Phylogeographical and evolutionary history of variola major virus; a question of timescales?

Le infezioni in medicina : rivista periodica di eziologia, epidemiologia, diagnostica, clinica e terapia delle patologie infettive Pub Date : 2020-12-14 DOI:10.20944/preprints202012.0310.v1

A. Bergna, C. Ventura, Rossella Marzo, M. Ciccozzi, M. Galli, G. Zehender, A. Lai

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引用次数: 4

Abstract

Aim of this study was to reconstruct the phylogeography of variola virus (VARV) in the XX century, using 47 VARV whole genome sequences available in public databases, through two different methods for ancestral character reconstruction: a frequently used Bayesian framework and a fast maximum-likelihood (ML) based method. The substitution rate of the whole VARV genome was estimated to be between 6.7×10-6 and 1.1×10-5 substitutions/site/year. Both ML and Bayesian methods gave similar trees topology, showing two distinct monophyletic groups: one (known as P1) including the great part of variola major and the second (P2) including West African and American (variola minor) isolates and close evolutionary rate estimations, between 6.73×10-6 and 1.1×10-5 for the whole genome. The phylogeographical reconstruction of P1 suggested that the common ancestor of the variola major circulating in the Old World between the 1940s and the 1970s most probably originated in the Far East in the first decades of the XX century, and then spread to Indian subcontinent in the 1920s. India represented a center of further spread of VARV to eastern Africa in the 1940s and to the Middle East in the 1960s. The phylogeographic scenario obtained by the maximum-likelihood based method was congruent with that obtained by Bayesian framework, but the analysis was faster indicating the usefulness of this method in the analyses of large viral genomes. Our results may help to explain the controversial reconstructions of the history of VARV obtained using long or short timescale for calibration.

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大天花病毒的系统地理和进化历史时间尺度的问题?

本研究的目的是利用公共数据库中的47个VARV全基因组序列，通过两种不同的祖先特征重建方法:常用的贝叶斯框架和快速的基于最大似然(ML)的方法，重建20世纪的VARV病毒(VARV)的系统地理。整个VARV基因组的替代率估计在6.7×10-6和1.1×10-5之间的替代/位点/年。ML和Bayesian方法都给出了相似的树拓扑，显示了两个不同的单系群体:一个(称为P1)包括大部分大天花病毒，第二个(P2)包括西非和美洲(小天花病毒)分离株，整个基因组的进化率估计在6.73×10-6和1.1×10-5之间。P1的系统地理学重建表明，20世纪40年代至70年代在旧大陆传播的大天花的共同祖先很可能起源于20世纪头几十年的远东地区，然后在20世纪20年代传播到印度次大陆。印度是VARV在20世纪40年代向东非和60年代向中东进一步传播的中心。基于最大似然的方法得到的系统地理情景与贝叶斯框架得到的系统地理情景一致，但分析速度更快，表明该方法在大型病毒基因组分析中的实用性。我们的结果可能有助于解释使用长或短时间尺度进行校准获得的VARV历史的有争议的重建。

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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Le infezioni in medicina : rivista periodica di eziologia, epidemiologia, diagnostica, clinica e terapia delle patologie infettive

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