Viral metagenomics-based approach to uncover mastreviruses diversity within Reunion Island's agroecological interfaces. [P50]

Viral metagenomics-based approach to uncover mastreviruses diversity within Reunion Island's agroecological interfaces. [P50]

Mastreviruses are single stranded DNA viruses belonging to the family Geminiviridae. These viruses are transmitted by leafhoppers mostly to monocotyledonous plants species. As for most plant viruses, research have been traditionnally focused on the fraction of the viruses that causes disease on crops despite uncultivated Poaceae plants being well established as mastreviruses hosts. Nevertheless, the demonstration of the emergence of the maize streak virus-strain A (MSV-A, the most devasting mastrevirus) through recombination between strains originating from uncultivated grasses shed lights on the importance to obtain a better understanding of the diversity and structure of virus communities at the scale of the agro-ecosystems. In our preliminary study, 144 samples of uncultivated species of Poaceae were collected from the agro-ecosystems interfaces in Reunion. A sequence-independent amplification procedure, that combined rolling circle amplification with a random amplification tagging (RCA-RA) and high-throughput sequencing (Illumina HiSeq), was then applied on full DNA extracts of plants. Several viruses reads belonging to the Mastrevirus genus were reported from twelve of the 144 samples (~8%). Beside multiple MSV variants and the maize streak Reunion virus strains, at least two species of viruses related to the Axonopus compressus streak virus and the Switchgrass mosaic streak virus were identified on multiple plant species. Cloning and Sanger sequencing procedure were carried out to obtain full viral genomes and further confirm the assignation of these isolates. Our preliminary results demonstrate that mastreviruses diversity in Reunion is larger than previsouly suspected and confirm the importance to characterize their diversity at the scale of the full agro-ecosystems. They strongly suggest that the unique mastrevirus community present in the volcanic Island of Reunion results from multiple introduction events. The study of the evolution imprints within the virus genomes will certainly be informative on the process of adaptation that operates in the evolutionary history of this viral community.

Saved in:
Bibliographic Details
Main Authors: Claverie, Sohini, Ouattara, Alassane, Hoareau, Murielle, Hascoat, Jérémy, Lebreton, Gérard, Grondin, Martial, Fernandez, Emmanuel, Filloux, Denis, Roumagnac, Philippe, Lett, Jean-Michel, Lefeuvre, Pierre
Format: conference_item biblioteca
Language:eng
Published: CIRAD
Subjects:H20 - Maladies des plantes,
Online Access:http://agritrop.cirad.fr/583287/
http://agritrop.cirad.fr/583287/1/ID583287.pdf
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-cirad-fr-583287
record_format koha
spelling dig-cirad-fr-5832872022-03-30T11:53:30Z http://agritrop.cirad.fr/583287/ http://agritrop.cirad.fr/583287/ Viral metagenomics-based approach to uncover mastreviruses diversity within Reunion Island's agroecological interfaces. [P50]. Claverie Sohini, Ouattara Alassane, Hoareau Murielle, Hascoat Jérémy, Lebreton Gérard, Grondin Martial, Fernandez Emmanuel, Filloux Denis, Roumagnac Philippe, Lett Jean-Michel, Lefeuvre Pierre. 2017. In : Livre des résumés des 16 ème Rencontres de virologie végétale. CIRAD, CNRS, INRA, IRD, SFP. Aussois : CIRAD-CNRS, 111. Rencontres de virologie végétale, Aussois, France, 15 Janvier 2017/19 Janvier 2017. Researchers Viral metagenomics-based approach to uncover mastreviruses diversity within Reunion Island's agroecological interfaces. [P50] Claverie, Sohini Ouattara, Alassane Hoareau, Murielle Hascoat, Jérémy Lebreton, Gérard Grondin, Martial Fernandez, Emmanuel Filloux, Denis Roumagnac, Philippe Lett, Jean-Michel Lefeuvre, Pierre eng 2017 CIRAD Livre des résumés des 16 ème Rencontres de virologie végétale H20 - Maladies des plantes Mastreviruses are single stranded DNA viruses belonging to the family Geminiviridae. These viruses are transmitted by leafhoppers mostly to monocotyledonous plants species. As for most plant viruses, research have been traditionnally focused on the fraction of the viruses that causes disease on crops despite uncultivated Poaceae plants being well established as mastreviruses hosts. Nevertheless, the demonstration of the emergence of the maize streak virus-strain A (MSV-A, the most devasting mastrevirus) through recombination between strains originating from uncultivated grasses shed lights on the importance to obtain a better understanding of the diversity and structure of virus communities at the scale of the agro-ecosystems. In our preliminary study, 144 samples of uncultivated species of Poaceae were collected from the agro-ecosystems interfaces in Reunion. A sequence-independent amplification procedure, that combined rolling circle amplification with a random amplification tagging (RCA-RA) and high-throughput sequencing (Illumina HiSeq), was then applied on full DNA extracts of plants. Several viruses reads belonging to the Mastrevirus genus were reported from twelve of the 144 samples (~8%). Beside multiple MSV variants and the maize streak Reunion virus strains, at least two species of viruses related to the Axonopus compressus streak virus and the Switchgrass mosaic streak virus were identified on multiple plant species. Cloning and Sanger sequencing procedure were carried out to obtain full viral genomes and further confirm the assignation of these isolates. Our preliminary results demonstrate that mastreviruses diversity in Reunion is larger than previsouly suspected and confirm the importance to characterize their diversity at the scale of the full agro-ecosystems. They strongly suggest that the unique mastrevirus community present in the volcanic Island of Reunion results from multiple introduction events. The study of the evolution imprints within the virus genomes will certainly be informative on the process of adaptation that operates in the evolutionary history of this viral community. conference_item info:eu-repo/semantics/conferenceObject Conference info:eu-repo/semantics/publishedVersion http://agritrop.cirad.fr/583287/1/ID583287.pdf text Cirad license info:eu-repo/semantics/restrictedAccess 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
Claverie, Sohini
Ouattara, Alassane
Hoareau, Murielle
Hascoat, Jérémy
Lebreton, Gérard
Grondin, Martial
Fernandez, Emmanuel
Filloux, Denis
Roumagnac, Philippe
Lett, Jean-Michel
Lefeuvre, Pierre
Viral metagenomics-based approach to uncover mastreviruses diversity within Reunion Island's agroecological interfaces. [P50]
description Mastreviruses are single stranded DNA viruses belonging to the family Geminiviridae. These viruses are transmitted by leafhoppers mostly to monocotyledonous plants species. As for most plant viruses, research have been traditionnally focused on the fraction of the viruses that causes disease on crops despite uncultivated Poaceae plants being well established as mastreviruses hosts. Nevertheless, the demonstration of the emergence of the maize streak virus-strain A (MSV-A, the most devasting mastrevirus) through recombination between strains originating from uncultivated grasses shed lights on the importance to obtain a better understanding of the diversity and structure of virus communities at the scale of the agro-ecosystems. In our preliminary study, 144 samples of uncultivated species of Poaceae were collected from the agro-ecosystems interfaces in Reunion. A sequence-independent amplification procedure, that combined rolling circle amplification with a random amplification tagging (RCA-RA) and high-throughput sequencing (Illumina HiSeq), was then applied on full DNA extracts of plants. Several viruses reads belonging to the Mastrevirus genus were reported from twelve of the 144 samples (~8%). Beside multiple MSV variants and the maize streak Reunion virus strains, at least two species of viruses related to the Axonopus compressus streak virus and the Switchgrass mosaic streak virus were identified on multiple plant species. Cloning and Sanger sequencing procedure were carried out to obtain full viral genomes and further confirm the assignation of these isolates. Our preliminary results demonstrate that mastreviruses diversity in Reunion is larger than previsouly suspected and confirm the importance to characterize their diversity at the scale of the full agro-ecosystems. They strongly suggest that the unique mastrevirus community present in the volcanic Island of Reunion results from multiple introduction events. The study of the evolution imprints within the virus genomes will certainly be informative on the process of adaptation that operates in the evolutionary history of this viral community.
format conference_item
topic_facet H20 - Maladies des plantes
author Claverie, Sohini
Ouattara, Alassane
Hoareau, Murielle
Hascoat, Jérémy
Lebreton, Gérard
Grondin, Martial
Fernandez, Emmanuel
Filloux, Denis
Roumagnac, Philippe
Lett, Jean-Michel
Lefeuvre, Pierre
author_facet Claverie, Sohini
Ouattara, Alassane
Hoareau, Murielle
Hascoat, Jérémy
Lebreton, Gérard
Grondin, Martial
Fernandez, Emmanuel
Filloux, Denis
Roumagnac, Philippe
Lett, Jean-Michel
Lefeuvre, Pierre
author_sort Claverie, Sohini
title Viral metagenomics-based approach to uncover mastreviruses diversity within Reunion Island's agroecological interfaces. [P50]
title_short Viral metagenomics-based approach to uncover mastreviruses diversity within Reunion Island's agroecological interfaces. [P50]
title_full Viral metagenomics-based approach to uncover mastreviruses diversity within Reunion Island's agroecological interfaces. [P50]
title_fullStr Viral metagenomics-based approach to uncover mastreviruses diversity within Reunion Island's agroecological interfaces. [P50]
title_full_unstemmed Viral metagenomics-based approach to uncover mastreviruses diversity within Reunion Island's agroecological interfaces. [P50]
title_sort viral metagenomics-based approach to uncover mastreviruses diversity within reunion island's agroecological interfaces. [p50]
publisher CIRAD
url http://agritrop.cirad.fr/583287/
http://agritrop.cirad.fr/583287/1/ID583287.pdf
work_keys_str_mv AT claveriesohini viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
AT ouattaraalassane viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
AT hoareaumurielle viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
AT hascoatjeremy viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
AT lebretongerard viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
AT grondinmartial viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
AT fernandezemmanuel viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
AT fillouxdenis viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
AT roumagnacphilippe viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
AT lettjeanmichel viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
AT lefeuvrepierre viralmetagenomicsbasedapproachtouncovermastrevirusesdiversitywithinreunionislandsagroecologicalinterfacesp50
_version_ 1758025247987073024

Similar Items