A NEW METHOD FOR THE SCREENING OF MUTATIONS RELATED TO PROTOPLASMIC INCOMPATIBILITY, DIFFERENTIATION AND PLASMA MEMBRANE IN THE FUNGUS PODOSPORA ANSERINA

Jacques Labarère ¹ and Marc Bonneu ¹

¹ Laboratoire de Génétique Moléculaire, Université de Bordeaux II, I.N.R.A., Domaine de la Grande Ferrade, 33140 Pont de la Maye, France

In Podospora anserina previous investigations showed that mutations in genes involved in the control of protoplasmic incompatibility cause defects at various stages of differentiation during the life cycle and also modify properties of the plasma membrane. To establish these relationships in another way, a new method for screening mutations has been developed as a first step. Eighty-five new mutants were selected for resistance to toxic products (sorbose or thiourea); in a second step these mutants were tested for modifications of protoplasmic incompatibility and cellular differentiation. Seven of the sorbose or thiourea resistant-mutants (i.e., 8%) exhibited new patterns of protoplasmic incompatibility. Genetic analyses were carried out with three mutants. Mutation X25 suppresses protoplasmic incompatibility resulting from all allelic interactions and restores the fertility of the crosses V x V1 and Z1 x Z2. Mutation V41 is an allele of the v locus with new properties. Mutation X61 totally suppresses the V/V'1 interaction and weakens all of the other allelic incompatibility systems; X61 strains are defective in protoperithecia differentiation. Electrophoresis of plasma membrane proteins showed that X61 strains lack two polypeptides whose apparent molecular weights are 41,000 and 44,000. This new screening method is especially efficient for obtaining new mutants and identifying additional genes involved in incompatibility. These results provide further support demonstrating the relationships between protoplasmic incompatibility, cellular differentiation and plasma membrane.