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Literature DB >> 26690613

You Are What You Eat: Metabolic Control of Bacterial Division.

Abstract

Fluctuations in nutrient availability are a fact of life for bacterial cells in the 'wild'. To survive and compete, bacteria must rapidly modulate cell-cycle processes to accommodate changing nutritional conditions and concomitant changes in cell growth. Our understanding of how this is achieved has been transformed in recent years, with cellular metabolism emerging as a central player. Several metabolic enzymes, in addition to their normal catalytic functions, have been shown to directly modulate cell-cycle processes in response to changing nutrient levels. Here we focus on cell division, the final event in the bacterial cell cycle, and discuss recent compelling evidence connecting division regulation to nutritional status and metabolic activity.

Keywords: FtsZ; cell cycle; cell division; metabolism; moonlighting proteins; nutritional regulation

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Year: 2015 PMID： 26690613 DOI： 10.1016/j.tim.2015.11.007

Source DB: PubMed Journal: Trends Microbiol ISSN： 0966-842X Impact factor: 17.079

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Cited

12 in total

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Review 2. Bacterial Cell Division: Nonmodels Poised to Take the Spotlight.

Authors: Prahathees J Eswara; Kumaran S Ramamurthi
Journal: Annu Rev Microbiol Date: 2017-07-11 Impact factor: 15.500

Review 3. Metabolism Shapes the Cell.

Authors: Anthony M Sperber; Jennifer K Herman
Journal: J Bacteriol Date: 2017-05-09 Impact factor: 3.490

4. Bacterial cell cycle control by citrate synthase independent of enzymatic activity.

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5. Peptide Uptake Is Essential for Borrelia burgdorferi Viability and Involves Structural and Regulatory Complexity of its Oligopeptide Transporter.

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Journal: mBio Date: 2017-12-19 Impact factor: 7.867

6. Suppression of the Escherichia coli dnaA46 mutation by changes in the activities of the pyruvate-acetate node links DNA replication regulation to central carbon metabolism.

Authors: Joanna Tymecka-Mulik; Lidia Boss; Monika Maciąg-Dorszyńska; João F Matias Rodrigues; Lidia Gaffke; Anna Wosinski; Grzegorz M Cech; Agnieszka Szalewska-Pałasz; Grzegorz Węgrzyn; Monika Glinkowska
Journal: PLoS One Date: 2017-04-27 Impact factor: 3.240

10. The conserved actinobacterial transcriptional regulator FtsR controls expression of ftsZ and further target genes and influences growth and cell division in Corynebacterium glutamicum.

Authors: Kim Julia Kraxner; Tino Polen; Meike Baumgart; Michael Bott
Journal: BMC Microbiol Date: 2019-08-05 Impact factor: 3.605