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2. Virion-associated nucleic acid-based metagenomics: a decade of advances in molecular characterization of plant viruses

Author

Moubset, O, François, S, Maclot, F, Palanga, E, Julian, C, Claude, L, Fernandez, E, Rott, PCE, Daugrois, J-H, Antoine-Lorquin, A, Bernardo, P, Blouin, AG, Temple, C, Kraberger, S, Fontenele, RS, Harkins, GW, Marais, A, Candresse, T, Ben Chéhida, S, Lefeuvre, P, Lett, J-M, Varsani, A, Massart, S, Ogliastro, M-H, Martin, DP, Filloux, D, and Roumagnac, P

Abstract

Over the last decade, viral metagenomic studies have resulted in the discovery of thousands of previously unknown viruses. These studies are likely to play a pivotal role in obtaining an accurate and robust understanding of how viruses affect the stability and productivity of ecosystems. Among the metagenomics-based approaches that have been developed since the beginning of the 21st century, shotgun metagenomics applied specifically to virion-associated nucleic acids (VANA) has been used to disentangle the diversity of the viral world. We summarize herein the results of 24 VANA-based studies, focusing on plant and insect samples conducted over the last decade (2010 to 2020). Collectively, viruses from 85 different families were reliably detected in these studies, including capsidless RNA viruses that replicate in fungi, oomycetes, and plants. Finally, strengths and weaknesses of the VANA approach are summarized and perspectives of applications in detection, epidemiological surveillance, environmental monitoring, and ecology of plant viruses are provided.

Published
2022

5. First report and genomic sequence of a new alfalfa marafivirus from France

Author

Nemchinov, L. G., Sarah François, Roumagnac, P., Mollov, D. S., and Filloux, D.

Subjects
Séquence nucléotidique, Marafivirus, food and beverages, Virus des végétaux, H20 - Maladies des plantes, Medicago sativa
Abstract

Viral infections of alfalfa are widespread in major cultivation areas. A new viral species, provisionally named alfalfa virus F (AVF), was diagnosed using VANA metagenomics-based approach (PMID:27764211) in alfalfa (Medicago sativa L.) samples collected in Southern France. Nucleotide sequence of the viral genome was determined by de-novo assembly of VANA reads and by 5'/3' RACE systems with viral RNA extracted from enriched viral particles or with total RNA, respectively. The virus shares the greatest degree of overall sequence identity (~78%) with Medicago sativa marafivirus 1 (MsMV1) recently deduced from alfalfa transcriptomic data (PMID:28974471). Tentative nucleotide sequence of the AVF coat protein shares ~83% identity with the corresponding region of MsMV1. Sequence search of a single ORF encoding a polyprotein of 235kDa in Pfam database resulted in identification of five domains, characteristic for the genus Marafivirus, family Tymoviridae: viral methyltransferase, tymovirus endopeptidase, viral (superfamily 1) RNA helicase, RNA dependent RNA polymerase and tymovirus coat protein. AVF genome contains a conserved “marafibox”, a 16-nt consensus sequence present in all known marafiviruses. Phylogenetic analysis using MEGA 7 software with complete nucleotide sequences of AVF and other viruses of the family Tymoviridae grouped AVF in the same cluster with MsMV1. Based on the criteria demarcating species in the genus Marafivirus that include overall sequence identity less than 80% and coat protein identity less than 90%, we propose that AVF represents a distinct viral species in the genus Marafivirus, family Tymoviridae. Geographic distribution of the AVF will be further assessed using serological and molecular methods.

Published
2018

9. Sugarcane mild mosaic virus: towards the full characterization of this sugarcane Ampelovirus re-discovered using metagenomics-based approaches

Author

Daugrois, Jean-Heinrich, Candresse, Thierry, Fernández, E., Filloux, D., Julian, C., Teycheney, P.Y., Mollov, D., Roumagnac, P., Biologie et Génétique des Interactions Plante-Parasite (UMR BGPI), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Biologie du fruit et pathologie (BFP), Université Bordeaux Segalen - Bordeaux 2-Institut National de la Recherche Agronomique (INRA)-Université Sciences et Technologies - Bordeaux 1, Amélioration génétique et adaptation des plantes méditerranéennes et tropicales (UMR AGAP), National Germplasm Resources Laboratory, USDA-ARS : Agricultural Research Service, Centre de Coopération Internationale en Recherche Agronomique pour le Développement (CIRAD). FRA., Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro)-Institut National de la Recherche Agronomique (INRA)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro), Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de la Recherche Agronomique (INRA), Université Sciences et Technologies - Bordeaux 1-Institut National de la Recherche Agronomique (INRA)-Université Bordeaux Segalen - Bordeaux 2, ProdInra, Archive Ouverte, Université Sciences et Technologies - Bordeaux 1-Université Bordeaux Segalen - Bordeaux 2-Institut National de la Recherche Agronomique (INRA), Institut National de la Recherche Agronomique (INRA)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), and Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)

Subjects
[SDV.MP.VIR] Life Sciences [q-bio]/Microbiology and Parasitology/Virology, virus phytopathogène, sugarcane wild mosaic virus, phytopathogenic virus, sugarcane, ampelovirus, santé des plantes, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, plant health, pathologie végétale, [SDV.BV.PEP] Life Sciences [q-bio]/Vegetal Biology/Phytopathology and phytopharmacy, canne à sucre, [SDV.BV.PEP]Life Sciences [q-bio]/Vegetal Biology/Phytopathology and phytopharmacy
Abstract

UMR BFP - Equipe Virologie; [i]Sugarcane mild mosaic virus[/i]: towards the full characterization of this sugarcane Ampelovirus re-discovered using metagenomics-based approaches. 16. Rencontres de Virologie Végétale (RVV 2017)

Published
2017

12. THE INTERREG-DEVAG PROJECT: A REGIONAL NETWORK FOR THE DEVELOPMENT OF AGROECOLOGICAL CROPPING SYSTEMS FOR HORTICULTURAL CROPS IN THE CARIBBEAN

Author

Fernandes, P., primary, Lavigne, C., additional, Rhino, B., additional, Langlais, C., additional, Deberdt, P., additional, Diedhiou, S., additional, Ratnadass, A., additional, Lesueur Jannoyer, M., additional, Malézieux, E., additional, Filloux, D., additional, Padrón Cespedes, E.C., additional, Fernández Delgado, J., additional, Peña Turruellas, E., additional, Piñón Gómez, M., additional, Crux Borruel, M., additional, Otero Pujol, L., additional, Cueto Rodriguez, J.R., additional, Borges, M., additional, del Vallin Borrego, G., additional, Mazorra Calero, C., additional, Fontes Marrero, D., additional, Lezcano Mas, Y., additional, Prophète, E., additional, Eunide Alphonse, M., additional, Faucheux, B., additional, de Lacroix, S., additional, Chauvet, E., additional, Arnau, G., additional, Temple, L., additional, and Carvil, N., additional

Published
2011
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14. Characterization of Six Ampeloviruses Infecting Pineapple in Reunion Island Using a Combination of High-Throughput Sequencing Approaches.

Author

Massé D, Candresse T, Filloux D, Massart S, Cassam N, Hostachy B, Marais A, Fernandez E, Roumagnac P, Verdin E, Teycheney PY, Lett JM, and Lefeuvre P

Subjects
Reunion, RNA, Viral genetics, Ananas virology, High-Throughput Nucleotide Sequencing, Genome, Viral, Phylogeny, Plant Diseases virology, Closteroviridae genetics, Closteroviridae classification, Closteroviridae isolation & purification
Abstract

The cultivation of pineapple ( Ananas comosus ) is threatened worldwide by mealybug wilt disease of pineapple (MWP), whose etiology is not yet fully elucidated. In this study, we characterized pineapple mealybug wilt-associated ampeloviruses (PMWaVs, family Closteroviridae ) from a diseased pineapple plant collected from Reunion Island, using a high-throughput sequencing approach combining Illumina short reads and Nanopore long reads. Reads co-assembly resulted in complete or near-complete genomes for six distinct ampeloviruses, including the first complete genome of pineapple mealybug wilt-associated virus 5 (PMWaV5) and that of a new species tentatively named pineapple mealybug wilt-associated virus 7 (PMWaV7). Short reads data provided high genome coverage and sequencing depths for all six viral genomes, contrary to long reads data. The 5' and 3' ends of the genome for most of the six ampeloviruses could be recovered from long reads, providing an alternative to RACE-PCRs. Phylogenetic analyses did not unveil any geographic structuring of the diversity of PMWaV1, PMWaV2 and PMWaV3 isolates, supporting the current hypothesis that PMWaVs were mainly spread by human activity and vegetative propagation., Competing Interests: The authors declare no conflicts of interest.

Published
2024
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15. Historical Review of Sugarcane Streak Mosaic Virus that Has Recently Emerged in Africa.

Author

Daugrois J, Roumagnac P, Julian C, Filloux D, Putra L, Mollov D, and Rott P

Subjects
Africa, Genetic Variation, Genome, Viral genetics, History, 20th Century, Plant Diseases virology, Saccharum virology, Potyviridae genetics, Potyviridae classification, Potyviridae isolation & purification, Phylogeny, Potyvirus
Abstract

Sugarcane streak mosaic virus (SCSMV), now assigned to the genus Poacevirus of the family Potyviridae , was reported for the first time in 1932 in Louisiana and was believed to be strain F of sugarcane mosaic virus (SCMV) for more than six decades. SCMV-F was renamed SCSMV in 1998 after partial sequencing of its genome and phylogenetic investigations. Following the development of specific molecular diagnostic methods in the 2000s, SCSMV was recurrently found in sugarcane exhibiting streak mosaic symptoms in numerous Asian countries but not in the Western hemisphere or in Africa. In this review, we give an overview of the current knowledge on this disease and the progression in research on SCSMV. This includes symptoms, geographical distribution and incidence, diagnosis and genetic diversity of the virus, epidemiology, and control. Finally, we highlight future challenges, as sugarcane streak mosaic has recently been found in Africa, where this disease represents a new threat to sugarcane production., Competing Interests: The author(s) declare no conflict of interest.

Published
2024
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16. Virome release of an invasive exotic plant species in southern France.

Author

Moubset O, Filloux D, Fontes H, Julian C, Fernandez E, Galzi S, Blondin L, Chehida SB, Lett JM, Mesléard F, Kraberger S, Custer JM, Salywon A, Makings E, Marais A, Chiroleu F, Lefeuvre P, Martin DP, Candresse T, Varsani A, Ravigné V, and Roumagnac P

Abstract

The increase in human-mediated introduction of plant species to new regions has resulted in a rise of invasive exotic plant species (IEPS) that has had significant effects on biodiversity and ecosystem processes. One commonly accepted mechanism of invasions is that proposed by the enemy release hypothesis (ERH), which states that IEPS free from their native herbivores and natural enemies in new environments can outcompete indigenous species and become invasive. We here propose the virome release hypothesis (VRH) as a virus-centered variant of the conventional ERH that is only focused on enemies. The VRH predicts that vertically transmitted plant-associated viruses (PAV, encompassing phytoviruses and mycoviruses) should be co-introduced during the dissemination of the IEPS, while horizontally transmitted PAV of IEPS should be left behind or should not be locally transmitted in the introduced area due to a maladaptation of local vectors. To document the VRH, virome richness and composition as well as PAV prevalence, co-infection, host range, and transmission modes were compared between indigenous plant species and an invasive grass, cane bluestem ( Bothriochloa barbinodis ), in both its introduced range (southern France) and one area of its native range (Sonoran Desert, Arizona, USA). Contrary to the VRH, we show that invasive populations of B. barbinodis in France were not associated with a lower PAV prevalence or richness than native populations of B. barbinodis from the USA. However, comparison of virome compositions and network analyses further revealed more diverse and complex plant-virus interactions in the French ecosystem, with a significant richness of mycoviruses. Setting mycoviruses apart, only one putatively vertically transmitted phytovirus (belonging to the Amalgaviridae family) and one putatively horizontally transmitted phytovirus (belonging to the Geminiviridae family) were identified from B. barbinodis plants in the introduced area. Collectively, these characteristics of the B. barbinodis -associated PAV community in southern France suggest that a virome release phase may have immediately followed the introduction of B. barbinodis to France in the 1960s or 1970s, and that, since then, the invasive populations of this IEPS have already transitioned out of this virome release phase, and have started interacting with several local mycoviruses and a few local plant viruses., Competing Interests: In the interests of transparency and to help readers to form their own judgments of potential bias, the authors declare no competing interests in relation to the work described., (© The Author(s) 2024. Published by Oxford University Press.)

Published
2024
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17. The genome of a bunyavirus cannot be defined at the level of the viral particle but only at the scale of the viral population.

Author

Yvon M, German TL, Ullman DE, Dasgupta R, Parker MH, Ben-Mahmoud S, Verdin E, Gognalons P, Ancelin A, Laï Kee Him J, Girard J, Vernerey MS, Fernandez E, Filloux D, Roumagnac P, Bron P, Michalakis Y, and Blanc S

Subjects
RNA, Viral genetics, Genome, Viral genetics, Virion genetics, Orthobunyavirus genetics, Tospovirus genetics
Abstract

Bunyaviruses are enveloped negative or ambisense single-stranded RNA viruses with a genome divided into several segments. The canonical view depicts each viral particle packaging one copy of each genomic segment in one polarity named the viral strand. Several opposing observations revealed nonequal ratios of the segments, uneven number of segments per virion, and even packaging of viral complementary strands. Unfortunately, these observations result from studies often addressing other questions, on distinct viral species, and not using accurate quantitative methods. Hence, what RNA segments and strands are packaged as the genome of any bunyavirus remains largely ambiguous. We addressed this issue by first investigating the virion size distribution and RNA content in populations of the tomato spotted wilt virus (TSWV) using microscopy and tomography. These revealed heterogeneity in viral particle volume and amount of RNA content, with a surprising lack of correlation between the two. Then, the ratios of all genomic segments and strands were established using RNA sequencing and qRT-PCR. Within virions, both plus and minus strands (but no mRNA) are packaged for each of the three L, M, and S segments, in reproducible nonequimolar proportions determined by those in total cell extracts. These results show that virions differ in their genomic content but together build up a highly reproducible genetic composition of the viral population. This resembles the genome formula described for multipartite viruses, with which some species of the order Bunyavirales may share some aspects of the way of life, particularly emerging properties at a supravirion scale., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published
2023
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18. Metagenomics reveals the structure of  Mastrevirus -host interaction network within an agro-ecosystem.

Author

Claverie S, Hoareau M, Chéhida SB, Filloux D, Varsani A, Roumagnac P, Martin DP, Lett JM, and Lefeuvre P

Abstract

As highly pervasive parasites that sometimes cause disease, viruses are likely major components of all natural ecosystems. An important step towards both understanding the precise ecological roles of viruses and determining how natural communities of viral species are assembled and evolve is obtaining full descriptions of viral diversity and distributions at ecosystem scales. Here, we focused on obtaining such 'community-scale' data for viruses in a single genus. We chose the genus Mastrevirus (family Geminiviridae), members of which have predominantly been found infecting uncultivated grasses (family Poaceae) throughout the tropical and sub-tropical regions of the world. We sampled over 3 years, 2,884 individual Poaceae plants belonging to thirty different species within a 2-ha plot which included cultivated and uncultivated areas on the island of Reunion. Mastreviruses were found in ∼8 per cent of the samples, of which 96 per cent did not have any discernible disease symptoms. The multitude of host-virus associations that we uncovered reveals both the plant species that most commonly host mastreviruses and the mastrevirus species (such as maize streak virus and maize streak Reunion virus ) that have especially large host ranges. Our findings are consistent with the hypothesis that perennial plant species capable of hosting years-long mixed mastrevirus infections likely play a disproportionately important role in the generation of inter-species and inter-strain mastrevirus recombinants., Competing Interests: In the interests of transparency and to help readers to form their own judgements of potential bias, the authors declare no competing interests in relation to the work described., (© The Author(s) 2023. Published by Oxford University Press.)

Published
2023
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19. Molecular diversity of yam virus Y and identification of banana mild mosaic virus isolates infecting yam (Dioscorea spp.).

Author

Diouf MB, Guyader S, Nopoly MM, Gaspard O, Filloux D, Candresse T, Marais A, Teycheney PY, and Umber M

Subjects
Dioscorea, Musa, Flexiviridae, Carlavirus, Mosaic Viruses
Abstract

Two members of the family Betaflexiviridae associated with yam (Dioscorea spp.) have been described so far: yam latent virus (YLV) and yam virus Y (YVY). However, their geographical distribution and molecular diversity remain poorly documented. Using a nested RT-PCR assay, we detected YVY in D. alata, D. bulbifera, D. cayenensis, D. rotundata, and D. trifida in Guadeloupe, and in D. rotundata in Côte d'Ivoire, thus extending the known host range of this virus and geographical distribution. Using amplicon sequencing, we determined that the molecular diversity of YVY in the yam samples analyzed in this work ranged between 0.0 and 29.1% and that this diversity is partially geographically structured. We also identified three isolates of banana mild mosaic virus (BanMMV) infecting D. alata in Guadeloupe, providing the first evidence for BanMMV infection in yam., (© 2023. The Author(s).)

Published
2023
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20. Long-Term Anthropogenic Management and Associated Loss of Plant Diversity Deeply Impact Virome Richness and Composition of Poaceae Communities.

Author

Maclot F, Debue V, Malmstrom CM, Filloux D, Roumagnac P, Eck M, Tamisier L, Blouin AG, Candresse T, and Massart S

Abstract

Modern agriculture has influenced plant virus emergence through ecosystem simplification, introduction of new host species, and reduction in crop genetic diversity. Therefore, it is crucial to better understand virus distributions across cultivated and uncultivated communities in agro-ecological interfaces, as well as virus exchange among them. Here, we advance fundamental understanding in this area by characterizing the virome of three co-occurring replicated Poaceae community types that represent a gradient of grass species richness and management intensity, from highly managed crop monocultures to little-managed, species-rich grasslands. We performed a large-scale study on 950 wild and cultivated Poaceae over 2 years, combining untargeted virome analysis down to the virus species level with targeted detection of three plant viruses. Deep sequencing revealed (i) a diversified and largely unknown Poaceae virome (at least 51 virus species or taxa), with an abundance of so-called persistent viruses; (ii) an increase of virome richness with grass species richness within the community; (iii) stability of virome richness over time but a large viral intraspecific variability; and (iv) contrasting patterns of virus prevalence, coinfections, and spatial distribution among plant communities and species. Our findings highlight the complex structure of plant virus communities in nature and suggest the influence of anthropogenic management on viral distribution and prevalence. IMPORTANCE Because viruses have been mostly studied in cultivated plants, little is known about virus diversity and ecology in less-managed vegetation or about the influence of human management and agriculture on virome composition. Poaceae (grass family)-dominated communities provide invaluable opportunities to examine these ecological issues, as they are distributed worldwide across agro-ecological gradients, are essential for food security and conservation, and can be infected by numerous viruses. Here, we used multiple levels of analysis that considered plant communities, individual plants, virus species, and haplotypes to broaden understanding of the Poaceae virome and to evaluate host-parasite richness relationships within agro-ecological landscapes in our study area. We emphasized the influence of grass diversity and land use on the composition of viral communities and their life history strategies, and we demonstrated the complexity of plant-virus interactions in less-managed grass communities, such as the higher virus prevalence and overrepresentation of mixed virus infection compared to theoretical predictions.

Published
2023
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21. Identification of a novel vitivirus from pineapple in Reunion Island.

Author

Massé D, Filloux D, Candresse T, Massart S, Marais A, Verdin E, Cassam N, Fernandez E, Roumagnac P, Teycheney PY, Lefeuvre P, and Lett JM

Subjects
Capsid Proteins genetics, Genome, Viral, High-Throughput Nucleotide Sequencing, Open Reading Frames, Phylogeny, Plant Diseases, RNA, RNA, Messenger, RNA, Viral genetics, Reunion, Ananas, Flexiviridae genetics
Abstract

We report the complete genome sequence of a novel member of the genus Vitivirus (family Betaflexiviridae, subfamily Trivirinae) infecting pineapple. The complete genome sequence of this virus was obtained from total RNA extracted from pineapple leaf samples collected in Reunion Island, using a combination of high-throughput sequencing technologies. The viral genome is 6,757 nt long, excluding the poly(A) tail, and shares all the hallmarks of vitiviruses. Phylogenetic analysis performed on the replication-associated protein and capsid protein gene sequences unambiguously place this new virus, for which we propose the name "pineapple virus A", in the genus Vitivirus., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published
2022
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22. Molecular characterization of Cordyline virus 1 isolates infecting yam (Dioscorea spp).

Author

Diouf MB, Gaspard O, Marais A, Filloux D, Gomez RM, Faure C, Roumagnac P, Candresse T, Theil S, Contreras S, Teycheney PY, and Umber M

Subjects
Genetic Variation, Phylogeny, Closteroviridae, Cordyline, Dioscorea
Abstract

Cordyline virus 1 (CoV1) is a velarivirus that has so far only been reported in ornamental Ti plants (Cordyline fruticosa). Using high-throughput sequencing, we identified CoV1 infection in yam accessions from Vanuatu. Using a specific RT-PCR assay, we found that CoV1 is also present and highly prevalent in Dioscorea alata, D. cayenensis, and D. trifida in Guadeloupe. Phylogenetic analysis showed that CoV1 isolates infecting yam in Guadeloupe display a low level of molecular diversity. These data provide insights into the transmission of CoV1 in yam in Guadeloupe., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published
2022
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23. Virion-Associated Nucleic Acid-Based Metagenomics: A Decade of Advances in Molecular Characterization of Plant Viruses.

Author

Moubset O, François S, Maclot F, Palanga E, Julian C, Claude L, Fernandez E, Rott P, Daugrois JH, Antoine-Lorquin A, Bernardo P, Blouin AG, Temple C, Kraberger S, Fontenele RS, Harkins GW, Ma Y, Marais A, Candresse T, Chéhida SB, Lefeuvre P, Lett JM, Varsani A, Massart S, Ogliastro M, Martin DP, Filloux D, and Roumagnac P

Subjects
Metagenomics methods, Ecosystem, Plant Diseases, Virion genetics, Plants, Nucleic Acids, Plant Viruses genetics
Abstract

Over the last decade, viral metagenomic studies have resulted in the discovery of thousands of previously unknown viruses. These studies are likely to play a pivotal role in obtaining an accurate and robust understanding of how viruses affect the stability and productivity of ecosystems. Among the metagenomics-based approaches that have been developed since the beginning of the 21st century, shotgun metagenomics applied specifically to virion-associated nucleic acids (VANA) has been used to disentangle the diversity of the viral world. We summarize herein the results of 24 VANA-based studies, focusing on plant and insect samples conducted over the last decade (2010 to 2020). Collectively, viruses from 85 different families were reliably detected in these studies, including capsidless RNA viruses that replicate in fungi, oomycetes, and plants. Finally, strengths and weaknesses of the VANA approach are summarized and perspectives of applications in detection, epidemiological surveillance, environmental monitoring, and ecology of plant viruses are provided. [Formula: see text] Copyright © 2022 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.

Published
2022
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24. Host range and molecular variability of the sadwavirus dioscorea mosaic associated virus.

Author

Umber M, Filloux D, Svanella-Dumas L, Bonheur L, Acina-Mambole I, Gomez RM, Faure C, Anzala F, Pavis C, Roumagnac P, Marais A, Theil S, Candresse T, and Teycheney PY

Subjects
Genetic Variation, Phylogeny, Dioscorea virology, Host Specificity, Secoviridae classification
Abstract

Dioscorea mosaic associated virus (DMaV) is a member of the genus Sadwavirus, family Secoviridae, that is associated with mosaic symptoms in Dioscorea rotundata in Brazil. The genome of a DMaV isolate detected in D. trifida in Guadeloupe was sequenced by high-throughput sequencing. Using an RT-PCR-based detection assay, we found that DMaV infects D. alata, D. bulbifera, D. cayenensis-rotundata, D. esculenta, and D. trifida accessions conserved in Guadeloupe and Côte d'Ivoire and displays a very high level of molecular diversity in a relatively small region of the genome targeted by the assay. We also provide evidence that DMaV is also present in D. rotundata in Benin and in D. alata in Nigeria., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published
2022
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25. Complete genome sequence of a novel marafivirus infecting pearl millet in Burkina Faso.

Author

Palanga E, Tibiri EB, Bangratz M, Filloux D, Julian C, Pinel-Galzi A, Koala M, Néya JB, Brugidou C, Tiendrébéogo F, Roumagnac P, and Hébrard E

Subjects
Burkina Faso, Genome, Viral, High-Throughput Nucleotide Sequencing, Phylogeny, RNA, Viral genetics, Pennisetum, Tymoviridae genetics
Abstract

Pearl millet (Pennisetum glaucum (L.) R. Br.) is a staple food that is widely cultivated in sub-Saharan Africa. In August 2018, a survey was conducted in the main producing regions of Burkina Faso, and leaf samples were analyzed using virion-associated nucleic acid (VANA)-based metagenomic approach and Illumina sequencing. A new virus, tentatively named "Pennisetum glaucum marafivirus" (PGMV), was detected, and its complete nucleotide sequence of 6364 nucleotides was determined. The sequence contains a large open reading frame (ORF) encoding a polyprotein of 224.2 kDa with five domains (methyltransferase, papain-like protease, helicase, RNA-dependent RNA polymerase, and coat proteins), typical of marafiviruses. Additionally, a characteristic conserved marafibox domain was detected in the genome. The nucleotide sequence of the complete PGMV genome shares 68.5% identity with that of sorghum bicolor marafivirus, and its coat protein shares 58.5% identity with that of oat blue dwarf virus. Phylogenetic analysis confirmed that the pearl millet virus is unambiguously grouped with members of the genus Marafivirus in the family Tymoviridae. This is the first report on the occurrence of a marafivirus in pearl millet., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published
2022
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26. Genome characterization and diversity of trifolium virus 1: identification of a novel legume-infecting capulavirus.

Author

Ma Y, Svanella-Dumas L, Julian C, Galzi S, Fernandez E, Yvon M, Pirolles E, Lefebvre M, Filloux D, Roumagnac P, and Candresse T

Subjects
Amino Acid Sequence, Biodiversity, DNA Viruses genetics, Fabaceae virology, Geminiviridae classification, Geminiviridae genetics, Geminiviridae isolation & purification, Genotype, Open Reading Frames, Plant Diseases virology, Sequence Analysis, DNA, Phylogeny, Trifolium virology, Viruses, Unclassified classification, Viruses, Unclassified genetics, Viruses, Unclassified isolation & purification
Abstract

A novel geminivirus was identified in France and Spain in asymptomatic plants of white clover (Trifolium repens) and shrub medick (Medicago arborea). Its genome has the hallmarks of a capulavirus, and its relationship to other capulaviruses was confirmed by phylogenetic analysis. White clover isolates formed a tight cluster in the phylogenetic tree, while shrub medick isolates formed two distinct, more divergent groups with sequence identity values close to the species cutoff. These three groups have likely participated in recombination events involving alfalfa leaf curl virus and French bean severe leaf curl virus. The name "trifolium virus 1" (TrV1) is proposed for this new Capulavirus. Three TrV1 genotypes (TrV1-A, TrV1-B, and TrV1-C) were clearly distinguished., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published
2021
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27. Identification, molecular and biological characterization of two novel secovirids in wild grass species in Belgium.

Author

Maclot FJ, Debue V, Blouin AG, Fontdevila Pareta N, Tamisier L, Filloux D, and Massart S

Subjects
Amino Acids, Belgium, Phylogeny, Plant Diseases, Poaceae, RNA, Viral genetics, Nepovirus genetics, Secoviridae
Abstract

High throughput sequencing was performed on virion-associated nucleic acids (VANA) from a pool of fifty asymptomatic rough bluegrasses (Poa trivialis L.) collected in a Belgian grazed pasture. Bioinformatics analyses produced some contigs presenting similarities with secovirid genomes, in particular nepoviruses and waikaviruses. Three distinct positive-sense single-stranded RNAs including 5' and 3' UTR were reconstructed and they represented two novel viruses infecting rough bluegrass, for which the provisional names poaceae Liege nepovirus A (PoLNVA, 7298 nt for RNA1 and 4263 nt for RNA2) and poaceae Liege virus 1 (PoLV1, 11,623 nt) were proposed. Compared to other Secoviridae members, the highest amino acid identity reached 90.7 % and 66.7 % between PoLNVA and nepoviruses for the Pro-Pol and CP regions respectively, while PoLV1 presented the highest amino acid identity with waikaviruses but with lower identities, i.e. 41.2 % for Pro-Pol and 25.8 % for CP regions, far below the ICTV demarcation criteria for novel secovirid. Based on sequence identity and phylogenetic analyses, PoLNVA was proposed to belong to the genus Nepovirus and PoLV1 as an unclassified secovirids. Detection of the two novel viruses was confirmed in high prevalence in rough bluegrass and ten other wild Poaceae species (Agropyron repens, Agrostis capillaris, Apera spica-venti, Anthoxanthum odoratum, Cynosorus cristatus, Festuca rubra, Holcus lanatus, Lolium perenne, Phleum bertolini and Phleum pratense) by RT-PCR and Sanger sequencing, revealing a diverse host range within Poaceae for these novel secovirids. Seed transmission was evaluated and confirmed for PoLNVA., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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28. Novel Ampeloviruses Infecting Cassava in Central Africa and the South-West Indian Ocean Islands.

Author

Kwibuka Y, Bisimwa E, Blouin AG, Bragard C, Candresse T, Faure C, Filloux D, Lett JM, Maclot F, Marais A, Ravelomanantsoa S, Shakir S, Vanderschuren H, and Massart S

Subjects
Africa, Central, Closteroviridae isolation & purification, Closteroviridae pathogenicity, Genetic Variation, Genome, Viral, Genomics, High-Throughput Nucleotide Sequencing, Indian Ocean Islands, Open Reading Frames, Phylogeny, RNA, Viral genetics, Closteroviridae classification, Closteroviridae genetics, Manihot virology, Plant Diseases virology
Abstract

Cassava is one of the most important staple crops in Africa and its production is seriously damaged by viral diseases. In this study, we identify for the first time and characterize the genome organization of novel ampeloviruses infecting cassava plants in diverse geographical locations using three high-throughput sequencing protocols [Virion-Associated Nucleotide Acid (VANA), dsRNA and total RNA], and we provide a first analysis of the diversity of these agents and of the evolutionary forces acting on them. Thirteen new Closteroviridae isolates were characterized in field-grown cassava plants from the Democratic Republic of Congo (DR Congo), Madagascar, Mayotte, and Reunion islands. The analysis of the sequences of the corresponding contigs (ranging between 10,417 and 13,752 nucleotides in length) revealed seven open reading frames. The replication-associated polyproteins have three expected functional domains: methyltransferase, helicase, and RNA-dependent RNA polymerase ( RdRp ). Additional open reading frames code for a small transmembrane protein, a heat-shock protein 70 homolog ( HSP70h ), a heat shock protein 90 homolog ( HSP90h ), and a major and a minor coat protein ( CP and CPd respectively). Defective genomic variants were also identified in some cassava accessions originating from Madagascar and Reunion. The isolates were found to belong to two species tentatively named Manihot esculenta-associated virus 1 and 2 (MEaV-1 and MEaV-2). Phylogenetic analyses showed that MEaV-1 and MEaV-2 belong to the genus Ampelovirus , in particular to its subgroup II. MEaV-1 was found in all of the countries of study, while MEaV-2 was only detected in Madagascar and Mayotte. Recombination analysis provided evidence of intraspecies recombination occurring between the isolates from Madagascar and Mayotte. No clear association with visual symptoms in the cassava host could be identified.

Published
2021
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29. Comparison of the Virome of Quarantined Sugarcane Varieties and the Virome of Grasses Growing near the Quarantine Station.

Author

Daugrois JH, Filloux D, Julian C, Claude L, Ferdinand R, Fernandez E, Fontes H, Rott PC, and Roumagnac P

Subjects
Phylogeny, Plant Diseases virology, Quarantine, Virion, Metagenome, Metagenomics methods, Poaceae virology, Saccharum virology, Virome
Abstract

Visacane is a sugarcane quarantine station located in the South of France, far away from sugarcane growing areas. Visacane imports up to 100 sugarcane varieties per year, using safe control and confinement measures of plants and their wastes to prevent any risk of pathogen spread outside of the facilities. Viruses hosted by the imported material are either known or unknown to cause disease in cultivated sugarcane. Poaceae viruses occurring in plants surrounding the quarantine glasshouse are currently unknown. These viruses could be considered as a source of new sugarcane infections and potentially cause new sugarcane diseases in cases of confinement barrier failure. The aim of this study was to compare the plant virome inside and outside of the quarantine station to identify potential confinement failures and risks of cross infections. Leaves from quarantined sugarcane varieties and from wild Poaceae growing near the quarantine were collected and processed by a metagenomics approach based on virion-associated nucleic acids extraction and library preparation for Illumina sequencing. While viruses belonging to the same virus genus or family were identified in the sugarcane quarantine and its surroundings, no virus species was detected in both environments. Based on the data obtained in this study, no virus movement between quarantined sugarcane and nearby grassland has occurred so far, and the confinement procedures of Visacane appear to be properly implemented.

Published
2021
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30. Characterisation of the Viral Community Associated with the Alfalfa Weevil ( Hypera postica ) and Its Host Plant, Alfalfa ( Medicago sativa ).

Author

François S, Antoine-Lorquin A, Kulikowski M, Frayssinet M, Filloux D, Fernandez E, Roumagnac P, Froissart R, and Ogliastro M

Subjects
Agriculture, Animals, Biodiversity, Ecosystem, Metagenome, Metagenomics methods, Phylogeny, Plant Diseases virology, Medicago sativa parasitology, Medicago sativa virology, Virome, Weevils virology
Abstract

Advances in viral metagenomics have paved the way of virus discovery by making the exploration of viruses in any ecosystem possible. Applied to agroecosystems, such an approach opens new possibilities to explore how viruses circulate between insects and plants, which may help to optimise their management. It could also lead to identifying novel entomopathogenic viral resources potentially suitable for biocontrol strategies. We sampled the larvae of a natural population of alfalfa weevils ( Hypera postica ), a major herbivorous pest feeding on legumes, and its host plant alfalfa ( Medicago sativa ). Insect and plant samples were collected from a crop field and an adjacent meadow. We characterised the diversity and abundance of viruses associated with weevils and alfalfa, and described nine putative new virus species, including four associated with alfalfa and five with weevils. In addition, we found that trophic accumulation may result in a higher diversity of plant viruses in phytophagous pests compared to host plants.

Published
2021
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31. Nanopore Sequencing Is a Credible Alternative to Recover Complete Genomes of Geminiviruses.

Author

Ben Chehida S, Filloux D, Fernandez E, Moubset O, Hoareau M, Julian C, Blondin L, Lett JM, Roumagnac P, and Lefeuvre P

Abstract

Next-generation sequencing (NGS), through the implementation of metagenomic protocols, has led to the discovery of thousands of new viruses in the last decade. Nevertheless, these protocols are still laborious and costly to implement, and the technique has not yet become routine for everyday virus characterization. Within the context of CRESS DNA virus studies, we implemented two alternative long-read NGS protocols, one that is agnostic to the sequence (without a priori knowledge of the viral genome) and the other that use specific primers to target a virus (with a priori). Agnostic and specific long read NGS-based assembled genomes of two capulavirus strains were compared to those obtained using the gold standard technique of Sanger sequencing. Both protocols allowed the detection and accurate full genome characterization of both strains. Globally, the assembled genomes were very similar (99.5-99.7% identity) to the Sanger sequences consensus, but differences in the homopolymeric tracks of these sequences indicated a specific lack of accuracy of the long reads NGS approach that has yet to be improved. Nevertheless, the use of the bench-top sequencer has proven to be a credible alternative in the context of CRESS DNA virus study and could offer a new range of applications not previously accessible.

Published
2021
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32. Genetic Diversity of Rice stripe necrosis virus and New Insights into Evolution of the Genus Benyvirus .

Author

Bagayoko I, Celli MG, Romay G, Poulicard N, Pinel-Galzi A, Julian C, Filloux D, Roumagnac P, Sérémé D, Bragard C, and Hébrard E

Subjects
Phylogeny, Polymorphism, Genetic, Tenuivirus classification, Evolution, Molecular, Genetic Variation, Genome, Viral, RNA, Viral genetics, Tenuivirus genetics
Abstract

The rice stripe necrosis virus (RSNV) has been reported to infect rice in several countries in Africa and South America, but limited genomic data are currently publicly available. Here, eleven RSNV genomes were entirely sequenced, including the first corpus of RSNV genomes of African isolates. The genetic variability was differently distributed along the two genomic segments. The segment RNA1, within which clusters of polymorphisms were identified, showed a higher nucleotidic variability than did the beet necrotic yellow vein virus (BNYVV) RNA1 segment. The diversity patterns of both viruses were similar in the RNA2 segment, except for an in-frame insertion of 243 nucleotides located in the RSNV tgbp1 gene. Recombination events were detected into RNA1 and RNA2 segments, in particular in the two most divergent RSNV isolates from Colombia and Sierra Leone. In contrast to BNYVV, the RSNV molecular diversity had a geographical structure with two main RSNV lineages distributed in America and in Africa. Our data on the genetic diversity of RSNV revealed unexpected differences with BNYVV suggesting a complex evolutionary history of the genus Benyvirus .

Published
2021
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33. New World Cactaceae Plants Harbor Diverse Geminiviruses.

Author

Fontenele RS, Salywon AM, Majure LC, Cobb IN, Bhaskara A, Avalos-Calleros JA, Argüello-Astorga GR, Schmidlin K, Khalifeh A, Smith K, Schreck J, Lund MC, Köhler M, Wojciechowski MF, Hodgson WC, Puente-Martinez R, Van Doorslaer K, Kumari S, Oyeniran KA, Vernière C, Filloux D, Roumagnac P, Lefeuvre P, Ribeiro SG, Kraberger SP, Martin DP, and Varsani A

Subjects
Animals, Genome, Viral, Cactaceae virology, Geminiviridae classification, Geminiviridae isolation & purification, Hemiptera virology, Plant Diseases virology
Abstract

The family Cactaceae comprises a diverse group of typically succulent plants that are native to the American continent but have been introduced to nearly all other continents, predominantly for ornamental purposes. Despite their economic, cultural, and ecological importance, very little research has been conducted on the viral community that infects them. We previously identified a highly divergent geminivirus that is the first known to infect cacti. Recent research efforts in non-cultivated and asymptomatic plants have shown that the diversity of this viral family has been under-sampled. As a consequence, little is known about the effects and interactions of geminiviruses in many plants, such as cacti. With the objective to expand knowledge on the diversity of geminiviruses infecting cacti, we used previously acquired high-throughput sequencing results to search for viral sequences using BLASTx against a viral RefSeq protein database. We identified two additional sequences with similarity to geminiviruses, for which we designed abutting primers and recovered full-length genomes. From 42 cacti and five scale insects, we derived 42 complete genome sequences of a novel geminivirus species that we have tentatively named Opuntia virus 2 (OpV2) and 32 genomes of an Opuntia-infecting becurtovirus (which is a new strain of the spinach curly top Arizona virus species). Interspecies recombination analysis of the OpV2 group revealed several recombinant regions, in some cases spanning half of the genome. Phylogenetic analysis demonstrated that OpV2 is a novel geminivirus more closely related to viruses of the genus Curtovirus , which was further supported by the detection of three recombination events between curtoviruses and OpV2. Both OpV2 and Opuntia becurtoviruses were identified in mixed infections, which also included the previously characterized Opuntia virus 1. Viral quantification of the co-infected cactus plants compared with single infections did not show any clear trend in viral dynamics that might be associated with the mixed infections. Using experimental Rhizobium -mediated inoculations, we found that the initial accumulation of OpV2 is facilitated by co-infection with OpV1. This study shows that the diversity of geminiviruses that infect cacti is under-sampled and that cacti harbor diverse geminiviruses. The detection of the Opuntia becurtoviruses suggests spill-over events between viruses of cultivated species and native vegetation. The threat this poses to cacti needs to be further investigated.

Published
2021
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34. metaXplor: an interactive viral and microbial metagenomic data manager.

Author

Sempéré G, Pétel A, Abbé M, Lefeuvre P, Roumagnac P, Mahé F, Baurens G, and Filloux D

Subjects
Genomics, Metagenome, Phylogeny, Metagenomics, Software
Abstract

Background: Efficiently managing large, heterogeneous data in a structured yet flexible way is a challenge to research laboratories working with genomic data. Specifically regarding both shotgun- and metabarcoding-based metagenomics, while online reference databases and user-friendly tools exist for running various types of analyses (e.g., Qiime, Mothur, Megan, IMG/VR, Anvi'o, Qiita, MetaVir), scientists lack comprehensive software for easily building scalable, searchable, online data repositories on which they can rely during their ongoing research., Results: metaXplor is a scalable, distributable, fully web-interfaced application for managing, sharing, and exploring metagenomic data. Being based on a flexible NoSQL data model, it has few constraints regarding dataset contents and thus proves useful for handling outputs from both shotgun and metabarcoding techniques. By supporting incremental data feeding and providing means to combine filters on all imported fields, it allows for exhaustive content browsing, as well as rapid narrowing to find specific records. The application also features various interactive data visualization tools, ways to query contents by BLASTing external sequences, and an integrated pipeline to enrich assignments with phylogenetic placements. The project home page provides the URL of a live instance allowing users to test the system on public data., Conclusion: metaXplor allows efficient management and exploration of metagenomic data. Its availability as a set of Docker containers, making it easy to deploy on academic servers, on the cloud, or even on personal computers, will facilitate its adoption., (© The Author(s) 2021. Published by Oxford University Press GigaScience.)

Published
2021
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35. [From boots on the ground to nucleotides in the sequencer: a century of advances in the study of the plant virus ecology].

Author

Maclot F, Candresse T, Filloux D, Rott P, Malmstrom C, van der Vlugt R, Massart S, and Roumagnac P

Subjects
DNA Viruses, Ecology, Nucleotides, Ecosystem, Plant Viruses genetics
Abstract

Plant virus ecology began to be explored at the end of the 19 th century. Since then, major advances have revealed complex virus-host-vector interactions in a variety of environments. These advances have been accelerated by development of new technologies for virus detection and characterization, the latest of which being high-throughput sequencing (HTS). HTS technologies have proved to be effective for non-targeted characterization of all or nearly all viruses present in a sample without requiring prior information about virus identity, as would be needed for virus-targeted tests. Phytoviromic studies have thus made important advances, including characterization of the complex interactions between phytovirus dynamics and the structure of multi-species host communities, and documentation of the effects of anthropogenic ecosystem simplification on plant virus emergence and diversity. However, such studies must overcome challenges at every stage, from plant sampling to bioinformatics analysis. This review summarizes major advances in plant virus ecology, in association with technological developments, and presents key considerations for use of HTS in the study of the ecology of phytovirus communities.

Published
2021
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36. Diverse genomoviruses representing twenty-nine species identified associated with plants.

Author

Fontenele RS, Roumagnac P, Richet C, Kraberger S, Stainton D, Aleamotu'a M, Filloux D, Bernardo P, Harkins GW, McCarthy J, Charles LS, Lamas NS, Abreu EFM, Abreu RA, Batista GB, Lacerda ALM, Salywon A, Wojciechowski MF, Majure LC, Martin DP, Ribeiro SG, Lefeuvre P, and Varsani A

Subjects
Australia, Brazil, DNA Viruses classification, France, Metagenomics, Phylogeny, South Africa, United States, DNA Virus Infections virology, DNA Viruses isolation & purification, Genome, Viral, Plants virology
Abstract

Genomoviruses (family Genomoviridae) are circular single-stranded DNA viruses that have been mainly identified through metagenomics studies in a wide variety of samples from various environments. Here, we describe 98 genomes of genomoviruses found associated with members of 19 plant families from Australia, Brazil, France, South Africa and the USA. These 98 genomoviruses represent 29 species, 26 of which are new, in the genera Gemykolovirus (n = 37), Gemyduguivirus (n = 9), Gemygorvirus (n = 8), Gemykroznavirus (n = 6), Gemycircularvirus (n = 21) and Gemykibivirus (n = 17).

Published
2020
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37. Yam asymptomatic virus 1, a novel virus infecting yams (Dioscorea spp.) with significant prevalence in a germplasm collection.

Author

Marais A, Umber M, Filloux D, Gomez RM, Faure C, Pavis C, Julian C, Roumagnac P, Acina-Mambole I, Bonheur L, Theil S, Contreras S, Candresse T, and Teycheney PY

Subjects
Closteroviridae isolation & purification, Closteroviridae pathogenicity, Genetic Variation, Genome, Viral, Guadeloupe, Prevalence, Real-Time Polymerase Chain Reaction, Closteroviridae classification, Dioscorea virology, Phylogeny, Plant Diseases virology
Abstract

A novel virus infecting yams (Dioscorea spp.), tentatively named "yam asymptomatic virus 1" (YaV1), was characterized and sequenced from an asymptomatic D. alata plant from Vanuatu. Sequence comparisons and phylogenetic analysis showed that YaV1 is a novel ampelovirus and has the smallest genome among "subgroup 1" members. RT-PCR-based screening of a yam germplasm collection conserved in Guadeloupe showed that YaV1 is prevalent in D. alata, D. bulbifera, D. cayennensis subsp. rotundata, D. esculenta and D. trifida accessions but causes no apparent symptoms. Additional phylogenetic analysis revealed a low variability of YaV1 in Guadeloupe in a limited part of the genome, and suggested the occurrence of plant-to-plant transmission.

Published
2020
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38. Illuminating an Ecological Blackbox: Using High Throughput Sequencing to Characterize the Plant Virome Across Scales.

Author

Maclot F, Candresse T, Filloux D, Malmstrom CM, Roumagnac P, van der Vlugt R, and Massart S

Abstract

The ecology of plant viruses began to be explored at the end of the 19th century. Since then, major advances have revealed mechanisms of virus-host-vector interactions in various environments. These advances have been accelerated by new technlogies for virus detection and characterization, most recently including high throughput sequencing (HTS). HTS allows investigators, for the first time, to characterize all or nearly all viruses in a sample without a priori information about which viruses might be present. This powerful approach has spurred new investigation of the viral metagenome (virome). The rich virome datasets accumulated illuminate important ecological phenomena such as virus spread among host reservoirs (wild and domestic), effects of ecosystem simplification caused by human activities (and agriculture) on the biodiversity and the emergence of new viruses in crops. To be effective, however, HTS-based virome studies must successfully navigate challenges and pitfalls at each procedural step, from plant sampling to library preparation and bioinformatic analyses. This review summarizes major advances in plant virus ecology associated with technological developments, and then presents important considerations and best practices for HTS use in virome studies., (Copyright © 2020 Maclot, Candresse, Filloux, Malmstrom, Roumagnac, van der Vlugt and Massart.)

Published
2020
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39. Molecular Viral Diagnosis and Sanitation of Yam Genetic Resources: Implications for Safe Yam Germplasm Exchange.

Author

Umber M, Filloux D, Gélabale S, Gomez RM, Marais A, Gallet S, Gamiette F, Pavis C, and Teycheney PY

Subjects
Badnavirus genetics, Badnavirus isolation & purification, Plant Viruses genetics, Polymerase Chain Reaction methods, Potexvirus genetics, Potexvirus isolation & purification, Reproducibility of Results, West Indies, Dioscorea virology, Pathology, Molecular methods, Plant Diseases virology, Plant Viruses isolation & purification, Sanitation methods
Abstract

Yam ( Dioscorea spp.) is an important crop in tropical and subtropical regions. Many viruses have been recently identified in yam, hampering genetic conservation and safe international exchanges of yam germplasm. We report on the implementation of reliable and cost-effective PCR-based detection tools targeting eight different yam-infecting viruses. Viral indexing of the in vitro yam collection maintained by the Biological Resources Center for Tropical Plants (BRC-TP) in Guadeloupe (French West Indies) unveiled a high prevalence of potyviruses, badnaviruses, Dioscorea mosaic associated virus (DMaV) and yam asymptomatic virus 1 (YaV1) and a high level of coinfections. Infected yam accessions were subjected to a combination of thermotherapy and meristem culture. Sanitation levels were monitored using PCR-based and high-throughput sequencing-based diagnosis, confirming the efficacy and reliability of PCR-based detection tools. Sanitation rates were highly variable depending on viruses. Sixteen accessions were successfully sanitized, paving the way to safe yam germplasm exchanges and the implementation of clean seed production programs worldwide.

Published
2020
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40. Large-scale survey reveals pervasiveness and potential function of endogenous geminiviral sequences in plants.

Author

Sharma V, Lefeuvre P, Roumagnac P, Filloux D, Teycheney PY, Martin DP, and Maumus F

Abstract

The family Geminiviridae contains viruses with single-stranded DNA genomes that have been found infecting a wide variety of angiosperm species. The discovery within the last 25 years of endogenous geminivirus-like (EGV) elements within the nuclear genomes of several angiosperms has raised questions relating to the pervasiveness of EGVs and their impacts on host biology. Only a few EGVs have currently been characterized and it remains unclear whether any of these have influenced, or are currently influencing, the evolutionary fitness of their hosts. We therefore undertook a large-scale search for evidence of EGVs within 134 genome and 797 transcriptome sequences of green plant species. We detected homologues of geminivirus replication-associated protein (Rep) genes in forty-two angiosperm species, including two monocots, thirty-nine dicots, and one ANITA-grade basal angiosperm species ( Amborella trichopoda ). While EGVs were present in the members of many different plant orders, they were particularly common within the large and diverse order, Ericales , with the highest copy numbers of EGVs being found in two varieties of tea plant ( Camellia sinensis ). Phylogenetic and clustering analyses revealed multiple highly divergent previously unknown geminivirus Rep lineages, two of which occur in C.sinensis alone. We find that some of the Camellia EGVs are likely transcriptionally active, sometimes co-transcribed with the same host genes across several Camellia species. Overall, our analyses expand the known breadths of both geminivirus diversity and geminivirus host ranges, and strengthens support for the hypothesis that EGVs impact the biology of their hosts., (© The Author(s) 2020. Published by Oxford University Press.)

Published
2020
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41. Heterogeneity of the rice microbial community of the Chinese centuries-old Honghe Hani rice terraces system.

Author

Alonso P, Blondin L, Gladieux P, Mahé F, Sanguin H, Ferdinand R, Filloux D, Desmarais E, Cerqueira F, Jin B, Huang H, He X, Morel JB, Martin DP, Roumagnac P, and Vernière C

Subjects
Agriculture methods, China, Humans, Plant Diseases microbiology, Biodiversity, Microbiota genetics, Oryza microbiology
Abstract

The Honghe Hani rice terraces system (HHRTS) is a traditional rice cultivation system where Hani people cultivate remarkably diverse rice varieties. Recent introductions of modern rice varieties to the HHRTS have significantly increased the severity of rice diseases within the terraces. Here, we determine the impacts of these recent introductions on the composition of the rice-associated microbial communities. We confirm that the HHRTS contains a range of both traditional HHRTS landraces and introduced modern rice varieties and find differences between the microbial communities of these two groups. However, this introduction of modern rice varieties has not strongly impacted the overall diversity of the HHRTS rice microbial community. Furthermore, we find that the rice varieties (i.e. groups of closely related genotypes) have significantly structured the rice microbial community composition (accounting for 15%-22% of the variance) and that the core microbial community of HHRTS rice plants represents less than 3.3% of all the microbial taxa identified. Collectively, our study suggests a highly diverse HHRTS rice holobiont (host with its associated microbes) where the diversity of rice hosts mirrors the diversity of their microbial communities. Further studies will be needed to better determine how such changes might impact the sustainability of the HHRTS., (© 2020 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2020
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42. Sorghum mastrevirus-associated alphasatellites: new geminialphasatellites associated with an African streak mastrevirus infecting wild Poaceae plants on Reunion Island.

Author

Claverie S, Varsani A, Hoareau M, Filloux D, Roumagnac P, Martin DP, Lefeuvre P, and Lett JM

Subjects
Genome, Viral genetics, Phylogeny, Plant Diseases virology, Reunion, Sequence Analysis, DNA methods, Zea mays virology, Geminiviridae genetics, Maize streak virus genetics, Poaceae virology, Sorghum virology
Abstract

Nine complete nucleotide sequences of geminialphasatellites (subfamily Geminialphasatellitinae, family Alphasatellitidae) recovered from the wild Poaceae Sorghum arundinaceum collected in Reunion are described and analyzed. While the helper geminivirus was identified as an isolate of maize streak virus (genus Mastrevirus, family Geminiviridae), the geminialphasatellite genomes were most closely related to, and shared ~63% identity with, clecrusatellites. Even though the geminialphasatellite molecules lack an adenine rich-region, they have the typical size of geminialphasatellites, encode a replication-associated protein in the virion sense, and have probable stem-loop structures at their virion-strand origins of replication. According to the proposed geminialphasatellite species and genus demarcation thresholds (88% and 70% nucleotide identity, respectively), the genomes identified here represent a new species (within a new genus) for which we propose the name "Sorghum mastrevirus-associated alphasatellite" (genus "Sorgasalphasatellite").

Published
2020
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43. High predation of native sea lamprey during spawning migration.

Author

Boulêtreau S, Carry L, Meyer E, Filloux D, Menchi O, Mataix V, and Santoul F

Subjects
Animals, Reproduction, Animal Migration, Catfishes physiology, Endangered Species, Lampreys physiology, Predatory Behavior
Abstract

Sea lamprey (Petromyzon marinus) is a unique jawless vertebrate among the most primitive of all living vertebrates. This migratory fish is endangered in much of its native area due to dams, overfishing, pollution, and habitat loss. An introduced predator, the European catfish (Silurus glanis), is now widespread in Western and Southern European freshwaters, adding a new threat for sea lamprey migrating into freshwater to spawn. Here, we use a new prototype predation tag coupled with RFID telemetry on 49 individuals from one of the largest sea lamprey European populations (Southwestern France) to quantify the risk of predation for adult sea lampreys during its spawning migration in rivers with large populations of European catfish. We found that at least 80% of tagged sea lampreys (39 among 49) were preyed upon within one month, and that 50% of the released lampreys were rapidly consumed on average 8 days after tagging. This very high predation rate suggests that the European catfish represents a supplementary serious threat of extirpation for the native sea lamprey population we studied. This threat is likely to happen throughout most of the native lamprey distribution area, as the European catfish is becoming established almost everywhere the sea lamprey is.

Published
2020
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44. A Novel Divergent Geminivirus Identified in Asymptomatic New World Cactaceae Plants.

Author

Fontenele RS, Salywon AM, Majure LC, Cobb IN, Bhaskara A, Avalos-Calleros JA, Argüello-Astorga GR, Schmidlin K, Khalifeh A, Smith K, Schreck J, Lund MC, Köhler M, Wojciechowski MF, Hodgson WC, Puente-Martinez R, Van Doorslaer K, Kumari S, Vernière C, Filloux D, Roumagnac P, Lefeuvre P, Ribeiro SG, Kraberger S, Martin DP, and Varsani A

Subjects
Animals, Geminiviridae classification, Geminiviridae isolation & purification, Hemiptera virology, Mexico, Recombination, Genetic, Nicotiana virology, United States, Cactaceae virology, Geminiviridae genetics, Genome, Viral, Phylogeny, Plant Diseases virology
Abstract

Cactaceae comprise a diverse and iconic group of flowering plants which are almost exclusively indigenous to the New World. The wide variety of growth forms found amongst the cacti have led to the trafficking of many species throughout the world as ornamentals. Despite the evolution and physiological properties of these plants having been extensively studied, little research has focused on cactus-associated viral communities. While only single-stranded RNA viruses had ever been reported in cacti, here we report the discovery of cactus-infecting single-stranded DNA viruses. These viruses all apparently belong to a single divergent species of the family Geminiviridae and have been tentatively named Opuntia virus 1 (OpV1). A total of 79 apparently complete OpV1 genomes were recovered from 31 different cactus plants (belonging to 20 different cactus species from both the Cactoideae and Opuntioideae clades) and from nine cactus-feeding cochineal insects ( Dactylopius sp.) sampled in the USA and Mexico. These 79 OpV1 genomes all share > 78.4% nucleotide identity with one another and < 64.9% identity with previously characterized geminiviruses. Collectively, the OpV1 genomes display evidence of frequent recombination, with some genomes displaying up to five recombinant regions. In one case, recombinant regions span ~40% of the genome. We demonstrate that an infectious clone of an OpV1 genome can replicate in Nicotiana benthamiana and Opuntia microdasys. In addition to expanding the inventory of viruses that are known to infect cacti, the OpV1 group is so distantly related to other known geminiviruses that it likely represents a new geminivirus genus. It remains to be determined whether, like its cactus hosts, its geographical distribution spans the globe.

Published
2020
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45. Emergence of Southern Rice Black-Streaked Dwarf Virus in the Centuries-Old Chinese Yuanyang Agrosystem of Rice Landraces.

Author

Alonso P, Gladieux P, Moubset O, Shih PJ, Mournet P, Frouin J, Blondin L, Ferdinand R, Fernandez E, Julian C, Filloux D, Adreit H, Fournier E, Ducasse A, Grosbois V, Morel JB, Huang H, Jin B, He X, Martin DP, Vernière C, and Roumagnac P

Subjects
China, Communicable Diseases, Emerging virology, Japan, Phylogeny, Reoviridae classification, Reoviridae genetics, Vietnam, Oryza virology, Plant Diseases virology, Reoviridae isolation & purification
Abstract

Southern rice black-streaked dwarf virus (SRBSDV), which causes severe disease symptoms in rice ( Oriza sativa L.) has been emerging in the last decade throughout northern Vietnam, southern Japan and southern, central and eastern China. Here we attempt to quantify the prevalence of SRBSDV in the Honghe Hani rice terraces system (HHRTS)-a Chinese 1300-year-old traditional rice production system. We first confirm that genetically diverse rice varieties are still being cultivated in the HHRTS and categorize these varieties into three main genetic clusters, including the modern hybrid varieties group (MH), the Hongyang improved modern variety group (HY) and the traditional indica landraces group (TIL). We also show over a 2-year period that SRBSDV remains prevalent in the HHRTS (20.1% prevalence) and that both the TIL (17.9% prevalence) and the MH varieties (5.1% prevalence) were less affected by SRBSDV than were the HY varieties (30.2% prevalence). Collectively we suggest that SRBSDV isolates are freely moving within the HHRTS and that TIL, HY and MH rice genetic clusters are not being preferentially infected by particular SRBSDV lineages. Given that SRBSDV can cause 30-50% rice yield losses, our study emphasizes both the need to better monitor the disease in the HHRTS, and the need to start considering ways to reduce its burden on rice production.

Published
2019
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46. Exploring the diversity of Poaceae-infecting mastreviruses on Reunion Island using a viral metagenomics-based approach.

Author

Claverie S, Ouattara A, Hoareau M, Filloux D, Varsani A, Roumagnac P, Martin DP, Lett JM, and Lefeuvre P

Subjects
High-Throughput Nucleotide Sequencing, Metagenomics, Reunion, Geminiviridae classification, Geminiviridae genetics, Genetic Variation, Genome, Viral, Plant Diseases virology, Poaceae virology, Sequence Analysis, DNA
Abstract

Mostly found in Africa and its surrounding islands, African streak viruses (AfSV) represent the largest group of known mastreviruses. Of the thirteen AfSV species that are known to infect either cultivated or wild Poaceae plant species, six have been identified on Reunion Island. To better characterize AfSV diversity on this island, we undertook a survey of a small agroecosystem using a new metagenomics-based approach involving rolling circle amplification with random PCR amplification tagging (RCA-RA-PCR), high-throughput sequencing (Illumina HiSeq) and the mastrevirus reads classification using phylogenetic placement. Mastreviruses that likely belong to three new species were discovered and full genome sequences of these were determined by Sanger sequencing. The geminivirus-focused metagenomics approach we applied in this study was useful in both the detection of known and novel mastreviruses. The results confirm that Reunion Island is indeed a hotspot of AfSV diversity and that many of the mastrevirus species have likely been introduced multiple times. Applying a similar approach in other natural and agricultural environments should yield sufficient detail on the composition and diversity of geminivirus communities to precipitate major advances in our understanding of the ecology and the evolutionary history of this important group of viruses.

Published
2019
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47. High-throughput sequencing of complete genomes of ipomoviruses associated with an epidemic of cassava brown streak disease in the Comoros Archipelago.

Author

Scussel S, Candresse T, Marais A, Claverie S, Hoareau M, Azali HA, Verdin E, Tepfer M, Filloux D, Fernandez E, Roumagnac P, Robène I, Lefeuvre P, Jourda C, Roux-Cuvelier M, and Lett JM

Subjects
Base Sequence genetics, Comoros, High-Throughput Nucleotide Sequencing methods, Manihot virology, Phylogeny, Plant Diseases virology, RNA, Viral genetics, Sequence Analysis, DNA methods, Potyviridae genetics
Abstract

Using high-throughput sequencing of small interfering RNAs (siRNAs), virion-associated nucleic acid (VANA), and double stranded RNAs (dsRNAs), we have determined the complete genome sequences of Comorian isolates of two ipomoviruses, cassava brown streak virus (CBSV) and a divergent isolate of Ugandan cassava brown streak virus (UCBSV-KM) representing a new strain of this virus. While the large ORF of CBSV shares the highest nucleotide sequence identity (95.9%) with a Tanzanian isolate of CBSV, the large UCBSV-KM ORF shares the highest nucleotide sequence identity (77.5%) with a Malawian isolate of UCBSV. This low value is near the species demarcation threshold for the family Potyviridae (<76%). Phylogenetic analysis confirms that UCBSV-KM represents a new lineage that is genetically distinct from the currently described UCBSV strains.

Published
2019
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48. A New Prevalent Densovirus Discovered in Acari . Insight from Metagenomics in Viral Communities Associated with Two-Spotted Mite ( Tetranychus urticae ) Populations.

Author

François S, Mutuel D, Duncan AB, Rodrigues LR, Danzelle C, Lefevre S, Santos I, Frayssinet M, Fernandez E, Filloux D, Roumagnac P, Froissart R, and Ogliastro M

Subjects
Animals, Capsid Proteins genetics, Female, Genome, Viral, Metagenomics, Phylogeny, Plants virology, Prevalence, Viral Nonstructural Proteins genetics, Densovirus genetics, Densovirus isolation & purification, Genetic Variation, Microbiota, Tetranychidae virology
Abstract

Viral metagenomics and high throughput sequence mining have revealed unexpected diversity, and the potential presence, of parvoviruses in animals from all phyla. Among arthropods, this diversity highlights the poor knowledge that we have regarding the evolutionary history of densoviruses. The aim of this study was to explore densovirus diversity in a small arthropod pest belonging to Acari , the two-spotted spider mite Tetranychus urticae , while using viral metagenomics based on virus-enrichment. Here, we present the viromes obtained from T. urticae laboratory populations made of contigs that are attributed to nine new potential viral species, including the complete sequence of a novel densovirus. The genome of this densovirus has an ambisens genomic organization and an unusually compact size with particularly small non-structural proteins and a predicted major capsid protein that lacks the typical PLA2 motif that is common to all ambidensoviruses described so far. In addition, we showed that this new densovirus had a wide prevalence across populations of mite species tested and a genomic diversity that likely correlates with the host phylogeny. In particular, we observed a low densovirus genomic diversity between the laboratory and natural populations, which suggests that virus within-species evolution is probably slower than initially thought. Lastly, we showed that this novel densovirus can be inoculated to the host plant following feeding by infected mites, and circulate through the plant vascular system. These findings offer new insights into densovirus prevalence, evolution, and ecology.

Published
2019
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49. Diverse and variable virus communities in wild plant populations revealed by metagenomic tools.

Author

Susi H, Filloux D, Frilander MJ, Roumagnac P, and Laine AL

Abstract

Wild plant populations may harbour a myriad of unknown viruses. As the majority of research efforts have targeted economically important plant species, the diversity and prevalence of viruses in the wild has remained largely unknown. However, the recent shift towards metagenomics-based sequencing methodologies, especially those targeting small RNAs, is finally enabling virus discovery from wild hosts. Understanding this diversity of potentially pathogenic microbes in the wild can offer insights into the components of natural biodiversity that promotes long-term coexistence between hosts and parasites in nature, and help predict when and where risks of disease emergence are highest. Here, we used small RNA deep sequencing to identify viruses in Plantago lanceolata populations, and to understand the variation in their prevalence and distribution across the Åland Islands, South-West Finland. By subsequent design of PCR primers, we screened the five most common viruses from two sets of P. lanceolata plants: 164 plants collected from 12 populations irrespective of symptoms, and 90 plants collected from five populations showing conspicuous viral symptoms. In addition to the previously reported species Plantago lanceolata latent virus (PlLV), we found four potentially novel virus species belonging to Caulimovirus, Betapartitivirus, Enamovirus, and Closterovirus genera. Our results show that virus prevalence and diversity varied among the sampled host populations. In six of the virus infected populations only a single virus species was detected, while five of the populations supported between two to five of the studied virus species. In 20% of the infected plants, viruses occurred as coinfections. When the relationship between conspicuous viral symptoms and virus infection was investigated, we found that plants showing symptoms were usually infected (84%), but virus infections were also detected from asymptomatic plants (44%). Jointly, these results reveal a diverse virus community with newly developed tools and protocols that offer exciting opportunities for future studies on the eco-evolutionary dynamics of viruses infecting plants in the wild., Competing Interests: Anna-Liisa Laine is an Academic Editor for PeerJ.

Published
2019
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50. Novel circular DNA viruses associated with Apiaceae and Poaceae from South Africa and New Zealand.

Author

Richet C, Kraberger S, Filloux D, Bernardo P, Harkins GW, Martin DP, Roumagnac P, and Varsani A

Subjects
Amino Acid Motifs, New Zealand, South Africa, Apiaceae virology, DNA Viruses isolation & purification, DNA, Circular, Plant Viruses genetics, Poaceae virology
Abstract

Advances in molecular techniques used in viral metagenomics coupled with high throughput sequencing is rapidly expanding our knowledge of plant-associated virus diversity. Applying such approaches, we have identified five novel circular replication-associated protein (Rep)-encoding single-stranded (CRESS) DNA viruses from Poaceae and Apiaceae plant from South Africa and New Zealand. These viruses have a simple genomic organization, including two open reading frames that likely encode a Rep and a capsid protein (CP), a conserved nonanucleotide motif on the apex of a putative stem loop structure, and conserved rolling-circle replication and helicase motifs within their likely Rep: all suggesting that they replicate through rolling-circle replication. The Reps and the CPs putatively encoded by these five novel viruses share low to moderate degrees of similarity (22.1 - 44.6%) with other CRESS DNA viruses.

Published
2019
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