理化条件对食品中乳酸菌存活率的影响

B. Sionek, A. Szydłowska, M. Trząskowska, D. Kołożyn-Krajewska
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摘要

几个世纪以来,乳酸菌(LAB)因其多种优势特性一直被用于食品生产。自发发酵是最古老的食品保存方法之一,而乳酸菌在其中发挥着重要作用。酵母菌在各种食品中的存活率和活力非常重要。在工艺过程中,外部理化应激因素往往会同时出现。为确保 LAB 的存活,应考虑调整最佳理化条件。应针对特定的食品基质和所涉及的工艺流程精心选择 LAB 菌株。酵母菌对不同环境压力的适应能力包括不同的压力防御机制,包括适应现象和交叉保护。酵母菌对人类健康的积极作用和影响近来已得到证实,这使得酵母菌成为食品工业中最受欢迎的微生物之一。充分了解酵母菌的防御和适应机制,既能优化食品生产和储存条件,又能获得对压力耐受性更强的酵母菌株。希望天然存在或添加了酵母菌的最终食品能达到卓越的质量和安全性,并带来符合消费者期望的健康益处。
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The Impact of Physicochemical Conditions on Lactic Acid Bacteria Survival in Food Products
Lactic acid bacteria (LAB), due to their many advantageous features, have been utilized in food manufacturing for centuries. Spontaneous fermentation, in which LAB play a fundamental role, is one of the oldest methods of food preservation. LAB survival and viability in various food products are of great importance. During technological processes, external physicochemical stressors appear often in combinations. To ensure the survival of LAB, adjustment of optimal physicochemical conditions should be considered. LAB strains should be carefully selected for particular food matrices and the technological processes involved. The LAB’s robustness to different environmental stressors includes different defense mechanisms against stress, including the phenomenon of adaptation, and cross-protection. Recently established positive health effects and influence on human wellbeing have caused LAB to be some of the most desirable microorganisms in the food industry. A good understanding of LAB defense and adaptation mechanisms can lead to both optimization of food production and storage conditions, as well as to obtaining LAB strains with increased tolerance to stressors. Hopefully, as a result, the final food product with naturally present or added LAB can achieve outstanding quality and safety with health benefits that meet consumer expectations.
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