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Compositional and temporal division of labor modulates mixed sugar fermentation by an engineered yeast consortium

Jonghyeok Shin, Siqi Liao, Nurzhan Kuanyshev, Yongping Xin, Chan-Woo Kim, Ting Lu, Yong‐Su Jin

2024Nature Communications26 citationsDOIOpen Access PDF

Abstract

Synthetic microbial communities have emerged as an attractive route for chemical bioprocessing. They are argued to be superior to single strains through microbial division of labor (DOL), but the exact mechanism by which DOL confers advantages remains unclear. Here, we utilize a synthetic Saccharomyces cerevisiae consortium along with mathematical modeling to achieve tunable mixed sugar fermentation to overcome the limitations of single-strain fermentation. The consortium involves two strains with each specializing in glucose or xylose utilization for ethanol production. By controlling initial community composition, DOL allows fine tuning of fermentation dynamics and product generation. By altering inoculation delay, DOL provides additional programmability to parallelly regulate fermentation characteristics and product yield. Mathematical models capture observed experimental findings and further offer guidance for subsequent fermentation optimization. This study demonstrates the functional potential of DOL in bioprocessing and provides insight into the rational design of engineered ecosystems for various applications.

Topics & Concepts

YeastFermentationSugarDivision (mathematics)Saccharomyces cerevisiaeGenetically engineeredBiotechnologyBiologyFood scienceBiochemistryMathematicsArithmeticGeneBiofuel production and bioconversionMicrobial Metabolic Engineering and BioproductionEnzyme Production and Characterization
Compositional and temporal division of labor modulates mixed sugar fermentation by an engineered yeast consortium | Litcius