Background
Salmonella enterica
subsp.
enterica
contains more than 2,600 serovars of which four are of major medical relevance for humans. While the typhoidal serovars (Typhi and Paratyphi A) are human-restricted and cause enteric fever, non-typhoidal
Salmonella
serovars (Typhimurium and Enteritidis) have a broad host range and predominantly cause gastroenteritis.
Methodology/Principle findings
We compared the core proteomes of
Salmonella
Typhi, Paratyphi A, Typhimurium and Enteritidis using contemporary proteomics. For each serovar, five clinical isolates (covering different geographical origins) and one reference strain were grown in vitro to the exponential phase. Levels of orthologous proteins quantified in all four serovars and within the typhoidal and non-typhoidal groups were compared and subjected to gene ontology term enrichment and inferred regulatory interactions. Differential expression of the core proteomes of the typhoidal serovars appears mainly related to cell surface components and, for the non-typhoidal serovars, to pathogenicity.
Conclusions/Significance
Our comparative proteome analysis indicated differences in the expression of surface proteins between
Salmonella
Typhi and Paratyphi A, and in pathogenesis-related proteins between Salmonella Typhimurium and Enteritidis. Our findings may guide future development of novel diagnostics and vaccines, as well as understanding of disease progression.
Mass spectrometry‐based proteomics has been extensively used to map bacterial proteomes, which has led to a better understanding of the molecular mechanisms underlying bacterial infection and bacteria–host interactions. Quantitative proteomics using selected or parallel reaction monitoring is considered one of the most sensitive and specific quantitative MS‐based approaches and has significantly advanced proteome studies of pathogenic bacteria. Here, recent applications of targeted proteomics for bacteria identification, biomarker discovery, and the characterization of bacterial virulence and antimicrobial resistance are reviewed among others. Results of such studies are expected to further contribute to improve the fight against the most common human pathogenic bacteria.
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