K M Aljarallah1, M R Adams. 1. School of Biomedical and Molecular Sciences, University of Surrey, Guildford, Surrey, UK.
Abstract
AIMS: To determine the effect of reduced water activity (a(w)) on thermal inactivation of Salmonella serotype Typhimurium at different temperatures and its mechanism. METHODS AND RESULTS: D-value determinations at a range of different temperatures showed that heating at reduced a(w) (0.94, produced by addition of glucose or sodium chloride to nutrient broth) was protective at temperatures above 53-55 degrees C but sensitizing below this temperature. Using selective enumeration media to determine injury, it was shown that at lower heating temperatures cells survived at high a(w) with cytoplasmic injury whereas at low a(w) these cells were killed. At higher temperatures ribosome degradation was a more important cause of death and was inhibited by low a(w) heating media thereby providing greater heat resistance. CONCLUSIONS: The observed change in behaviour reflects the different reactions responsible for thermal death at different temperatures and their different response to reduced a(w). SIGNIFICANCE AND IMPACT OF THE STUDY: This work qualifies the previous assumption that reduced a(w) is protective and suggests that the efficacy of low temperature pasteurization regimes may be increased by reduced a(w).
AIMS: To determine the effect of reduced water activity (a(w)) on thermal inactivation of Salmonella serotype Typhimurium at different temperatures and its mechanism. METHODS AND RESULTS: D-value determinations at a range of different temperatures showed that heating at reduced a(w) (0.94, produced by addition of glucose or sodium chloride to nutrient broth) was protective at temperatures above 53-55 degrees C but sensitizing below this temperature. Using selective enumeration media to determine injury, it was shown that at lower heating temperatures cells survived at high a(w) with cytoplasmic injury whereas at low a(w) these cells were killed. At higher temperatures ribosome degradation was a more important cause of death and was inhibited by low a(w) heating media thereby providing greater heat resistance. CONCLUSIONS: The observed change in behaviour reflects the different reactions responsible for thermal death at different temperatures and their different response to reduced a(w). SIGNIFICANCE AND IMPACT OF THE STUDY: This work qualifies the previous assumption that reduced a(w) is protective and suggests that the efficacy of low temperature pasteurization regimes may be increased by reduced a(w).
Authors: Yumin Xu; Ahmed G Abdelhamid; Anice Sabag-Daigle; Michael G Sovic; Brian M M Ahmer; Ahmed E Yousef Journal: Front Cell Infect Microbiol Date: 2022-06-14 Impact factor: 6.073