Propionibacterium freudenreichii subsp. shermanii is known to prevent mutations caused by various agents such as N-methyl-N'-nitro-N-nitrosoguanidine, 9-aminoacridine, 4-nitro-quinoline-1-oxide and by UV radiation in both prokaryotic and eukaryotic cells. It was also shown to prevent or repair damage caused by H(2)O(2) or UV radiation in Salmonella typhimurium and Escherichia coli, a characteristic previously designated as reactivative effect. In order to characterise this effect at the molecular level, we have purified the active component from a P. freudenreichii cell-free extract using a combination of ammonium sulfate precipitation, anion-exchange and size-exclusion chromatography. The isolated 35 kDa protein was then identified using both N-terminal and internal peptide sequencing as a cysteine synthase. The latter was localised in the P. freudenreichii proteomic map. It is constitutively expressed but also clearly induced during adaptation to detergent and heat, but not acid, stresses. The biological meaning of cysteine synthase in the context of adaptation to oxidative and non-oxidative stresses is discussed.
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Article Synopsis
- Managing bacterial infections like Salmonella enterica in livestock is crucial for animal health and food safety, and direct-fed microbials (DFM) can help mitigate these issues.
- A study tested a multispecies DFM's ability to reduce S. Typhimurium invasion in human intestinal cells, showing a significant 90.8% reduction in bacterial invasion and viability.
- Additionally, the DFM exhibited antagonistic effects against S. Dublin and supported intestinal cell integrity in various conditions, with higher doses being more effective against challenges like hydrogen peroxide.
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