MORPHOLOGICAL TRANSITIONS IN THE LIFE-CYCLE OF USTILAGO-MAYDIS AND THEIR GENETIC-CONTROL BY THE A-AND-B-LOCI

Two forms characterize the life cycle of Ustilago maydis: a haploid yeast-like form and a filamentous dikaryotic form. Dimorphism and other aspects of the life cycle (including tumor induction) are governed by two mating type loci, a and b. Here we report characterization of two different morphological transitions in the life cycle of U. maydis. First, we describe an assay for conjugation tube formation in which cellular response is rapid and occurs synchronously and uniformly in the population. Using this assay, we demonstrate that different alleles of the a locus (but not the b locus) are necessary for conjugation tube formation. We also show that the b locus determines the type of filament formed after cell fusion: different b alleles lead to formation of true filaments, whereas identical b alleles result in production of pseudofilaments. Second, we analyze the role of a and b in postfusion events leading to filament formation in diploid strains. We show that diploid strains heterozygous for both a and b are capable of a dimorphic transition from yeast-like to filamentous growth when shifted from rich medium to low-nitrogen medium. This transition has two components: the first is dependent on the a locus and generates structures similar to conjugation tubes; the second is dependent on the b locus and produces true hyphal structures. We surmise that similar events take place in formation of the dikaryotic filament. (C) 1994 Academic Press, Inc.