Virus Disinfection and Population Genetics: Toward the Control of Waterborne Virus Diseases by Water Engineering

IF 6.4 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Current Pollution Reports Pub Date : 2021-05-07 DOI:10.1007/s40726-021-00189-1

Syun-suke Kadoya, Hiroyuki Katayama, Daisuke Sano

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引用次数: 4

Abstract

Purpose of Review

Major waterborne viruses comprise numerous variants rather than only a master sequence and form a genetically diverse population. High genetic diversity is advantageous for adaptation to environmental changes because the highly diverse population likely includes variants resistant to an adverse effect. Disinfection is a broadly employed tool to inactivate pathogens, but due to virus evolvability, waterborne viruses may not be inactivated sufficiently in currently applied disinfection conditions. Here, by focusing on virus population genetics, we explore possibility and factor of emergence of disinfection sensitivity change.

Recent Findings

To test whether virus population obtains disinfection resistance, the evolutionary experiment developed in the field of population genetics has been applied, indicating the change in disinfection sensitivity. It has been also confirmed that the sensitivity of environmental strains is lower than that of laboratory strains. In some of these studies, genetic diversity within a population less sensitive to disinfection is higher. Researches in virus population genetics have shown the contribution of intra-population genetic diversity to virus population phenotype, so disinfection sensitivity change may attribute to the genetic diversity.

Summary

The research elucidating a relationship between virus evolution and disinfection has only recently begun, but significant information about the relationship has been accumulated. To develop an effective disinfection strategy for the control of waterborne virus spread, we need to clarify whether disinfection practice truly affects virus outbreaks by refining both laboratory and field experiments related to virus evolution in the disinfection-exerted environment.

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病毒消毒与群体遗传学:水工程控制水生病毒病的研究

主要的水传播病毒包括许多变体，而不仅仅是一个主序列，并形成一个遗传多样性的群体。高遗传多样性有利于适应环境变化，因为高度多样化的种群可能包括对不利影响具有抗性的变异。消毒是一种广泛使用的灭活病原体的工具，但由于病毒的可进化性，在目前应用的消毒条件下，水传播病毒可能无法充分灭活。本文从病毒种群遗传学角度出发，探讨消毒敏感性变化的可能性及其产生因素。为了检验病毒群体是否获得消毒抗性，应用了群体遗传学领域发展起来的进化实验，表明了消毒敏感性的变化。也证实了环境菌株的敏感性低于实验室菌株。在其中一些研究中，对消毒不太敏感的人群中的遗传多样性更高。病毒群体遗传学研究表明，群体内遗传多样性对病毒群体表型有一定的影响，因此消毒敏感性的变化可能与遗传多样性有关。阐明病毒进化与消毒之间关系的研究最近才开始，但有关这种关系的重要信息已经积累起来。为了制定有效的消毒策略来控制水传播病毒的传播，我们需要通过完善实验室和现场实验来澄清消毒实践是否真的影响病毒爆发，这些实验与消毒施加环境下的病毒进化有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Current Pollution Reports Environmental Science-Water Science and Technology

CiteScore

12.10

自引率

1.40%

发文量

期刊介绍： Current Pollution Reports provides in-depth review articles contributed by international experts on the most significant developments in the field of environmental pollution.By presenting clear, insightful, balanced reviews that emphasize recently published papers of major importance, the journal elucidates current and emerging approaches to identification, characterization, treatment, management of pollutants and much more.