Metabolic and transcriptomic response of the wine yeast Saccharomyces cerevisiae strain EC1118 after an oxygen impulse under carbon-sufficient, nitrogen-limited fermentative conditions
Revista : FEM Yeast ResearchVolumen : 14
Número : 3
Páginas : 412-424
Tipo de publicación : ISI Ir a publicación
Abstract
During alcoholic fermentation, Saccharomycces cerevisae is exposed to continuously changing environmental conditions, such as decreasing sugar and increas- ing ethanol concentrations. Oxygen, a critical nutrient to avoid stuck and sluggish fermentations, is only discretely available throughout the process after pump-over operation. In this work, we studied the physiological response of the wine yeast S. cerevisiae strain EC1118 to a sudden increase in dissolved oxygen, simulating pump-over operation. With this aim, an impulse of dissolved oxygen was added to carbon-sufficient, nitrogen-limited anaerobic continuous cultures. Results showed that genes related to mitochondrial respiration, ergosterol biosynthesis, and oxidative stress, among other metabolic pathways, were induced after the oxygen impulse. On the other hand, manno-protein coding genes were repressed. The changes in the expression of these genes are coordinated responses that share common elements at the level of transcriptional regulation. Beneficial and detrimental effects of these physiological processes on wine quality highlight the dual role of oxygen in making or breaking wines. These findings will facilitate the development of oxygen addition strategies to optimize yeast performance in industrial fermentations.