Endogenous hydrogen sulfide (H 2 S) renders bacteria highly resistant to oxidative stress, but its mechanism remains poorly understood. Here, we report that 3-mercaptopyruvate sulfurtransferase (3MST) is the major source of endogenous H 2 S in Escherichia coli. Cellular resistance to H 2 O 2 strongly depends on the activity of mstA, a gene that encodes 3MST. Deletion of the ferric uptake regulator (Fur) renders ΔmstA cells hypersensitive to H 2 O 2 . Conversely, induction of chromosomal mstA from a strong pLtetO-1 promoter (P tet -mstA) renders Δfur cells fully resistant to H 2 O 2 . Furthermore, the endogenous level of H 2 S is reduced in Δfur or ΔsodA ΔsodB cells but restored after the addition of an iron chelator dipyridyl. Using a highly sensitive reporter of the global response to DNA damage (SOS) and the TUNEL assay, we show that 3MST-derived H 2 S protects chromosomal DNA from oxidative damage. We also show that the induction of the CysB regulon in response to oxidative stress depends on 3MST, whereas the CysB-regulated L-cystine transporter, TcyP, plays the principle role in the 3MST-mediated generation of H 2 S. These findings led us to propose a model to explain the interplay between L-cysteine metabolism, H 2 S production, and oxidative stress, in which 3MST protects E. coli against oxidative stress via L-cysteine utilization and H 2 S-mediated sequestration of free iron necessary for the genotoxic Fenton reaction.hydrogen sulfide | oxidative stress | cysteine | sulfur metabolism | antibiotics
The mercury-resistance transposon Tn5053 inhibits restriction activity of the type I restriction-modification endonuclease EcoKI in Escherichia coli K12 cells. This is the first report of antirestriction activity of a non-conjugative transposon. The gene (ardD) coding for the antirestriction protein has been cloned. The ardD gene is located within the tniA gene, coding for transposase, on the complementary strand. The direction of transcription is opposite to transcription of the tniA gene.
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