Rapid detection of fifteen known soybean viruses by dot-immunobinding assay.

A dot-immunobinding assay (DIBA) was optimized and used successfully for the rapid detection of 15 known viruses [Alfalfa mosaic virus (AMV), Bean pod mottle virus (BPMV), Bean yellow mosaic virus (BYMV), Cowpea mild mottle virus (CPMMV), Cowpea severe mosaic virus (CPSMV), Cucumber mosaic virus (CMV), Peanut mottle virus (PeMoV), Peanut stunt virus (PSV), Southern bean mosaic virus (SBMV), Soybean dwarf virus (SbDV), Soybean mosaic virus (SMV), Soybean vein necrosis virus (SVNV), Tobacco ringspot virus (TRSV), Tomato ringspot virus (ToRSV), and Tobacco streak virus (TSV)] infecting soybean plants in Oklahoma. More than 1000 leaf samples were collected in approximately 100 commercial soybean fields in 24 counties of Oklahoma, during the 2012-2013 growing seasons. All samples were tested by DIBA using polyclonal antibodies of the above 15 plant viruses. Thirteen viruses were detected, and 8 of them were reported for the first time in soybean crops of Oklahoma. The highest average incidence was recorded for PeMoV (13.5%) followed by SVNV (6.9%), TSV (6.4%), BYMV, (4.5%), and TRSV (3.9%), while the remaining seven viruses were detected in less than 2% of the samples tested. The DIBA was quick, and economical to screen more than 1000 samples against 15 known plant viruses in a very short time.

The 2b protein of Asparagus virus 2 functions as an RNA silencing suppressor against systemic silencing to prove functional synteny with related cucumoviruses.

Asparagus virus 2 (AV-2) is a member of the genus Ilarvirus in the family Bromoviridae. We cloned the coat protein (CP) and the 2b protein (2b) genes of AV-2 isolates from asparagus plants from various regions and found that the sequence for CP and for 2b was highly conserved among the isolates, suggesting that AV-2 from around the world is almost identical. We then made an AV-2 infectious clone by simultaneous inoculation with in vitro transcripts of RNAs 1-3 of AV-2 and in vitro-synthesized CP, which is necessary for initial infection. Because 2b of cucumoviruses in Bromoviridae can suppress systemic silencing as well as local silencing, we analyzed whether there is functional synteny of 2b between AV-2 and cucumovirus. Using the AV-2 infectious clone, we here provided first evidence that Ilarvirus 2b functions as an RNA silencing suppressor; AV-2 2b has suppressor activity against systemic silencing but not local silencing.

Immunodiagnosis of Prune dwarf virus using antiserum produced to its recombinant coat protein.

Certification represents the first line of defense against fruit tree viruses. For certification or surveys dealing with large number of samples, ELISA is still considered the technique of choice and requires a continuous supply of good quality antibodies. Prune dwarf virus (PDV) is among the major viruses affecting stone fruits; it belongs to the genus Ilarvirus named so for its isometric labile particles. Recombinant DNA technology was investigated for production of PDV antiserum to avoid labile virus purification and virus maintenance problems. The PDV coat protein gene (CP) was cloned into a protein expression bacterial plasmid vector which allowed a good level of expression of up to 2mg native protein/L culture. The recombinant PDV CP was injected into rabbits and the crude antiserum was successfully used in indirect ELISA at dilutions of up to 1:5000 to detect PDV in infected leaf samples. Similar results were obtained in dot blot immunoassays (DBIA). The antibodies were used in double antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA) and results were comparable to a reference commercial kit. The crude antiserum was efficiently used for coating ELISA plates, thereby reducing test costs.

Strawberry necrotic shock virus is a distinct virus and not a strain of Tobacco streak virus.

Fragaria (strawberry) and Rubus species (blackberry, wild blackberry, red raspberry and black raspberry) were thought to be infected with distinct isolates of Tobacco streak virus (TSV). Employing serology and nucleic acid hybridization it has been shown that these isolates form a cluster distinct from other strains of TSV. In this study we have cloned and sequenced the complete RNA 3 of an isolate of TSV from strawberry (Fragaria) as well as the coat protein (CP) gene of 14 additional isolates of TSV originating from Fragaria and Rubus species. Our data suggest that the isolates of TSV that infect Fragaria and Rubus belong to a distinct virus for which we propose the name Strawberry necrotic shock virus (SNSV). The RNA 3 of SNSV contains 2248 nucleotides, 43 more than the type isolate of TSV from white clover (TSV-WC), with a CP gene that is 669 nucleotides long, in contrast to the 714-7 nucleotides of the TSV CP sequences found in the database. The movement protein gene of SNSV is 897 nucleotides in length, 27 more than that of the TSV-WC isolate of TSV. The CP genes of the 15 Fragaria and Rubus isolates that we studied form two distinct phylogenetic clusters that share about 95% amino acid sequence identity, while they only share 60-65% amino acid sequence identity with TSV-WC.

Serological and coat protein sequence studies suggest that necrosis disease on sunflower in India is caused by a strain of Tobacco streak ilarvirus.

Serological and coat protein sequence studies were conducted to identify an ilarvirus associated with necrosis disease on sunflower in India. In electroblot immunoassay, sunflower ilarvirus reacted strongly only with antiserum to Tobacco streak virus (TSV). The coat protein gene of sunflower ilarvirus was cloned and sequenced. The sequence analyses also showed that the CP gene was most closely related to TSV, the member of subgroup I of Ilarvirus. The sunflower ilarvirus CP shared 90% amino acid sequence identity with TSV. On the basis of serological relatedness and sequence identity, it is proposed that the sunflower ilarvirus from India should be considered a strain of TSV belonging to subgroup I and designated as TSV-SF. This is the first report of the molecular characterization of TSV on sunflower from the Indian subcontinent.