Journal
MOLECULAR MICROBIOLOGY
Volume 91, Issue 4, Pages 790-804Publisher
WILEY
DOI: 10.1111/mmi.12498
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Funding
- National Institutes of Health [AI54959, AI039557, AI052237, AI073971, AI075093, AI077645, AI083646]
- USDA [2009-03579, 2011-67017-30127]
- Veterans Administration [IO1 BX002073]
- Burroughs Wellcome Fund
- Binational Agricultural Research and Development Fund
- [T32 GM008730]
- [AI052066]
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We show that thiols in the 4-cysteine zinc-finger motif of DksA, an RNA polymerase accessory protein known to regulate the stringent response, sense oxidative and nitrosative stress. Hydrogen peroxide- or nitric oxide (NO)-mediated modifications of thiols in the DksA 4-cysteine zinc-finger motif release the metal cofactor and drive reversible changes in the -helicity of the protein. Wild-type and relAspoT mutant Salmonella, but not isogenic dksA-deficient bacteria, experience the downregulation of r-protein and amino acid transport expression after NO treatment, suggesting that DksA can regulate gene expression in response to NO congeners independently of the ppGpp alarmone. Oxidative stress enhances the DksA-dependent repression of rpsM, while preventing the activation of livJ and hisG gene transcription that is supported by reduced, zinc-bound DksA. The inhibitory effects of oxidized DksA on transcription are reversible with dithiothreitol. Our investigations indicate that sensing of reactive species by DksA redox active thiols fine-tunes the expression of translational machinery and amino acid assimilation and biosynthesis in accord with the metabolic stress imposed by oxidative and nitrosative stress. Given the conservation of Cys(114), and neighbouring hydrophobic and charged amino acids in DksA orthologues, phylogenetically diverse microorganisms may use the DksA thiol switch to regulate transcriptional responses to oxidative and nitrosative stress.
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