Control of a Chemical Chaperone by a Universally Conserved ATPase

Overview

Journal iScience

Publisher Cell Press

Date 2024 Jul 12

PMID 38993675

Authors

Hong Jiang

Martin Milanov

Gabriela Jungert

Larissa Angebauer

Clara Flender

Eva Smudde

Fabian Gather

Tanja Vogel

Henning J Jessen

Hans-Georg Koch

Affiliations

Soon will be listed here.

Abstract

The universally conserved YchF/Ola1 ATPases regulate stress response pathways in prokaryotes and eukaryotes. Deletion of YchF/Ola1 leads to increased resistance against environmental stressors, such as reactive oxygen species, while their upregulation is associated with tumorigenesis in humans. The current study shows that in , the absence of YchF stimulates the synthesis of the alternative sigma factor RpoS by a transcription-independent mechanism. Elevated levels of RpoS then enhance the transcription of major stress-responsive genes. In addition, the deletion of increases the levels of polyphosphate kinase, which in turn boosts the production of the evolutionary conserved and ancient chemical chaperone polyphosphate. This potentially provides a unifying concept for the increased stress resistance in bacteria and eukaryotes upon YchF/Ola1 deletion. Intriguingly, the simultaneous deletion of and the polyphosphate-degrading enzyme exopolyphosphatase causes synthetic lethality in , demonstrating that polyphosphate production needs to be fine-tuned to prevent toxicity.

Citing Articles

A Novel Silver-Ruthenium-Based Antimicrobial Kills Gram-Negative Bacteria Through Oxidative Stress-Induced Macromolecular Damage.

Tawiah P, Gaessler L, Anderson G, Oladokun E, Dahl J bioRxiv. 2025; .

PMID: 39803548 PMC: 11722212. DOI: 10.1101/2025.01.03.631245.

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