Homologous transformation of the edible basidiomycete Agrocybe aegerita with the URA1 gene: characterization of integrative events and of rearranged free plasmids in transformants.

The URA1 gene, encoding dihydroorotate dehydrogenase of the pyrimidine pathway, cloned into pUC18 (pUra1-1) was used to develop an homologous transformation system for the cultivated mushroom Agrocybe aegerita. Protoplasts of a ura1 auxotrophic strain were transformed by electroporation with efficiencies ranging from 1 to 26 transformants per micrograms of DNA. The phenotype of the stable Ura+ transformants suggested a strong nuclear heterogeneity further confirmed by Southern-blot analysis. All transformants acquired extrachromosomal forms derived from pUra1-1. Integration of pUra1-1 into chromosomal DNA occurred for some transformants. Plasmids containing the integrant of pUC18 recombined to different parts of the URA1 gene were rescued from A. aegerita transformants through transformation of E. coli. Their molecular analysis indicated that they represent products of the continuous excision of primary-integrated vector sequences rather than ARS-dependent autoreplicative forms.