解码巨型噬菌体的多样性:拉克巨型噬菌体的分类法。

IF 3.6 4区 医学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Ryan Cook, Marco A Crisci, Hannah V Pye, Andrea Telatin, Evelien M Adriaenssens, Joanne M Santini
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引用次数: 0

摘要

对未培养病毒的高通量测序加快了人们对全球病毒多样性的了解,并发现了比迄今为止培养的病毒大得多的病毒基因组。值得注意的是,拉克噬菌体是一个神秘的病毒群,在人类和动物微生物组中发现了一些已知最大的噬菌体基因组,它们与任何栽培病毒都不同。尽管测序数据集中存在丰富的病毒多样性,但未培养的病毒很少被用于分类学分类。我们研究了 23 种湖泊噬菌体的进化关系,并提出了分类方法。蛋白质预测分析表明,Lak噬菌体在Caudoviricetes类中形成了一个分支很深的单系支系,该支系不包含其他噬菌体基因组。该支系的一个有趣特点是,目前的所有成员都具有另一种遗传密码。我们建议拉克噬菌体属于一个新的纲--"Grandevirales"。基于蛋白质和核苷酸的分析支持在 "Grandevirales "目中建立两个科、三个亚科和四个属。我们预计,所提出的拉克巨型病毒分类法将简化未来发现的相关病毒基因组的分类。继续努力对不同的病毒进行分类对于帮助病毒基因组和元基因组的共同分析至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Decoding huge phage diversity: a taxonomic classification of Lak megaphages.

High-throughput sequencing for uncultivated viruses has accelerated the understanding of global viral diversity and uncovered viral genomes substantially larger than any that have so far been cultured. Notably, the Lak phages are an enigmatic group of viruses that present some of the largest known phage genomes identified in human and animal microbiomes, and are dissimilar to any cultivated viruses. Despite the wealth of viral diversity that exists within sequencing datasets, uncultivated viruses have rarely been used for taxonomic classification. We investigated the evolutionary relationships of 23 Lak phages and propose a taxonomy for their classification. Predicted protein analysis revealed the Lak phages formed a deeply branching monophyletic clade within the class Caudoviricetes which contained no other phage genomes. One of the interesting features of this clade is that all current members are characterised by an alternative genetic code. We propose the Lak phages belong to a new order, the 'Grandevirales'. Protein and nucleotide-based analyses support the creation of two families, three sub-families, and four genera within the order 'Grandevirales'. We anticipate that the proposed taxonomy of Lak megaphages will simplify the future classification of related viral genomes as they are uncovered. Continued efforts to classify divergent viruses are crucial to aid common analyses of viral genomes and metagenomes.

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来源期刊
Journal of General Virology
Journal of General Virology 医学-病毒学
CiteScore
7.70
自引率
2.60%
发文量
91
审稿时长
3 months
期刊介绍: JOURNAL OF GENERAL VIROLOGY (JGV), a journal of the Society for General Microbiology (SGM), publishes high-calibre research papers with high production standards, giving the journal a worldwide reputation for excellence and attracting an eminent audience.
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