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Reference: Aiewsakun, P and Katzourakis, A, (2016). Time-dependent rate phenomenon in viruses. Journal of Virology, 90 (16), 7184-7195.Citable link to this page:

 

Time-dependent rate phenomenon in viruses.

Abstract: Among the most fundamental questions in viral evolutionary biology are how fast viruses evolve and how their rates vary among viruses and fluctuate through time. Traditionally, viruses are loosely classed into two groups: slow-evolving DNA viruses and fast-evolving RNA viruses. As viral evolutionary rate estimates become more available, it appears that the rates are negatively correlated with the measurement timescales, and that the boundary between the rates of DNA and RNA viruses might not be as clear as previously thought. In this study, we collected 396 viral evolutionary rate estimates across almost all viral genome types and replication strategies, and examined their rate dynamics. We showed that the time-dependent rate phenomenon exists across multiple levels of viral taxonomy, from the Baltimore classification viral groups to genera. We also showed that, by taking the rate-decay dynamics into account, a clear division between the rates of DNA and RNA as well as reverse-transcribing viruses could be recovered. Surprisingly, despite large differences in their biology, our analyses suggested that the rate-decay speed is independent of viral types, and thus it might be useful for better estimation of the evolutionary timescale of any virus. To illustrate this, we used our model to re-estimate evolutionary timescales of extant lentiviruses, which were previously suggested to be very young by standard phylogenetic analyses. Our analyses suggested that they are millions of years old, consistent with paleovirological evidence, and therefore for the first time, reconciled molecular analyses of ancient and extant viruses.This work provides direct evidence that viral evolutionary rate estimates decay with their measurement timescales, and that the rate-decay speeds do not differ significantly among viruses despite the vast differences in their molecular features. With the rate-decay dynamics adjusted for, the division between the rates of dsDNA, ssRNA, and ssDNA/reverse-transcribing viruses could be seen more clearly than before. Our results provide a guideline for further improvement of molecular clock. As a demonstration of this, we used our model to re-estimate the timescales of modern lentiviruses, which were previously thought to be very young, to be millions of years old. This result matches the estimate from paleovirological analyses, thus bridging the gap between ancient and extant viral evolutionary studies.

Peer Review status:Peer reviewedPublication status:PublishedVersion:Accepted manuscriptNotes:Copyright © 2016 Aiewsakun and Katzourakis. This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license.

Bibliographic Details

Publisher: American Society for Microbiology

Publisher Website: http://www.asm.org/

Journal: Journal of Virologysee more from them

Publication Website: http://jvi.asm.org/

Volume: 90

Issue: 16

Extent: 7184-7195

Issue Date: 2016-06-01

Article Number:

pages:7184-7195Identifiers

Urn: uuid:9de6e696-9cf9-49ac-967e-bbb4619560b3

Source identifier: 625653

Eissn: 1098-5514

Doi: https://doi.org/10.1128/JVI.00593-16

Issn: 0022-538X Item Description

Type: Journal article;

Language: eng

Version: Accepted manuscriptKeywords: short-term long-term rate discrepancy time-dependent rate phenomenon rate of viral evolution power law Tiny URL: pubs:625653

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Autor: Aiewsakun, P - institutionUniversity of Oxford Oxford, MPLS, Zoology fundingRoyal Thai Government - - - Katzourakis, A - institut

Fuente: https://ora.ox.ac.uk/objects/uuid:9de6e696-9cf9-49ac-967e-bbb4619560b3



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