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How do plant RNA viruses overcome the negative effect of Muller s ratchet despite strong transmission bottlenecks?use asterix (*) to get italics
Guillaume Lafforgue, Marie Lefebvre, Thierry Michon, Santiago F. ElenaPlease use the format "First name initials family name" as in "Marie S. Curie, Niels H. D. Bohr, Albert Einstein, John R. R. Tolkien, Donna T. Strickland"
2024
<p>Muller's ratchet refers to the irreversible accumulation of deleterious mutations in small populations, resulting in a decline in overall fitness. This phenomenon has been extensively observed in experiments involving microorganisms, including bacteriophages and yeast. While the impact of Muller's ratchet on viruses has been largely studied in bacteriophages and animal RNA viruses, its effects on plant RNA viruses remain poorly documented. lant RNA viruses give rise to large and diverse populations that undergo significant bottlenecks during the colonization of distant tissues or through vector-mediated horizontal transmission. In this study, we aim to investigate the role of bottleneck size, the maximum population size between consecutive bottlenecks, and the generation of genetic diversity in countering the effects of Muller's ratchet. We observed three distinct evolutionary outcomes for tobacco etch virus under three different demographic conditions: (i) a decline in fitness following periodic severe bottlenecks in Chenopodium quinoa, (ii) a consistent fitness level with moderate bottlenecks in C. quinoa, and (iii) a net increase in fitness when severe bottlenecks in C. quinoa were alternated with large population expansions in Nicotiana tabacum. By fitting empirical data to an in silico simulation model, we found that initiating a lesion in C. quinoa required only 1-5 virions, and approximately 40 new virions were produced per lesion. These findings demonstrate that Muller's ratchet can be halted not only by increasing the number of founder viruses but also by incorporating phases of exponential growth in large populations between bottlenecks. Such population expansions generate genetic diversity, serving as a buffer against, and potentially even leveraging, the effects of genetic drift.</p>
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https://doi.org/10.5281/zenodo.8199726You should fill this box only if you chose 'Scripts were used to obtain or analyze the results'. URL must start with http:// or https://
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experimental evolution, Muller’s ratchet, plant virus, potyvirus, RNA virus, simulations, transmission bottleneck, virus evolution.
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Experimental Evolution, Genome Evolution
Israel Pagán (jesusisrael.pagan@upm.es) Ester Lázaro (lazarole@cab.inta-csic.es) Benoît Moury (benoit.moury@inrae.fr) Marco Incarbone (Marco.Incarbone@mpimp-golm.mpg.de), Scott Weaver [sweaver@utmb.edu] suggested: Naomi Forrester: n.forrester-soto@keele.ac.uk, Scott Weaver [sweaver@utmb.edu] suggested: Lark Coffey: lcoffey@ucdavis.edu, Brent Allman suggested: Asher Leeks, asherleeks@gmail.com, Brent Allman suggested: Jeffrey Jensen, Jeffrey.D.Jensen@asu.edu, Brent Allman suggested: Claudia Bank, claudia.bank@unibe.ch
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No need for them to be recommenders of PCIEvolBiol. Please do not suggest reviewers for whom there might be a conflict of interest. Reviewers are not allowed to review preprints written by close colleagues (with whom they have published in the last four years, with whom they have received joint funding in the last four years, or with whom they are currently writing a manuscript, or submitting a grant proposal), or by family members, friends, or anyone for whom bias might affect the nature of the review - see the code of conduct
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2023-08-04 09:37:08
Kavita Jain