Development of Saccharomyces cerevisiae accumulating excessive amount of glycogen and its effects on gut microbiota in a mouse model

Abstract

Saccharomyces cerevisiae accumulates glycogen, a hyperbranched glucose polymer with multiple bio-functionalities. In this study, mutants of S. cerevisiae that accumulate excessive amounts of glycogen were developed through UV mutagenesis. From over 30,000 mutants, the mutant strain CEY1, which exhibited the highest glycogen production, was selected using iodine vapor screening. The glycogen structures of wild type (WT) and CEY1 were analyzed and found to be relatively similar in molecular weight, hydrodynamic diameter, and side-chain distribution. The glycogen from CEY1 contained long branches (DP >12) 23.6 % greater than those in Escherichia coli TBP38. In addition, WT and CEY1 glycogen showed 32 %–34 % digestibility, which is significantly lower than E. coli glycogen. The glycogen content in dried CEY1 cells was increased to 21.7 % during laboratory-scale fed-batch fermentation. Glycogen with a homogeneous structure was accumulated to 17.5 % (w/w dried cell), and the total glucan content was increased by 33.2 % during large-scale fed-batch fermentation. In a mouse model, a diet containing 30 % CEY1 increased the production of butyrate and populations of beneficial bacteria, including Bacteroides and Parabacteroides. Therefore, glycogen from CEY1 exhibits a distinct structure from other polysaccharides, with notably slow and low digestibility, thereby indicating its potential application as a dietary supplement.