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生长温度对主要食源性病原体耐热性的影响。

Influence of growth temperature on thermal tolerance of leading foodborne pathogens.

作者信息

Kim Chyer, Alrefaei Rana, Bushlaibi Mariam, Ndegwa Eunice, Kaseloo Paul, Wynn Crystal

机构信息

Agricultural Research Station Virginia State University Petersburg VA USA.

Department of Biology Virginia State University Petersburg VA USA.

出版信息

Food Sci Nutr. 2019 Nov 16;7(12):4027-4036. doi: 10.1002/fsn3.1268. eCollection 2019 Dec.

DOI:10.1002/fsn3.1268
PMID:31890183
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6924311/
Abstract

Accurate prediction of the thermal destruction rate of foodborne pathogens is important for food processors to ensure proper food safety. When bacteria are subjected to thermal stress during storage, sublethal stresses and/or thermal acclimation may lead to differences in their subsequent tolerance to thermal treatment. The aim of the current study was to evaluate the thermal tolerance of O157:H7, , , and that are incubated during overnight growth in tryptic soy broth at four temperatures (15, 25, 35, and 45°C). Following incubation, the bacteria were subjected to thermal treatments at 55, 60, and 65°C. At the end of each treatment time, bacterial survival was quantified and further calculated for the thermal death decimal reduction time (value) and thermal destruction temperature (value) using a linear model for thermal treatment time (min) vs. microbial population (Log CFU/ml) and thermal treatment temperature (°C) vs. value, respectively, for each bacterium. Among the four bacterial species, generally had longer values and lower values than did other bacteria. Increasing patterns of and values in were obtained with the increment of incubation temperatures from 15 to 45°C. The values of (6.19°C), (6.73°C), (7.10°C), and (7.26°C) were the highest at 15, 25, 35, and 45°C, respectively. Although further research is needed to validate the findings on food matrix, findings in this study clearly affirm that adaptation of bacteria to certain stresses may reduce the effectiveness of preservation hurdles applied during later stages of food processing and storage.

摘要

准确预测食源性病原体的热破坏率对于食品加工商确保适当的食品安全至关重要。当细菌在储存过程中受到热应激时,亚致死应激和/或热适应可能导致它们随后对热处理的耐受性存在差异。本研究的目的是评估在胰蛋白胨大豆肉汤中于四个温度(15、25、35和45°C)过夜培养的O157:H7等细菌的热耐受性。培养后,将细菌在55、60和65°C下进行热处理。在每个处理时间结束时,对细菌存活率进行定量,并分别使用热处理时间(分钟)与微生物数量(Log CFU/ml)以及热处理温度(°C)与每个细菌的热死亡十倍减少时间(值)和热破坏温度(值)的线性模型进一步计算热死亡十倍减少时间(值)和热破坏温度(值)。在这四种细菌中,一般比其他细菌具有更长的值和更低的值。随着培养温度从15°C升高到45°C,在中获得了和值的增加模式。在15、25、35和45°C时,(6.19°C)、(6.73°C)、(7.10°C)和(7.26°C)的值分别最高。尽管需要进一步研究来验证在食品基质上的发现,但本研究的结果清楚地证实,细菌对某些应激的适应可能会降低食品加工和储存后期应用的保鲜障碍的有效性。

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