期刊
CRITICAL REVIEWS IN FOOD SCIENCE AND NUTRITION
卷 63, 期 13, 页码 1806-1821出版社
TAYLOR & FRANCIS INC
DOI: 10.1080/10408398.2023.2169245
关键词
Foodborne bacteria; the toxic ROS; central carbon metabolic flux; reconfiguration
This review provides an update and comprehensive overview of the reconfiguration of central carbon metabolism (CCM) in foodborne bacteria under toxic reactive oxygen species (toxROS) stresses. Two types of toxROS, exogenous and endogenous toxROS, are introduced. The three main CCM pathways in foodborne bacteria under toxROS stress, glycolysis (EMP), pentose phosphate pathway (PPP), and tricarboxylic acid cycle (TCA), are highlighted, along with energy metabolisms throughout these pathways. Challenges and future work in this area are suggested.
The toxic reactive oxygen species (toxROS) is the reactive oxygen species (ROS) beyond the normal concentration of cells, which has inactivation and disinfection effects on foodborne bacteria. However, foodborne bacteria can adapt and survive by physicochemical regulation of antioxidant systems, especially through central carbon metabolism (CCM), which is a significant concern for food safety. It is thus necessary to study the antioxidant regulation mechanisms of CCM in foodborne bacteria under toxROS stresses. Therefore, the purpose of this review is to provide an update and comprehensive overview of the reconfiguration of CCM fluxes in foodborne bacteria that respond to different toxROS stresses. In this review, two key types of toxROS including exogenous toxROS (exo-toxROS) and endogenous toxROS (endo-toxROS) are introduced. Exo-toxROS are produced by disinfectants, such as H2O2 and HOCl, or during food non-thermal processing such as ultraviolet (UV/UVA), cold plasma (CP), ozone (O-3), electrolyzed water (EW), pulsed electric field (PEF), pulsed light (PL), and electron beam (EB) processing. Endo-toxROS are generated by bioreagents such as antibiotics (aminoglycosides, quinolones, and beta-lactams). Three main pathways for CCM in foodborne bacteria under the toxROS stress are also highlighted, which are glycolysis (EMP), pentose phosphate pathway (PPP), and tricarboxylic acid cycle (TCA). In addition, energy metabolisms throughout these pathways are discussed. Finally, challenges and future work in this area are suggested. It is hoped that this review should be beneficial in providing insights for future research on bacterial antioxidant CCM defence under both exo-toxROS stresses and endo-toxROS stresses.
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