Transformation of the phytopathogenic fungus Septoria nodorum to hygromycin B resistance

Summary The phytopathogenic fungus Septoria nodorum has been transformed using a plasmid (pAN7-1) containing the Escherichia coli hygromycin phosphotransferase gene (hph). Large, stable hygromycin-resistant transformant colonies appeared at frequencies between 2 and 25 per g DNA when wheat-adapted and barley-adapted wild type strains were used as recipients. These transformants grew at hygromycin concentrations up to ten times that which inhibits the wild types. A second type of colony also developed on transformation plates. These appeared at higher frequencies, grew less vigorously and could not be subcultured in the presence of hygromycin. They are believed to be abortive transformants. Southern hybridization analyses indicated that transformation takes place via the integration of plasmid DNA into the fungal chromosomal DNA. Multiple integrations occur producing tandemly iterated arrays of plasmid molecules. Some transformants arose as heterokaryons. These could be resolved by propagation through a single spore and transformants purified in this way remained mitotically stable. All of 1,025 transformants tested were unchanged in pathogenicity. Reisolates from leaves retained their hygromycin-resistance, indicating that transformants remain stable during growth in plant tissue. Cotransformation of an unselected plasmid (p3SR2) carrying the Aspergillus nidulans amdS gene occurred at a high frequency.