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A Proteomic View of Salmonella Typhimurium in Response to Phosphate Limitation.
Proteomes 2018 April 26
Salmonella enterica serovar Typhimurium ( S. Typhimurium), an important foodborne pathogen, often encounters phosphate (Pi ) shortage both in the environment and inside host cells. To gain a global view on its physiological responses to Pi starvation, we performed proteomic profiling of S. Typhimurium upon the shift from Pi -rich to Pi -low conditions. In addition to the Pho regulon, many metabolic processes were up-regulated, such as glycolysis, pentose phosphate pathway, pyrimidine degradation, glycogen, and trehalose metabolism, allowing us to chart an overview of S. Typhimurium carbon metabolism under Pi starvation. Furthermore, proteomic analysis of a mutant lacking phoB (that encodes a key regulator of Pi shortage response) suggested that only a small subset of the altered proteins upon Pi limitation was PhoB-dependent. Importantly, we present evidence that S. Typhimurium N -acetylglucosamine catabolism was induced under Pi -limiting conditions in a PhoB-dependent manner. Immunoblotting and β-galactosidase assays demonstrated that PhoB was required for the full activation of NagB, a key enzyme of this pathway, in response to low Pi . Thus, our study reveals that N -acetylglucosamine catabolism may represent an additional PhoB-regulated pathway to tackle bacterial Pi shortage.
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