Linkage between carbon metabolism, redox status and cellular physiology in the yeast saccharomyces cerevisiae devoid of SOD1 or SOD2 gene

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Abstract

Saccharomyces cerevisiae yeast cells may generate energy both by fermentation and aerobic respiration, which are dependent on the type and availability of carbon sources. Cells adapt to changes in nutrient availability, which entails the specific costs and benefits of different types of metabolism but also may cause alteration in redox homeostasis, both by changes in reactive oxygen species (ROS) and in cellular reductant molecules contents. In this study, yeast cells devoid of the SOD1 or SOD2 gene and fermentative or respiratory conditions were used to unravel the connection between the type of metabolism and redox status of cells and also how this affects selected parameters of cellular physiology. The performed analysis provides an argument that the source of ROS depends on the type of metabolism and non-mitochondrial sources are an important pool of ROS in yeast cells, especially under fermentative metabolism. There is a strict interconnection between carbon metabolism and redox status, which in turn has an influence on the physiological efficiency of the cells. Furthermore, pyridine nucleotide cofactors play an important role in these relationships.

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Maslanka, R., Zadrag-Tecza, R., & Kwolek-Mirek, M. (2020). Linkage between carbon metabolism, redox status and cellular physiology in the yeast saccharomyces cerevisiae devoid of SOD1 or SOD2 gene. Genes, 11(7), 1–19. https://doi.org/10.3390/genes11070780

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