2020
DOI: 10.1101/2020.03.22.001966
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Structural determinants of persulfide-sensing specificity in a dithiol-based transcriptional regulator

Abstract: 1Cysteine thiol-based transcriptional regulators orchestrate coordinated regulation of redox homeostasis 2 and other cellular processes by "sensing" or detecting a specific redox-active molecule, which in turn 3 activates the transcription of a specific detoxification pathway. The extent to which these sensors are 4 truly specific in cells for a singular class of reactive small molecule stressors, e.g., reactive oxygen or 5 sulfur species, is largely unknown. Here we report novel structural and mechanistic ins… Show more

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Cited by 3 publications
(15 citation statements)
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“…Although the connection between biofilm regulation and H 2 S/RSS homeostasis is largely speculation at this point, H 2 S has been detected in cystic fibrosis sputum, a complex biofilm (111), and H 2 S has been found to promote formation of biofilms by intestinal microbiota while reducing the proliferation of planktonic bacterial cells (112). We recently characterized the biofilm growth-associated repressor, BigR, in A. baumannii as an RSS sensor (20,113), as previously characterized in plant pathogens (114)(115)(116). That work also identified two transcriptional regulators in A. baumannii known or projected to be involved in biofilm regulation that were characterized by significantly increased protein persulfidation mediated by exogenous sulfide (20).…”
Section: Physiological Conditions For the Production Regulation Andmentioning
confidence: 99%
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“…Although the connection between biofilm regulation and H 2 S/RSS homeostasis is largely speculation at this point, H 2 S has been detected in cystic fibrosis sputum, a complex biofilm (111), and H 2 S has been found to promote formation of biofilms by intestinal microbiota while reducing the proliferation of planktonic bacterial cells (112). We recently characterized the biofilm growth-associated repressor, BigR, in A. baumannii as an RSS sensor (20,113), as previously characterized in plant pathogens (114)(115)(116). That work also identified two transcriptional regulators in A. baumannii known or projected to be involved in biofilm regulation that were characterized by significantly increased protein persulfidation mediated by exogenous sulfide (20).…”
Section: Physiological Conditions For the Production Regulation Andmentioning
confidence: 99%
“…These RSS sensors are widespread and have been identified in both Gram-positive and Gram-negative organisms. They include CstR from S. aureus (15,16) and E. faecalis (17), SqrR from Rhodobacter capsulatus (18,113), the SqrR homolog BigR from Xylella fastidiosa (114)(115)(116) and A. baumannii (20), and FisR from Cupriavidus pinatubonensis (19) and A. baumannii (20).…”
Section: Regulatory Sensing Of Rss In Bacteriamentioning
confidence: 99%
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