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Acetylation of Metabolic Enzymes Coordinates Carbon Source Utilization and Metabolic Flux

Chang‐Lang Yang, Y. Xiong, Weixing Zhao, Y. Zhang, K.-L. Guan, G.-P. Zhao, Qianyang Wang, Y. Lin, H. Li, Li-Bin Xie, Jingming Yao, Shi‐Min Zhao, Z.-B. Ning, Ye Yao, R. Zeng, Haolin Xiong

2020UNC Libraries32 citationsDOIOpen Access PDF

Abstract

Lysine acetylation regulates many eukaryotic cellular processes, but its function in prokaryotes is largely unknown. We demonstrated that central metabolism enzymes in Salmonella were acetylated extensively and differentially in response to different carbon sources, concomitantly with changes in cell growth and metabolic flux. The relative activities of key enzymes controlling the direction of glycolysis versus gluconeogenesis and the branching between citrate cycle and glyoxylate bypass were all regulated by acetylation. This modulation is mainly controlled by a pair of lysine acetyltransferase and deacetylase, whose expressions are coordinated with growth status. Reversible acetylation of metabolic enzymes ensure that cells respond environmental changes via promptly sensing cellular energy status and flexibly altering reaction rates or directions. It represents a metabolic regulatory mechanism conserved from bacteria to mammals.

Topics & Concepts

Flux (metallurgy)AcetylationEnzymeMetabolic flux analysisMetabolic pathwayCarbon sourceBiochemistryChemistryCarbon fibersCarbon fluxMetabolismBiologyMaterials scienceOrganic chemistryEcologyGeneComposite numberEcosystemComposite materialDiet and metabolism studiesMetabolism and Genetic DisordersCancer, Hypoxia, and Metabolism
Acetylation of Metabolic Enzymes Coordinates Carbon Source Utilization and Metabolic Flux | Litcius