Application of archaeological concepts to the interpretation of RNA virus quasi species evolution.

IF 1.5 4区 生物学 Q4 Agricultural and Biological Sciences
Ascensión Ariza-Mateos, Celia Perales, Esteban Domingo, Jordi Gómez
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引用次数: 1

Abstract

An enduring problem concerning the evolution of RNA viruses stems from the fact that their long-term rates of evolution (substitutions/ site/year) are lower than those calculated by comparing sequences of isolates collected over short time periods or within a single host (shortterm or intra-host evolution). This inconsistency has been attributed to several reasons, including deviations from the assumption of a molecularclock (constancy of mutational inputs as a function of time) and variations in viral multiplication rates, among others. We previously proposed a non-phylogenetic method for extracting information contained in mRNAs, that cannot be identified from examination of primary sequences alone, and that we called «archaeological» information. In this new approach, mRNAs are of interest as molecules, not for their primary sequence or encoded proteins but for encrypted information established in a remote past. In the present article, we propose that an archaeological approach may also contribute to explain higher short-term than long-term evolution rates in RNA viruses, in this case, by using the archaeological concept of palimpsest. The palimpsest is a record of historical changes, but it is not a successively ordered or a complete record, rather it is the product of two opposing activities, one of writing and rewriting and the other of erasing. In RNA virus quasispecies, the gain or loss of mutations is reflected in changes in the submolar frequency of myriads of variants in the population. The fact that mutation elimination is not always complete, turns viral quasispecies into complex palimpsests of viral variants or sub-populations thereof. Here we relate two main different temporalities of the quasispecies palimpsest (short- and long-term) to the stability of mutations in response to changes related to three components of the virus: the virions, the infected cell and the host cell lineage. Host cell lineage-related viral memory would be mostly irre versible as they are adaptive products to host cell changes. In contrast, memories related to the environment of the virion or responsive to the environment of the infected cell, which is shortterm mutational input, is less constrained provided the alteration in the ancestral information carried by the RNA is only transient. The two intermixed memory components result in two differently contributing mutation rates whose influence in the final result depends on whether the timescales used to take the sequences for comparison are short or long term.

应用考古学概念解释RNA病毒准物种进化。
关于RNA病毒进化的一个长期问题源于这样一个事实,即它们的长期进化速度(取代/位点/年)低于通过比较短期内或在单个宿主内收集的分离株序列(短期或宿主内进化)计算的速度。这种不一致归因于几个原因,包括偏离分子钟的假设(作为时间函数的突变输入恒定)和病毒增殖率的变化等。我们之前提出了一种非系统发育的方法来提取mrna中包含的信息,这些信息不能仅通过检查初级序列来识别,我们称之为“考古”信息。在这种新方法中,mrna作为分子被关注,不是因为它们的初级序列或编码的蛋白质,而是因为在遥远的过去建立的加密信息。在本文中,我们提出考古学方法也可能有助于解释RNA病毒的短期进化率高于长期进化率,在这种情况下,通过使用重写本的考古学概念。重写本是历史变迁的记录,但它不是一个先后有序或完整的记录,而是两种对立活动的产物,一种是书写和重写,另一种是擦除。在RNA病毒准种中,突变的获得或损失反映在种群中无数变异的亚摩尔频率的变化中。突变消除并不总是完全的,这一事实使病毒准种变成了病毒变体或其亚种群的复杂复合体。在这里,我们将准种重写本的两个主要的不同时间性(短期和长期)与突变的稳定性联系起来,以响应与病毒的三个组成部分相关的变化:病毒粒子、受感染细胞和宿主细胞谱系。宿主细胞谱系相关的病毒记忆大部分是不可逆的,因为它们是宿主细胞变化的适应性产物。相比之下,与病毒粒子环境相关的记忆或对受感染细胞环境的响应,即短期突变输入,如果RNA携带的祖先信息的改变只是短暂的,则受限制较少。这两种混合的记忆成分导致两种不同的突变率,其对最终结果的影响取决于用于比较序列的时间尺度是短期的还是长期的。
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
Theoretical Biology Forum
Theoretical Biology Forum 生物-生物学
CiteScore
0.70
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