An electroporation-based system for high-efficiency transformation of germinated conidia of filamentous fungi.

A rapid and efficient electroporation procedure has been developed for transformation of germinating conidia of filamentous fungi. Pretreatment of conidial preparations with a cell wall weakening agent, such as beta-glucuronidase, was found to be essential for successful transformation. Using the qa-2+ gene of Neurospora crassa, encoding the catabolic dehydroquinase, as a selectable marker with a double-mutant host strain, auxotrophic for aromatic amino acids, integration of the plasmid was observed to be predominantly at ectopic chromosomal sites. Cotransformation with the qa-2+ gene and a plasmid containing a heat shock gene sequence (hsp70 of N. crassa) suggested integration site preference. High efficiencies of transformation to hygromycin resistance were achieved employing the bacterial hygromycin B phosphotransferase gene with N. crassa, the patulin-producer Penicillium urticae, and the causal agent of blackleg disease of crucifers, Leptosphaeria maculans. The economically important species Aspergillus oryzae was similarly transformed to benomyl resistance with the benomyl-resistant beta-tubulin gene of N. crassa as a dominant selectable marker.