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Literature DB >> 10605928

Redox sensing by prokaryotic transcription factors.

Abstract

Prokaryotic cells employ redox-sensing transcription factors to detect elevated levels of reactive oxygen species and regulate expression of antioxidant genes. In Escherichia coli, two such transcription factors, OxyR and SoxR, have been well characterized. The OxyR protein contains a thiol-disulfide redox switch to sense hydrogen peroxide. The SoxR protein uses a 2Fe-2S cluster to sense superoxide generated by redox-cycling agents, as well as to sense nitric oxide. Both proteins are turned on and off with very fast kinetics (approximate minutes), allowing rapid cellular responses to oxidative stress. The mechanisms by which these and other prokaryotic proteins sense redox signals have provided useful paradigms for understanding redox signal transduction in eukaryotic cells.

Entities: Chemical Gene Species

Mesh：

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Year: 2000 PMID： 10605928 DOI： 10.1016/s0006-2952(99)00289-0

Source DB: PubMed Journal: Biochem Pharmacol ISSN： 0006-2952 Impact factor: 5.858

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Cited

61 in total

1. Dam- and OxyR-dependent phase variation of agn43: essential elements and evidence for a new role of DNA methylation.

Authors: Anu Wallecha; Vincent Munster; Jason Correnti; Teresa Chan; Marjan van der Woude
Journal: J Bacteriol Date: 2002-06 Impact factor: 3.490

2. Transcription-defective soxR mutants of Escherichia coli: isolation and in vivo characterization.

Authors: Monica Chander; Laura Raducha-Grace; Bruce Demple
Journal: J Bacteriol Date: 2003-04 Impact factor: 3.490

Review 3. Oxidative stress in phenylketonuria: what is the evidence?

Authors: Graziela S Ribas; Angela Sitta; Moacir Wajner; Carmen R Vargas
Journal: Cell Mol Neurobiol Date: 2011-04-23 Impact factor: 5.046

4. Does UVB radiation induce SoxS gene expression in Escherichia coli cells?

Authors: A A Gomes; L M B O Asad; I Felzenszwalb; A C Leitão; A B Silva; H C R Guillobel; N R Asad
Journal: Radiat Environ Biophys Date: 2004-09-14 Impact factor: 1.925

Review 5. Spx-RNA polymerase interaction and global transcriptional control during oxidative stress.

Authors: Peter Zuber
Journal: J Bacteriol Date: 2004-04 Impact factor: 3.490

6. Role of oxidative stress in persister tolerance.

Authors: Yanxia Wu; Marin Vulić; Iris Keren; Kim Lewis
Journal: Antimicrob Agents Chemother Date: 2012-07-09 Impact factor: 5.191

7. A Serratia marcescens OxyR homolog mediates surface attachment and biofilm formation.

Authors: Robert M Q Shanks; Nicholas A Stella; Eric J Kalivoda; Megan R Doe; Dawn M O'Dee; Kira L Lathrop; Feng Li Guo; Gerard J Nau
Journal: J Bacteriol Date: 2007-08-03 Impact factor: 3.490

8. Crystallization and preliminary X-ray crystallographic studies of the oxidative-stress sensor SoxR and its complex with DNA.

Authors: Satoshi Watanabe; Akiko Kita; Kazuo Kobayashi; Yasuhiro Takahashi; Kunio Miki
Journal: Acta Crystallogr Sect F Struct Biol Cryst Commun Date: 2006-11-30

9. Transcriptional response of Escherichia coli to TPEN.

Authors: Tara K Sigdel; J Allen Easton; Michael W Crowder
Journal: J Bacteriol Date: 2006-09 Impact factor: 3.490

10. Nonnative disulfide bond formation activates the σ32-dependent heat shock response in Escherichia coli.

Authors: Alexandra Müller; Jörg H Hoffmann; Helmut E Meyer; Franz Narberhaus; Ursula Jakob; Lars I Leichert
Journal: J Bacteriol Date: 2013-04-12 Impact factor: 3.490