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- Title
Bacteria employ lysine acetylation of transcriptional regulators to adapt gene expression to cellular metabolism.
- Authors
Kremer, Magdalena; Schulze, Sabrina; Eisenbruch, Nadja; Nagel, Felix; Vogt, Robert; Berndt, Leona; Dörre, Babett; Palm, Gottfried J.; Hoppen, Jens; Girbardt, Britta; Albrecht, Dirk; Sievers, Susanne; Delcea, Mihaela; Baumann, Ulrich; Schnetz, Karin; Lammers, Michael
- Abstract
The Escherichia coli TetR-related transcriptional regulator RutR is involved in the coordination of pyrimidine and purine metabolism. Here we report that lysine acetylation modulates RutR function. Applying the genetic code expansion concept, we produced site-specifically lysine-acetylated RutR proteins. The crystal structure of lysine-acetylated RutR reveals how acetylation switches off RutR-DNA-binding. We apply the genetic code expansion concept in E. coli in vivo revealing the consequences of RutR acetylation on the transcriptional level. We propose a model in which RutR acetylation follows different kinetic profiles either reacting non-enzymatically with acetyl-phosphate or enzymatically catalysed by the lysine acetyltransferases PatZ/YfiQ and YiaC. The NAD+-dependent sirtuin deacetylase CobB reverses enzymatic and non-enzymatic acetylation of RutR playing a dual regulatory and detoxifying role. By detecting cellular acetyl-CoA, NAD+ and acetyl-phosphate, bacteria apply lysine acetylation of transcriptional regulators to sense the cellular metabolic state directly adjusting gene expression to changing environmental conditions. The mechanisms underlying adaptation of bacteria to changing environmental conditions remain poorly understood. Here, the authors show bacteria using lysine acetylation of transcriptional regulators to adjust gene expression to changing conditions.
- Subjects
REGULATOR genes; NAD (Coenzyme); GENE expression; ACETYLATION; LYSINE; ESCHERICHIA coli; GENETIC code
- Publication
Nature Communications, 2024, Vol 15, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-024-46039-8