RESUMO
Between 2010 and 2018, sunflower plants exhibiting virus-like symptoms, including stunting, mottling, and chlorotic ringspots on leaves, were observed from commercial fields and research plots from four sites within three distinct counties of western Nebraska (Box Butte, Kimball, and Scotts Bluff). Near identical symptoms from field samples were reproduced on seedlings mechanically in the greenhouse on multiple occasions, confirming the presence of a sap-transmissible virus from each site. Symptomatic greenhouse-inoculated plants from the 2010 and 2011 Box Butte samples tested negative for sunflower mosaic virus (SuMV), sunflower chlorotic mottle virus (SuCMoV), and all potyviruses in general by ELISA and RT-PCR. Similar viral-like symptoms were later observed on plants in a commercial sunflower field in Kimball County in 2014, and again from volunteers in research plots in Scotts Bluff County in 2018. Samples from both of these years were again successfully reproduced on seedlings in the greenhouse as before following mechanical transmissions. Symptom expression for all years began 12 to 14 days after inoculation as mild yellow spots followed by the formation of chlorotic ringspots from the mottled pattern. The culture from 2014 tested negatively for three groups of nepoviruses via RT-PCR, ruling this group out. However, transmission electron microscopy assays of greenhouse-infected plants from both 2014 and 2018 revealed the presence of distinct, polyhedral virus particles. With the use of high throughput sequencing and RT-PCR, it was confirmed that the infections from both years were caused by a new virus in the tombusvirus genus and was proposed to be called Sunflower ring spot mottle virus (SuRSMV). Although the major objective of this project was to identify the causal agent of the disease, it became evident that the diagnostic journey itself, with all the barriers encountered on the 10-year trek, was actually more important and impactful than identification.
Assuntos
Helianthus , Tombusvirus , Helianthus/virologia , Nebraska , Doenças das Plantas/virologia , Plântula/virologia , Tombusvirus/classificação , Tombusvirus/genética , Tombusvirus/isolamento & purificação , RNA Viral/genética , Especificidade da EspécieRESUMO
Pathogen-tested foundation plant stocks are the cornerstone of sustainable specialty crop production. They provide the propagative units that are used to produce clean planting materials, which are essential as the first-line management option of diseases caused by graft-transmissible pathogens such as viruses, viroids, bacteria, and phytoplasmas. In the United States, efforts to produce, maintain, and distribute pathogen-tested propagative material of specialty crops are spearheaded by centers of the National Clean Plant Network (NCPN). Agricultural economists collaborated with plant pathologists, extension educators, specialty crop growers, and regulators to investigate the impacts of select diseases caused by graft-transmissible pathogens and to estimate the return on investments in NCPN centers. Economic studies have proven valuable to the NCPN in (i) incentivizing the use of clean planting material derived from pathogen-tested foundation plant stocks; (ii) documenting benefits of clean plant centers, which can outweigh operating costs by 10:1 to 150:1; (iii) aiding the development of disease management solutions that are not only ecologically driven but also profit maximizing; and (iv) disseminating integrated disease management recommendations that resonate with growers. Together, economic studies have reinforced efforts to safeguard specialty crops in the United States through the production and use of clean planting material.
Assuntos
Agricultura , Produtos Agrícolas , Estados UnidosRESUMO
Since the establishment of the genus Vitivirus, several additional viruses have been sequenced and proposed to represent new species of this genus. Currently, the International Committee on Taxonomy of Viruses recognizes 15 vitivirus species. The report of new vitiviruses that fail to completely adhere to the species demarcation criteria, the incorporation of non-vitivirus grapevine viruses in the unofficial "naming system", and the existence of non-grapevine vitiviruses lead to inconsistencies in classification. In this report, we give a brief overview of vitiviruses and use currently available information to clarify the present status of the vitivirus taxonomy.
Assuntos
Flexiviridae/classificação , Flexiviridae/genética , Genoma Viral/genética , Filogenia , Análise de Sequência de DNA/métodos , Proteínas Virais/genéticaRESUMO
Over the last decade, virologists have discovered an unprecedented number of viruses using high throughput sequencing (HTS), which led to the advancement of our knowledge on the diversity of viruses in nature, particularly unraveling the virome of many agricultural crops. However, these new virus discoveries have often widened the gaps in our understanding of virus biology; the forefront of which is the actual role of a new virus in disease, if any. Yet, when used critically in etiological studies, HTS is a powerful tool to establish disease causality between the virus and its host. Conversely, with globalization, movement of plant material is increasingly more common and often a point of dispute between countries. HTS could potentially resolve these issues given its capacity to detect and discover. Although many pipelines are available for plant virus discovery, all share a common backbone. A description of the process of plant virus detection and discovery from HTS data are presented, providing a summary of the different pipelines available for scientists' utility in their research.
Assuntos
Sequenciamento de Nucleotídeos em Larga Escala , Doenças das Plantas/virologia , Vírus de Plantas/isolamento & purificaçãoRESUMO
Severe virus-like symptoms consisting of mosaic, distortion, yellowing, and brittleness were observed on papaya plants in a 20-ha orchard in South Texas during the 2014-15 growing season. Incidence of symptomatic plants increased from â¼40 to 100% within 6 months of the outbreak; the most severely affected plants were stunted, and fruit yield and quality were reduced compared with asymptomatic plants. The orchard papaya plant virome was explored using the Illumina NextSeq 500 platform and results were validated by Sanger DNA sequencing of complete viral genomes obtained by PCR amplification. The combined results revealed the presence of Papaya ringspot virus (PRSV; Potyvirus), Lettuce chlorosis virus (LCV; Crinivirus), and Tomato yellow leaf curl virus-IL (TYLCV-IL; Begomovirus). The RT-PCR analyses of leaves from 51 randomly sampled papaya plants indicated the presence of PRSV, LCV, and TYLCV-IL in 100, 39.2, and 15.7% of the samples, respectively. Plants infected with PRSV, in combination with LCV and/or TYLCV-IL, exhibited more severe symptoms compared with plants infected with PRSV alone. Furthermore, successful whitefly-mediated transmission of TYLCV-IL and LCV was accomplished by exposing virus-free papaya seedlings to viruliferous Bemisia tabaci (Genn.) under greenhouse conditions. The results of this study document a new host record for LCV and the first successful whitefly-mediated transmission of TYLCV-IL and LCV to papaya. As a perennial crop, infected papaya serving as an over-seasoning reservoir for TYLCV-IL and LCV, presents a new challenge to viral disease management in papaya orchards.
RESUMO
A survey for the presence of Grapevine virus E (GVE, genus Vitivirus, family Betaflexiviridae) in vineyards in New York and California was conducted using macroarray hybridization or reverse-transcription polymerase chain reaction (RT-PCR) assays. In New York, GVE was detected in 10 of 46 vines of Vitis labrusca, one V. riparia, and one Vitis hybrid. All GVE-infected New York vines were coinfected with Grapevine leafroll-associated virus-3. In California, GVE was detected in 8 of 417 vines of V. vinifera. All GVE-infected California vines were also coinfected by one of the leafroll-associated viruses and other vitiviruses. In order to assess the genetic diversity among GVE isolates, a viral cDNA was amplified by RT-PCR, and a 675-nucleotide region that included the 3' terminus of the coat protein gene, a short intergenic region, and the 5' terminus of the putative nucleic acid binding protein gene was sequenced. All 20 GVE isolates sequenced in this study were very closely related, with >98% nucleotide identity to the SA94 isolate from South Africa. These findings confirm the presence of GVE in major grape-growing regions of the United States and indicate a very low level of genetic diversity.
RESUMO
We have characterized the virome in single grapevines by 454 high-throughput sequencing of double-stranded RNA recovered from the vine stem. The analysis revealed a substantial set of sequences similar to those of fungal viruses. Twenty-six putative fungal virus groups were identified from a single plant source. These represented half of all known mycoviral families including the Chrysoviridae, Hypoviridae, Narnaviridae, Partitiviridae, and Totiviridae. Three of the mycoviruses were associated with Botrytis cinerea, a common fungal pathogen of grapes. Most of the rest appeared to be undescribed. The presence of viral sequences identified by BLAST analysis was confirmed by sequencing PCR products generated from the starting material using primers designed from the genomic sequences of putative mycoviruses. To further characterize these sequences as fungal viruses, fungi from the grapevine tissue were cultured and screened with the same PCR probes. Five of the mycoviruses identified in the total grapevine extract were identified again in extracts of the fungal cultures.
Assuntos
Biodiversidade , Sequenciamento de Nucleotídeos em Larga Escala , Vírus de Plantas/isolamento & purificação , Vírus de RNA/isolamento & purificação , Análise de Sequência de DNA , Vitis/virologia , Análise por Conglomerados , Fungos/virologia , Dados de Sequência Molecular , Filogenia , Vírus de Plantas/classificação , Vírus de Plantas/genética , Vírus de RNA/classificação , Vírus de RNA/genéticaRESUMO
"Tissue-printing" hybridization (3) for Peach latent mosaic viroid (PLMVd) and Hop stunt viroid (HSVd) was used to assess the sanitary status of stone fruit accessions in the Canadian Clonal Genebank (CCG) located in Harrow (Ontario). The Prunus spp. accessions in the CCG are primarily of Canadian origin; other countries of origin include the United States, the United Kingdom, Hungary, the Czech Republic, the Former Soviet Union, Spain, New Zealand, and Italy. All Prunus spp. accessions were donated to the Genebank from Canadian or American sources. Leaves were harvested in November 2003 from 336 trees (116 peach and nectarine, 84 sweet and sour cherries, 54 plum, 44 apricot, and 38 of other cherries) representing 267 accessions. No visible symptoms were observed during the collection of the accessions to be evaluated. The petioles were excised at the base and imprinted on a nylon membrane in triplicate for each sample. The membranes were air dried and submitted by mail to the laboratory. The digoxigenin-labeled riboprobes used for hybridization were obtained by T7 RNA polymerase transcription of the linearized plasmids pHSVd (1) and pPLMVd (2). Thirty stone fruit samples were infected by viroids. PLMVd occurred in 28 peach and nectarine samples, representing the following cultivars and selections: Harblaze Hardired, Harko, Earlyvee, Harbelle, Harken, Harland, Harrow Beauty, Harrow Rubirose, HW264, Redhaven, Silver Gold, Suncling, V68101, Vanity, Veeglo, Velvet, Vesper, Villa Doria, and Vulcan. PLMVd-infected samples represented 24.1% of the tested peaches and nectarines. PLMVd finding confirms previous reports of the viroid in Canada from British Columbia and Ontario. Two CCG apricot accessions, 'Bulida' and 'Velkopavlovicka', were found to be infected with only HSVd, representing 4.5% of tested apricot samples. These samples, determined to be positive by tissue-printing hybridization, were also positive by reverse transcription-polymerase chain reaction (RT-PCR) (1). In addition, nucleotide sequences of the PCR products were obtained. The 'Bulida' isolate showed 100% homology to a Spanish isolate, apr9, while the 'Velkopavlovicka' isolate showed 99% homology to an Italian isolate. Since HSVd has not been previously reported in Canada (4), to our knowledge, this report documents its first detection in the country. This report may prompt the inclusion of regular testing for HSVd in existing Prunus spp. virus testing programs in Canada. References: (1) N. Astruc et al. Eur. J. Plant Pathol. 102:837, 1996. (2) M. Badenes et al. Acta Hortic. 472:565, 2001. (3) V. Pallás et al. Page 135 in: Virus and Virus-Like Diseases of Stone Fruits, with Particular Reference to the Mediterranean Region. A. Myrta et al., eds. CIHEAM-IAMB, 2003. (4) R. Singh et al. Page 255 in: Viroids. A. Hadidi et al., eds. CSIRO Publishing, Australia, 2003.
RESUMO
In a search for viruses associated with decline symptoms of Syrah grapevines, we have undertaken an analysis of total plant RNA sequences using Life Sciences 454 high-throughput sequencing. 67.5 megabases of sequence data were derived from reverse-transcribed cDNA fragments, and screened for sequences of viral or viroid origin. The data revealed that a vine showing decline symptoms supported a mixed infection that included seven different RNA genomes. Fragments identified as derived from viruses or viroids spanned a approximately ten thousand fold range in relative prevalence, from 48,278 fragments derived from Rupestris stem pitting-associated virus to 4 fragments from Australian grapevine viroid. 1527 fragments were identified as derived from an unknown marafivirus. Its complete genome was sequenced and characterized, and an RT-PCR test was developed to analyze its field distribution and to demonstrate its presence in leafhoppers (vector for marafiviruses) collected from diseased vines. Initial surveys detected a limited presence of the virus in grape-growing regions of California.
Assuntos
Doenças das Plantas/virologia , Tymoviridae/classificação , Vitis/virologia , Genoma Viral , Filogenia , RNA de Plantas/genética , RNA Viral/genética , Tymoviridae/genética , Tymoviridae/isolamento & purificaçãoRESUMO
Until very recently isolates of American plum line pattern virus (APLPV) had not been reported from outside North America. The nucleotide sequences corresponding to the movement (MP) and coat (CP) proteins of eight APLPV isolates from five Mediterranean countries were determined. Sequence analysis showed that both MP and CP genes are highly conserved irrespective of geographic origin. The study of the distribution of synonymous and nonsynonymous changes along both open reading frames revealed that these proteins are under the effect of negative purifying selection. The MP and CP of APLPV possess most of the functional motifs described for other members of the genus Ilarvirus.
Assuntos
Proteínas do Capsídeo/genética , Ilarvirus/classificação , Ilarvirus/genética , Doenças das Plantas/virologia , Proteínas do Movimento Viral em Plantas/genética , Sequência de Aminoácidos , Substituição de Aminoácidos , Sequência Conservada , Ilarvirus/isolamento & purificação , Região do Mediterrâneo , Dados de Sequência Molecular , Mutação , Filogenia , Polimorfismo Genético , RNA Viral/genética , Análise de Sequência de DNA , Homologia de Sequência de AminoácidosRESUMO
The complete RNA genome of plum bark necrosis stem pitting-associated virus (PBNSPaV) was cloned and sequenced and was determined to be 14, 214 nts long. The genome structure revealed seven major open reading frames (ORFs), and nontranslated regions at the 5' and 3' ends. PBNSPaV represents the simplest genome organization in the genus Ampelovirus, family Closteroviridae. The ORFs 1a and 1b encode, respectively, a large polyprotein with a molecular mass (Mr) of 259.6 kDa containing conserved domains characteristic of a papain-like protease, methyltransferase and helicase (ORF1a) and a 64.1-kDa protein of eight conserved motifs characteristic of viral RNA-dependent RNA polymerase (RdRp) (ORF1b). ORF1b is presumably expressed via a +1 ribosomal frameshift mechanism. ORF2 encodes a small 6.3-kDa hydrophobic protein of unknown function. ORF3 encodes a 57.4-kDa protein, a homologue of the HSP70 family of heat shock proteins. ORF4 encodes a 61.6-kDa protein with unknown function. ORF5 encodes a 35.9-kDa capsid protein (CP). Lastly, ORF6 encodes a 25.2-kDa minor capsid protein (CPm). Phylogenetic analyses performed on sequences of the HSP70h RdRp and CP support classification of the virus in the genus Ampelovirus. A real-time TaqMan RT-PCR assay and a one-step RT-PCR were developed for PBNSPaV detection and compared using three different sample preparation methods.