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Yeast Cellular Stress: Impacts on Bioethanol Production

Joshua Eardley, David J. Timson

2020Fermentation58 citationsDOIOpen Access PDF

Abstract

Bioethanol is the largest biotechnology product and the most dominant biofuel globally. Saccharomyces cerevisiae is the most favored microorganism employed for its industrial production. However, obtaining maximum yields from an ethanol fermentation remains a technical challenge, since cellular stresses detrimentally impact on the efficiency of yeast cell growth and metabolism. Ethanol fermentation stresses potentially include osmotic, chaotropic, oxidative, and heat stress, as well as shifts in pH. Well-developed stress responses and tolerance mechanisms make S. cerevisiae industrious, with bioprocessing techniques also being deployed at industrial scale for the optimization of fermentation parameters and the effective management of inhibition issues. Overlap exists between yeast responses to different forms of stress. This review outlines yeast fermentation stresses and known mechanisms conferring stress tolerance, with their further elucidation and improvement possessing the potential to improve fermentation efficiency.

Topics & Concepts

YeastFermentationBiofuelBioprocessSaccharomyces cerevisiaeBiotechnologyEthanol fermentationBiochemical engineeringEthanol fuelBiologyChemistryFood scienceBiochemistryEngineeringPaleontologyFungal and yeast genetics researchFermentation and Sensory AnalysisBiofuel production and bioconversion
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