膜张力可能决定最致命的病毒感染。

Membrane tension may define the deadliest virus infection.

作者信息

Rahman Md Mahmudur, Williams Stuart J

机构信息

Department of Mechanical Engineering, University of Louisville, KY, USA.

出版信息

Colloid Interface Sci Commun. 2021 Jan;40:100338. doi: 10.1016/j.colcom.2020.100338. Epub 2020 Nov 23.

DOI:10.1016/j.colcom.2020.100338

PMID:34722169

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8544801/

Abstract

This manuscript describes the potentially significant role of interfacial tension in viral infection. Our hypothesis is based on evidence from drop coalescence hydrodynamics. A change in membrane tension can trigger fusion between the vesicle and cell such that genetic material, like viral RNA, can subsequently be transported to the cell interior. In other cases, RNA may reside near the cell membrane inside the cell, which could make their removal energetically unfavorable because of hydrodynamic interactions between membrane and RNA. Interfacial tension of the virus membrane can be modulated by temperature, among many other factors, of the mucosa layer. We discuss our hypothesis within the scope of recent SARS-CoV-2 studies where temperature-dependent membrane surface tension could be impacted through different atmospheric conditions, air conditioning systems, and the use of masks.

摘要

本手稿描述了界面张力在病毒感染中可能发挥的重要作用。我们的假设基于液滴聚并流体动力学的证据。膜张力的变化可触发囊泡与细胞之间的融合，从而使病毒RNA等遗传物质随后能够转运至细胞内部。在其他情况下，RNA可能存在于细胞内靠近细胞膜的位置，由于膜与RNA之间的流体动力学相互作用，这可能使得它们的去除在能量上不利。病毒膜的界面张力可受到多种因素的调节，其中包括粘膜层的温度。我们在近期关于SARS-CoV-2的研究范围内讨论我们的假设，在这些研究中，温度依赖性膜表面张力可能会受到不同大气条件、空调系统和口罩使用的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b7d1/8544801/137936fbe6b8/ga1_lrg.jpg

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膜张力可能决定最致命的病毒感染。

Membrane tension may define the deadliest virus infection.

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