Genetic Diversity and Molecular Evolution of Plum bark necrosis stem pitting-associated virus from China

Plum bark necrosis stem pitting-associated virus (PBNSPaV), a member of the genus Ampelovirus in the family Closteroviridae, infects different Prunus species and has a worldwide distribution. Yet the population structure and genetic diversity of the virus is still unclear. In this study, sequence analyses of a partial heat shock protein 70 homolog (HSP70h) gene and coat protein (CP) gene of PBNSPaV isolates from seven Prunus species grown in China revealed a highly divergent Chinese PBNSPaV population, sharing nucleotide similarities of 73.1–100% with HSP70h gene, and 83.9–98.6% with CP gene. Phylogenetic analysis of HSP70h and CP sequences revealed segregation of global PBNSPaV isolates into four phylo-groups (I–IV), of which two newly identified groups, II and IV, solely comprised Chinese isolates. Complete genome sequences of three PBNSPaV isolates, Pch-WH-1 and Pch-GS-3 from peaches, and Plm-WH-3 from a plum tree, were determined. The three isolates showed overall nucleotide identities of 90.0% (Pch-GS-3) and 96.4% (Pch-WH-1) with the type isolate PL186, and the lowest identity of 70.2–71.2% with isolate Nanjing. For the first time, to the best of our knowledge, we report evidence of significant recombination in the HSP70h gene of PBNSPaV variant Pch2 by using five programs implemented in RDP3; in addition, five codon positions in its CP gene (3, 8, 44, 57, and 88) were identified that appeared to be under positive selection. Collectively, these results indicate a divergent Chinese PBNSPaV population. In addition, our findings provide a foundation for elucidating the epidemiological characteristics of virus population.     

Evolution and Molecular Epidemiology of Citrus tristeza virus on Crete: Recent Introduction of a Severe Strain

Sporadic incidences of Citrus tristeza virus (CTV) in western Crete resulting from the introduction of a mild strain (Spanish isolate T385) have been reported previously. Further analysis within this region has identified an emerging second CTV strain with minimal genetic divergence, sharing 99% nucleotide identity with the severe stem‐pitting isolate Taiwan‐Pum/SP/T1. Other severe isolates from the Mediterranean region appear in the same phylogenetic cluster, indicating movement or new introductions and the need for targeted control actions and improved phytosanitary measures in this area.     

Analysis of Subcellular Localization and Pathogenicity of <i>Plum Bark Necrosis Stem-Pitting Associated Virus</i> Protein P6

Infection of plum bark necrosis stem pitting associated virus (PBNSPaV) has been reported in many Prunus species in several countries, causing significant economic losses. The very small proteins encoded by plant viruses are often overlooked due to their short sequences and uncertain significance. However, numerous studies have indicated that they might play important roles in the pathogenesis of virus infection. The role of small hydrophobic protein P6, encoded by the open reading frame 2 of PBNSPaV, has not been well explored. In this study, we amplified the P6 fragment from a PBNSPaV isolate by RT-PCR using specific primers and found that it is 174 bp long and encodes a protein of approximately 6.3 kD with a transmembrane domain. Subcellular localization analysis of P6 proteins in tobacco leaves showed that P6 localizes to the cytomembrane and nuclear membrane. To further clarify the pathogenicity of P6 proteins, we constructed a PVX-P6 expression vector by inserting the p6 fragment into a potato virus X (PVX)-based vector and transformed it into Agrobacterium tumefaciens GV3101. Infiltration of Nicotiana benthamiana (N. benthamiana) with the PVX vector-transformed A. tumefaciens led to slight mosaic symptoms at 14 days of post-inoculation. Meanwhile, infiltration with the PVX-P6 vector-transformed A. tumefaciens resulted in no significant symptoms. These results demonstrated that heterologous expression of P6 in N. benthamiana could not enhance the pathogenicity of PVX. Our study indicates that P6 may not be a potential pathogenic factor associate with the causing of symptoms, and the mode of action of PBNSPaV-P6 protein remains to be further studied.     

Deep sequencing and phylogenetic analysis of severe fever with thrombocytopenia syndrome virus from the tick,Haemaphysalis longicornis,in Korea

The Asian longhorned tick, Haemaphysalis longicornis, is widely distributed in China, Japan, and Korea and may transmit infectious diseases. Severe fever with thrombocytopenia syndrome (SFTS) is an important tick‐borne disease caused by the SFTS virus (SFTSV). Deep sequencing to confirm the presence of SFTSV in ticks has not been reported in Korea. To detect SFTSV, RNA was extracted from tick samples and analyzed using high‐throughput deep sequencing. Based on BLASTN results, numerous SFTSV reads were identified. Moreover, a nearly complete genome of SFTSV (JNU‐1 isolate) was obtained using Sanger sequencing. The genome of the JNU‐1 isolate includes three segments of 6,286, 3,299 and 1,642 nucleotides (nt) termed large (L), medium (M), and small (S), respectively. Also, phylogenetic and recombination analyses for each segment of SFTSV were performed using the JNU‐1 isolate. The three segments of JNU‐1 isolate were closely related to the genotype B known human‐derived Korean SFTSV isolate; the JNU‐1 isolate showed no recombination sites with other isolates. This study is the first report of detection of SFTSV from ticks using deep sequencing in Korea and provides information on the genetic diversity of SFTSV in East Asia.     

Detection of multiple sequence variants of Grapevine rupestris stem pitting‐associated virus using primers targeting the polymerase domain and partial genome sequencing of a novel variant

Grapevine rupestris stem pitting‐associated virus (GRSPaV) is a member of the genus Foveavirus within the new family Betaflexiviridae. GRSPaV is distributed among grapevines worldwide and is implicated in the disease rupestris stem pitting (RSP) of the rugose wood complex and two other disorders. GRSPaV is composed of a wide range of sequence variants, and so far, the complete genomes of five sequence variants have been sequenced. Quick and reliable detection of different GRSPaV variants is a critical step in the elimination and control of GRSPaV. Previously, primers designed from various genomic regions have been used in RT‐PCR for the detection of GRSPaV variants. The efficiency of RT‐PCR varied widely depending on the spectrum of the primers that were used. In this study, we designed a pair of degenerate primers based on the consensus sequence of the genomic region encoding the highly conserved RNA‐dependent RNA polymerase domain from five reference isolates of GRSPaV for which the genome sequence are available. We demonstrate that this set of primers is comparable, if not superior, to the broad‐spectrum primers RSP13&14 in detecting multiple GRSPaV variants. Using these degenerate primers, we identified two new and distinct sequence variants. The 3′ terminal genomic region of one of the new variants, GRSPaV‐ML, spanning the 3′ part of ORF1, through the entire open reading frames 2–4, and the 5′ region of ORF5 were sequenced. Sequence comparison demonstrates that GRSPaV‐ML is distinct from each of the five reference isolates.     

Pathological categorization of the stem‐pitting and mild strains Citrus tristeza virus in Taiwan and their genomic analysis

Citrus tristeza virus (CTV), the causal agent of tristeza disease, causes the devastating diseases worldwide. In Taiwan, complex cultivars and long‐term infection by CTV result in more than 90% of infected citrus trees, but local strain identification and classification are still incomplete. Here, six CTV strains were categorized by grafting onto eight citrus cultivars and the pathological characteristics of the stem‐pitting mild strains were identified. After 6 months of inoculation, the pummelo stem‐pitting severe strain (CTV‐Pum/SP/T1) only caused severe symptoms in Wentan pummelo (WP) and the mild strain (CTV‐Pum/M/T5) was symptomless in every cultivar; the sweet orange (SO) stem‐pitting severe strain (CTV‐SwO/SP/T7) affected SO, WP and Ponkan mandarin (PM), and the mild strain (CTV‐SwO/M/T51) caused no symptoms in SO except for WP; the mandarin stem‐pitting severe strain (CTV‐Man/SP/T46) caused severe impacts in PM, WP and Eureka lemon, whereas the mild strain (CTV‐Man/M/T2) only caused severe stem‐pitting in WP. The full‐length sequencing of both pummelo stem‐pitting strains and phylogenetic analysis revealed that CTV‐Pum/SP/T1 and CTV‐Pum/M/T5 were related to the HA18‐9 and HA16‐5 strains from Hawaii, respectively. Moreover, recombination analysis revealed that TCT repeat sequences existed at open reading frame 1a in both the CTV‐Pum/SP/T1 and the T36 strains from the United States, indicating that the possible evolution relationship between two regions. Furthermore, improved universal and specific primer pairs were designed for more specific, sensitive detection to meet the needs for quarantine and early prevention. The understanding of strain pathogenicity and genomic analysis provided further characterization of each strain and enabled practical challenge inoculation against CTV disease.     

Cytopathology of Apple stem pitting virus in Nicotiana occidentalis L.

Apple stem pitting virus (ASPV) is a causal agent of stem pitting associated disease in pomes fruit trees. The present report focuses on a cytopathological effect of ASPV infection in a herbaceous host Nicotiana occidentalis ‘37B’. A leaf dip preparation shows predominantly basic virus particles and aggregated particles 800 nm and 3200 nm long respectively. The main cytopathological effect observed in ASPV infected N. occidentalis includes fibrous aggregates of virus particles (massive/or few), formation of membranous vesicles and proliferation of the endoplasmic reticulum.     

Molecular characterisation of the full-length genome of olive latent virus 1 isolated from tomato

Olive latent virus 1 (OLV-1) is a species of the Necrovirus genus. So far, it has been reported to infect olive, citrus tree and tulip. Here, we determined and analysed the complete genomic sequence of an isolate designated as CM1, which was collected from tomato plant in the Wielkopolska region of Poland and represents the prevalent isolate of OLV-1. The CM1 genome consists of monopartite single-stranded positive-sense RNA genome sized 3,699 nt with five open reading frames (ORFs) and small inter-cistronic regions. ORF1 encodes a polypeptide with a molecular weight of 23 kDa and the read-through (RT) of its amber stop codon results in ORF1 RT that encodes the virus RNA-dependent RNA polymerase. ORF2 and ORF3 encode two peptides, with 8 kDa and 6 kDa, respectively, which appear to be involved in cell-to-cell movement. ORF4 is located in the 3′ terminal and encodes a protein with 30 kDa identified as the viral coat protein (CP). The differences in CP region of four OLV-1 isolates whose sequences have been deposited in GenBank were observed. Nucleotide sequence identities of the CP of tomato CM1 isolate with those of olive, citrus and tulip isolates were 91.8%, 89.5% and 92.5%, respectively. In contrast to other OLV-1 isolates, CM1 induced necrotic spots on tomato plants and elicited necrotic local lesions on Nicotiana benthamiana, followed by systemic infection. This is the third complete genomic sequence of OLV-1 reported and the first one from tomato.     

Complete Nucleotide Sequence of the RNA 3 of Bacopa chlorosis virus and Production of Polyclonal Antibodies to a Recombinant Coat Protein

The complete sequence of the RNA 3 of a virus causing chlorosis in Impatiens in Germany was determined and identified as an isolate of Bacopa chlorosis virus (BaCV, genus Ilarvirus). BaCV has previously only been reported from bacopa in the USA, but no coat protein (CP) sequence has been previously available. Both RNA 3 encoded proteins, CP and movement protein, showed highest sequence identity to Parietaria mottle virus, a subgroup 1 ilarvirus. Attempts to purify BaCV failed, so an antiserum was raised against a recombinant CP. The polyclonal antiserum so produced allowed specific detection of BaCV but showed no serological cross‐reaction with other ilarviruses and was unsuitable for immunoelectron microscopy. The host range includes many important flowering plant species, highlighting the potential threat BaCV might pose for the horticultural industry. This is the first report of BaCV occurring in Germany and outside the US.     

Molecular Characterization of a Cucumber Bulgarian latent virus Isolate from Iran

Cucumber Bulgarian latent virus (CBLV) was first reported from cucumber in Bulgaria in 2003 and has been assigned to the genus Tombusvirus. Ten years after the first and only report of CBLV, an isolate from a cucumber sample collected in Iran was characterized. Its complete genomic sequence was determined and analysed. Except for the coat protein, CBLV shows the highest sequence identities to the isolates of other species of the genus Tombusvirus. However, sequence comparison and phylogenetic analyses based on the coat protein (CP) revealed that CBLV is more closely related to the genus Aureusvirus rather than to the isolates of the genus Tombusvirus. The sequence identities to some aureusviruses are above the species demarcation threshold value, demonstrating that CBLV is an unusual tombusvirus species. This suggests that it is necessary to review the CP threshold value for species demarcation in the genus Aureusvirus. In addition, CBLV has an intermediate genome size compared to other tombus‐ and aureusviruses. Several polyclonal antisera raised against different tombus‐ and aureusviruses were used to assess the serological relation to CBLV. The ELISA results indicate that CBLV is not serologically related to any of those tested.     

Preparation and Characterization of a Monoclonal Antibody to Prunus necrotic ringspot virus

A cell line named PVRSV1D11 secreting monoclonal antibody (McAb) against the prokaryotically expressed coat protein (CP) of Prunus necrotic ringspot virus (PNRSV) was developed using hybridoma technology including animal immunization, cell fusion, cell line culture and enzyme‐linked immunosorbent assay (ELISA)‐based for screening. The specificity, titre and detection sensitivity of the McAb were determined by indirect ELISA to establish optimal conditions. The antibody reacted strongly with PNRSV and showed no cross‐reactions with the proteins of Plum pox virus, Prunus dwarf virus, Apple stem pitting virus, Apple stem grooving virus, Apple mosaic virus or Apple chlorotic leafspot virus. The ascites developed with PNRSV1D11 cell line showed high absorbance until it was diluted to over 6.6 × 10⁷ fold. The McAb belonged to IgG_2a isotype and was diluted by 1.28 × 10⁵ folds as an optimal detection concentration. The detection sensitivity of the monoclonal antibody was 11.7 ng/ml protein of PNRSV. The results indicated that the McAb against the CP of PNRSV is suitable for PNRSV detection in the plants and for monitoring the dynamics of the virus by using indirect ELISA.     

Torque teno virus 10 isolated by genome amplification techniques from a patient with concomitant chronic lymphocytic leukemia and polycythemia vera

An infectious etiology has been proposed for many human cancers, but rarely have specific agents been identified. One difficulty has been the need to propagate cancer cells in vitro to produce the infectious agent in detectable quantity. We hypothesized that genome amplification from small numbers of cells could be adapted to circumvent this difficulty. A patient with concomitant chronic lymphocytic leukemia (CLL) and polycythemia vera (PV) requiring therapeutic phlebotomy donated a large amount of phlebotomized blood to test this possibility. Using genome amplification methods, we identified a new isolate (BIS8-17) of torque teno virus (TTV) 10. The presence of blood isolate sequence 8-17 (BIS8-17) in the original plasma was confirmed by polymerase chain reaction (PCR), validating the approach, since TTV is a known plasma virus. Subsequent PCR testing of plasmas from additional patients showed that BIS8-17 had a similar incidence (~20%) in CLL (n = 48) or PV (n = 10) compared with healthy controls (n = 52). CLL cells do not harbor BIS8-17; PCR did not detect it in CLL peripheral blood genomic deoxyribonucleic acid (DNA) (n = 20). CLL patient clinical outcome or prognostic markers (immunoglobulin heavy chain variable region [IGHV ] mutation, CD38 or zeta-chain associated protein kinase 70 kDa [ZAP-70]) did not correlate with BIS8-17 infection. Although not causative to our knowledge, this is the first reported isolation and detection of TTV in either CLL or PV. TTV could serve as a covirus with another infectious agent or TTV variant with rearranged genetic components that contribute to disease pathogenesis. These results prove that this method identifies infectious agents and provides an experimental methodology to test correlation with disease.     

Studies on a virus causing stem grooving and graft-union abnormalities in Virginia Crab apple*

A virus was transmitted from apple trees to Nicotiana glutinosa and Chenopodium spp. and back to a range of woody indicators in which it affected only Virginia Crab; symptoms were grooves in the xylem, and swelling and necrosis of the scion immediately above the union with the stock. The virus was distinct from that causing stem pitting in Virginia Crab, because although easily detectable in several apple varieties, it was not found in many trees infected with stem pitting virus. The stem grooving virus has flexous particles 600–700 m/μ long, a heat inactivation point of 67 °C, a dilution end-point of 10^-3 in N. glutinosa sap and remains infective for at least 2 days at 20 °C.     

Characterisation and genetic diversity of pepper leafroll virus,a new bipartite begomovirus infecting pepper,bean and tomato in Peru

The complete genome of a novel bipartite begomovirus (genus Begomovirus, family Geminiviridae) was cloned from a severely diseased yellow Peruvian chili pepper (Capsicum baccatum cv. Pendulum) plant collected in the department of La Libertad, Northern Peru and full‐length sequenced. The two genomic components share a common region of 156 nucleotides with a 100% sequence identity. Analysis of the genome organisation and phylogenetic comparisons revealed that the virus is a typical New World begomovirus. The closest related begomovirus, an isolate of Tomato yellow vein streak virus (ToYVSV), shared only 76.8% nucleotide sequence identity for the DNA‐A component. Therefore, following species demarcation criteria of the International Committee on Taxonomy of Viruses, this virus isolate belongs to a new begomovirus species for which the name pepper leafroll virus (PepLRV) is proposed. Pepper plants infected with the cloned PepLRV isolate developed leaf roll symptoms similar to those observed in field‐infected plants suggesting this virus as the causal agent of the disease syndrome observed in the field. Widespread occurrence of PepLRV throughout Peru was demonstrated, infecting plants of diverse cultivated species such as tomato, pepper, common and pallar beans, and of the weed species Nicandra physaloides. Low genetic diversity was observed among PepLRV isolates present in this country with no evident geographical or temporal structure of the population, typical of a recent founder effect. This is the first report of a begomovirus infecting pepper and bean crops in Peru.     

Molecular Characterization and Detection of African Oil Palm Ringspot Virus

African oil palm ringspot virus (AOPRV) had been previously described as a fovea‐like virus associated with a lethal disease of African oil palm (Elaeis guineensis) in South America. The original report was based on partial sequence and a distant relationship between AOPRV and Apple stem pitting virus, Apricot latent virus and Grapevine rupestris stem pitting‐associated virus, definitive species of the genus Foveavirus, family Flexiviridae. We report the full sequence of the RNA genome of AOPRV, and demonstrate that this virus is more closely related to two unassigned virus species of the family Flexiviridae (Cherry green ring mottle virus and Cherry necrotic rusty mottle virus) than to any definitive species of the genus Foveavirus. Thus, AOPRV should be considered as a new species of the Flexiviridae until the International Committee on Taxonomy of Viruses (ICTV) resolves the taxonomic status of the increasing number of unassigned species in this family. The molecular characterization of AOPRV has provided a highly sensitive and reliable RT‐PCR assay for the early detection of AOPRV in different genotypes of African, American (E. oleifera) and hybrid oil palms.     

Detection of Prunus necrotic ring spot virus in plum,cherry and almond by serological and molecular techniques from India

Stone fruits are cultivated in the temperate and sub-temperate regions of India. During surveys in stone fruit growing areas, viral symptoms were observed in almond, cherry and plum. These samples were brought to the laboratory for further detection at serological and molecular levels to check the presence of virus. In the present study, incidence of PNRSV is reported on plum (Prunus domestica), almond (Prunus dulcis) and cherry (Prunus avium) using serological and molecular techniques. Coat protein gene of PNRSV was amplified from almond, cherry and plum. This is the first molecular evidence of PNRSV on these stone fruits reported from India.     

High-throughput sequencing exclusively identified a novel Torque teno virus genotype in serum of a patient with fatal fever

Torque teno virus (TTV) has been found to be prevalent world-wide in healthy populations and in patients with various diseases, but its etiological role has not yet been determined. Using high-throughput unbiased sequencing to screen for viruses in the serum of a patient with persistent high fever who died of suspected viral infection and prolonged weakness, we identified the complete genome sequence of a TTV (isolate Hebei-1). The genome of TTV-Hebei-1 is 3649 bp in length, encoding four putative open reading frames, and it has a G+C content of 49%. Genomic comparison and a BLASTN search revealed that the assembled genome of TTV-Hebei-1 represented a novel isolate, with a genome sequence that was highly heterologous to the sequences of other reported TTV strains. A phylogenetic tree constructed using the complete genome sequence showed that TTV-Hebei-1 and an uncharacterized Taiwanese strain, TW53A37, constitute a new TTV genotype. The patient was strongly suspected of carrying a viral infection and died eventually without any other possible causes being apparent. No virus other than the novel TTV was identified in his serum sample. Although a direct causal link between the novel TTV genotype infection and the patient’s disease could not be confirmed, the findings suggest that surveillance of this novel TTV genotype is necessary and that its role in disease deserves to be explored.