Efeitos da interação de potyvirus em híbridos de meloeiro, variedades de melancia e abobrinha

Em razão da freqüente ocorrência de infecção mista, na natureza, o presente trabalho objetivou estudar o efeito da interação de diferentes espécies de potyvírus em meloeiro (Cucumis melo), melancia (Citrullus lanatus) e abobrinha (Cucurbita pepo). Foram usados os seguintes vírus da família Potyviridae, gênero Potyvirus: Papaya ringspot virus (PRSV); Watermelon mosaic virus, (WMV) e Zucchini yellow mosaic virus, (ZYMV). Os efeitos na sintomatologia das infecções duplas e simples de PRSV, WMV e ZYMV foram avaliados em três híbridos de meloeiro, duas variedades de melancia e abobrinha 'Caserta', em experimentos de casa de vegetação. Os três vírus, isoladamente ou em todas as duplas combinações possíveis, foram inoculados, em plantas dos híbridos de meloeiro Hy Mark, Gold Mine e Orange Flesh, variedades de melancia Crimson Sweet e Charleston Gray e abobrinha 'Caserta', usando-se dez plantas de cada híbrido ou variedade, por combinação de vírus. As inoculações foram efetuadas por meio de extratos de folhas com infecção simples dos respectivos vírus. As plantas inoculadas com cada vírus isoladamente e suas respectivas combinações foram observadas quanto ao aparecimento de sintomas durante 30 dias após as inoculações. Amostras foliares das plantas inoculadas foram, também, testadas por ELISA indireto contra os anti-soros correspondentes para cada vírus. As infecções duplas em meloeiro, melancia e abobrinha revelaram, através da avaliação sintomatológica, que existem interações sinérgicas entre PRSV, WMV e ZYMV. As infecções duplas envolvendo o ZYMV apresentaram alta severidade, exibindo sintomas não encontrados em infecções simples, apesar da severidade nas infecções isoladas do ZYMV.

Identificação sorológica de espécies de potyvirus em melancia, no estado de Roraima

No período de maio de 2003 a março de 2004, foram coletadas amostras foliares de plantas de melancia (Citrullus lanatus) de 21 campos de cultivo de cucurbitáceas, no Estado de Roraima. As amostras exibiam diferentes sintomas de vírus e foram levadas para o Laboratório de Virologia Vegetal da Universidade Federal do Ceará para serem testadas por "enzyme linked immunosorbent assay" (Elisa)-indireto, contra anti-soros específicos para Cucumber mosaic virus (CMV), Papaya ringspot virus estirpe melancia (PRSV-W), Watermelon mosaic virus (WMV) e Zucchini yellow mosaic virus (ZYMV). Nos testes de Elisa, utilizou-se o conjugado universal, anti-imunoglobulina (IgG) de coelho produzida em cabra conjugada à enzima fosfatase alcalina. Todas as amostras foram testadas, também, por dupla difusão contra o anti-soro para Squash mosaic virus (SqMV). Os resultados indicaram a presença do PRSV-W em 84,2% das amostras coletadas em maio de 2003, em 7,1% das amostras coletadas em dezembro de 2003 e em 55,6% das amostras coletadas em março de 2004. A presença do ZYMV foi observada em 10,5% das amostras coletadas em maio de 2003, 21,4% das amostras coletadas em dezembro de 2003 e em 25,9% das amostras de março de 2004. O WMV foi detectado somente em oito das amostras coletadas em março de 2004 (29,6%). Os resultados desta pesquisa confirmam a ampla dispersão do PRSV-W em cultivos de cucurbitáceas no território brasileiro e a preocupante expansão do ZYMV em razão dos elevados prejuízos que o mesmo tem causado em outras partes do mundo.

Seleção de acessos e progênies de Citrullus spp. para resistência a três potyvirus

Visando selecionar acessos e progênies de melancia (Citrullus spp.) como fontes de resistência aos potyvirus: Papaya ringspot virus tipo watermelon (PRSV-W), Watermelon mosaic virus (WMV) e Zucchini yellow mosaic virus (ZYMV), oito genótipos foram avaliados, sendo seis dos acessos (87-019, 87-029, 91-080, PI-244018, 91-043 e PI-195927) e dois do acesso PI-244019 (PI-244019A e PI-244019B) do Banco Ativo de Germoplasma (BAG) de cucurbitáceas do Nordeste brasileiro, da Embrapa Semi-Árido em Petrolina-PE. Também foram avaliadas progênies endogâmicas e de polinização livre derivadas desses acessos. As avaliações foram realizadas em de casa de vegetação, mediante inoculações mecânicas, e avaliação por Elisa, no Laboratório de Virologia Vegetal da UFC. As plantas não infetadas foram selecionadas e cultivadas na Estação Experimental de Bebedouro na Embrapa Semi-Árido em Petrolina-PE, onde ocorreram inoculações naturais de vírus por vetores. Foram constatadas plantas não infetadas com o PRSV-W nos acessos 87-019, PI-244019A, 91-080, PI-244018, PI-244019B e PI-195927; plantas não infetadas com o WMV nos acessos 87-019 e 87-029 e plantas não infetadas com o ZYMV nos acessos PI-244019A, 87-029, 91-080, 91-043, PI-244019B e PI-195927. As progênies apresentaram comportamento diferenciado, com percentagem de plantas selecionadas variando de 20 a 100% nas progênies avaliadas para resistência a PRSV-W e 60 a 100% nas progênies avaliadas para resistência a WMV. Nenhuma das progênies testadas apresentou resistência ao ZYMV, evidenciando possível diferença entre a resistência ao PRSV-W e ao WMV apresentada nas progênies e a resistência apresentada ao ZYMV, visto que as progênies foram submetidas ao mesmo número de autofecundações.

Genome-Wide Analysis of Differentially Expressed Genes During the Early Stages of Tomato Infection by a Potyvirus

Plant responses against pathogens cause up-and downward shifts in gene expression. To identify differentially expressed genes in a plant-virus interaction, susceptible tomato plants were inoculated with the potyvirus Pepper yellow mosaic virus (PepYMV) and a subtractive library was constructed from inoculated leaves at 72 h after inoculation. Several genes were identified as upregulated, including genes involved in plant defense responses (e. g., pathogenesis-related protein 5), regulation of the cell cycle (e. g., cytokinin-repressed proteins), signal transduction (e. g., CAX-interacting protein 4, SNF1 kinase), transcriptional regulators (e. g., WRKY and SCARECROW transcription factors), stress response proteins (e. g., Hsp90, DNA-J, 20S proteasome alpha subunit B, translationally controlled tumor protein), ubiquitins (e. g., polyubiquitin, ubiquitin activating enzyme 2), among others. Downregulated genes were also identified, which likewise display identity with genes involved in several metabolic pathways. Differential expression of selected genes was validated by macroarray analysis and quantitative real-time polymerase chain reaction. The possible roles played by some of these genes in the viral infection cycle are discussed.

The 20S proteasome alpha(5) subunit of Arabidopsis thaliana carries an RNase activity and interacts in planta with the Lettuce mosaic potyvirus HcPro protein

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

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 Sdo 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.

Molecular characterisation and evolutionary relationships of a potyvirus infecting Crotalaria in Brazil - Brief report

The 3' terminal genomic region of a potyvirus causing mosaic disease in several Crotalaria species has been cloned and sequenced. Comparisons of the nucleotide and deduced amino acid (aa) sequences of the cloned cDNA with those from other potyviruses show that the Crotalaria-infecting virus (designated Crotalaria mosaic virus; CrMV) is closely related to Cowpea aphid-borne mosaic virus (CABMV). Maximum identity (95.4%) at the coat protein (CP) aa level was observed between CrMV and a Brazilian strain of CABMV. Phylogenetic analyses derived from the sequence alignments of the CP and 3' untranslated region confirmed the identification of CrMV as a strain of CABMV and the name CABMV-Cr is suggested.

Variabilidade de potyvirus infectando Capsicum spp. no estado de São Paulo

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Potyvirus: caracterização parcial de espécies em plantas daninhas associadas a cultura do pimentão, avaliação de genótipos de alface e análise subcelular do eIF4E e de proteínas do Lettuce mosaic virus

Pós-graduação em Agronomia (Proteção de Plantas) - FCA

Biological and molecular characterisation of Bidens mosaic virus supports its assignment as a member of a distinct species in the genus Potyvirus

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Caracterización de la necrosis sistémica inducida por la interacción sinérgica entre el Virus X de la patata y potyvirus en Nicotiana benthamiana

Los virus de plantas pueden causar enfermedades severas que conllevan serias pérdidas económicas a nivel mundial. Además, en la naturaleza son comunes las infecciones simultáneas con distintos virus que conducen a la exacerbación de los síntomas de enfermedad, fenómeno al que se conoce como sinergismo viral. Una de las sintomatologías más severas causadas por los virus en plantas susceptibles es la necrosis sistémica (NS), que incluso puede conducir a la muerte del huésped. Este fenotipo ha sido comparado en ocasiones con la respuesta de resistencia de tipo HR, permitiendo establecer una serie de paralelismos entre ambos tipos de respuesta que sugieren que la NS producida en interacciones compatibles sería el resultado de una respuesta hipersensible sistémica (SHR). Sin embargo, los mecanismos moleculares implicados en el desarrollo de la NS, su relación con procesos de defensa antiviral o su relevancia biológica aún no son bien entendidos, al igual que tampoco han sido estudiados los cambios producidos en la planta a escala genómica en infecciones múltiples que muestran sinergismo en patología. En esta tesis doctoral se han empleado distintas aproximaciones de análisis de expresión génica, junto con otras técnicas genéticas y bioquímicas, en el sistema modelo de Nicotiana benthamiana para estudiar la NS producida por la infección sinérgica entre el Virus X de la patata (PVX) y diversos potyvirus. Se han comparado los cambios producidos en el huésped a nivel genómico y fisiológico entre la infección doble con PVX y el Virus Y de la patata (PVY), y las infecciones simples con PVX o PVY. Además, los cambios transcriptómicos y hormonales asociados a la infección con la quimera viral PVX/HC‐Pro, que reproduce los síntomas del sinergismo entre PVX‐potyvirus, se han comparado con aquellos producidos por otros dos tipos de muerte celular, la PCD ligada a una interacción incompatible y la PCD producida por la disfunción del proteasoma. Por último, técnicas de genética reversa han permitido conocer la implicación de factores del huésped, como las oxilipinas, en el desarrollo de la NS asociada al sinergismo entre PVXpotyvirus. Los resultados revelan que, respecto a las infecciones con solo uno de los virus, la infección doble con PVX‐PVY produce en el huésped diferencias cualitativas además de cuantitativas en el perfil transcriptómico relacionado con el metabolismo primario. Otros cambios en la expresión génica, que reflejan la activación de mecanismos de defensa, correlacionan con un fuerte estrés oxidativo en las plantas doblemente infectadas que no se detecta en las infecciones simples. Además, medidas en la acumulación de determinados miRNAs implicados en diversos procesos celulares muestran como la infección doble altera de manera diferencial tanto la acumulación de estos miRNAs como su funcionalidad, lo cual podría estar relacionado con los cambios en el transcriptoma, así como con la sintomatología de la infección. La comparación a nivel transcriptómico y hormonal entre la NS producida por PVX/HC‐Pro y la interacción incompatible del Virus del mosaico del tabaco en plantas que expresan el gen N de resistencia (SHR), muestra que la respuesta en la interacción compatible es similar a la que se produce durante la SHR, si bien se presenta de manera retardada en el tiempo. Sin embargo, los perfiles de expresión de genes de defensa y de respuesta a hormonas, así como la acumulación relativa de ácido salicílico (SA), ácido jasmonico (JA) y ácido abscísico, en la interacción compatible son más semejantes a la respuesta PCD producida por la disfunción del proteasoma que a la interacción incompatible. Estos datos sugieren una contribución de la interferencia sobre la funcionalidad del proteasoma en el incremento de la patogenicidad, observado en el sinergismo PVX‐potyvirus. Por último, los resultados obtenidos al disminuir la expresión de 9‐LOX, α‐DOX1 y COI1, relacionados con la síntesis o con la señalización de oxilipinas, y mediante la aplicación exógena de JA y SA, muestran la implicación del metabolismo de las oxilipinas en el desarrollo de la NS producida por la infección sinérgica entre PVXpotyvirus en N. benthamiana. Además, estos resultados indican que la PCD asociada a esta infección, al igual que ocurre en interacciones incompatibles, no contiene necesariamente la acumulación viral, lo cual indica que necrosis e inhibición de la multiplicación viral son procesos independientes. ABSTRACT Plant viruses cause severe diseases that lead to serious economic losses worldwide. Moreover, simultaneous infections with several viruses are common in nature leading to exacerbation of the disease symptoms. This phenomenon is known as viral synergism. Systemic necrosis (SN) is one of the most severe symptoms caused by plant viruses in susceptible plants, even leading to death of the host. This phenotype has been compared with the hypersensitive response (HR) displayed by resistant plants, and some parallelisms have been found between both responses, which suggest that SN induced by compatible interactions could be the result of a systemic hypersensitive response (SHR). However, the molecular mechanisms involved in the development of SN, its relationship with antiviral defence processes and its biological relevance are still unknown. Furthermore, the changes produced in plants by mixed infections that cause synergistic pathological effects have not been studied in a genome‐wide scale. In this doctoral thesis different approaches have been used to analyse gene expression, together with other genetic and biochemical techniques, in the model plant Nicotiana benthamiana, in order to study the SN produced by the synergistic infection of Potato virus X (PVX) with several potyviruses. Genomic and physiological changes produced in the host by double infection with PVX and Potato virus Y (PVY), and by single infection with PVX or PVY have been compared. In addition, transcriptional and hormonal changes associated with infection by the chimeric virus PVX/HC‐Pro, which produces synergistic symptoms similar to those caused by PVX‐potyvirus, have been compared with those produced by other types of cell death. These types of cell death are: PCD associated with an incompatible interaction, and PCD produced by proteasome disruption. Finally, reverse genetic techniques have revealed the involvement of host factors, such as oxylipins, in the development of SN associated with PVX‐potyvirus synergism. The results revealed that compared with single infections, double infection with PVX‐PVY produced qualitative and quantitative differences in the transcriptome profile, mainly related to primary metabolism. Other changes in gene expression, which reflected the activation of defence mechanisms, correlated with a severe oxidative stress in doubly infected plants that was undetected in single infections. Additionally, accumulation levels of several miRNAs involved in different cellular processes were measured, and the results showed that double infection not only produced the greatest variations in miRNA accumulation levels but also in miRNA functionality. These variations could be related with transcriptomic changes and the symptomatology of the infection. Transcriptome and hormone level comparisons between SN induced by PVX/HCPro and the incompatible interaction produced by Tobacco mosaic virus in plants expressing the N resistance gene (SHR), showed some similarities between both responses, even though the compatible interaction appeared retarded in time. Nevertheless, the expression profiles of both defence‐related genes and hormoneresponsive genes, as well as the relative accumulation of salicylic acid (SA), jasmonic acid (JA) and abscisic acid in the compatible interaction are more similar to the PCD response produced by proteasome disruption. These data suggest that interference with proteasome functionality contributes to the increase in pathogenicity associated with PVX‐potyvirus synergism. Finally, the results obtained by reducing the expression of 9‐LOX, α‐DOX1 and COI1, related with synthesis or signalling of oxylipins, and by applying exogenously JA and SA, revealed that oxylipin metabolism is involved in the development of SN induced by PVX‐potyvirus synergistic infections in N. benthamiana. Moreover, these results also indicated that PVX‐potyvirus associated PCD does not necessarily restrict viral accumulation, as is also the case in incompatible interactions. This indicates that both necrosis and inhibition of viral multiplication are independent processes.

Tobamovirus and Potyvirus Accumulation in Minor Veins of Inoculated Leaves from Representatives of the Solanaceae and Fabaceae1

Virus invasion of minor veins in inoculated leaves of a host is the likely prelude to systemic movement of the pathogen and to subsequent yield reduction and quality loss. In this study we have analyzed the cell number and arrangement in minor veins within mature leaves of various members of the Solanaceae and Fabaceae families. We then monitored the accumulation pattern of several tobamoviruses and potyviruses in these veins at the time of rapid, phloem-mediated movement of viruses. Vascular parenchyma cells were the predominant and sometimes only cells to become visibly infected among the cells surrounding the sieve elements in minor veins containing 9 to 12 cells. In no instance did we observe a companion cell infected without a vascular parenchyma cell also being infected in the same vein. This suggests that the viruses used in this study first enter the vascular parenchyma cells and then the companion cells during invasion. The lack of detectable infection of smooth-walled companion or transfer cells, respectively, from inoculated leaves of bean (Phaseolus vulgaris) and pea (Pisum sativum) during a period of known rapid, phloem-mediated movement suggests that some viruses may be able to circumvent these cells in establishing phloem-mediated infection. The cause of the barrier to virus accumulation in the companion or transfer cells, the relationship of this barrier to previously identified barriers for virus or photoassimilate transport, and the relevance of these findings to photoassimilate transport models are discussed.

Identification and effects of mixed infection of Potyvirus isolates with Cucumber mosaic virus in cucurbits.

Mixed infections in cucurbits are frequently observed in natural conditions between viruses from the Potyvirus genus and Cucumber mosaic virus (CMV), which significantly decreases productivity. The objectives of the present study was to compare the host range of PRSV-W, WMV, and ZYMV isolates and evaluate the effects of mixed infections with CMV in zucchini plants (Cucurbita pepo L.). Host range studies comprising 23 plant species confirmed some similarities and biological differences among the isolates of PRSV-W, ZYMV, and WMV. RT-PCR confirmed the amplification of DNA fragments of the PRSV-W, WMV, and ZYMV coat protein gene (cp) and cytoplasm inclusion gene (ci). The virus interaction studies in zucchini Caserta plants indicated synergistic interactions, particularly among species from the Potyvirus genus, and some CMV interference with some virus combinations.

Potyvirus causando mosaico em plantas daninhas nas culturas do milho e do sorgo.

2016