Genetic and mutational tools for investigating the genetics and molecular biology of trichothecene production inGibberella pulicaris (Fusarium sambucinum)

Gibberella pulicaris (Fusarium sambucinum) is a promising organism for studying the genetics and regulation of trichothecene biosynthesis; conditions for obtaining fertile crosses have been defined (Desjardins & Beremand, 1987) and crosses between natural variants have provided some information about the number, location, arrangement, and role of genes which determine trichothecene production (Desjardins & Beremand, 1987; Beremand & Desjardins, 1988). The development of some additional experimental tools and methodologies required for the further genetic analysis of trichothecene production inG. pulicaris are described in the present study. A highly fertile, isogenic line was constructed forG. pulicaris strain R-6380. The ability to readily generate mutants in this strain was also demonstrated. Both biochemical and morphological mutants were obtained following UV-mutagenesis. The inheritance of some of these mutations through meiosis indicated that they will be useful genetic markers for crosses and mapping studies. Since strain R-6380 is also transformable (Salch & Beremand, 1988), it is an excellent choice for transmission and molecular genetic studies involving trichothecene production.The mention of firm names or trade products does not imply that they are endorsed or recommended by the U.S. Department of Agriculture over other firms or similar products not mentioned.