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Regulation of Translation by Lysine Acetylation in Escherichia coli

Sarah C. Feid, Hanna E. Walukiewicz, Xiaoyi Wang, Ernesto Nakayasu, Christopher V. Rao, Alan J. Wolfe

2022mBio32 citationsDOIOpen Access PDF

Abstract

Numerous cellular processes are regulated in response to the metabolic state of the cell. One such regulatory mechanism involves lysine acetylation, a covalent modification involving the transfer of an acetyl group from central metabolite acetyl-coenzyme A or acetyl phosphate to a lysine residue in a protein. This posttranslational modification is known to regulate some central metabolic enzymes and transcription factors in bacteria, though a comprehensive understanding of its effect on cellular physiology is still lacking. In the present study, lysine acetylation was also found to inhibit translation in Escherichia coli by impeding ribosome association, most likely by disrupting salt bridges along the binding interface of the 30S and 50S ribosomal subunits. These results further our understanding of lysine acetylation by uncovering protein synthesis as a new target of regulation and aid in the design of bacteria for biotechnology applications where the growth conditions are known to promote lysine acetylation.

Topics & Concepts

AcetylationEscherichia coliLysineTranslation (biology)Escherichia coli ProteinsChemistryComputational biologyMicrobiologyBiochemistryBiologyAmino acidGeneMessenger RNARNA and protein synthesis mechanismsRNA modifications and cancerEnzyme Structure and Function
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