a diploid (strain 537) after mild UV irradiation by screening colonies for mating-factor production through a halo assay (46). Engebrecht and Roeder observed that a/a and a/a diploids in the SK1 background were able to sporulate at a low level (strains J254 and J256 [11]). In side-by-side comparisons, we confirmed that J254 and J256 were able to sporulate and that our strain 545 was unable to sporulate. Fourteen four-spored tetrads were analyzed from an a/a/a/a tetraploid derived from crossing strains 545 and J256. Nine segregants were able to mate and able to sporulate weakly; 25 segregants were able to mate but unable to sporulate. These observations indicate that the difference in sporulation abilities 6103 on May 10, 2018 by guest
