病毒宏基因组分类方法及其生物学应用概述

Overview of Virus Metagenomic Classification Methods and Their Biological Applications.

作者信息

Nooij Sam, Schmitz Dennis, Vennema Harry, Kroneman Annelies, Koopmans Marion P G

机构信息

Emerging and Endemic Viruses, Centre for Infectious Disease Control, National Institute for Public Health and the Environment (RIVM), Bilthoven, Netherlands.

Viroscience Laboratory, Erasmus University Medical Centre, Rotterdam, Netherlands.

出版信息

Front Microbiol. 2018 Apr 23;9:749. doi: 10.3389/fmicb.2018.00749. eCollection 2018.

DOI:10.3389/fmicb.2018.00749

PMID:29740407

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5924777/

Abstract

Metagenomics poses opportunities for clinical and public health virology applications by offering a way to assess complete taxonomic composition of a clinical sample in an unbiased way. However, the techniques required are complicated and analysis standards have yet to develop. This, together with the wealth of different tools and workflows that have been proposed, poses a barrier for new users. We evaluated 49 published computational classification workflows for virus metagenomics in a literature review. To this end, we described the methods of existing workflows by breaking them up into five general steps and assessed their ease-of-use and validation experiments. Performance scores of previous benchmarks were summarized and correlations between methods and performance were investigated. We indicate the potential suitability of the different workflows for (1) time-constrained diagnostics, (2) surveillance and outbreak source tracing, (3) detection of remote homologies (discovery), and (4) biodiversity studies. We provide two decision trees for virologists to help select a workflow for medical or biodiversity studies, as well as directions for future developments in clinical viral metagenomics.

摘要

宏基因组学为临床和公共卫生病毒学应用带来了机遇，它提供了一种以无偏倚的方式评估临床样本完整分类组成的方法。然而，所需技术复杂，分析标准尚未形成。这与已提出的大量不同工具和工作流程一起，给新用户带来了障碍。我们在一项文献综述中评估了49种已发表的用于病毒宏基因组学的计算分类工作流程。为此，我们将现有工作流程的方法分解为五个一般步骤进行描述，并评估了它们的易用性和验证实验。总结了先前基准测试的性能得分，并研究了方法与性能之间的相关性。我们指出了不同工作流程在（1）时间受限诊断、（2）监测和疫情源头追踪、（3）远缘同源性检测（发现）以及（4）生物多样性研究方面的潜在适用性。我们为病毒学家提供了两个决策树，以帮助他们选择用于医学或生物多样性研究的工作流程，以及临床病毒宏基因组学未来发展的方向。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5b15/5924777/82210979e3aa/fmicb-09-00749-g0001.jpg

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病毒宏基因组分类方法及其生物学应用概述

Overview of Virus Metagenomic Classification Methods and Their Biological Applications.

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