We previously identified two genes, mfinl and mfin2, with the potential to encode the M-factor mating pheromone of the fission yeast Schizosaccharomyces pombe (J. Davey, EMBO J. 11:951-960, 1992), but further analysis revealed that a mutant strain lacking both genes still produced active M-factor. Here we describe the isolation and characterization of a third M-factor gene, mfm3. A mutant lacking all three genes fails to produce M-factor, indicating that all functional M-factor genes now have been identified. The triple mutant exhibits an absolute mating defect in M cells, a defect that is not rescued by addition of exogenous M-factor. A mutational analysis reveals that all three mJfm genes contribute to the production of M-factor. Their transcription is limited to M cells and requires the matl-Mc and stell gene products. Each gene is induced when the cells are starved of nitrogen and further induced by a pheromone signal. Additionally, the signal transduction machinery associated with the pheromone response is required for transcription of the mfm genes in both stimulated and unstimulated cells.The fission yeast Schizosaccharomycespombe exists in one of two mating types, minus (M) or plus (P), and under the appropriate conditions, cells of opposite mating type can conjugate to form a diploid zygote (reviewed in reference 45). Prior to conjugation, the cells communicate with each other via diffusible mating pheromones that prime the recipient cell for mating; M cells release M-factor, which prepares P cells for mating, and P cells secrete P-factor, which stimulates M cells. Pheromone-induced changes include a G1 arrest of the cell cycle (9, 26), an altered pattern of gene transcription (46), and elongation of the cell (7,19,36).The response begins when the pheromone binds to a Gprotein-coupled receptor on the surface of the target cell; receptors for P-factor are encoded by the mam2 gene (29), while those for M-factor are encoded by map3 (58). Stimulation of the receptor is thought to cause dissociation of the G protein such that the Got subunit (encoded bygpal [49]) is able to trigger an intracellular signalling pathway which includes a cascade of protein kinases encoded by the byrl, byr2, and spkl genes (42,44,56,59,61). A number of these enzymes are functionally homologous to the mitogen-activated protein kinases believed to be involved in controlling the proliferation and differentiation of mammalian cells (reviewed in reference 16). Transmission of the pheromone signal also requires the rasl gene product, the S. pombe homolog of the mammalian ras oncogene (20,46).The M-factor pheromone is a nonapeptide in which the C-terminal cysteine residue is S farnesylated and carboxyl methylated (7,8,60); P-factor is a peptide made of 23 residues and is probably unmodified (26). Although the biogenesis of M-factor is not fully characterized, it is likely to be similar to * Corresponding author. Mailing address:
