997 resultados para Apple stem pitting virus (ASPV)
Resumo:
O Apple stem pitting virus (ASPV) foi detectado por RT-PCR em amostras de cultivares de pereiras européias (Pyrus communis L.) cvs. Starkrimson e Abate Fetel, e asiáticas (P. pyrifolia var. culta) cvs. Kousui e Housui coletadas no início do outono de 2003 em pomar da Estação Experimental da Embrapa Uva e Vinho, Vacaria, RS. Utilizando várias combinações de oligonucleotídeos, foram amplificados fragmentos de DNA de 269 e 1554 pb, este último contendo o gene completo (1131 nt) da proteína capsidial do ASPV. Outro fragmento amplificado de 291 pb compreende parte do gene da polimerase viral. Estes fragmentos constituem-se em um excelente instrumento de diagnóstico do ASPV em pereiras. A comparação das seqüências de nucleotídeos do gene da proteína capsidial do ASPV com seqüências do banco de dados GenBank, revelou identidades de 89% com seqüências de um isolado alemão de macieira e de 85 a 88% com isolados poloneses, de pereiras. A indicadora herbácea Nicotiana occidentalis cv. 37B, inoculada mecanicamente com extrato foliar da cv. Housui, apresentou lesões locais necróticas, necrose foliar marginal e das nervuras. O ASPV também foi detectado por dot-ELISA nas cvs. Abate Fetel e Kousui, na cv. Starkrimson por imunoblot, e em Pyronia veitchii (Trabut) Guill. por enxertia de borbulhas da cv. Abate Fetel infetada.
Resumo:
A method to detect Apple stem grooving virus (ASGV) based on reverse transcription polymerase chain reaction (RT-PCR) was developed using primers ASGV4F-ASGV4R targeting the viral replicase gene, followed by a sandwich hybridisation, in microtiter plates, for colorimetric detection of the PCR products. The RT-PCR was performed with the Titan™ RT-PCR system, using AMV and diluted crude extracts of apple (Malus domestica) leaf or bark for the first strand synthesis and a mixture of Taq and PWO DNA polymerase for the PCR step. The RT-PCR products is hybridised with both a biotin-labelled capture probe linked to a streptavidin-coated microtiter plate and a digoxigenin (DIG)-labelled detection probe. The complex was detected with an anti-DIG conjugate labelled with alkaline phosphatase. When purified ASGV was added to extracts of plant tissue, as little as 400 fg of the virus was detected with this method. The assay with ASGV4F-ASGV4R primers specifically detected the virus in ASGV-infected apple trees from different origins, whereas no signal was observed with amplification products obtained with primers targeting the coat protein region of the ASGV genome or with primers specific for Apple chlorotic leaf spot virus (ACLSV) and Apple stem pitting virus (ASPV). The technique combines the power of PCR to increase the number of copies of the targeted gene, the specificity of DNA hybridization, and the ease of colorimetric detection and sample handling in microplates.
Resumo:
The RT-PCR technique for the detection of apple stem grooving virus (ASGV), apple stem pitting virus (ASPV), apple chlorotic leaf spot virus (ACLSV), apple mosaic virus (ApMV) and pear blister canker viroid (PBCV) was evaluated for health control of fruit plants from nurseries. The technique was evaluated in purified RNA and crude extracts and also in phloem collected in autumn and from young spring shoots. The results obtained for phytoplasma detection with ribosomal and non-ribosomal primers are also presented.
Resumo:
Cultivares comerciais de macieiras são infectadas por 3 espécies principais de vírus: Apple chlorotic leaf spot virus (ACLSV), Apple stem grooving virus (ASGV) e Apple stem pitting virus (ASPV), geralmente em infecções complexas. O objetivo do estudo foi caracterizar a diversidade genética de genes da proteína capsidial (CP) de isolados de ACLSV.
Resumo:
Apple stem grooving virus (ASGV) is one of the most important viruses infecting fruit trees. This study aimed at the molecular characterization of ASGV infecting apple (Malus domestica) plants in Santa Catarina (SC). RNA extracted from plants infected with isolate UV01 was used as a template for RT-PCR using specific primers. An amplified DNA fragment of 755 bp was sequenced. The coat protein gene of ASGV isolate UV01 contains 714 nucleotides, coding for a protein of 237 amino acids with a predicted Mr of approximately 27 kDa. The nucleotide and the deduced amino acid sequences of the coat protein gene showed identities of 90.9% and 97.9%, respectively, with a Japanese isolate of ASGV. Very high amino acid homologies (98.7%) were also found with Citrus tatter leaf capillovirus (CTLV), a very close relative of ASGV. These results indicate low coat protein gene variability among Capillovirus isolates from distinct regions. In a restricted survey, mother stocks in orchards and plants introduced into the country for large scale fruit production were indexed and shown to be infected by ASGV (20%), usually in a complex with other (latent) apple viruses (80%).
Resumo:
A citrus tatter leaf isolate (CTLV-Cl) of Apple stem grooving virus (ASGV) has been found to be associated with a fruit rind intumescence in Cleopatra mandarin (Citrus reshni) in Limeira (SP). The CTLV-Cl was mechanically transmitted to the main experimental herbaceous hosts of CTLV. Chenopodium quinoa and C. amaranticolor reacted with local lesions and systemic symptoms while other test plants reacted somewhat differently than what is reported for CTLV. A pair of primers designed for specific detection of ASGV and CTLV amplified the expected 801 bp fragment from the CTLV-Cl-infected plants. Typical capillovirus-like particles were observed by the electron microscope in experimentally infected C. quinoa and C. amaranticolor leaves.
Resumo:
The coat protein gene of Apple stem grooving virus (ASGV) was amplified by RT-PCR, cloned, sequenced and subcloned in the expression vector pMal-c2. This plasmid was used to transform Escherichia coli BL21c+ competent cells. The ASGV coat protein (cp) was expressed as a fusion protein containing a fragment of E. coli maltose binding protein (MBP). Bacterial cells were disrupted by sonication and the ASGVcp/MBP fusion protein was purified by amylose resin affinity chromatography. Polyclonal antibodies from rabbits immunized with the fusion protein gave specific reactions to ASGV from infected apple (Malus domestica) cv. Fuji Irradiada and Chenopodium quinoa at dilutions of up to 1:1,000 and 1:2,000, respectively, in plate trapped ELISA. The ASGVcp/MBP fusion protein reacted to a commercial antiserum against ASGV in immunoblotting assay. The IgG against ASGVcp/MBP performed favorably in specificity and sensitivity to the virus. This method represents an additional tool for the efficient ASGV-indexing of apple propagative and mother stock materials, and for use in support of biological and molecular techniques.
Resumo:
2016
Resumo:
Apples are commercially grown in Brazil in a subtropical environment that favors the development of fungal diseases such as Glomerella leaf spot (GLS) caused mainly by Glomerella cingulata (anamorph Colletotrichum gloeosporioides). The main objective of this work was to evaluate the effect of mixed infections by Apple stem grooving virus (ASGV) and Apple stem pitting virus (ASPV) on the infection and the colonization processes of C. gloeosporiodes in cv. Maxi Gala plants. Leaves of 16-month-old potted plants were spray-inoculated and both the disease incidence and lesion count were monitored over time and leaf severity was assessed in the final evaluation using an image analysis tool. Results showed that initial infection estimated from a monomolecular model fitted to progress of lesion count was higher and the incubation period (time to reach 50% incidence) was on average 10 h shorter in virus-infected plants compared to non-infected plants. It is hypothesized that initial events such as conidial germination and fungal penetration into plant cells were facilitated by the presence of viral infection. Also, final GLS severity was significantly higher in the virus-infected plants. Mixed infections by ASGV/ASPV seemed to make apple leaves more susceptible to the initial infection and colonization by C. gloeosporioides.
Resumo:
2012
Resumo:
Rupestris stem pitting associated virus (RSPaV) é o agente causal das "caneluras do tronco de Rupestris" da videira (Vitis spp.). Neste trabalho, um isolado de RSPaV, encontrado em videiras cv. Cabernet Franc no Rio Grande do Sul, foi estudado. O vírus foi detectado biologicamente, por enxertia em videira indicadora cv. Rupestris du Lot, em 26,2% das amostras avaliadas. A seqüência parcial do gene da replicase do RSPaV, isolado sul-brasileiro, com 831 nucleotídeos amplificados por RT-PCR e 276 aminoácidos deduzidos, apresentou maior identidade de nucleotídeos (98,1%) e aminoácidos deduzidos (99,6%), com dois isolados norte-americanos. O RSPaV estudado apresentou baixa homologia (37-41%) com outros vírus do gênero Foveavirus. A maioria das mudas de videira cv. C. Franc infetadas com RSPaV apresentou diminuição no potencial fotossintético (2,68 a 5,12 vezes) e aumento na taxa respiratória no escuro quando comparadas a mudas sadias, salientando os impactos que esse vírus pode proporcionar no potencial produtivo de videiras.
Resumo:
Rupestris stem pitting associated virus (RSPaV) is a species in the genus Foveavirus (Martelli and Jelkman, 1998) and the family Flexiviridae. The virion has a positive sense, single stranded, polyadenylated RNA genome of 8.7kb in size and a coat protein of 28kD (Martelli and Jelkman, 1998). The virus has been reported to be present in pollen (Rowhani et aI., 2000) and seeds (Stewart and Nassuth, 2001), however, it has not been proved to be seed-transmitted. In our investigation reported here we have proven that RSPaV transmits by seed from RSPaV-infected mother plants to their siblings.
