Evaluation of the Chilli veinal mottle virus CP gene expressing transgenic Nicotiana benthamiana plants for disease resistance against the virus / Avaliação do gene CP do vírus Chilli veinal mottle que expressa plantas transgênicas Nicotiana benthamiana quanto à resistência a doenças contra o vírus

Vegetables are an important source of income and high-value crops for small farmers. Chilli (Capsicum spp.) is one of the most economically important vegetables of Pakistan and it is grown throughout the country. It is a rich source of nutrition especially vitamins A, B, C and E along with minerals as folic acid, manganese (Mn), potassium (K) and molybdenum (Mo). Chilli possesses seven times more amount of vitamin C than an orange. Vitamin A, C and betacarotenoids are strong antioxidants to scavenge the free radicals. Chilli production is restricted due to various biotic factors. Among these viruses, Chilli veinal mottle virus (ChiVMV) is one of the most destructive and menacing agents that inflicts heavy and colossal losses that accounted for 50% yield loss both in quality and quantity. Pathogen-Derived Resistance (PDR) approach is considered one of the effective approaches to manage plant viruses. In this study, ChiVMV was characterized on a molecular level, the coat protein (CP) gene of the virus was stably transformed into Nicotiana benthamiana plants using Agrobacterium tumefaciens. The transgenic plants were challenged with the virus to evaluate the level of resistance of plants against the virus. It was observed that the plants expressing CP gene have partial resistance against the virus in terms of symptoms' development and virus accumulation. Translation of this technique into elite chilli varieties will be resulted to mitigate the ChiVMV in the crop as well as an economic benefit to the farmers.

Vegetais são uma importante fonte de renda e culturas de alto valor para os pequenos agricultores. A pimenta-malagueta (Capsicum spp.) é uma das hortaliças mais importantes economicamente do Paquistão e é cultivada em todo o país. É uma rica fonte de nutrição, especialmente vitaminas A, B, C e E com minerais como ácido fólico, manganês (Mn), potássio (K) e molibdênio (Mo). O pimentão possui sete vezes mais vitamina C do que a laranja. Vitaminas A e C e betacarotenoides são antioxidantes fortes para eliminar os radicais livres. A produção de pimenta é restrita devido a vários fatores bióticos. Entre esses vírus, o ChiVMV é o agente mais destrutivo e ameaçador que inflige perdas pesadas e colossais que representam 50% da perda de rendimento, tanto em qualidade quanto em quantidade. A abordagem de resistência derivada de patógenos (PDR) é considerada uma das abordagens eficazes para gerenciar os vírus de plantas. Neste estudo, ChiVMV foi caracterizado em nível molecular e o gene CP do vírus foi transformado de forma estável em plantas Nicotiana benthamiana usando Agrobacterium tumefaciens. As plantas transgênicas foram desafiadas com o vírus para avaliar seu nível de resistência contra o vírus. Observou-se que as plantas que expressam o gene CP apresentam resistência parcial ao vírus em termos de desenvolvimento de sintomas e acúmulo de vírus. A tradução dessa técnica em variedades de pimenta de elite resultará na mitigação do ChiVMV na safra, bem como em benefícios econômicos para os agricultores em termos de melhor rendimento e baixo custo de produção.

Ocurrence of pepper yellow mosaic virus and cucumber mosaic virus on Capsicum chinense in the state of Amazonas, Brazil

The habanero chilli pepper, Capsicum chinense is an important crop in the Amazon Basin, mainly grown by small-scale producers. Capsicum chinense plants in an experimental field in the northern Brazilian state of Amazonas were found exhibiting characteristic symptoms of viral infection. Leaf sap from symptomatic plants examined under a transmission electron microscope revealed the presence of elongated flexuous particles and isometric particles. Using molecular assays, the viruses were identified as pepper yellow mosaic virus (PepYMV) and cucumber mosaic virus (CMV). Aphids, identified as Aphis gossypii, were found colonizing the C. chinense plants in the field and may be the vector for both PepYMV and CMV. We report the first occurrence of these viruses infecting C. chinense in the state of Amazonas. (AU)

Characterization of Cowpea aphid-borne mosaic virus in Passiflora edulis 'Catarina' in the southern coast of Santa Catarina State, Brazil / Caracterização do Cowpea aphid-borne mosaic virus em Passiflora edulis cv. Catarina no litoral sul de Santa Catarina, Brasil

CABMV is a limiting virus for passion fruit crop in Brazil, its main producing country. This virus has been reported in all producing states of the country, with the state of Santa Catarina (SC) in 2017 standing as the third largest passion fruit producer. In 2017, it reached 8.4% of the national production. The southern coast is the main responsible for the increase in production, which has been supplying the domestic market. However, in that same year, this region recorded the first symptom expressions in plants and fruits. The evaluation of the samples collected in the municipalities of Sombrio, Praia Grande and São João do Sul, southern coast of SC, was performed by using a mechanical transmission to indicator plants, PTA-ELISA and RT-PCR, and by sequencing. The evaluation results were positive for CABMV and negative for CMV in PTA-ELISA. In RT-PCR, there was the formation of a 700bp ca band, expected size for Potyvirus, whose sequence comparison with those deposited in GenBank reveled 98% identity with the isolates from São Paulo State. The occurrence of the virus in the southern coast of SC did not reach a serious decrease in passion fruit production due to the union of producers, who adopted preventive management measures to control the virus, whose effect led to a consolidation of the passion fruit production chain in the region.(AU)

O CABMV é um vírus limitante para a cultura do maracujá no Brasil, principal país produtor mundial, cuja ocorrência já foi relatada em todos os estados produtores. Em 2017, o estado de Santa Catarina (SC) foi o terceiro maior produtor de maracujá no Brasil, responsável por 8,4% da produção nacional, sendo o litoral sul o principal responsável pelo aumento da produção, garantindo o abastecimento do mercado interno. Entretanto, nesse mesmo ano, essa região registrou as primeiras expressões de sintomas em plantas e frutos. Uma avaliação das amostras coletadas nos municípios de Sombrio, Praia Grande e São João do Sul, litoral sul de Santa Catarina, foi realizada por transmissão mecânica para plantas indicadoras, PTA-ELISA, RT-PCR e sequenciamento. Os resultados foram positivos para o CABMV e negativos para o CMV, tanto em PTA-ELISA quanto RT-PCR. Na RT-PCR, houve a amplificação de bandas com ca de 700pb, tamanho esperado para o Potyvirus cuja comparação de sequências com as depositadas no GenBank revelaram 98% de similaridade com os isolados do estado de São Paulo. A ocorrência do vírus na região do litoral sul de Santa Catarina não causou quebra na produção de maracujá devido à adoção conjunta de medidas preventivas de manejo pelos produtores, fato que consolidou a cadeia produtiva do maracujá na região.(AU)

Construction and characterization of an infectious clone of Soybean mosaic virus isolate from Pinellia ternata / 生物工程学报

Soybean mosaic virus (SMV), one of the major viral diseases of Pinellia ternata (Thunb.) Breit., has had a serious impact on its yield and quality. The construction of viral infectious clones is a powerful tool for reverse genetics research on viral gene function and interaction between virus and host. To clarify the molecular mechanism of SMV infection in Pinellia ternata, it is particularly important to construct the SMV full-length cDNA infectious clone. Therefore, the infectious clone of Soybean mosaic virus Shanxi Pinellia ternata isolate (SMV-SXBX) was constructed in this study by Gibson in vitro recombination system, and the healthy Pinellia ternata leaves were inoculated by Agrobacterium infiltration, further through mechanical passage and RT-PCR, confirming that the 3' end of the SMV-SXBX infectious clone had a stable infectivity when it contained 56-nt of poly(A) tail. This method is not only convenient and efficient, but also avoids the instability of SMV infectious clones in Escherichia coli. The construction of SMV full-length infectious cDNA clones laid the foundation for further study on the molecular mechanism of SMV replication and pathogenesis.

Susceptibility assessment of watermelon and pumpkin cultivars to potyvirus in Tocantins / Avaliação da susceptibilidade de cultivares de melancia e abóbora a potyvirus obtidos do estado de Tocantins

Cucurbits cultivation has great importance in the food industry. However, in the main producing regions of curcubits, the increase of cultivation areas has been limited by viral infections. Among the most prevalent viruses there is the Watermelon Mosaic Virus (WMV), Papaya Ringspot Virus (PRSV-W) and Zucchini Yellow Mosaic Virus (ZYMV). The aim of this study was to evaluate the reaction of watermelon genotypes (Crimson sweet and Charleston Gray) and pumpkin (Jacarezinho and Caserta) to isolate watermelon strains in the following cities: Palmas (PYP-12), Gurupi (PYG-14 and PYG-19), Formoso do Araguaia (PYF-6), and Porto Nacional (PyPn-36 and PyPn-39). The experiment was performed in a greenhouse, in a completely randomized design, with 5 testing plants for each repetition to measure the response of these strains to cucurbit genotypes. The inoculated strains were obtained from leaves of watermelon cv Crinson sweet with symptoms The plants were rated by severity of viral symptoms in intervals of four days during 32 days. It was verified that the cucurbit genotypes showed different susceptibility to the viral strains. However, Caserta and Charleston gray were the ones which had greater sensitivity due to their high severity variation among the tested strains. Thus, it can be observed that the reaction among strains depends on the host and this reaction can be antagonistic or synergistic, depending on the mixed infection. Charleston gray watermelon was the most susceptible to most of the viral strains. Thus, this cultivar should be avoided in these regions.

O cultivo de cucurbitáceas tem grande importância no que diz respeito à alimentação, mas o aumento das áreas de plantio tem sido limitado por infecções virais nos principais pólos produtores de cucurbitáceas. Entre os mais prevalentes destacam-se o vírus do mosaico da melancia (WMV), o vírus da mancha anelar do mamoeiro estirpe melancia (PRSV-W) e o vírus do mosaico amarelo da abobora (ZYMV). Este estudo teve como objetivo avaliar a reação dos genótipos de cucurbitácea Melancia Crimson sweet e Charleston gray; Abóbora: Jacarezinho e Caserta, para isolar variedades de safra de melancia nas cidades de Palmas (PYP-12), Gurupi (PYG-14 e PYG-19), Formoso do Araguaia (PYF-6) e Porto Nacional (PyPn-36 e PyPn-39). O experimento delineamento inteiramente casualizado (DIC), foi conduzido em estufa e foram utilizadas 5 plantas de teste para cada repetição para medir a resposta dessas cepas aos genótipos de cucurbitáceas. A inoculação dos vírus em plantas realizada a partir de folhas com a infecção de melancia Crimson sweet. As plantas inoculadas foram avaliadas por graus de severidade em quatro dias de intervalo durante 32 dias após a inoculação. Verificou-se que os genótipos de cucurbitaceas analisadas apresentaram susceptibilidade diferente às cepas virais testadas. No entanto, o genótipo de abóbora de Caserta e Charleston gray foram as que apresentou maior sensibilidade, devido à sua alta variação de severidade entre as cepas. Assim, podemos ver que a reação entre as estirpes depende do hospedeiro e a reação pode ser antagonista ou sinérgica dependendo da infecção mista. A melancia Charleston gray foi o mais suscetível à maioria das cepas virais. Assim, esta cultivar deve ser evitada nessas regiões.

Aplicação exógena do ácido salicílico em maracujazeiro-amarelo para o controle do vírus do endurecimento dos frutos / Exogenous application of salicylic acid in yellow passion fruit for the control of fruit woodiness virus

Foram avaliados o efeito do ácido salicílico (AS) no controle do Cowpea aphid-borne mosaic virus (CABMV), vírus que induz o endurecimento dos frutos do maracujazeiro (EFM), e a sua influência na expressão dos sintomas e na ativação das enzimas peroxidase e polifenoloxidase. O experimento foi delineado e conduzido de forma inteiramente casualizada. Os tratamentos consistiram em AS (2,5 mM) e controle (etanol 10%), aplicados 12 horas antes da inoculação mecânica do CABMV, agente causal do EFM no Brasil. Um experimento similar foi conduzido sob as mesmas condições, porém, quatro aplicações do AS foram realizadas semanalmente após a inoculação mecânica do CABMV. Em ambos os experimentos a avaliação da severidade da doença foi realizada empregando escala de notas que variaram de 0 a 3. Para avaliar a atividade das enzimas peroxidase e polifenoloxidase, as plantas foram tratadas (AS e controle) e, após 12 horas, inoculadas com o isolado de CABMV. Foram realizadas amostragens foliares 0, 12, 24 e 48 horas após os tratamentos (HAT), que foram processadas e analisadas em espectrofotômetro para a constatação da ativação da peroxidase e polifenoloxidase. Aos 30 dias após a inoculação (DAI), o AS aplicado uma única vez promoveu redução da severidade de 57,1%, quando comparado com o controle. Nas plantas submetidas às aplicações semanais de AS foi constatada a redução significativa da expressão dos sintomas aos 45 DAI. Nos ensaios bioquímicos foi observado aumento significativo de peroxidase nos intervalos de 12 horas (DAI)/24 horas (HAT). Para polifenoloxidase foi observado um aumento significativo de sua atividade nos intervalos de 24 horas (DAI)/48 horas (HAT). Sugere-se que o AS pode representar uma ferramenta adicional no manejo do EFM.(AU)

The effect of salicylic acid (SA) was evaluated in control of Cowpea aphid-borne mosaic virus (CABMV), which induces hardening of the fruits of passion fruit (EFM). Also, its influence on the expression of symptoms and the activation of peroxidase and polyphenol oxidases were evaluated. The experiment was designed and conducted in a completely random way. The treatments consisted of SA (2.5 mM) and control (10% ethanol), applied 12 hours before mechanical inoculation of CABMV, the causal agent of EFM in Brazil. A similar experiment was conducted under the same conditions, but four applications were performed weekly after CABMV mechanical inoculation. In both experiments a rating scale ranging from 0 to 3 was used to assess the severity of the disease. To evaluate the activity of peroxidase and polyphenol oxidase, the plants were treated (SA and control) and, after 12 hours, inoculated with isolated CABMV. Leaf samplings were performed at 0, 12, 24 and 48 hours after the treatments (HAT), processed and analyzed in a spectrophotometer to verify the activation of peroxidase and polyphenol oxidase. At 30 days after inoculation (DAI), the SA applied once promoted reduction of 57.1% of the severity, when compared with the control. In plants subjected to SA weekly applications, it was found a significantly reduction in the expression of symptoms at 45 DAI. In the biochemical assays, a significant increase in peroxidase in 12-hour intervals (DAI)/24 hours (HAT) was observed. For polyphenol oxidase, a significant increase of its activity was observed at 24 hour intervals (DAI)/48 hours (HAT). It is suggested that SA may represent an additional tool in the management of EFM.(AU)

Degenerate primers facilitate the detection and identification of potyviruses from the northwest region of Iran

Potyviruses are accounted for 40% of viral diseases of various crops including vegetables and legumes. Potyviruses can be transmitted through plant sap, seeds and many aphid species. Due to ease of spread of these viruses detection of such viruses are crucial as to the control of the incited diseases. This study compared the efficiencies of two couples of primers in their detection of potyviruses infecting vegetables in North-West of Iran. To identify potyviruses infecting vegetables, total RNA preparations from leaves of diseased plants were subjected to reverse transcription [RT] with oligo d[T]15, M4T or a potyvirus-specific primer, followed by polymerase chain reactions [PCR] with two pairs of degenerate primers including Sprimer/M4 or NIb2F/NIb3R that would yield [tilde] 1700 or 350 bp fragments, respectively. Amplification was achieved from 7 samples when Sprimer and M4 were used, but non- specific fragments were also amplified. However, specific amplifications from 31 samples were achieved with NIb2F2 and NIb3R. PCR products resulting from the use of NIb2F/NIb3R were subjected for cloning and sequencing. BLAST analysis of the sequenced data revealed that the PCR-amplified fragments belonged to Bean common mosaic virus [green bean], Bean yellow mosaic virus [broad bean], Potato virus Y [potato], Watermelon mosaic virus [squash, muskmelon or melon], Zucchini yellow mosaic virus [squash], and Soybean mosaic virus [bean]. This study demonstrated the efficiency of NIb2F2/NIb3R in detection of potyviruses and revealed the extent of infections with diverse potyviruses species in the northwest part of Iran.

Generación de anticuerpos policlonales para la detección de la variante genotípica GIII de PVY, en cultivos de tomate de Árbol y papa de Colombia / Generation of policlonal antibodies for detection of the PVY genotypic variant GIII in tamarillo and potato crops from Colombia

El potyvirus PVY es uno de los agentes causales más frecuentemente asociados a problemas virales en cultivos de papa y tomate de árbol en Colombia. Dada la importancia económica de las enfermedades causadas por PVY y a la necesidad de generar material de siembra certificado por su sanidad viral, es fundamental la generación de herramientas de diagnóstico que permitan la detección temprana de este virus. En este trabajo se reporta la obtención de anticuerpos policlonales específicos, útiles para la detección del genotipo III de PVY (GIII), una de las tres variantes que recientemente han sido reportadas en cultivos de papa y tomate de árbol de la región Andina de Colombia. Como antígeno, se utilizó un péptido sintético diseñado a partir de la región variable del extremo N-terminal del gen de la cápside viral. La sensibilidad de los anticuerpos fue evaluada mediante pruebas de ELISA y dot-blot utilizando péptidos sintéticos. Se realizó una prueba piloto para validar el uso de los anticuerpos a partir de plantas sintomáticas y asintomáticas obtenidas de una región donde confluyen cultivos de ambas solanéceas, encontrándose que los anticuerpos generados ofrecen mayores niveles de detección que los anticuerpos comerciales comúnmente utilizados para detectar los serotipos PVY-O,C y PVY-N de este virus.

PVY is one of the potyvirus more frequently associated with viral infections in tomato and tamarillo crops in Colombia. Due to the economic impact of PVY and the need to certify seeds as virus-free it is important to develop diagnostic tools that allow its premature detection. In this work, the obtention of antibodies detecting the genotype III of PVY is reported. This genotype is one of the three PVY variants infecting tamarillo and potato in the Andean region of Colombia. The N-terminal variable region of the coat protein was chosen as antigen for antibody production. The sensibility of these antibodies was tested by ELISA and dot-blot using synthetic peptides. A pilot test was performed on symptomatic and non-symptomatic plants from a mixed orchard of tamarillo and potato. The generated antibodies showed higher detection levels than the commercial antibodies commonly used to detect the PVY-O,C and PVY-N serotypes.

Molecular modeling and conformational analysis of native and refolded viral genome-linked protein of Cardamom mosaic virus.

The viral genome-linked protein (VPg) of Potyviruses is covalently attached to the 5’ end of the genomic RNA. Towards biophysical characterization, the VPg coding region of Cardamom mosaic virus (CdMV) was amplified from the cDNA and expressed in E. coli. Most of the expressed VPg aggregated as inclusion bodies that were solubilized with urea and refolded with L-arginine hydrochloride. The various forms of CdMV VPg (native, denatured and refolded) were purified and the conformational variations between these forms were observed with fluorescence spectroscopy. Native and refolded CdMV VPg showed unordered secondary structure in the circular dichroism (CD) spectrum. The model of CdMV VPg was built based on the crystal structure of phosphotriesterase (from Pseudomonas diminuta), which had the maximum sequence homology with VPg to identify the arrangement of conserved amino acids in the protein to study the functional diversity of VPg. This is the first report on the VPg of CdMV, which is classified as a new member of the Macluravirus genus of the Potyviridae family.

Incidencia de potyvirus y caracterización molecular de PVY en regiones productoras de papa (Solanum tuberosum L) de Colombia / Incidence of potyvirus and molecular characterization of PVY in potato (Solanum tuberosum L) growing regions of Colombia

Los problemas virales reducen los rendimientos y la calidad del tubérculo semilla en cultivos de papa de todo el mundo. Esta investigación se planteó con el fin de evaluar los niveles de incidencia de potyvirus en diez de las principales regiones cultivadoras de papa de los departamentos de Antioquia, Boyacá, Cundinamarca y Nariño (Colombia), y las características genotípicas del virus Y de la papa (Potato virus Y, PVY), seleccionado por ser el potyvirus más limitante de este cultivo. Para la evaluación de la incidencia se utilizaron pruebas de Elisa con anticuerpos que reconocen epítopes comunes a los potyvirus, mientras que las pruebas moleculares incluyeron el análisis filogenético de secuencias parciales del gen de la cápside viral de 33 aislamientos, así como la secuenciación de una porción de los extremos 5´ y 3´del genoma de dos cepas colombianas de este virus. Los resultados confirmaron la presencia de potyvirus en los cultivos de los cuatro departamentos evaluados, con una incidencia promedio del 72%, siendo este nivel superior al 56% en todas las zonas evaluadas. Los análisis moleculares del PVY, permitieron asociar las cepas colombianas estudiadas con las razas PVYN y la variante PVYNTN, esta última responsable de la enfermedad conocida en el mundo como PTNRD (Potato tuber necrotic ringspot disease).

Potato viruses are responsible for significant reductions in seed quality and crop yields around the world. In this study, we evaluate the levels of incidence of potyvirus in ten potato growing regions of Colombia from the provinces of Antioquia, Boyacá, Cundinamarca and Nariño. As PVY is the most limiting potyvirus in potato farming, a molecular characterization of Colombian PVY strains was also performed. Incidence was evaluated by ELISA using general potyvirus antibodies. Phylogenetic analysis were made on the partial sequence of the capsid gene from 33 isolates. A portion of the 5´ and 3' genome ends was obtained from two Colombian strains. Results confirmed the presence of potyvirus in the four provinces with an average incidence of 72%. The lowest incidence value was 56%. Molecular analysis clustered all Colombian isolates with strains PVYN and PVYNTN, the latter responsible for the disease known as PTNRD (Potato tuber necrotic ringspot disease).

Combining ability of summer-squash lines with different degrees of parthenocarpy and PRSV-W resistance

The aim was to assess heterosis in a set of 16 summer-squash hybrids, and evaluate the combining capacity of the respective parental lines, which differed as to the degree of parthenocarpy and resistance to PRSV-W (Papaya Ringspot Virus-Watermelon strain). The hybrids were obtained using a partial diallel cross design (4 x 4). The lines of parental group I were 1 = ABX-037G-77-03-05-01-01-bulk, 2 = ABX-037G-77-03-05-03-10-bulk, 3 = ABX-037G77-03-05-01-04-bulk and 4 = ABX-037G-77-03-05-05-01-bulk, and of group II, 1' = ABX-037G-77-03-05-04-08-bulk, 2' = ABX-037G-77-03-05-02-11-bulk, 3' = Clarice and 4' = Caserta. The 16 hybrids and eight parental lines were evaluated for PRSV-W resistance, parthenocarpic expression and yield in randomized complete-block designs, with three replications. Parthenocarpy and the resistance to PRSV-W were rated by means of a scale from 1 to 5, where 1 = non-parthenocarpic or high resistance to PRSV-W, and 5 = parthenocarpic or high susceptibility to PRSV-W. Both additive and non-additive gene effects were important in the expression of parthenocarpy and resistance to PRSV-W. Whereas estimates of heterosis in parthenocarpy usually tended towards a higher degree, resistance to PRSV-W was towards higher susceptibility. At least one F1 hybrid was identified with a satisfactory degree of parthenocarpy, resistance to PRSV-W and high fruit-yield.

Nucleotide bias of DCL and AGO in plant anti-virus gene silencing

Plant Dicer-like (DCL) and Argonaute (AGO) are the key enzymes involved in anti-virus post-transcriptional gene silencing (AV-PTGS). Here we show that AV-PTGS exhibited nucleotide preference by calculating a relative AV-PTGS efficiency on processing viral RNA substrates. In comparison with genome sequences of dicot-infecting Turnip mosaic virus (TuMV) and monocot-infecting Cocksfoot streak virus (CSV), viral-derived small interfering RNAs (vsiRNAs) displayed positive correlations between AV-PTGS efficiency and G+C content (GC%). Further investigations on nucleotide contents revealed that the vsiRNA populations had G-biases. This finding was further supported by our analyses of previously reported vsiRNA populations in diverse plant-virus associations, and AGO associated Arabidopsis endogenous siRNA populations, indicating that plant AGOs operated with G-preference. We further propose a hypothesis that AV-PTGS imposes selection pressure(s) on the evolution of plant viruses. This hypothesis was supported when potyvirus genomes were analysed for evidence of GC elimination, suggesting that plant virus evolution to have low GC% genomes would have a unique function, which is to reduce the host AV-PTGS attack during infections.

A study on the mechanism of copper-induced resistance to potato virus Y-vein necrosis strain (PVY(N)) in tobacco / 病毒学报

In order to reveal the induced resistance mechanism of tobacco treated with copper solution to potato virus Y-vein necrosis strain (PVY(N)), disease indexes, contents of virus and some physiological and biochemical indexes in tobacco were studied. The results showed that when treated at the copper concentration of 0.8 mg x L(-1), the symptom displayed and vein necrosis on tobacco were postponed, the disease index and content of virus sharply decreased , and the content of chlorophyll a, chlorophyll b and phenylalanine ammonia lyase (PAL) activity remarkably increased. Furthermore, vein necrosis closely linked to contents of total phenol and flavonoid. In this study, the contents of total phenol and flavonoid were promoted when treated with a solution at the copper concentration of 0.8 mg x L(-1). But the contents of total phenol and flavonoid reached to the first peak at the 3rd day after inoculation, and then decreased to the lowest levels which even were lower than those of the control after inoculating PVY(N). Then the contents of total phenol and flavonoid increased slowly from the 6td but still lower than those of the control. The result implied that spraying copper solution might play an important role in induced resistance of tobacco to vein necrosis disease and strengthen the antiviral capability to PVY(N).

Assembly of recombinant coat protein of sugarcane streak mosaic virus into potyvirus-like particles.

Coat protein (CP) gene of sugarcane streak mosaic virus-AP isolate (SCSMV-AP) was expressed in E. coli and recombinant CP (SCSMV-AP rCP) was purified by linear sucrose density gradient centrifugation. Observation of purified SCSMV-AP rCP under electron microscope revealed the presence of potyvirus-like particles (PVLPs). The assembled particles were shown to encapsidate CP gene transcripts by slot-blot hybridization.

Sequence analysis of the complete genome of papaya ringspot virus hainan isolate / 病毒学报

Total RNA was extracted from infected papaya (Carica papaya L.) leaves in Hainan Province, and the full-length sequences of papaya ringspot virus were amplified by RT-PCR and RACE, and its complete genomic sequence was assembled, named Hainan-P isolate. The RNA genome sequence of Hainan-P isolate was 10323 nucleotides (nts)in length,excluding the 3'-terminal poly(A) tail. And it was composed of a single open reading frame encoding a polyprotein of 3343 amino acids.. The result of homology analysis with twelve GenBank PRSV isolates showed that the polyprotein identity of Hainan-P ranged from 89. 8% to 93.2%, that was higher than the complete nt homology of 82.3% to 89.1%. The P1 amino acid was the least conserved (sharing homology only between 65.4% and 80.1%), whereas HC-Pro, CI and CP were the most conserved. Phylogenetic tree were constructed by the Neighbor-joining method in MEGA 3.1, which showed that PRSV isolates were obviously relevant to geographical origin, and it was impossible to delineate host-specific (P type and W type)evolution.

Localization of sweet potato chlorotic stunt virus (SPCSV) in synergic infection with potyviruses in sweet potato

Among diseases reported worldwidely for sweet potato (Ipomoea batatas (L) Lam) crop, one of the most frequent is the Sweet potato virus disease (SPVD), caused by sweet potato chlorotic stunt virus (SPCSV) and sweet potato feathery mottle virus (SPFMV) co-infection. In Argentina, there exists the sweet potato chlorotic dwarf (SPCD), a sweet potato disease caused by triple co-infection with SPCSV, SPFMV and sweet potato mild speckling virus (SPMSV). Both diseases cause a synergism between the potyviruses (SPFMV and SPMSV) and the crinivirus (SPCSV). Up to date, studies carried out on the interaction among these three viruses have not described their localization in the infected tissues. In single infections, virions of the crinivirus genus are limited to the phloem while potyviral virions are found in most tissues of the infected plant. The purpose of this work was to localize the heat shock protein 70 homolog (HSP70h), a movement protein for genus crinivirus, of an Argentinean SPCSV isolate in its single infection and in its double and triple co-infection with SPFMV and SPMSV. The localization was made by in situ hybridization (ISH) for electron microscopy (EM) on ultrathin sections of sweet potato cv. Morada INTA infected tissues. The results demonstrated that viral RNA coding HSP70h is restricted to phloem cells during crinivirus single infection, while it was detected outside the phloem in infections combined with the potyviruses involved in chlorotic dwarf disease.

Association of cucumovirus and potyvirus with betelvine (Piper betle L.) as evidenced by ELISA and RT-PCR.

An attempt was made to detect various viruses of Piper betle grown at Mahoba and Banthara in India. DAC-ELISA and RT-PCR tests were performed in leaf sap samples of betelvine for detection of a cucumovirus (Cucumber mosaic virus) and potyvirus (Bean yellow mosaic virus) using specific antibodies and universal primers of respective viruses. DAC-ELISA could detect only CMV. However, RT-PCR detected both cucumovirus and potyvirus infection in betelvine samples. Association of CMV with betelvine was observed for the first time in the present study.

Infectividade e proteção de três estirpes fracas do Papaya ringspot virus em plantas de melancia / Infectivity and protective effect of three mild strains of papaya ringspot virus in watermelon plants

Este trabalho teve como objetivo avaliar a infectividade de estirpes fracas do Papaya ringspot virus - type W (PRSV-W) em plantas de melancia (Citrullus lanatus), em função da origem da estirpe fraca, da concentração e da espécie doadora do inóculo e da idade da planta-teste de melancia, inoculada mecanicamente. Também foi avaliado o efeito protetor dessas estirpes em plantas de melancia em casa de vegetação e em campo. Uma estirpe fraca do vírus, denominada PRSV-W-3, foi selecionada de bolhas de folhas de melancia com mosaico. Em todos os testes de infectividade em plantas de melancia, independente da concentração e da planta fonte do inóculo e do estádio de desenvolvimento da planta-teste inoculada, a estirpe fraca PRSV-W-3 apresentou taxas de infectividade semelhantes as das estirpes PRSV-W-1 e PRSV-W-2, chegando a 100 por cento em alguns casos. A infectividade da estirpe severa PRSV-W-C foi de 100 por cento em todos os testes. Aparentemente, a infectividade das três estirpes fracas foi mais diretamente afetada pela intensidade de fricção das folhas no momento da inoculação mecânica do que pelas variáveis estudadas. A estirpe fraca PRSV-W-3 protegeu as plantas de melancia contra a infecção e/ou manifestação da estirpe PRSV-W-C em casa de vegetação. Em campo, todas as plantas de melancia premunizadas com as três estirpes fracas também ficaram protegidas contra a estirpe severa utilizada no desafio. A produção das plantas premunizadas não diferiu estatisticamente entre si, nem mesmo daquelas inicialmente sadias infectadas em campo. O conteúdo de açúcares e a aparência da polpa dos frutos também foram semelhantes em todos os tratamentos.

Response of nitrogen components of tomato plants to potato virus- Y infection

Changes in nitrogen components of leaves of susceptible [Lycopersicon esculentum cv. Moneymaker] and resistant [Lycopersicon pimpinellifolium L.] tomato species, at various intervals post- inoculation with Yo group [common strain of potato virus Y [PVY]] were recorded. In susceptible tomato species, virus infection lowered the total nitrogen content as a result of decreased amino peptide, nitrate and total nitrogen components. The maximum decrease was recorded after 28 days post-inoculation. The remaining components were not affected by the infection, but the insoluble nitrogen increased, reaching maximum at 14 and 21 days post-inoculation. In resistant tomato species, virus infection stimulated total nitrogen accumulation as a result of increased peptide, nitrite and insoluble nitrogen contents. The effect was most pronounced at 14 days post- inoculation. The other components were less than in the control. The drop reached its maximum after 7, 21 and 28 days post-inoculation

Nitrogenous components in healthy and potato virus Y-infected solanum and pepper leaves

Solanum nigrum var. judaicum and Capsicum annum cv. California wonder plants at the 4-6 and 5-7 leaf stage, respectively, were artificially infected with potato virus Y, then examined at 5, 10, 15, 20 and 40 days postinfection. Considerable differences were observed in the concentration of the various nitrogenous components of the two hosts. Investigations showed that solanum leaves affected by PVY had a higher total nitrogen content than the leaves of the healthy plants as a result of increasing amino acids, ammonia, amide, total soluble nitrogen and total insoluble protein content. PVY lowered total nitrogen content compared with healthy leaves resulting from a drop in all nitrogenous components, but amide and total insoluble proteins increased