Development of Monascus purpureus monacolin K-hyperproducing mutant strains by synchrotron light irradiation and their comparative genome analysis

Abstract

Monascus purpureus have been used for making koji and other fermented foods and supplements. M.purpureus characteristically produces monacolin K (MK), a secondary metabolite that competitively inhibits cholesterol synthesis. Synchrotron light irradiation was applied to induce mutation in the strain KUPM5 to improve the MK-producing ability of M.purpureus strain KUPM5. Screening by a bioassay utilizing sensitivities to yeast Saccharomyces cerevisiae from 936 colonies allows isolating three mutant strains: SC01, SC02, and SC03. These mutant strains and the parental strain KUPM5 were subjected to make koji using rice, and their metabolites were compared. All strains SC01, SC02, and SC03 in koji showed higher production of MK than the strain KUPM5. Particularly, the SC02 strain produced MK threefold higher than KUPM5 and maintained the production capabilities of other metabolites, including red, yellow, and orange pigments, mycelial contents, and α-amylase activity comparable to those of the strain KUPM5. Comparative genome analysis among strain KUPM5 and the mutants revealed that synchrotron light irradiation introduced mutations in approximately 90% of the total genes, including SNV, MNV, and indel mutations. The frequencies of SNV substitution in the whole genome occupied 68.96% of all mutations, of which 92.38% were transversions and 7.62% were transitions. This study, therefore, proved the synchrotron light irradiation was highly efficient for the strain improvement of a filamentous fungus, M.purpureus, and provided insights into the properties of mutation in the fungus by this mutagen.