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诺如病毒对表面的黏附:使用病毒样颗粒研究热力学和分子特性的贡献。

Adhesion of Norovirus to Surfaces: Contribution of Thermodynamic and Molecular Properties Using Virus-Like Particles.

机构信息

Institut sur la nutrition et les aliments fonctionnels, Département des sciences des aliments, Université Laval, Pavillon Paul-Comtois, Quebec, QC, G1V 0A6, Canada.

出版信息

Food Environ Virol. 2021 Sep;13(3):368-379. doi: 10.1007/s12560-021-09471-3. Epub 2021 Mar 23.

DOI:10.1007/s12560-021-09471-3
PMID:33759036
Abstract

The aim of the study was to assess human norovirus and feline calicivirus (FCV) surface free energy, hydrophobicity, and ability to interact with fresh foods and food-contact surfaces. Virus-like particles (VLPs) of human norovirus (GI.1 and GII.4) and FCV were produced, purified, and analyzed for their surface free energy, hydrophobicity, and the total interfacial free energy of interaction [Formula: see text] with lettuce, strawberry, polyethylene, and stainless steel. GII.4 VLPs were further tested for adhesion at different pH, ionic strengths, and temperature. All the VLPs and the test materials showed low surface energies, as well as hydrophobic characters except for GI.1. Nearly all [Formula: see text] values were propitious for spontaneous adhesion. GII.4 VLPs adsorbed almost indifferently to stainless steel, polyethylene, and lettuce. Isoelectric point and high temperature generally promoted adhesion while ionic strength effect was surface-dependant. According to this study, all the materials assessed are of low-energy and hydrophobic nature except GI.1 VLPs. Interfacial free energies of interaction were favorable for spontaneous adhesion ([Formula: see text] < 0) of all VLPs to the test materials, except for GI.1 VLPs to both stainless steel and straweberry. It is also found that norovirus adhesion is more sensitive to physicochemical conditions than to surface character itself.

摘要

本研究旨在评估人类诺如病毒和猫杯状病毒(FCV)的表面自由能、疏水性以及与新鲜食品和食品接触表面相互作用的能力。生产、纯化了人类诺如病毒(GI.1 和 GII.4)和 FCV 的病毒样颗粒(VLPs),并对其表面自由能、疏水性以及与生菜、草莓、聚乙烯和不锈钢的总界面自由能相互作用[公式:见正文]进行了分析。还进一步测试了 GII.4 VLPs 在不同 pH 值、离子强度和温度下的粘附性。除了 GI.1 之外,所有的 VLPs 和测试材料均表现出较低的表面能和疏水性。几乎所有[公式:见正文]值都有利于自发粘附。GII.4 VLPs 几乎可以在不锈钢、聚乙烯和生菜上任意吸附。等电点和高温通常会促进粘附,而离子强度的影响则取决于表面。根据这项研究,除了 GI.1 VLPs 之外,所有评估的材料均具有低能量和疏水性。除了 GI.1 VLPs 对不锈钢和草莓外,所有 VLPs 与测试材料之间的相互作用的界面自由能都有利于自发粘附([公式:见正文] < 0)。此外,还发现诺如病毒的粘附性对物理化学条件比表面特性本身更为敏感。

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引用本文的文献

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Stability of Secondary and Tertiary Structures of Virus-Like Particles Representing Noroviruses: Effects of pH, Ionic Strength, and Temperature and Implications for Adhesion to Surfaces.代表诺如病毒的病毒样颗粒二级和三级结构的稳定性:pH、离子强度和温度的影响以及对表面粘附的意义。
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