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Literature DB >> 16771667

The many faces of glutathione in bacteria.

Lluis Masip¹, Karthik Veeravalli, George Georgiou.

Abstract

Glutathione is one of the most abundant thiols present in cyanobacteria and proteobacteria, and in all mitochondria or chloroplast-bearing eukaryotes. In bacteria, in addition to its key role in maintaining the proper oxidation state of protein thiols, glutathione also serves a key function in protecting the cell from the action of low pH, chlorine compounds, and oxidative and osmotic stresses. Moreover, glutathione has emerged as a posttranslational regulator of protein function under conditions of oxidative stress, by the direct modification of proteins via glutathionylation. This review summarizes the biosynthesis and function of glutathione in bacteria from physiological and biotechnological standpoints.

Entities: Chemical

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Year: 2006 PMID： 16771667 DOI： 10.1089/ars.2006.8.753

Source DB: PubMed Journal: Antioxid Redox Signal ISSN： 1523-0864 Impact factor: 8.401

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Cited

142 in total

1. Interplay between drug efflux and antioxidants in Escherichia coli resistance to antibiotics.

Authors: Girija Dhamdhere; Ganesh Krishnamoorthy; Helen I Zgurskaya
Journal: Antimicrob Agents Chemother Date: 2010-09-27 Impact factor: 5.191

2. Direct measurement of mercury(II) removal from organomercurial lyase (MerB) by tryptophan fluorescence: NmerA domain of coevolved γ-proteobacterial mercuric ion reductase (MerA) is more efficient than MerA catalytic core or glutathione .

Authors: Baoyu Hong; Rachel Nauss; Ian M Harwood; Susan M Miller
Journal: Biochemistry Date: 2010-09-21 Impact factor: 3.162

3. Genome-wide analysis on Chlamydomonas reinhardtii reveals the impact of hydrogen peroxide on protein stress responses and overlap with other stress transcriptomes.

Authors: Ian K Blaby; Crysten E Blaby-Haas; María Esther Pérez-Pérez; Stefan Schmollinger; Sorel Fitz-Gibbon; Stéphane D Lemaire; Sabeeha S Merchant
Journal: Plant J Date: 2015-12 Impact factor: 6.417

4. High coverage metabolomics analysis reveals phage-specific alterations to Pseudomonas aeruginosa physiology during infection.

Authors: Jeroen De Smet; Michael Zimmermann; Maria Kogadeeva; Pieter-Jan Ceyssens; Wesley Vermaelen; Bob Blasdel; Ho Bin Jang; Uwe Sauer; Rob Lavigne
Journal: ISME J Date: 2016-02-16 Impact factor: 10.302

10. The Staphylococcus aureus leucine aminopeptidase is localized to the bacterial cytosol and demonstrates a broad substrate range that extends beyond leucine.

Authors: Ronan K Carroll; Florian Veillard; Danielle T Gagne; Jarrod M Lindenmuth; Marcin Poreba; Marcin Drag; Jan Potempa; Lindsey N Shaw
Journal: Biol Chem Date: 2013-06 Impact factor: 3.915

The many faces of glutathione in bacteria.

1. Interplay between drug efflux and antioxidants in Escherichia coli resistance to antibiotics.

2. Direct measurement of mercury(II) removal from organomercurial lyase (MerB) by tryptophan fluorescence: NmerA domain of coevolved γ-proteobacterial mercuric ion reductase (MerA) is more efficient than MerA catalytic core or glutathione .

3. Genome-wide analysis on Chlamydomonas reinhardtii reveals the impact of hydrogen peroxide on protein stress responses and overlap with other stress transcriptomes.

4. High coverage metabolomics analysis reveals phage-specific alterations to Pseudomonas aeruginosa physiology during infection.

5. Deciphering the Function of New Gonococcal Vaccine Antigens Using Phenotypic Microarrays.

6. Laboratory evolution of glutathione biosynthesis reveals natural compensatory pathways.

7. Synthesis of bacillithiol and the catalytic selectivity of FosB-type fosfomycin resistance proteins.

8. Preparation of N-tBoc L-glutathione dimethyl and di-tert-butyl esters: versatile synthetic building blocks.

9. Functional plasticity of a peroxidase allows evolution of diverse disulfide-reducing pathways.

10. The Staphylococcus aureus leucine aminopeptidase is localized to the bacterial cytosol and demonstrates a broad substrate range that extends beyond leucine.