Sensing and regulation of reactive sulfur species (RSS) in bacteria

Sensing and regulation of reactive sulfur species (RSS) in bacteria

The infected host deploys generalized oxidative stress caused by small inorganic reactive molecules as antibacterial weapons. An emerging consensus is that hydrogen sulfide (H2S) and forms of sulfur with sulfur–sulfur bonds termed reactive sulfur species (RSS) provide protection against oxidative st...

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Veröffentlicht in:Current opinion in chemical biology 2023-10, Vol.76, p.102358-102358, Article 102358
Hauptverfasser: Giedroc, David P., Antelo, Giuliano T., Fakhoury, Joseph N., Capdevila, Daiana A.
Format: Artikel
Sprache:eng
Schlagworte:
Bacteria
Cysteine thiol
Hydrogen Sulfide
Oxidation-Reduction
Oxidative Stress
Persulfide
Persulfide sensor
Reactive sulfur species
Sulfur - chemistry
Transcriptional regulation
Transpersulfidation
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Zusammenfassung:The infected host deploys generalized oxidative stress caused by small inorganic reactive molecules as antibacterial weapons. An emerging consensus is that hydrogen sulfide (H2S) and forms of sulfur with sulfur–sulfur bonds termed reactive sulfur species (RSS) provide protection against oxidative stressors and antibiotics, as antioxidants. Here, we review our current understanding of RSS chemistry and its impact on bacterial physiology. We start by describing the basic chemistry of these reactive species and the experimental approaches developed to detect them in cells. We highlight the role of thiol persulfides in H2S-signaling and discuss three structural classes of ubiquitous RSS sensors that tightly regulate cellular H2S/RSS levels in bacteria, with a specific focus on the chemical specificity of these sensors.
ISSN:1367-5931
1879-0402
1879-0402
DOI:10.1016/j.cbpa.2023.102358