B. L. Waite scite author profile

B. L. Waite

2Publications

12Citation Statements Received

75Citation Statements Given

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Conagra Brands (United States), University of Nebraska–Lincoln

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Bacteriocin inhibition of two glucose transport systems in Listeria monocytogenes

Waite

Siragusa²,

Hutkins³

1998

J Appl Microbiol

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Listeria monocytogenes transports glucose by proton motive force-mediated and phosphoenolpyruvate-dependent phosphotransferase systems (PEP-dependent PTS). Inhibition of both systems by nisin, pediocin JD and leuconosin S is reported here for four strains of L. monocytogenes. Intracellular and extracellular adenosine triphosphate (ATP) and extracellular inorganic phosphate were measured in energized L. monocytogenes Scott A cells to determine whether inhibition of the PEP-dependent PTS might occur as a result of bacteriocin-induced leakage of intracellular components. Addition of nisin resulted in a decrease in intracellular ATP with an increase in extracellular ATP. Leuconosin S and pediocin JD induced a depletion of intracellular ATP. ATP efflux was low for the leuconosin S-treated cells and barely detectable for pediocin JD-treated cells. Addition of nisin, leuconosin S and pediocin JD induced efflux of inorganic phosphate. It appears that bacteriocin-mediated inhibition of the glucose PEP-dependent PTS occurs as a result of hydrolysis or efflux of ATP, PEP and other essential molecules from L. monocytogenes cells.

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Bacteriocins inhibit glucose PEP:PTS activity in Listeria monocytogenes by induced efflux of intracellular metabolites

Waite

Hutkins

1998

J Appl Microbiol

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Glucose transport by the phosphoenolpyruvate (PEP)-dependent phosphotransferase system (PTS) of listeria monocytogenes is inhibited by the bacteriocins, nisin, pediocin JD and leuconocin S. To investigate the mechanism of inhibition, PTS activity assays were performed with permeabilized, bacteriocin-treated L. monocytogens Scott A cells. In the presence of exogenous PEP, nisin stimulated the PTS while both pediocin JD and leuconocin S partially inhibited its activity. These results suggested that PTS enzymes were still active in bacteriocin-treated cells and the bacteriocin-induced PEP efflux may be a mechanism for inhibition of the PTS. To verify that PEP did efflux from bacteriocin-treated L. monocytogens Scott A cells, intracellular and extracellular PEP were measured by HPLC. All three bacteriocins induced efflux of PEP. Nisin, pediocin JD and leuconocin S also induced efflux of AMP, ADP and ATP. These studies indicate that bacteriocin inhibition of the glucose PEP:PTS in L. monocytogenes is due to efflux of intracellular metabolites, particularly

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B. L. Waite

Bacteriocin inhibition of two glucose transport systems in Listeria monocytogenes

Bacteriocins inhibit glucose PEP:PTS activity in Listeria monocytogenes by induced efflux of intracellular metabolites

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