The multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [P.45]

The multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [P.45]

The multiplicity of cellular infection (MOI) is the number of virus genomes of a given virus species that infect individual cells. This parameter chiefly impacts the severity of within-host population bottlenecks, the intensity of genetic exchange, as well as the competition and complementation among viral genotypes. Only a fistful of formal estimations of MOI is currently available, and most reports have considered the MOI as a constant within the infected host. Nevertheless, the colonization of a multicellular host is a complex process during which the MOI may dramatically change in different organs and at different stage of the infection. We have used both qualitative and quantitative approaches to analyze the MOI during the colonization of turnip plants by the Turnip mosaic virus. Remarkably, different MOI values were observed at two phases of the systemic infection of a leaf. The MOI was low in cells primarily infected from virus circulating within the vasculature. Then, the founded populations moved from cell to cell at a very high MOI. Despite this elevated MOI during cell-to-cell progression, the viral lines displayed a territorial behavior and severely limited co-infection of cells by lineages originated in different primary sites. Our results thus unveil an intriguing colonization pattern where individual viral genomes initiate distinct lineages within a leaf. Kin genomes massively co-infect cells within a lineage, but co-infection by two distinct lineages is precluded. This pattern explains in an unforeseen way the common but uncharacterized phenomenon of spatial segregation of virus genotypes in infected plants.

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Main Authors: Gutiérrez, Serafin, Pirolles, Elodie, Yvon, Michel, Michalakis, Yannis, Blanc, Stéphane
Format: conference_item biblioteca
Language:eng
Published: s.n.
Subjects:H20 - Maladies des plantes,
Online Access:http://agritrop.cirad.fr/575847/
http://agritrop.cirad.fr/575847/1/document_575847.pdf
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spelling dig-cirad-fr-5758472022-04-15T09:43:10Z http://agritrop.cirad.fr/575847/ http://agritrop.cirad.fr/575847/ The multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [P.45]. Gutiérrez Serafin, Pirolles Elodie, Yvon Michel, Michalakis Yannis, Blanc Stéphane. 2015. In : 15èmes Rencontres de Virologie Végétale, Aussois, France, 18-22 janvier 2015. CIRAD ; IRD. s.l. : s.n., Résumé, 103. Rencontres de virologie végétale. 15, Aussois, France, 18 Janvier 2015/22 Janvier 2015. Researchers The multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [P.45] Gutiérrez, Serafin Pirolles, Elodie Yvon, Michel Michalakis, Yannis Blanc, Stéphane eng 2015 s.n. 15èmes Rencontres de Virologie Végétale, Aussois, France, 18-22 janvier 2015 H20 - Maladies des plantes The multiplicity of cellular infection (MOI) is the number of virus genomes of a given virus species that infect individual cells. This parameter chiefly impacts the severity of within-host population bottlenecks, the intensity of genetic exchange, as well as the competition and complementation among viral genotypes. Only a fistful of formal estimations of MOI is currently available, and most reports have considered the MOI as a constant within the infected host. Nevertheless, the colonization of a multicellular host is a complex process during which the MOI may dramatically change in different organs and at different stage of the infection. We have used both qualitative and quantitative approaches to analyze the MOI during the colonization of turnip plants by the Turnip mosaic virus. Remarkably, different MOI values were observed at two phases of the systemic infection of a leaf. The MOI was low in cells primarily infected from virus circulating within the vasculature. Then, the founded populations moved from cell to cell at a very high MOI. Despite this elevated MOI during cell-to-cell progression, the viral lines displayed a territorial behavior and severely limited co-infection of cells by lineages originated in different primary sites. Our results thus unveil an intriguing colonization pattern where individual viral genomes initiate distinct lineages within a leaf. Kin genomes massively co-infect cells within a lineage, but co-infection by two distinct lineages is precluded. This pattern explains in an unforeseen way the common but uncharacterized phenomenon of spatial segregation of virus genotypes in infected plants. conference_item info:eu-repo/semantics/conferenceObject Conference info:eu-repo/semantics/publishedVersion http://agritrop.cirad.fr/575847/1/document_575847.pdf application/pdf Cirad license info:eu-repo/semantics/openAccess https://agritrop.cirad.fr/mention_legale.html
institution CIRAD FR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cirad-fr
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CIRAD Francia
language eng
topic H20 - Maladies des plantes
H20 - Maladies des plantes
spellingShingle H20 - Maladies des plantes
H20 - Maladies des plantes
Gutiérrez, Serafin
Pirolles, Elodie
Yvon, Michel
Michalakis, Yannis
Blanc, Stéphane
The multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [P.45]
description The multiplicity of cellular infection (MOI) is the number of virus genomes of a given virus species that infect individual cells. This parameter chiefly impacts the severity of within-host population bottlenecks, the intensity of genetic exchange, as well as the competition and complementation among viral genotypes. Only a fistful of formal estimations of MOI is currently available, and most reports have considered the MOI as a constant within the infected host. Nevertheless, the colonization of a multicellular host is a complex process during which the MOI may dramatically change in different organs and at different stage of the infection. We have used both qualitative and quantitative approaches to analyze the MOI during the colonization of turnip plants by the Turnip mosaic virus. Remarkably, different MOI values were observed at two phases of the systemic infection of a leaf. The MOI was low in cells primarily infected from virus circulating within the vasculature. Then, the founded populations moved from cell to cell at a very high MOI. Despite this elevated MOI during cell-to-cell progression, the viral lines displayed a territorial behavior and severely limited co-infection of cells by lineages originated in different primary sites. Our results thus unveil an intriguing colonization pattern where individual viral genomes initiate distinct lineages within a leaf. Kin genomes massively co-infect cells within a lineage, but co-infection by two distinct lineages is precluded. This pattern explains in an unforeseen way the common but uncharacterized phenomenon of spatial segregation of virus genotypes in infected plants.
format conference_item
topic_facet H20 - Maladies des plantes
author Gutiérrez, Serafin
Pirolles, Elodie
Yvon, Michel
Michalakis, Yannis
Blanc, Stéphane
author_facet Gutiérrez, Serafin
Pirolles, Elodie
Yvon, Michel
Michalakis, Yannis
Blanc, Stéphane
author_sort Gutiérrez, Serafin
title The multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [P.45]
title_short The multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [P.45]
title_full The multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [P.45]
title_fullStr The multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [P.45]
title_full_unstemmed The multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [P.45]
title_sort multiplicity of cellular infection changes between primary and secondary infected cells during systemic infection by a plant virus. [p.45]
publisher s.n.
url http://agritrop.cirad.fr/575847/
http://agritrop.cirad.fr/575847/1/document_575847.pdf
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