부산대학교 도서관

Abstract Background Soybean production around the globe faces significant annual yield losses due to pests and diseases. One of the most significant causes of soybean yield loss annually in the U.S. is sudden death syndrome (SDS), caused by soil-borne fungi in the Fusarium solani species complex. Two of these species, F. virguliforme and F. brasiliense, have been discovered in the U.S. The genetic mechanisms that these pathogens employ to induce root rot and SDS are largely unknown. Previous methods describing F. virguliforme protoplast generation and transformation have been used to study gene function, but these methods lack important details and controls. In addition, no reports of protoplast generation and genetic transformation have been made for F. brasiliense. Results We developed a new protocol for developing fungal protoplasts in these Fusarium species and test the protoplasts for the ability to take up foreign DNA. We show that wild-type strains of F. virguliforme and F. brasiliense are sensitive to the antibiotics hygromycin and nourseothricin, but strains transformed with resistance genes displayed resistance to these antibiotics. In addition, integration of fluorescent protein reporter genes demonstrates that the foreign DNA is expressed and results in a functional protein, providing fluorescence to both pathogens. Conclusions This protocol provides significant details for reproducibly producing protoplasts and transforming F. virguliforme and F. brasiliense. The protocol can be used to develop high quality protoplasts for further investigations into genetic mechanisms of growth and pathogenicity of F. virguliforme and F. brasiliense. Fluorescent strains developed in this study can be used to investigate temporal colonization and potential host preferences of these species.