Your search keyword '"Betapartitivirus"' showing total 14 results

1. The artificial production of viral-like particles in Nicotiana benthamiana suggests the pro-assembly role of the Cannabis cryptic virus RdRP

Author

Miotti, N., Dall’Ara, M., Baldo, D., Passera, A., Casati, P., and Ratti, C.

Published

2024

2. Identification and complete genome sequencing of a novel betapartitivirus naturally infecting the mycorrhizal desert truffle Terfezia claveryi.

Author

Sahin, Ergin, Ozbey Saridogan, Beste Gizem, Keskin, Emre, and Akata, Ilgaz

Abstract

Viruses that naturally infect fungal species and capable of establishing mycorrhizae are largely unknown. In this study, we identified and characterized a new partitivirus inhabiting the ascomycete, mycorrhizal desert truffle species Terfezia claveryi, and named it "Terfezia claveryi partitivirus 1" (TcPV1). The entire genome of TcPV1, sequenced by both high throughput sequencing of the total dsRNA extracts and by Sanger sequencing of the RLM-RACE PCR products comprised two dsRNA segments of 2404 bp and 2374 bp, respectively. Both dsRNA genome segments harbored a single open reading frame (ORF), encoding a putative RNA-dependent RNA polymerase (RdRp), and a capsid protein (CP), respectively. The BLASTp search of the RdRp and CP sequences revealed the highest sequence identities (41.92% and 24.13% identity, respectively) to those of Bipolaris maydis partitivirus 2 and Plasmopara viticola lesion associated partitivirus 5. Molecular phylogenetic analyses of the RdRp sequence showed that TcPV1 fall within a clade composed entirely of members of the genus Betapartitivirus, belonging to the family Partitiviridae. In light of this molecular evidence, TcPV1 is a new member of the genus Betapartitivirus. This is the first report of a new partitivirus hosted by the ascomycete, mycorrhizal fungus T. claveryi. [ABSTRACT FROM AUTHOR]

Published

2023

3. Identification of genome sequences of novel partitiviruses in the quinoa (Chenopodium quinoa) transcriptome datasets.

Author

Park, Dongbin and Hahn, Yoonsoo

Subjects

*QUINOA, *PLANT viruses, *HOST plants

Abstract

Quinoa (Chenopodium quinoa) is an important crop that is used as a model host for studying plant viruses. Genome sequences of five partitiviruses (two novel betapartitiviruses, two novel deltapartitiviruses, and one known gammapartitivirus) were identified from 65 quinoa transcriptome datasets. All quinoa transcriptome datasets analyzed in this study contained at least one of these partitivirus genome segments. These partitivirus sequences may affect the biology of quinoa plants or artificially infected viruses, and therefore could interfere with the accurate interpretation of the experimental results obtained from using quinoa as the host plants. [ABSTRACT FROM AUTHOR]

Published

2021

4. Diverse and variable virus communities in wild plant populations revealed by metagenomic tools

Author

Hanna Susi, Denis Filloux, Mikko J. Frilander, Philippe Roumagnac, and Anna-Liisa Laine

Subjects

Betapartitivirus, Caulimovirus, Closterovirus, Metagenomics, Enamovirus, Plantago lanceolata latent virus, Medicine, Biology (General), QH301-705.5

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.

Published

2019

5. Isolation and characterization of a novel mycovirus infecting an edible mushroom, Grifola frondosa.

Author

Komatsu, Akiko, Kondo, Hideki, Sato, Masayuki, Kurahashi, Atsushi, Nishibori, Kozo, Suzuki, Nobuhiro, and Fujimori, Fumihiro

Subjects

*FUNGAL viruses, *EDIBLE mushrooms, *RNA replicase, *AMINO acid sequence, *CULTIVATED mushroom, *FRUIT development

Abstract

Grifola frondosa (Maitake mushroom) is an important cultivated mushroom due to its medicinal and nutrient values. In this study, we isolated and characterized a novel partitivirus (named Grifola frondosa partitivirus 1, GfPV1) infecting a standard G. frondosa strain Gf-N2. This virus has a two-segmented dsRNA genome (dsRNA1 and dsRNA2) with nucleotide lengths of 2.3 and 2.2 kbp, respectively. The coding strand of dsRNA1 and dsRNA2 segments carries single open reading frame encoding RNA-dependent RNA polymerase (RdRp) and a coat protein (CP), respectively. BLAST searches and phylogenetic analyses showed that GfPV1 is most closely related to a betapartitivirus, Lentinula edodes partitivirus 1 (RdRp <70% and CP <60% amino acid sequence identities), but the sequence divergence suggests that GfPV1 is classifiable as a new member of the genus Betapartitivirus , family Partitiviridae. The presence of GfPV1 does not affect colony morphology and fruiting body development of G. frondosa. This is the first report investigating the effects of a mycovirus infection on the colony morphology and fruiting body development of G. frondosa. Interestingly, GfPV1 accumulations markedly decreased along with the fruiting body maturation stages, suggesting the inhibition of virus multiplication during sexual phase of the G. frondosa life cycle. • The first direct evidence of a mycovirus infecting Grifola frondosa. • A novel mycovirus Grifola frondos partitivirus 1 (GfPV1) belongs to the genus Betapartitivirus. • GfPV1 infection does not affect colony morphology and fruiting body formation of G. frondosa. • GfPV1 accumulations decrease along in fruiting body maturity stages of G. frondosa. [ABSTRACT FROM AUTHOR]

Published

2019

6. Diverse and variable virus communities in wild plant populations revealed by metagenomic tools.

Author

Susi, Hanna, Filloux, Denis, Frilander, Mikko J., Roumagnac, Philippe, and Laine, Anna-Liisa

Subjects

PLANT populations, PLANT communities, WILD plants, PLANT viruses, VIRUS diseases, COEXISTENCE of species

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 ecoevolutionary dynamics of viruses infecting plants in the wild. [ABSTRACT FROM AUTHOR]

Published

2019

7. The challenges of using high-throughput sequencing to track multiple bipartite mycoviruses of wild orchid-fungus partnerships over consecutive years.

Author

Ong, Jamie W.L., Li, Hua, Sivasithamparam, Krishnapillai, Dixon, Kingsley W., Jones, Michael G.K., and Wylie, Stephen J.

Subjects

*NUCLEOTIDE sequencing, *FUNGAL viruses, *ORCHIDS, *HOST-fungus relationships, *VIRAL genetics, *DISEASES

Abstract

The bipartite alpha- and betapartitiviruses are recorded from a wide range of fungi and plants. Using a combination of dsRNA-enrichment, high-throughput shotgun sequencing and informatics, we report the occurrence of multiple new partitiviruses associated with mycorrhizal Ceratobasidium fungi, themselves symbiotically associated with a small wild population of Pterostylis sanguinea orchids in Australia, over two consecutive years. Twenty-one partial or near-complete sequences representing 16 definitive alpha- and betapartitivirus species, and further possible species, were detected from two fungal isolates. The majority of partitiviruses occurred in fungal isolates from both years. Two of the partitiviruses represent phylogenetically divergent forms of Alphapartitivirus , suggesting that they may have evolved under long geographical isolation there. We address the challenge of pairing the two genomic segments of partitiviruses to identify species when multiple partitiviruses co-infect a single host. [ABSTRACT FROM AUTHOR]

Published

2017

8. Two novel partitiviruses that accumulate differentially in Rosellinia necatrix and Entoleuca sp. infecting avocado

Author

Instituto de Investigación y Formación Agraria y Pesquera (España), European Commission, Ministerio de Economía y Competitividad (España), Velasco Varo, Leonardo, López Herrera, Carlos, Cretazzo, Enrico, Instituto de Investigación y Formación Agraria y Pesquera (España), European Commission, Ministerio de Economía y Competitividad (España), Velasco Varo, Leonardo, López Herrera, Carlos, and Cretazzo, Enrico

Abstract

Rosellinia necatrix is responsible for the white rot root disease of avocado in Southern Spain. Entoleuca sp. is a fungus isolated from roots of these same trees, but it is not pathogenic in avocado. Here, we describe two new species of partitiviruses detected in isolates of the avocado sympatric fungi Entoleuca sp. and R. necatrix, termed Entoleuca partitivirus 1 (EnPV1), genus Alphapartitivirus, and Entoleuca partitivirus 2 (EnPV2), genus Betapartitivirus. For both R. necatrix and Entoleuca sp., the dsRNA of the RdRp genomic segment of EnPV1 accumulates at a higher rate than the CP dsRNA, except for a set of Entoleuca sp. isolates where titers of the CP dsRNA are 35–50 times higher than those of the RdRp dsRNA and between 250–380 times higher than the CP dsRNA titers found in the rest of Entoleuca sp. and R. necatrix isolates. For EnPV2, the accumulation rates of the RdRp dsRNA in Entoleuca sp., is in most of the cases, higher than the CP dsRNA. In contrast, in R. necatrix isolates, EnPV2 dsRNA2 generally accumulates at a higher rate. Genetic analysis of the partitiviruses revealed that there is no apparent variation in the nucleotide sequences among the strains. RNA silencing of the partitiviruses appears to be limited in Entoleuca sp., as shown by small RNA sequencing. Finally, the investigation of the presence of these partitiviruses in a fungal collection revealed that they have no role in the pathogenicity of R. necatrix in avocado or in the avirulence of Entoleuca sp. in this host.

Published

2020

9. Two novel partitiviruses that accumulate differentially in Rosellinia necatrix and Entoleuca sp. infecting avocado

Author

C. J. López-Herrera, Leonardo Velasco, Enrico Cretazzo, Instituto de Investigación y Formación Agraria y Pesquera (España), European Commission, and Ministerio de Economía y Competitividad (España)

Subjects

Cancer Research, Small RNA, viruses, Entoleuca, Fungus, Genome, Viral, Rosellinia necatrix, Fungal Viruses, Genetic analysis, Microbiology, 03 medical and health sciences, Virus silencing, Ascomycota, Virology, RNA Viruses, Xylariaceae, Alphapartitivirus, 030304 developmental biology, RNA, Double-Stranded, 0303 health sciences, Betapartitivirus, biology, 030306 microbiology, Host (biology), Persea, RNA, biology.organism_classification, RNA silencing, Infectious Diseases, Spain, Virus accumulation, RNA, Viral, Avocados

Abstract

Rosellinia necatrix is responsible for the white rot root disease of avocado in Southern Spain. Entoleuca sp. is a fungus isolated from roots of these same trees, but it is not pathogenic in avocado. Here, we describe two new species of partitiviruses detected in isolates of the avocado sympatric fungi Entoleuca sp. and R. necatrix, termed Entoleuca partitivirus 1 (EnPV1), genus Alphapartitivirus, and Entoleuca partitivirus 2 (EnPV2), genus Betapartitivirus. For both R. necatrix and Entoleuca sp., the dsRNA of the RdRp genomic segment of EnPV1 accumulates at a higher rate than the CP dsRNA, except for a set of Entoleuca sp. isolates where titers of the CP dsRNA are 35–50 times higher than those of the RdRp dsRNA and between 250–380 times higher than the CP dsRNA titers found in the rest of Entoleuca sp. and R. necatrix isolates. For EnPV2, the accumulation rates of the RdRp dsRNA in Entoleuca sp., is in most of the cases, higher than the CP dsRNA. In contrast, in R. necatrix isolates, EnPV2 dsRNA2 generally accumulates at a higher rate. Genetic analysis of the partitiviruses revealed that there is no apparent variation in the nucleotide sequences among the strains. RNA silencing of the partitiviruses appears to be limited in Entoleuca sp., as shown by small RNA sequencing. Finally, the investigation of the presence of these partitiviruses in a fungal collection revealed that they have no role in the pathogenicity of R. necatrix in avocado or in the avirulence of Entoleuca sp. in this host., This work was supported by IFAPA project AVA201601.14, co-financed by FEDER, and by the Spanish Ministry of Science and Innovation project AGL2014-52518-C2-2-R.M.J. Alcalá technical assistance is acknowledged.

Published

2020

10. ICTV virus taxonomy profile: Partitiviridae

Author

Vainio, Eeva J., Chiba, Sotaro, Ghabrial, Said A., Maiss, Edgar, Roossinck, Marilyn, Sabanadzovic, Sead, Suzuki, Nobuhiro, Xie, Jiatao, Nibert, Max, Lefkowitz, E.J., Davison, A.J., Siddell, S.G., Smith, D.B., Orton, R.J., Simmonds, P., ICTV Report Consortium, Vainio, Eeva J., Chiba, Sotaro, Ghabrial, Said A., Maiss, Edgar, Roossinck, Marilyn, Sabanadzovic, Sead, Suzuki, Nobuhiro, Xie, Jiatao, Nibert, Max, Lefkowitz, E.J., Davison, A.J., Siddell, S.G., Smith, D.B., Orton, R.J., Simmonds, P., and ICTV Report Consortium

Abstract

The Partitiviridae is a family of small, isometric, non-enveloped viruses with bisegmented double-stranded (ds) RNA genomes of 3-4.8 kbp. The two genome segments are individually encapsidated. The family has five genera, with characteristic hosts for members of each genus: either plants or fungi for genera Alphapartitivirus and Betapartitivirus, fungi for genus Gammapartitivirus, plants for genus Deltapartitivirus and protozoa for genus Cryspovirus. Partitiviruses are transmitted intracellularly via seeds (plants), oocysts (protozoa) or hyphal anastomosis, cell division and sporogenesis (fungi); there are no known natural vectors. This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on the taxonomy of the Partitiviridae, which is available at www.ictv.global/report/partitiviridae. © 2018 The Authors.

Published

2018

11. ICTV Virus Taxonomy Profile: Partitiviridae

Author

Eeva J, Vainio, Sotaro, Chiba, Said A, Ghabrial, Edgar, Maiss, Marilyn, Roossinck, Sead, Sabanadzovic, Nobuhiro, Suzuki, Jiatao, Xie, Max, Nibert, and Ictv Report Consortium

Subjects

0301 basic medicine, food.ingredient, Gammapartitivirus, 030106 microbiology, Genome, Viral, Fungal Viruses, Virus Replication, 03 medical and health sciences, ICTV, taxonomy, food, Genus, Phylogenetics, Virology, Terminology as Topic, RNA Viruses, Partitiviridae, Alphapartitivirus, Virus classification, Phylogeny, Cryspovirus, Genetics, Betapartitivirus, biology, fungi, Fungi, Virion, RNA virus, Plants, biology.organism_classification, 3. Good health, ICTV Virus Taxonomy Profiles, 030104 developmental biology, Deltapartitivirus, Alveolata, Mycovirus, RNA, Viral, Taxonomy (biology)

Abstract

The Partitiviridae is a family of small, isometric, non-enveloped viruses with bisegmented double-stranded (ds) RNA genomes of 3–4.8 kbp. The two genome segments are individually encapsidated. The family has five genera, with characteristic hosts for members of each genus: either plants or fungi for genera Alphapartitivirus and Betapartitivirus, fungi for genus Gammapartitivirus, plants for genus Deltapartitivirus and protozoa for genus Cryspovirus. Partitiviruses are transmitted intracellularly via seeds (plants), oocysts (protozoa) or hyphal anastomosis, cell division and sporogenesis (fungi); there are no known natural vectors. This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on the taxonomy of the Partitiviridae, which is available at www.ictv.global/report/partitiviridae.

Published

2017

12. Two novel partitiviruses that accumulate differentially in Rosellinia necatrix and Entoleuca sp. infecting avocado.

Author

Velasco, Leonardo, López-Herrera, Carlos, and Cretazzo, Enrico

Subjects

*AVOCADO, *NUCLEOTIDE sequence, *ROOT rots, *RNA interference, *DOUBLE-stranded RNA, *NON-coding RNA

Abstract

• New alphapartitivirus (EnPV1) and betapartitivirus (EnPV2) species are described • The partitiviruses are hosts of the sympatric fungi Entoleuca sp. and R. necatrix • Accumulation of the ssRNA and dsRNA species is differential among isolates • No variation was detected in nucleotide sequences in partitiviruses' population • No association was found between variation in dsRNA titers and other features Rosellinia necatrix is responsible for the white rot root disease of avocado in Southern Spain. Entoleuca sp. is a fungus isolated from roots of these same trees, but it is not pathogenic in avocado. Here, we describe two new species of partitiviruses detected in isolates of the avocado sympatric fungi Entoleuca sp. and R. necatrix , termed Entoleuca partitivirus 1 (EnPV1), genus Alphapartitivirus , and Entoleuca partitivirus 2 (EnPV2), genus Betapartitivirus. For both R. necatrix and Entoleuca sp., the dsRNA of the RdRp genomic segment of EnPV1 accumulates at a higher rate than the CP dsRNA, except for a set of Entoleuca sp. isolates where titers of the CP dsRNA are 35–50 times higher than those of the RdRp dsRNA and between 250–380 times higher than the CP dsRNA titers found in the rest of Entoleuca sp. and R. necatrix isolates. For EnPV2, the accumulation rates of the RdRp dsRNA in Entoleuca sp., is in most of the cases, higher than the CP dsRNA. In contrast, in R. necatrix isolates, EnPV2 dsRNA2 generally accumulates at a higher rate. Genetic analysis of the partitiviruses revealed that there is no apparent variation in the nucleotide sequences among the strains. RNA silencing of the partitiviruses appears to be limited in Entoleuca sp., as shown by small RNA sequencing. Finally, the investigation of the presence of these partitiviruses in a fungal collection revealed that they have no role in the pathogenicity of R. necatrix in avocado or in the avirulence of Entoleuca sp. in this host. [ABSTRACT FROM AUTHOR]

Published

2020

13. ICTV Virus Taxonomy Profile: Partitiviridae.

Author

Vainio EJ, Chiba S, Ghabrial SA, Maiss E, Roossinck M, Sabanadzovic S, Suzuki N, Xie J, Nibert M, and Ictv Report Consortium

Subjects

Alveolata virology, Fungi virology, Plants virology, RNA Viruses classification, RNA Viruses ultrastructure, Terminology as Topic, Virion ultrastructure, Virus Replication, Genome, Viral, Phylogeny, RNA Viruses genetics, RNA, Viral genetics, Virion genetics

Abstract

The Partitiviridae is a family of small, isometric, non-enveloped viruses with bisegmented double-stranded (ds) RNA genomes of 3-4.8 kbp. The two genome segments are individually encapsidated. The family has five genera, with characteristic hosts for members of each genus: either plants or fungi for genera Alphapartitivirus and Betapartitivirus, fungi for genus Gammapartitivirus, plants for genus Deltapartitivirus and protozoa for genus Cryspovirus. Partitiviruses are transmitted intracellularly via seeds (plants), oocysts (protozoa) or hyphal anastomosis, cell division and sporogenesis (fungi); there are no known natural vectors. This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on the taxonomy of the Partitiviridae, which is available at www.ictv.global/report/partitiviridae.

Published

2018

14. Diverse and variable virus communities in wild plant populations revealed by metagenomic tools

Author

Mildco J. Frilander, Philippe Roumagnac, Anna-Liisa Laine, Hanna Susi, Denis Filloux, University of Helsinki, 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), Academy of Finland :296686, 84601, European Research Council : RESISTANCE 724508, Research Centre for Ecological Change, Organismal and Evolutionary Biology Research Programme, Institute of Biotechnology, Ecology and Evolutionary Biology, and Viikki Plant Science Centre (ViPS)

Subjects

0106 biological sciences, HOST-RESISTANCE, Epidemiology, Virologie, viruses, lcsh:Medicine, Plant Science, 01 natural sciences, YELLOW-DWARF-VIRUSES, Caulimovirus, INFECTION, Plantago lanceolata latent virus, Closterovirus, pathologie végétale, 1183 Plant biology, microbiology, virology, 2. Zero hunger, 0303 health sciences, Clostérovirus, Vegetal Biology, Betapartitivirus, General Neuroscience, General Medicine, PREVALENCE, 1181 Ecology, evolutionary biology, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, Coinfection, GENETIC DIVERSITY, Biodiversité, COINFECTION, Pathogens, General Agricultural and Biological Sciences, LANCEOLATA, food.ingredient, F40 - Écologie végétale, Bioinformatics, Zoology, PLANTAGINACEAE, Biology, ECOLOGY, General Biochemistry, Genetics and Molecular Biology, Virus, Enamovirus, 03 medical and health sciences, food, Plantago lanceolata, Virology, medicine, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, Landscape, Virus classification, H20 - Maladies des plantes, 030304 developmental biology, Population Biology, Host (biology), lcsh:R, Virus des végétaux, 15. Life on land, medicine.disease, biology.organism_classification, Small RNA, Metagenomics, maladie virale, Novel virus, EVOLUTIONARY, Biologie végétale, 010606 plant biology & botany

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 inPlantago lanceolatapopulations, 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 ofP. lanceolataplants: 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 speciesPlantago lanceolata latent virus(PlLV), we found four potentially novel virus species belonging toCaulimovirus, Betapartitivirus, Enamovirus,andClosterovirusgenera. 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.