Tricholoma matsutake is an ectomycorrhizal agaricomycete that produces the prized mushroom "matsutake" in Pinaceae forests. Currently, there are no available cultivars or cultivation methods that produce fruiting bodies. Heavy-ion beams, which induce mutations through double-stranded DNA breaks, have been used widely for plant breeding. In the present study, we examined whether heavy-ion beams could be useful in isolating T. matsutake mutants. An argon-ion beam gave a suitable lethality curve in relation to irradiation doses, accelerating killing at 100-150 Gy. Argon-ion beam irradiation of the agar plate cultures yielded several transient mutants whose colony morphologies differed from that of the wild-type strain at the first screening, but which did not persist following culture transfer. It also generated a mutant whose phenotype remained stable after repeated culture transfers. The stable pleiotropic mutant not only exhibited a different colony morphology to the wild type, but also showed increased degradation of dye-linked water-insoluble amylose and cellulose substrates. Thus, heavy-ion beams may be useful for isolating mutants of T. matsutake, although precautions may be required to maintain the mutants, without phenotypic reversion, during repetitive culture of their mycelia.
Keywords: Amylase; Basidiomycota; Breeding; Cellulase; Particle beam; Pleiotropic mutant.