| Title: | Time-sampled population sequencing reveals the interplay of selection and genetic drift in experimental evolution of Potato virus Y |
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| Authors: | ID Kutnjak, Denis (Author)
ID Elena, Santiago F. (Author)
ID Ravnikar, Maja (Author) |
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| Files: |  PDF - Presentation file, download (973,06 KB)
MD5: EA316FE0868BF954084C901A30280E19
 URL - Source URL, visit https://doi.org/10.1128/jvi.00690-17
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| Language: | English |
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| Typology: | 1.01 - Original Scientific Article |
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| Organization: |  NIB - National Institute of Biology
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| Abstract: | RNA viruses are one of the fastest-evolving biological entities. Within their hosts, they exist as genetically diverse populations (i.e., viral mutant swarms), which are sculpted by different evolutionary mechanisms, such as mutation, natural selection, and genetic drift, and also the interactions between genetic variants within the mutant swarms. To elucidate the mechanisms that modulate the population diversity of an important plant-pathogenic virus, we performed evolution experiments with Potato virus Y (PVY) in potato genotypes that differ in their defense response against the virus. Using deep sequencing of small RNAs, we followed the temporal dynamics of standing and newly generated variations in the evolving viral lineages. A time-sampled approach allowed us to (i) reconstruct theoretical haplotypes in the starting population by using clustering of single nucleotide polymorphisms' trajectories and (ii) use quantitative population genetics approaches to estimate the contribution of selection and genetic drift, and their interplay, to the evolution of the virus. We detected imprints of strong selective sweeps and narrow genetic bottlenecks, followed by the shift in frequency of selected haplotypes. Comparison of patterns of viral evolution in differently susceptible host genotypes indicated possible diversifying evolution of PVY in the less-susceptible host (efficient in the accumulation of salicylic acid).
IMPORTANCE High diversity of within-host populations of RNA viruses is an important aspect of their biology, since they represent a reservoir of genetic variants, which can enable quick adaptation of viruses to a changing environment. This study focuses on an important plant virus, Potato virus Y, and describes, at high resolution, temporal changes in the structure of viral populations within different potato genotypes. A novel and easy-to-implement computational approach was established to cluster single nucleotide polymorphisms into viral haplotypes from very short sequencing reads. During the experiment, a shift in the frequency of selected viral haplotypes was observed after a narrow genetic bottleneck, indicating an important role of the genetic drift in the evolution of the virus. On the other hand, a possible case of diversifying selection of the virus was observed in less susceptible host genotypes. |
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| Keywords: | Potato virus Y, experimental evolution, genetic drift, natural selection, sRNA deep sequencing |
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| Publication status: | Published |
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| Publication version: | Version of Record |
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| Publication date: | 01.08.2017 |
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| Year of publishing: | 2017 |
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| Number of pages: | str. 1-17 |
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| Numbering: | Vol. 91, iss. 16 |
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| PID: | 20.500.12556/DiRROS-19715  |
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| UDC: | 578 |
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| ISSN on article: | 0022-538X |
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| DOI: | 10.1128/JVI .00690-17 |
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| COBISS.SI-ID: | 4390479 |
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| Publication date in DiRROS: | 24.07.2024 |
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| Views: | 14 |
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| Downloads: | 5 |
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