AI Article Synopsis
- Salmonella enterica, a bacterium responsible for food poisoning and typhoid fever, is increasingly studied due to antibiotic resistance and bioterrorism concerns.
- The research utilized comparative peptidomics to analyze how S. enterica serovar Typhimurium adapts in a macrophage-like environment versus a rich nutrient medium.
- A total of 5,163 peptides from 682 proteins were identified, revealing that cells in the phagosome-mimicking medium showed higher levels of protein degradation products, particularly ribosomal proteins, suggesting potential roles for targeted proteolysis during infection.
Article Abstract
The pathogen Salmonella enterica is known to cause both food poisoning and typhoid fever. Because of the emergence of antibiotic-resistant isolates and the threat of bioterrorism (e.g. contamination of the food supply), there is a growing need to study this bacterium. In this investigation, comparative peptidomics was used to study S. enterica serovar Typhimurium cultured in either a rich medium or in an acidic, low magnesium, and minimal nutrient medium designed to roughly mimic the macrophage phagosomal environment (within which Salmonella are known to survive). Native peptides from cleared cell lysates were enriched by using isopropanol extraction and analyzed by using both LC-MS/MS and LC-FTICR-MS. We identified and quantified 5,163 peptides originating from 682 proteins, and the data clearly indicated that compared with Salmonella cultured in the rich medium, cells cultured in the phagosome-mimicking medium had dramatically higher abundances of a wide variety of protein degradation products, especially from ribosomal proteins. Salmonella from the same cultures were also analyzed using traditional, bottom-up proteomic methods, and when the peptidomics and proteomics data were analyzed together, two clusters of proteins targeted for proteolysis were tentatively identified. Possible roles of targeted proteolysis by phagocytosed Salmonella are discussed.
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| http://dx.doi.org/10.1074/mcp.M600282-MCP200 | DOI Listing |
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