Breeding sake yeast and identification of mutation patterns by synchrotron light irradiation

Abstract

Sake yeast is one of the important factors that characterize the aroma and taste of sake. To obtain sake yeast strains with different metabolic capabilities from other strains, breeding of a sake yeast is an effective way. In this study, sake yeast strain Y5201 was mutagenized by synchrotron light irradiation to obtain the mutant strains showing different brewing characteristics from parental strain Y5201, and comparative genome analysis between strain Y5201 and mutant strains was performed to identify mutation points and patterns induced by synchrotron light irradiation. Screening with the drug-resistant and fermentation tests selected the nine mutants (C18, C19, C29, C50, C51, C52, C54, T25, and T49) from the mutagenized Y5201 cells. Principal component analysis results based on the analysis of the small-scale brewing test metabolites showed that the mutant strain C19 was different from other strains, which had higher productivity of ethyl caproate and isoamyl acetate than those of the Y5201. Comparative genome analysis revealed that mutants by synchrotron light irradiation had a higher diversity of single nucleotide substitutions and a higher frequency of Indel (insertion/deletion) in these DNA than ethyl methanesulfonate and UV irradiation. These results suggest that synchrotron light irradiation is an effective and unique mutagen for yeast breeding.