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Adaptations in metabolism and protein translation give rise to the Crabtree effect in yeast

Carl Malina, Rosemary Yu, Johan Björkeroth, Eduard J. Kerkhoven, Jens Nielsen

2021Proceedings of the National Academy of Sciences102 citationsDOIOpen Access PDF

Abstract

, cultivated under glucose excess conditions. Combining physiological and proteome quantification with genome-scale metabolic modeling, we found that the two groups differ in energy metabolism and translation efficiency. In Crabtree-positive yeasts, the central carbon metabolism flux and proteome allocation favor a glucose utilization strategy minimizing proteome cost as proteins translation parameters, including ribosomal content and/or efficiency, are lower. Crabtree-negative yeasts, however, use a strategy of maximizing ATP yield, accompanied by higher protein translation parameters. Our analyses provide insight into the underlying reasons for the Crabtree effect, demonstrating a coupling to adaptations in both metabolism and protein translation.

Topics & Concepts

YeastTranslation (biology)MetabolismChemistryBiochemistryBiologyMessenger RNAGeneMicrobial Metabolic Engineering and BioproductionFungal and yeast genetics researchBioinformatics and Genomic Networks
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