Peanut stripe virus - a new seed-borne potyvirus from China infecting groundnut (Arachis hypogaea)1

A new virus, peanut stripe (PStV), isolated from groundnut (Arachis hypogaea) in the USA, induced characteristic striping, discontinuous vein banding along the lateral veins, and oakleaf mosaic in groundnut. The virus was also isolated from germplasm lines introduced from the People's Republic of China. PStV was transmitted by inoculation of sap to nine species of the Chenopodiaceae, Leguminosae, and Solanaceae; Chenopodium amaranticolor was a good local lesion host. PStV was also transmitted by Aphis craccivora in a non-persistent manner and through seed of groundnut up to 37%. The virus remained infective in buffered plant extracts after diluting to 10^-3, storage for 3 days at 20°C, and heating for 10 min at 60°C but not 65°C. Purified virus preparations contained flexuous filamentous particles c. 752 nm long, which contained a major polypeptide of 33 500 daltons and one nucleic acid species of 3·1 × 10⁶ daltons. In ELISA, PStV was serologically related to blackeye cowpea mosaic, soybean mosaic, clover yellow vein, and pepper veinal mottle viruses but not to peanut mottle, potato Y, tobacco etch, and peanut green mosaic viruses. On the basis of these properties PStV is identified as a new potyvirus in groundnut.     

Groundnut eyespot virus, a new member of the potyvirus group

A virus causing ‘eyespot’ leaf symptoms in groundnut plants was transmitted by sap-inoculation and by Aphis craccivora in the non-persistent manner. It infected 16 of 72 species from five of 12 families and was easily propagated in Arachis hypogaea and Physalis floridana. The virus has particles c. 13 × 755 nm and is serologically closely related to soybean mosaic and pepper veinal mottle viruses, and more distantly to four other potyviruses. The virus differs in host range, in vitro properties and serological properties from previously described strains of soybean mosaic and pepper veinal mottle viruses. It seems to be a distinct member of the potyvirus group and we propose the name groundnut eyespot virus.     

Distribution and impact of virus associated diseases of common bean (Phaseolus vulgaris L.) in northern Iran

Different viral diseases infect common bean crops in Iran. A total of 248 symptomatic samples were collected from common bean fields throughout main growing fields of Guilan province in Iran during the summer of 2006. Eight viruses were detected using double antibody-sandwich – enzyme-linked immunosorbent assay (DAS-ELISA). Bean common mosaic virus – BCMV (1%), Bean leaf roll virus – BLRV (9%), Cowpea mild mottle virus – CpMMV (6%), Southern bean mosaic virus – SBMV (3%), Cucumber mosaic virus – CMV (15%), Bean golden mosaic virus – BGMV (2%), Bean common mosaic necrosis virus – BCMNV (1%) and Bean yellow mosaic virus – BYMV (1%) were detected. Comparatively CMV (15%) was found to be more prevalent in Guilan province. Multiple infections of viruses were recorded in many samples. Weed species belonging to Chenopodiaceae, Solanaceae, Malvaceae and Amaranthaceae families were also found to be infected with the viruses.     

RNA-Dependent RNA Polymerase (NIb) of the Potyviruses Is an Avirulence Factor for the Broad-Spectrum Resistance Gene Pvr4 in Capsicum annuum cv. CM334

Potyviruses are one of the most destructive viral pathogens of Solanaceae plants. In Capsicum annuum landrace CM334, a broad-spectrum gene, Pvr4 is known to be involved in resistance against multiple potyviruses, including Pepper mottle virus (PepMoV), Pepper severe mosaic virus (PepSMV), and Potato virus Y (PVY). However, a potyvirus avirulence factor against Pvr4 has not been identified. To identify the avirulence factor corresponding to Pvr4 in potyviruses, we performed Agrobacterium-mediated transient expressions of potyvirus protein coding regions in potyvirus-resistant (Pvr4) and -susceptible (pvr4) pepper plants. Hypersensitive response (HR) was observed only when a RNA-dependent RNA polymerase (NIb) of PepMoV, PepSMV, or PVY was expressed in Pvr4-bearing pepper leaves in a genotype-specific manner. In contrast, HR was not observed when the NIb of Tobacco etch virus (TEV), a virulent potyvirus, was expressed in Pvr4-bearing pepper leaves. Our results clearly demonstrate that NIbs of PepMoV, PepSMV, and PVY serve as avirulence factors for Pvr4 in pepper plants.     

Association of a distinct strain of Chilli veinal mottle virus with mottling and distortion disease of Datura inoxia in India

Association of a distinct strain of Chilli veinal mottle virus (ChiVMV) with severe mottling and distortion disease of Datura inoxia was investigated based on the presence of flexuous filamentous particles of ~800 × 11 nm and sequence analyses of ~1.5 kb amplicons obtained during RT-PCR from two representative samples, designated as GMT (accession JN692501) and JNP (JN624776). Both GMT and JNP isolates contained partial polyprotein gene comprising of partial nuclear inclusion b gene, complete coat protein gene and 3′ un-translated region, a hallmark gene array of genus Potyvirus. The isolates under study shared 99% nucleotide sequence identities with each other and 83–85% identities (marginal value for species demarcation recommended by ICTV) during basic local alignments and distant phylogenetic relationships with strains of ChiVMV, hence identified as isolates of a distinct strain of ChiVMV. Association of ChiVMV strain with mottling and distortion disease of D. inoxia is being reported for the first time from India.     

Host Ranges, Serology and Cytopathology of Eggplant and Tomato Strains of Eggplant Severe Mottle Virus, a New Potyvirus from Nigeria

Two potyvirus isolates from the eggplant (Solanum melongena L.) cultivars ‘Ex Benin’ and ‘Ex Jos’, respectively, in Nigeria proved to be almost identical in host range, symptomatology and reactivity with antisera to various potyviruses. In eggplant they caused a severe systemic mottle, blistering and malformation of leaves and an abnormal serration of the leaf margins. A potyvirus isolate from tomato showing mosaic symptoms was similar, but not identical to the eggplant isolates. In the slide, precipitin test the serological differentiation indices were between 1 and 3 for the eggplant and tomato isolates. In the immunoelectron microscopical decoration test all three virus isolates showed some reactivity with antisera to the following potyvir, uses: dioscorea green banding mosaic, groundnut eyespot, a mungbean isolate of peanut stripe, pepper veinal mottle, telfairia mosaic and a tomato isolate from Taiwan. No reactions were observed with antisera to other potyviruses. Cytopathogenic effects w,ere similar for all three isolates in the arrangement of virus particles, the structure of the cylindrical inclusions and the occurrence of clusters of small vesicles. However, other cytological alterations like accumulations of rod-shaped aggregates of,granular material, formation of giant mitochondria, degeneration of mitochondria and occurrence of a nucleolar inclusion differentiated the isolates.     

Incidence and epidemiology of Pepper veinal mottle virus (PVMV), a Potyvirus disease of pepper

There have been various reports about the devastating effect of Pepper veinal mottle virus (PVMV), a Potyvirus disease of pepper in Nigeria contributing to its low yield and reduced fruit quality leading to great economic loss. Different strains of the virus have been identified and characterised over the years and the disease incidence, severity and aphid vector distribution across agro-ecological zones studied. Different cultural management techniques have been tried and found to be effective with varying degree of success, and these included the use of organic manures, intercropping with tall companion crops, time and date of planting and the use of tolerant/resistant varieties. Integrated pest management techniques for PVMV disease have been found to be very effective.     

Screening of virus specific primers against the Cassava mosaic virus

Abstract

Five different Indian cassava mosaic virus (ICMV) specific primers were used to screen the virus from CMD affected samples collected from the different parts of Tamil Nadu. Out of five specific primers, three were designed to amplify the specific viral genes of ICMV and two were used for detection of ICMV. All primers amplified specific regions of the virus in all samples. The specific primer for amplification of coat protein gene of ICMV amplified 800 bp of coat protein gene from both ICMV and Sri Lankan cassava mosaic virus (SLCMV) infected samples invariably. The specific primer for amplifying movement protein (MP) gene amplified about 900 bp of movement protein gene from all CMD infected cassava samples. Likewise, 800 bp of nuclear shuttle protein (NSP) gene was amplified from all the samples. The primer ICMV A amplified 700 bp of PCR product from mosaic diseased cassava samples. A 300 bp product from DNA A of the virus amplified in all samples using the primer ICMV A₁.     

Identification and Characterization of a Potyvirus Isolated from Siratro Plants

The present work describes the identification and characterization of a potyvirus isolated from siratro (Macroptilium atropurpureum Urb.) in the north‐west region of the State of São Paulo, Brazil. The virus was transmitted by mechanical inoculation. Its host range was restricted mainly to members of the Fabaceae. A cDNA fragment of about 930 bp was amplified by RT/PCR, cloned and sequenced. The fragment, which included the coat protein gene, had amino acid identity percentages between 88 and 98% with isolates of Bean common mosaic virus (BCMV). Phylogenetic analysis grouped the siratro potyvirus and BCMV isolates in 99% of the replicates, including Azuki mosaic virus, Dendrobium mosaic virus, Blackeye cowpea mosaic virus and Peanut stripe virus, which have been classified as BCMV strains. This is the first citation on the presence of BCMV in siratro plants in Brazil.     

Occurrence and distribution of potyviruses infecting sorghum in Kaduna and Kano States,Nigeria

Field surveys were conducted during the 2012 wet season in five Local Government Areas (LGAs) each of Kaduna and Kano States, Nigeria, to determine the incidence of potyviruses infecting sorghum. Sorghum leaves (n = 450) showing mosaic, streak, dwarfism and asymptomatic ones were collected from 30 fields. Based on the fields, the virus disease incidence in Kaduna State was 19.3, 17.1, 53.7, 35.4 and 32.7% for Sabon Gari, Giwa, Lere, Kubau and Makarfi LGAs, respectively. In Kano State, the incidence was 13.3, 32.9, 28.9, 34.3 and 50.9% for Tsanyawa, Minjibir, Wudil, Sumaila and Garun Malam LGAs, respectively. Enzyme-linked immunosorbent assay (ELISA) was employed in the detection of the viruses. There was overall incidence of Sorghum mosaic virus 2.8%, Maize dwarf mosaic virus 2.0%, Sugarcane mosaic virus 3.3% and unidentified potyvirus 4.2% from the two states.     

Tyrosinase inhibitory components from Aloe vera and their antiviral activity

A new compound, 9-dihydroxyl-2'-O-(Z)-cinnamoyl-7-methoxy-aloesin (1), and eight known compounds (2–9) were isolated from Aloe vera. Their structures were elucidated using 1D/2D nuclear magnetic resonance and mass spectra. Compound 9 exhibited reversible competitive inhibitory activity against the enzyme tyrosinase, with an IC₅₀ value of 9.8?±?0.9?µM. A molecular simulation revealed that compound 9 interacts via hydrogen bonding with residues His244, Thr261, and Val283 of tyrosinase. Additionally, compounds 3 and 7 were shown by half-leaf assays to exhibit inhibitory activity towards Pepper mild mottle virus.     

The Isolation and Evaluation of Two Naturally Occurring Mild Strains of Vanilla Necrosis Potyvirus for Control by Cross-Protection

In an attempt to find mild virus strains that would cross-protect sgainst vanilla necrosis potyvirus (VNPV), Vanilla fragrans plants in Tonga were surveyed for the presence of mild or symptomless potyvirus infections. Potyviruses were detected by indirect ELISA using a commercially available portyvirus group monoclonal anibody. From 28 plants with mild or symptomless infections two portyvirus isolates, designated V1 and V3, included systemic infections in Nicotiana benthamiana following mechanical inoculation. V1, which causes a mild mottle in N. benthamiana, is serologically related to VNPV, while V3 which causes mild vein banding is serologically unrelated to VNPV. Prior inoculation with V1 protected N. benthamiana against the severe mosaic symptoms of VNPV when challenge inoculated after 14 and 21 days, but not after 7 days. When V3 was used as the protecting strain, cross-protection was observed in some, but not all plants, when chalenged with VNPV after 14 and 21 days.     

Viruses detected in Ullucus tuberosus (Basellaceae) from Peru and Bolivia

Ullucus tuberosus (Basellaceae) plants from 12 locations in the Andean highlands of Peru and Bolivia contained complexes of either three or four viruses. Specimens from six sites in Peru contained a potexvirus, a tobamovirus, a potyvirus and a comovirus, but those from another location lacked the potexvirus. All samples from five sites in Bolivia lacked the tobamovirus. The potexvirus (PMV/U) is a strain of papaya mosaic virus differing slightly from the type strain (PMV/T) in inducing milder symptoms in some common hosts and failing to infect a few other species. It symptomlessly infected U. tuberosus, and infected 15 of 29 species from seven of nine other families. PMV/U showed a close serological relationship to PMV/T and to boussingaultia mosaic virus and a distant relationship to commelina virus X, but it is apparently unrelated to any of ten other potexviruses. The tobamovirus (TMV/U) induced symptomless or inconspicuous infection in U. tuberosus, and infected 21 of 30 species from six of eight other families. It showed a very distant serological relationship to some strains of ribgrass mosaic, tobacco mosaic and tomato mosaic viruses, but failed to react with antisera to cucumber green mottle mosaic, frangipani mosaic, odontoglossum ringspot and sunn-hemp mosaic viruses. The potyvirus, tentatively designated ullucus mosaic virus (UMV), alone in U. tuberosus induced leaf symptoms indistinguishable from the chlorotic mottling and distortion found in naturally infected plants. UMV infected 12 of 20 species from four other families, and was transmitted in the non-persistent manner by Myzus persicae. It showed a distant serological relationship to only two (bidens mottle and alstroemeria mosaic) of 25 members or possible members of the potyvirus group tested. Some hosts and properties of the comovirus are described in an accompanying paper. None of the four viruses infected potato (Solanum tuberosum) and, with the possible exception of UMV, they differed from viruses reported previously to infect three other vegetatively propagated Andean crops (Oxalis tuberosa, Arracacia xanthorrhiza and Tropaeolum tuberosum).     

Detection of begomovirus associated with okra leaf curl disease

Leaf curl and yellow vein mosaic viral disease is the major constraint on okra (Abelmoschus esculentus L.) production in India. Amplified fragment sequence of DNA-β showed highest similarity of 91.7% with Bhendi yellow vein mosaic virus-Tamil Nadu (AJ308425, NC_003405) and lowest similarity of 48.5% with OKLCV (NC_004093), whereas coat protein specific amplified sequence showed highest homology with isolate of Madurai, Haryana, Ludhiana and lowest homology of 92% with Mesta yellow vein mosaic Bahraich virus (MYVMBV) (EU360303). The results obtained in the present study confirm that both the viral diseases of okra reported in southern India are caused by a begomovirus associated with DNA-β in which the plants show leaf curl symptoms and never develops yellow vein mosaic and those plants which show yellow vein mosaic, never develops leaf curl symptoms even in the same rows and field. The okra leaf curl is an emerging virus disease in India.     

Patchouli virus X, a new potexvirus from Pogostemon clabin

This work describes a potexvirus obtained from patchouli, Pogostemon clabin, collected in São Paulo, Brazil in 1992. The plants showed mosaic and were infected by a potyvirus and a potexvirus. The potexvirus had a host range limited to Amaranthaceae, Solanaceae and Labiatae and was named Patchouli virus X (PatVX). PatVX was not transmitted by scissors pruning, in tobacco seeds or by Myzus nicotinae. The virus was purified and a specific antiserum with a titre great than 1:512 000 in dot‐ELISA was produced. The virus was serologically related to Papaya mosaic virus, Potato virus X, Viola mottle virus, White clover mosaic virus and Lily virus X. It had a coat protein of 21 071 ± 1 010 Mr. as determined by SDS‐PAGE. Immunolabelling tests demonstrated that fibrillar masses in the cytoplasm contain the coat protein. The presence of a dsRNA was detected in PatVX infected plants.     

Occurrence,distribution and seasonal changes of viruses infecting common bean in northwestern Iran

Many surveys were conducted during 2003–2005 to study the identity, prevalence and fluctuation of bean infecting viruses in northwestern Iran. In total, 649 bean samples with virus- like symptoms were collected and analysed by double antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA) and tissue-print immunoassay to detect infectious viruses. Serological tests revealed the presence of Bean common mosaic virus (BCMV), Bean common mosaic necrosis virus (BCMNV), Bean yellow mosaic virus (BYMV), Cucumber mosaic virus (CMV), Alfalfa mosaic virus (AMV), Bean leaf roll virus (BLRV), Bean pod mottle virus (BPMV) and Southern bean mosaic virus (SBMV), with some co-infection occurred, with prevalence of BCMV, BCMNV and BYMV (17–29% infection rate). The incidence of viruses showed variation in over 3 years of research including more than double increase in CMV from 2004 to 2005 and obvious one-third decrease in AMV from 2003 to 2005. SBMV and BPMV were detected sporadically in the fields and the response of some differential test plants was analysed by mechanical inoculation. Western immunoblotting analysis of SBMV infected bean leaf total proteins using SBMV-specific polyclonal antibody revealed viral CP with molecular mass of 28.5 kDa which confirmed the presence of SBMV as a new threat for bean production.     

Serological and molecular characterisations of the Egyptian isolate of Bean common mosaic virus

Bean common mosaic virus (BCMV) was isolated from the naturally infected bean plants collected from the Kafr El-Sheikh and El-Gharbia Governorates. BCMV induced sever mosaic, vein banding, malformation, leaf curling and stunting on bean plants cv. Giza 6. The isolated virus was propagated in bean plants cv. Giza 6. The identification of BCMV was carried out serologically by an indirect enzyme-linked immunosorbent assay using BCMV antiserum. Positive reaction indicated that the virus under study was related serologically to Potyvirus. The molecular biology techniques were used to identify and characterise the coat protein gene of BCMV. Oligonucleotide primers were designed for BCMV according to the published nucleotide sequences of BCMV and were successfully amplified with a DNA fragment (300 bp) from BCMV CP gene by RT-PCR. The total RNA was extracted from bean leaves and was reverse-transcribed and amplified using the oligonucleotide primer. The amplified product was analysed by gel electrophoresis. Also, Southern and dot blot hybridisations were used to establish the authenticity and specificity to the RT-PCR-amplified products of BCMV. The nucleotide sequences of the Egyptian isolate of BCMV/CP showed similarity with an isolate (BCMV-NY 15) which belongs to Puerto Rico.     

Incidence and diversity of viruses in cowpeas and weeds in the unmanaged farming systems of savanna zones in Nigeria

Fields surveys were conducted to assess the incidence of commonly known legume viruses on cowpeas and weed hosts within and around the cowpeas farms in nine locations across the three agro-ecological zones of Nigeria. Of 315 cowpea leaf samples collected and tested for eight viruses, 69.5% were found to be infected. Bean common mosaic virus-blackeye mosaic (BCMV-BlCM), genus Potyvirus had the highest incidence (70%) and was also the most prevalent (78%). Cowpea aphid-borne mosaic virus (CABMV, genus Potyvirus) had 64% as incidence, incidence of Southern bean mosaic virus (SBMV, genus Sobemovirus) was 21%. Bean pod mosaic virus (BPMV, genus Comovirus) was detected in 1% of the samples tested. Cowpea mosaic virus (CPMV, genus Comovirus) was undetected. Other viruses tested included Cowpea mottle virus (CPMoV, genus Carmovirus), Cucumber mosaic virus (CMV, genus Cucumovirus), and Cowpea mild mottle virus (CPMMV, genus Carlavirus). Multiple virus infections were detected in 68.0% of the infected cowpea leaf samples. The combination of BCMV-BlCM and CABMV was the most common, occurring in 76.4% of all samples. Virus incidence in weeds around the cowpea plots was 2.5% (9 out of 356) whereas 1.5% (5 out of 332) of the weeds collected within the cowpea plots were infected. Some of the weeds infected were Chromoleana odorata, Centrosema sp., Thithonia diversifolia and Talinum triangulare.     

The interaction of soybean reticulon homology domain protein (GmRHP) with Soybean mosaic virus encoded P3 contributes to the viral infection

Soybean mosaic virus (SMV), a member of the Potyvirus genus, is a prevalent and devastating viral pathogen in soybean-growing regions worldwide. Potyvirus replication occurs in the 6K2-induced viral replication complex at endoplasmic reticulum exit sites. Potyvirus-encoded P3 is also associated with the endoplasmic reticulum and is as an essential component of the viral replication complex, playing a key role in viral replication. This study provides evidence that the soybean (Glycine max) reticulon homology domain protein (designated as GmRHP) interacts with SMV-P3 by using a two-hybrid yeast system to screen a soybean cDNA library. A bimolecular fluorescence complementation assay further confirmed the interaction, which occurred on the cytomembrane, endoplasmic reticulum and cytoskeleton in Nicotiana benthamiana cells. The transient expression of GmRHP can promote the coupling of Turnip mosaic virus replication and cell-to-cell movement in N. benthamiana. The interaction between the membrane protein SMV-P3 and GmRHP may contribute to the potyvirus infection, and GmRHP may be an essential host factor for P3's involvement in potyvirus replication.