Molecular identification of a putative novel varicosavirus in Agastache rugosa in China.

A putative novel virus was identified in Agastache rugosa in China and tentatively named "Agastache rugosa-associated varicosavirus" (ARaVV). The nearly complete genome sequence of ARaVV was obtained through RNA sequencing (RNA-seq) and subsequent RT-PCR. The ARaVV genome consists of two negative-sense single-stranded RNA segments that are 6428 and 3862 nucleotides (nt) in size, respectively. RNA1 encodes a large polymerase (L), and RNA2 encodes a putative nucleocapsid protein (N), protein 2 (P2), and protein 3 (P3). The L protein shared the highest amino acid (aa) sequence identity (51.3%) with Erysimum virus 1 (EryV1, BK061766.1). The N, P2, and P3 shared the highest aa sequence identity (33.1%, 14.0%, and 24.2%) with Leucanthemum virus 1, Raphanus virus 1, and Spinach virus 1, respectively. Phylogenetic analysis based on amino acid sequences of the L protein showed that ARaVV clustered in a clade with the varicosaviruses, indicating that ARaVV is a putative new member of the genus Varicosavirus.

Genomic characterization of novel viruses associated with Olea europaea L. in South Africa.

South Africa has a small but growing olive industry. Until now, no virological research has been carried out on this crop locally. Seventeen samples were collected from various olive cultivars from a single producer in the Stellenbosch growing area of South Africa. RNAseq was performed on total RNA, and the compositions of the metaviromes were determined. Olive leaf yellowing-associated virus was detected for the first time in South Africa, as well as four novel viruses from the family Closteroviridae and one each from the families Tymoviridae and Solemoviridae.

Identification and molecular characterization of two novel viruses from Allamanda cathartica in China.

Allamanda cathartica is an ornamental medicinal plant that grows widely in the tropics. In the present study, two novel viruses, Allamanda chlorotic virus A (AlCVA) and Allamanda chlorotic virus B (AlCVB), were identified in an A. cathartica plant with interveinal chlorosis by ribosomal RNA-depleted total-RNA sequencing. Phylogenetic analysis and sequence comparisons confirmed that AlCVA and AlCVB belong to the families Closteroviridae and Betaflexiviridae, respectively. Long, flexuous, filamentous virus particles approximately 12 nm in diameter and 784-2291 nm in length were observed using transmission electron microscopy. A specific RT-PCR assay was used to demonstrate a consistent association of viral infection with symptoms.

First report of Plum bark necrosis stem pitting-associated virus infecting grapevine in China.

BACKGROUND: Virus disease is one of the main diseases in grapevine, and there has been no report on Plum bark necrosis and stem pitting-associated virus infecting grapevine in China. OBJECTIVE: The leaf samples of grapevine cultivar 'Cabernet Gernischt' were collected from Shandong province, which the leaves suffered from viral-like symptoms with spotting and crinkle. METHODS: Small RNA-seq combined with reverse transcription PCR (RT-PCR) were performed to detect the potential viruses in these field samples. Phylogenetic tree was constructed using the neighbor joining method in MEGA 5.1 CONCLUSIONS: This is the first report of PBNSPaV infecting grapevine in China, contributing to a better understanding of the epidemiology and host range distribution of this pathogen.

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

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.

Genomic characterization of Malus domestica virus A (MdoVA), a novel velarivirus infecting apple.

Screening of apple samples using a high-throughput sequencing (HTS) approach led to the discovery of a novel virus, tentatively named "Malus domestica virus A" (MdoVA). Its genomic organisation and phylogenetic relationship showed relatedness to viruses of the genus Velarivirus in the family Closteroviridae. It is not clear whether MdoVA has any impact on its host, as the analysed apple tree contained other viruses and a viroid.

Intra-species recombination among strains of the ampelovirus Grapevine leafroll-associated virus 4.

BACKGROUND: Grapevine leafroll disease is one of the most economically important viral diseases affecting grape production worldwide. Grapevine leafroll-associated virus 4 (GLRaV-4, genus Ampelovirus, family Closteroviridae) is one of the six GLRaV species documented in grapevines (Vitis spp.). GLRaV-4 is made up of several distinct strains that were previously considered as putative species. Currently known strains of GLRaV-4 stand apart from other GLRaV species in lacking the minor coat protein. METHODS: In this study, the complete genome sequence of three strains of GLRaV-4 from Washington State vineyards was determined using a combination of high-throughput sequencing, Sanger sequencing and RACE. The genome sequence of these three strains was compared with corresponding sequences of GLRaV-4 strains reported from other grapevine-growing regions. Phylogenetic analysis and SimPlot and Recombination Detection Program (RDP) were used to identify putative recombination events among GLRaV-4 strains. RESULTS: The genome size of GLRaV-4 strain 4 (isolate WAMR-4), strain 5 (isolate WASB-5) and strain 9 (isolate WALA-9) from Washington State vineyards was determined to be 13,824 nucleotides (nt), 13,820 nt, and 13,850 nt, respectively. Multiple sequence alignments showed that a 11-nt sequence (5'-GTAATCTTTTG-3') towards 5' terminus of the 5' non-translated region (NTR) and a 10-nt sequence (5'-ATCCAGGACC-3') towards 3' end of the 3' NTR are conserved among the currently known GLRaV-4 strains. LR-106 isolate of strain 4 and Estellat isolate of strain 6 were identified as recombinants due to putative recombination events involving divergent sequences in the ORF1a from strain 5 and strain Pr. CONCLUSION: Genome-wide analyses showed for the first time that recombinantion can occur between distinct strains of GLRaV-4 resulting in the emergence of genetically stable and biologically successful chimeric viruses. Although the origin of recombinant strains of GLRaV-4 remains elusive, intra-species recombination could be playing an important role in shaping genetic diversity and evolution of the virus and modulating the biology and epidemiology of GLRaV-4 strains.

Development of sensitive molecular assays for the detection of grapevine leafroll-associated virus 3 in an insect vector.

Grapevine leafroll-associated virus 3 (GLRaV-3) is an economically significant virus of grapevines, with secondary spread mediated by several species of mealybug and soft scale insects. To better understand virus-vector interactions, sensitive virus detection in these insects is a key tool. In this research, two new hydrolysis-probe-based real-time assays for GLRaV-3 detection were developed and compared to three existing assays. Of the five assays compared, the one-step RT-qPCR probe-based assay was the most sensitive and reliable, with as few as 10 virus RNA copies detected. This is the first description of a real-time molecular assay for virus detection in mealybugs with such sensitivity.

A Novel Genetic Variant of Grapevine leafroll-associated virus-3 (GLRaV-3) from Idaho Grapevines.

Grapevine leafroll-associated virus-3 (GLRaV-3) is a major constraint on profitable grapevine cultivation. The virus is transmitted efficiently by mealybugs and soft scale insects, or through vegetative propagation by cuttings, and is present worldwide, wherever grapevines are grown. GLRaV-3 exists as a complex of genetic variants currently classified in several phylogenetic groups that can differ from each other by as much as 30% in nucleotide sequence of the whole genome. In the course of the GLRaV-3 testing of wine grapes in southern Idaho, plants of two grapevine cultivars were found to harbor a novel genetic variant of GLRaV-3, named ID45, which exhibited ≤80% nucleotide sequence identity level to the known GLRaV-3 isolates in its most conserved HSP70h gene. The ID45 variant caused no foliar symptoms in 'Cabernet Sauvignon' in the fall, and was demonstrated to have poor reactivity to commercial virus-specific antibodies. The entire 18,478-nt genome sequence of the GLRaV-3-ID45 was determined using a combination of high-throughput and conventional Sanger sequencing, and demonstrated to have typical organization for the genus Ampelovirus (family Closteroviridae), with only 70 to 77% identity level to the GLRaV-3 genomes from other established phylogroups. We concluded that ID45 represented a new phylogenetic group IX of GLRaV-3. Database search using ID45 nucleotide sequence as a query suggested that this novel ID45 variant is present in at least one other grape-growing state in the U.S., California, and in Brazil. An RT-PCR based test was developed to distinguish ID45 from the predominant GLRaV-3 phylogroup I found in Idaho in single and mixed infections.

Metagenomic Analysis of Riesling Grapevine Reveals a Complex Virome Including Two New and Divergent Variants of Grapevine leafroll-associated virus 3.

The virome of a major white wine grape of cultivar Riesling showing decline and leafroll disease symptoms was analyzed through high-throughput sequencing (HTS) using total RNAs as templates and the Illumina HiSeq 2500 platform. Analysis of HTS data revealed the presence of five viruses and three viroids in the infected vine. These viruses are Grapevine leafroll-associated virus 1 (GLRaV-1) and GLRaV-3 (genus Ampelovirus, family Closteroviridae) and three viruses of the family Betaflexiviridae (namely, Grapevine virus A [GVA], Grapevine virus B, and Grapevine rupestris stem pitting-associated virus [GRSPaV]). We also show that multiple distinct strains of three viruses (GLRaV-3, GVA, and GRSPaV) were present in this diseased grapevine. The complete genomes of two novel and highly divergent isolates of GLRaV-3 were determined using the draft genomes derived from HTS data and two independent rapid amplification of cDNA ends (RACE) strategies to obtain sequences at both the 5' and the 3' termini of the viral genomes. Questionable genome regions of both isolates were also verified through cloning of reverse transcription polymerase chain reaction products and Sanger sequencing. These two isolates are vastly divergent from all other isolates of GLRaV-3 whose genome sequences are available in GenBank. Isolate ON8415A has up to 76% nucleotide sequence identities to other isolates representing existing variant groups. We also revealed high degrees of variation in both length and sequence in the terminal untranslated regions (UTRs) of GLRaV-3 variants. The 5'-UTR of most GLRaV-3 isolates whose complete genomes have been sequenced contain tandem repeats of 65 nucleotides, a highly unusual feature rarely observed in (+)single-stranded RNA viruses. Mechanisms for the biogenesis of these tandem repeats and their function in virus replication and pathogenesis require investigation. Findings of this research add to the genetic diversity, evolutionary biology, and diagnostics of GLRaV-3 that afflicts the global grape wine industry.

Virus preparations from the mixed-infected P70 Pinot Noir accession exhibit GLRaV-1/GVA 'end-to-end' particles.

P70 is a Pinot Noir grapevine accession that displays strong leafroll disease symptoms. A high-throughput sequencing (HTS)-based analysis established that P70 was mixed-infected by two variants of grapevine leafroll-associated virus 1 (GLRaV-1, genus Ampelovirus) and one of grapevine virus A (GVA, genus Vitivirus) as well as by two viroids (hop stunt viroid [HSVd] and grapevine yellow speckle viroid 1 [GYSVd1]) and four variants of grapevine rupestris stem pitting-associated virus (GRSPaV). Immunogold labelling using gold particles of two different diameters revealed the existence of 'hybrid' particles labelled at one end as GLRaV-1, with the rest labelled as GVA. In this work, we suggest that immunogold labelling can provide information about the biology of the viruses, going deeper than just genomic information provided by HTS, from which no recombinant or 'chimeric' GLRaV-1/GVA sequences had been identified in the dataset. Our observations suggest an unknown interaction between members of two different viral species that are often encountered together in a single grapevine, highlighting potential consequences in the vector biology and epidemiology of leafroll and rugose-wood diseases.

A complex virome unveiled by deep sequencing analysis of RNAs from a French Pinot Noir grapevine exhibiting strong leafroll symptoms.

We have characterized the virome of a grapevine Pinot Noir accession (P70) that displayed, over the year, very stable and strong leafroll symptoms. For this, we have used two extraction methods (dsRNA and total RNA) coupled with the high throughput sequencing (HTS) Illumina technique. While a great disparity in viral sequences were observed, both approaches gave similar results, revealing a very complex infection status. Five virus and viroid isolates [Grapevine leafroll-associated viruse-1 (GLRaV-1), Grapevine virus A (GVA), Grapevine rupestris stem pitting-associated virus (GRSPaV), Hop stunt viroid (HSVd) and Grapevine yellow speckle viroid 1 (GYSVd1)] were detected in P70 with a grand total of eleven variants being identified and de novo assembled. A comparison between both extraction methods regarding their power to detect viruses and the ease of genome assembly is also provided.

Discovery of Viruses and Virus-Like Pathogens in Pistachio using High-Throughput Sequencing.

Pistachio (Pistacia vera L.) trees from the National Clonal Germplasm Repository (NCGR) and orchards in California were surveyed for viruses and virus-like agents by high-throughput sequencing (HTS). Analyses of sequence information from 60 trees identified a novel virus, provisionally named "Pistachio ampelovirus A" (PAVA), in the NCGR that showed low amino acid sequence identity (approximately 42%) compared with members of the genus Ampelovirus (family Closteroviridae). A putative viroid, provisionally named "Citrus bark cracking viroid-pistachio" (CBCVd-pis), was also found in the NCGR and showed approximately 87% similarity to Citrus bark cracking viroid (CBCVd, genus Cocadviroid, family Pospiviroidae). Both PAVA and CBCVd-pis were graft transmissible to healthy UCB-1 hybrid rootstock seedlings (P. atlantica × P. integerrima). A field survey of 123 trees from commercial orchards found no incidence of PAVA but five (4%) samples were infected with CBCVd-pis. Of 675 NCGR trees, 16 (2.3%) were positive for PAVA and 172 (25.4%) were positive for CBCVd-pis by reverse-transcription polymerase chain reaction. Additionally, several contigs across multiple samples exhibited significant sequence similarity to a number of other plant virus species in different families. These findings require further study and confirmation. This study establishes the occurrence of viral and viroid populations infecting pistachio trees.

Complete nucleotide sequence of little cherry virus 1 (LChV-1) infecting sweet cherry in China.

Little cherry virus 1 (LChV-1), associated with little cherry disease (LCD), has a significant impact on fruit quality of infected sweet cherry trees. We report the full genome sequence of an isolate of LChV-1 from Taian, China (LChV-1-TA), detected by small-RNA deep sequencing and amplified by overlapping RT-PCR. The LChV-1-TA genome was 16,932 nt in length and contained nine open reading frames (ORFs), with sequence identity at the overall genome level of 76%, 76%, and 78% to LChV-1 isolates Y10237 (UW2 isolate), EU715989 (ITMAR isolate) and JX669615 (V2356 isolate), respectively. Based on the phylogenetic analysis of HSP70h amino acid sequences of Closteroviridae family members, LChV-1-TA was grouped into a well-supported cluster with the members of the genus Velarivirus and was also closely related to other LChV-1 isolates. This is the first report of the complete nucleotide sequence of LChV-1 infecting sweet cherry in China.

Molecular characterization of a grapevine leafroll-associated virus 4 from Slovenian vineyards.

During a survey conducted in vineyards in Slovenia, variety of grapevine leafroll disease symptoms were observed. Mixed infection with grapevine leafroll-associated viruses 3 and 4 (GLRaV-3, -4) in two grapevines from a vineyard in south-western part of Slovenia was confirmed by DAS-ELISA in 2010. The 3'final 1769 nucleotides of the Slovenian GLRaV-4 isolate were assembled from amplicons obtained by IC RT-PCR. The complete coat protein (CP) and p23 gene sequences were compared with other GLRaV-4 sequences from GenBank. Results showed that CP and p23 amino acid sequences of Slovenian variant (055-SI) are 88% and 85%, respectively, identical to corresponding genes of reference sequence GLRaV-4 LR106 (GenBank Acc. No. FJ467503). Phylogenetic analyses show that Slovenian variant clusters together with other corresponding strains of GLRaV-4. The sequencing results show great variability of the N-terminal part of the CP sequence indicating that this part of the genome is not suitable for molecular detection of the virus. To our knowledge this is also the first report of GLRaV-4 in Slovenian vineyards.

Genetic diversity and recombination analysis of grapevine leafroll-associated virus 1 from China.

Grapevine leafroll-associated virus 1 (GLRaV-1) is one of the causal agents of grapevine leafroll disease (GLD). To investigate the prevalence and genetic variation of GLRaV-1 in China, 132 grapevine samples from 14 Chinese provinces and regions were tested using reverse transcription PCR (RT-PCR) and reverse transcription nested PCR (RT-nPCR). The samples included symptomatic and asymptomatic cultivars, and 36.4% of them tested positive for GLRaV-1. 'Beida' samples, previously identified as virus-free rootstocks, were also found to be infected with GLRaV-1 with an incidence of 40 . GLRaV-1 coat protein (CP) genes and heat-shock protein 70 (HSP70) genes from 43 GLRaV-1 isolates were selected and sequenced. Phylogenetic analysis of global CP and HSP70 gene sequences showed that all variants belonged to eight and seven groups, respectively. For CP gene sequence variants, group 4 was a new group that included only Chinese isolates. The results also showed that natural selection, rather than random processes, led to the evolution of variants belonging to CP gene sequence variants in group 2 and group 8. Furthermore, three new recombination events were identified in the GLRaV-1 CP gene population. This is the first report on the genetic variation of GLRaV-1 isolates in China, and this study will benefit grape clean-plant programs in China.

Genomic detection and characterization of a Korean isolate of Little cherry virus 1 sampled from a peach tree.

A peach tree (Prunus persica) showing yellowing and mild mottle symptoms was analyzed using high-throughput RNA sequencing to determine the causal agent. A total of nine contigs similar to Little cherry virus 1 (LChV-1) were produced, and all the contigs showed nucleotide sequence identity (lower than 83 %) and query coverage (higher than 73 %) with LChV-1. The symptomatic peach sample was confirmed to be infected with LChV-1-like virus as a result of reverse transcription-polymerase chain reaction using primers designed based on sequences of the contigs. Occurrence of diseases caused by LChV-1 in Prunus species has been reported. Complete 16,931-nt genome of the peach virus composed of eight open reading frames was determined, and conserved domains including viral methyltransferase, viral helicase 1, RNA-dependent RNA polymerase (RdRp), heat shock protein 70 homologue (HSP70h), HSP90h and closterovirus coat protein (CP) were identified. Phylogenetic trees based on amino acid sequence alignments between the peach virus and members in the family Closteroviridae showed that the virus was most similar to LChV-1. Pairwise comparisons based on amino acid sequence alignments of three genes (RdRp, HSP70h and CP) between the peach virus and LChV-1 isolates showed the highest amino acid sequence identities, with 84.32 % for RdRp, 85.48 % for HSP70h and 80.45 % for CP. These results indicate that this is the first report for the presence of LChV-1 in South Korea and may be one of the first reports of natural infection of peach by LChV-1. Although it is not clear if LChV-1 YD isolate was responsible for specific symptoms observed, detection and characterization of the peach tree-infecting LChV-1 in South Korea would be useful in terms of the epidemiology of LChV-1.

Characterization by deep sequencing of divergent plum bark necrosis stem pitting-associated virus (PBNSPaV) isolates and development of a broad-spectrum PBNSPaV detection assay.

Plum bark necrosis stem pitting-associated virus (PBNSPaV), the causal agent of plum bark necrosis stem pitting disease, belongs to the genus Ampelovirus in the family Closteroviridae. The complete genome sequence of PBNSPaV isolates from four Prunus sources was determined by pyrosequencing. All isolates showed the same genomic organization as the PBNSPaV reference isolate. The least divergent isolate, found in a peach tree from China, showed an overall 91.8% of nucleotide identity with the type isolate. Two closely related isolates, defining a second cluster of diversity, were found in two Japanese plum lines from France and showed only 82.8% identity with the type isolate. On the other hand, they were highly homologous with two recently described PBNSPaV divergent isolates from China. The fourth and most divergent isolate, from a Chinese peach, showed only 71.2% identity to other PBNSPaV isolates and was not detected by currently available PBNSPaV reverse-transcription polymerase chain reaction detection assays. Complete sequencing of the divergent isolates allowed the development of a more broad-spectrum detection test targeting a conserved region in the P61 gene. Taken together, these results indicate a much broader diversity of PBNSPaV than previously thought and provide for a more robust detection of this still poorly characterized pathogen.

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

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.

Molecular characterisation of two divergent variants of grapevine leafroll-associated virus 3 in New Zealand.

Partial genomic sequences of two divergent grapevine leafroll-associated virus 3 (GLRaV-3) variants, NZ1-B and NZ2, from New Zealand were determined and analysed (11,827 nt and 7,612 nt, respectively). At the nucleotide level, both variants are more than 20 % different from the previously published GLRaV-3 sequences, from phylogenetic groups 1 to 5. Phylogenetic analysis indicated that NZ1-B is a variant of the previously identified divergent NZ-1, while NZ2 is a novel sequence with only 76 % nucleotide sequence identity to GLRaV-3 variants NZ-1, GH11, and GH30. Therefore, NZ2 is a new variant of GLRaV-3. Amino acid sequence analysis of the NZ1-B and NZ2 coat proteins indicated significant substitutions that are predicted to alter the coat protein structure, which potentially leads to the observed reduced immunological reactivity of both variants to the Bioreba anti-GLRaV-3 conjugated monoclonal antibody.