评估血浆活化氯化钠溶液(PAN)对食源性病原体的杀菌活性:灭活机理及在鲭鱼中的应用

IF 7 1区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
Sunna Jyung , Soo-Hwan Kim , Dong-Hyun Kang
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引用次数: 0

摘要

本研究旨在评估血浆活化氯化钠溶液(PAN)对大肠杆菌 O157:H7、鼠伤寒沙门氏菌和李斯特菌的杀菌效果,并将 PAN 用作鲭鱼的盐水腌制溶液。为了增强血浆活化水(PAW)的杀菌效果,用血浆处理 NaCl 溶液(0、3.5、7 和 10%)20 和 40 分钟,生成 PAN。还加入了等离子活化甘油溶液(PAG),以评估水活性对等离子活化的影响及其对微生物活性的影响。理化分析表明,提高 PAN 的氯化钠浓度会导致 pH 值下降、氧化还原电位升高以及 H2O2 和 HOCl 等活性物质水平升高。与 PAW 和 PAG 相比,PAN 表现出更强的抗菌活性,但对单核细胞增多性酵母菌而言,需要 40 分钟的活化时间和超过 20 分钟的处理时间才能显著提高还原率。当 NaCl 浓度较高时,PAN 表现出更强的抗菌活性,这归因于离子强度和活性氯物种的增加。此外,我们还通过评估细胞损伤和改变来评估 PAN 的微生物机制。对三种病原体的共同观察结果是,PAN 会导致细胞膜损伤加剧、膜间酶活性降低、细胞内 ROS 水平升高以及 zeta 电位值变化,而 DNA 损伤仅在 PAN 处理的单核细胞增多性乳酸杆菌中观察到。此外,当 PAW 和 PAN 储存长达四周时,PAN 的功效高于 PAW。10% 的 PAN 对鲭鱼上的食源性病原体也有效,经过 20 分钟的处理后,大肠杆菌 O157:H7 的对数值降低了 3.62,伤寒杆菌的对数值降低了 4.62,单核细胞增生性酵母菌的对数值降低了 3.18,而且不会对质量产生不利影响。我们的研究结果表明了 PAN 的抗菌活性和作用机理,并展示了其在海产品行业中的应用潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Evaluation of the bactericidal activity of plasma-activated NaCl solution (PAN) against foodborne pathogens: Inactivation mechanism and application to mackerel

Evaluation of the bactericidal activity of plasma-activated NaCl solution (PAN) against foodborne pathogens: Inactivation mechanism and application to mackerel
The objective of this study was to assess the bactericidal effect of plasma-activated NaCl solution (PAN) against Escherichia coli O157:H7, Salmonella Typhimurium, and Listeria monocytogenes and apply PAN as a brine salting solution for mackerel. To enhance the bactericidal effect of plasma-activated water (PAW), NaCl solutions (0, 3.5, 7, and 10%) were treated with plasma for 20 and 40 min to generate PAN. Plasma-activated glycerol solution (PAG) was also included to evaluate the influence of water activity on plasma activation and its effect on microbial activity. Physicochemical analysis revealed that elevating the NaCl concentration of PAN led to a decrease in pH, an increase in oxidation–reduction potential, and higher levels of reactive species such as H2O2 and HOCl. PAN showed greater antibacterial activity compared to PAW and PAG, except for L. monocytogenes, where 40 min activation time and treatment time exceeding 20 min was required for significantly higher reduction to occur. PAN exhibited greater antibacterial activity at higher NaCl concentrations, which was attributed to increased ionic strength and reactive chlorine species. Additionally, we evaluated the microbial mechanisms of PAN by assessing cellular damage and alterations. The common observation across the three pathogens was that PAN resulted in increased cell membrane damage, reduced intermembrane enzyme activity, higher intracellular ROS levels, and changes in zeta potential values, while DNA damage was observed only in PAN-treated L. monocytogenes. Furthermore, when PAW and PAN were stored for up to four weeks, PAN showed higher efficacy compared to PAW. 10% PAN was also effective against foodborne pathogens on mackerel, achieving log reductions of 3.62 for E. coli O157:H7, 4.62 for S. Typhimurium, and 3.18 for L. monocytogenes after a 20 min treatment without adversely affecting quality. Our results demonstrated the antibacterial activity and action mechanism of PAN, presenting its potential application in the seafood industry.
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来源期刊
Food Research International
Food Research International 工程技术-食品科技
CiteScore
12.50
自引率
7.40%
发文量
1183
审稿时长
79 days
期刊介绍: Food Research International serves as a rapid dissemination platform for significant and impactful research in food science, technology, engineering, and nutrition. The journal focuses on publishing novel, high-quality, and high-impact review papers, original research papers, and letters to the editors across various disciplines in the science and technology of food. Additionally, it follows a policy of publishing special issues on topical and emergent subjects in food research or related areas. Selected, peer-reviewed papers from scientific meetings, workshops, and conferences on the science, technology, and engineering of foods are also featured in special issues.
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