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ABSTRACT Yellow passion fruit crop is affected by multiple phytosanitary problems. Among the main ones are viruses of the genera Potyvirus (soybean mosaic virus, SMV), Cucumovirus (cucumber mosaic virus, CMV), Tymovirus (tymovirus passiflorae, PYMV) and Begomovirus (passionfruit leaf distortion virus, PLDV). Information about the prevalence and interaction between these viruses is scarce. The objective of this study was to verify the prevalence and identify the types of mixed viral infections of potyvirus, cucumovirus, tymovirus, and begomovirus in passion fruit crops in Valle del Cauca, Colombia. Passion fruit leaf samples with symptoms were collected and their nucleic acids were purified. Virus identification was performed by PCR using universal primers by viral genus, and specific primers for the SMV, CMV, PFYMV and PLDV viruses. The incidence of each virus by municipality was analyzed and the severity of the symptoms was compared with the diagnosis made. In total, 66 samples were collected in the municipalities of Toro, Dagua, Roldanillo, Bolívar, La Unión and El Cerrito. It was established that the most prevalent viruses are PLDV followed by SMV and CMV. The presence of PYMV was not detected in the samples analyzed. The presence of double and triple infections among potyvirus, cucumovirus and begomovirus were identified for the first time, finding greater severity of symptoms with a greater number of viruses identified per sample. This research provides key results for the design of control strategies for viral diseases in passion fruit.
RESUMEN El cultivo de maracuyá amarillo es afectado por múltiples problemas fitosanitarios. Entre los principales, están los virus de los géneros Potyvirus (soybean mosaic virus, SMV), Cucumovirus (cucumber mosaic virus, CMV), Tymovirus (passion fruit yellow mosaic virus, PFYMV) y Begomovirus (passionfruit leaf distortion virus, PLDV). Información acerca de la prevalencia e interacción entre estos virus es escasa. El objetivo del presente estudio fue verificar la prevalencia e identificar los tipos de infecciones virales mixtas de potyvirus, cucumovirus, tymovirus y begomovirus en cultivos de maracuyá en Valle del Cauca, Colombia. Muestras foliares de maracuyá con síntomas virales fueron recolectadas y se purificaron sus ácidos nucleicos. La identificación de los virus se realizó por PCR empleando cebadores universales por género viral, y cebadores específicos para los virus SMV, CMV, PFYMV y PLDV. Se analizó la incidencia de cada virus por municipio y se comparó la severidad de los síntomas con el diagnóstico realizado. En total se colectaron 66 muestras en los municipios de Toro, Dagua, Roldanillo, Bolívar, La Unión y El Cerrito. Se estableció que los virus con mayor prevalencia fueron PLDV, seguido por SMV y CMV. No se detectó la presencia de PFYMV en las muestras analizadas. Se identificó por primera vez la presencia de infecciones dobles y triples entre potyvirus, cucumovirus y begomovirus, encontrándose mayor severidad de síntomas a mayor número de virus identificado por muestra. La presente investigación provee resultados clave para el diseño de estrategias de control de enfermedades virales en maracuyá.
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Ophioviruses (genus Ophiovirus, family Aspiviridae) are plant-infecting viruses with non-enveloped, filamentous, naked nucleocapsid virions. Members of the genus Ophiovirus have a segmented single-stranded negative-sense RNA genome (ca. 11.3-12.5 kb), encompassing three or four linear segments. In total, these segments encode four to seven proteins in the sense and antisense orientation, both in the viral and complementary strands. The genus Ophiovirus includes seven species with viruses infecting both monocots and dicots, mostly trees, shrubs and some ornamentals. From a genomic perspective, as of today, there are complete genomes available for only four species. Here, by exploring large publicly available metatranscriptomics datasets, we report the identification and molecular characterization of 33 novel viruses with genetic and evolutionary cues of ophioviruses. Genetic distance and evolutionary insights suggest that all the detected viruses could correspond to members of novel species, which expand the current diversity of ophioviruses ca. 4.5-fold. The detected viruses increase the tentative host range of ophioviruses for the first time to mosses, liverwort and ferns. In addition, the viruses were linked to several Asteraceae, Orchidaceae and Poaceae crops/ornamental plants. Phylogenetic analyses showed a novel clade of mosses, liverworts and fern ophioviruses, characterized by long branches, suggesting that there is still plenty of unsampled hidden diversity within the genus. This study represents a significant expansion of the genomics of ophioviruses, opening the door to future works on the molecular and evolutionary peculiarity of this virus genus.
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Vírus de Plantas , Vírus de RNA , Filogenia , Vírus de RNA/genética , Plantas/genética , Vírion , Vírus de Plantas/genética , Genoma ViralRESUMO
La papa (Solanum tuberosum) Diacol Capiro es uno de los cultivares con mayor producción y consumo interno en Colombia, siendo los departamentos de Cundinamarca y Boyacá, los principales productores. Este cultivo, se ve afectado por un complejo de virus, que disminuye la calidad de los tubérculos y los rendimientos. En este trabajo, se evaluó la prevalencia de los virus de ARN: PLRV, PVY, PVX, PVS, PVV, PYVV, PMTV y PVB, en brotes de tubérculos-semilla certificados, provenientes de la sabana Cundiboyacense, mediante RT-qPCR. Los resultados revelan la ocurrencia de siete de los ochos virus en las muestras, con niveles de infección de 100 % (PVS, PVX y PYVV), 75 % (PLRV), 50 % (PVY), 37,5 % (PMTV) y 12,5 % (PVB). Adicionalmente, con el fin de obtener información de los genomas de los virus detectados, se utilizó secuenciación de alto rendimiento (HTS), de una muestra compuesta (bulk) de brotes, siendo posible obtener el genoma completo del PLRV y el genoma parcial del PVY. Los análisis filogenéticos realizados con dichas secuencias ubicaron a los virus PLRV y PVY en clados, conformados por aislamientos colombianos, con niveles de identidad superiores al 97 %. Estos hallazgos evidencian la necesidad de fortalecer los programas de certificación de tubérculos-semilla de papa en el país, mediante la utilización de pruebas moleculares de detección viral.
Diacol-Capiro is one of the most important potato (Solanum tuberosum) cultivars in Colombia with most production concentrated in the provinces of Cundinamarca and Boyacá. Unfortunately, this crop is seriously affected by several viruses that compromise the quality of tubers and yields. In this work, it was evaluated the prevalence of the RNA viruses: PLRV, PVY, PVX, PVS, PVV, PYVV, PMTV, and PVB in certified tuber-seed sprouts produced in the highlands of Cundinamarca and Boyacá by RT-qPCR. Results revealed a prevalence of 100 % for PVS, PVX, and PYVV; 75 % for PLRV, 50 % for PVY, 37.5 % for PMTV, and 12.5 % for PVB. Additionally, high-throughput sequencing from a sprout´s bulk sample was used to gather genomic information of infecting viruses, which resulted in a partial PVY sequence, and a complete PLRV genome. Phylogenetic analysis revealed that both assemblies cluster within clades comprising other Colombian isolates with more than 97 % nucleotide sequence identity. These findings highlight the need to update potato seed-tuber certification programs in Colombia with the implementation of more sensitive molecular tests.
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The ubiquitin-proteasome system (UPS) is crucial in maintaining cellular physiological balance. The UPS performs quality control and degrades proteins that have already fulfilled their regulatory purpose. The UPS is essential for cellular and organic homeostasis, and its functions regulate DNA repair, gene transcription, protein activation, and receptor trafficking. Besides that, the UPS protects cellular immunity and acts on the host's defense system. In order to produce successful infections, viruses frequently need to manipulate the UPS to maintain the proper level of viral proteins and hijack defense mechanisms. This review highlights and updates the mechanisms and strategies used by plant viruses to subvert the defenses of their hosts. Proteins involved in these mechanisms are important clues for biotechnological approaches in viral resistance.
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Recently, deep-learning techniques have become the foundations for many breakthroughs in the automated identification of plant diseases. In the agricultural sector, many recent visual-computer approaches use deep-learning models. In this approach, a novel predictive analytics methodology to identify Tobacco Mosaic Virus (TMV) and Pepper Huasteco Yellow Vein Virus (PHYVV) visual symptoms on Jalapeño pepper (Capsicum annuum L.) leaves by using image-processing and deep-learning classification models is presented. The proposed image-processing approach is based on the utilization of Normalized Red-Blue Vegetation Index (NRBVI) and Normalized Green-Blue Vegetation Index (NGBVI) as new RGB-based vegetation indices, and its subsequent Jet pallet colored version NRBVI-Jet NGBVI-Jet as pre-processing algorithms. Furthermore, four standard pre-trained deep-learning architectures, Visual Geometry Group-16 (VGG-16), Xception, Inception v3, and MobileNet v2, were implemented for classification purposes. The objective of this methodology was to find the most accurate combination of vegetation index pre-processing algorithms and pre-trained deep- learning classification models. Transfer learning was applied to fine tune the pre-trained deep- learning models and data augmentation was also applied to prevent the models from overfitting. The performance of the models was evaluated using Top-1 accuracy, precision, recall, and F1-score using test data. The results showed that the best model was an Xception-based model that uses the NGBVI dataset. This model reached an average Top-1 test accuracy of 98.3%. A complete analysis of the different vegetation index representations using models based on deep-learning architectures is presented along with the study of the learning curves of these deep-learning models during the training phase.
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Squash mosaic virus (SqMV) is a phytovirus that infects great diversity of plants worldwide. In Brazil, the SqMV has been identified in the states of Ceará, Maranhão, Piauí, Rio Grande do Norte, and Tocantins. The presence of non-pathogenic viruses in animals, such as phytoviruses, may not be completely risk-free. Similarities in gene repertories between these viruses and viruses that affect animal species have been reported. The present study describes the fully sequenced genomes of SqMV found in human feces, collected in Tocantins, and analyzes the viral profile by metagenomics in the context of diarrhea symptomatology. The complete SqMV genome was obtained in 39 of 253 analyzed samples (15.5%); 97.4% of them belonged to children under 5 years old. There was no evidence that the observed symptoms were related to the presence of SqMV. Of the different virus species detected in these fecal samples, at least 4 (rotavirus, sapovirus, norovirus, parechovirus) are widely known to cause gastrointestinal symptoms. The presence of SqMV nucleic acid in fecal samples is likely due to recent dietary consumption and it is not evidence of viral replication in the human intestinal cells. Identifying the presence of SqMV in human feces and characterization of its genome is a relevant precursor to determining whether and how plant viruses interact with host cells or microorganisms in the human gastrointestinal tract.
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BACKGROUND: Piercing/sucking insect pests in the order Hemiptera causes substantial crop losses by removing photoassimilates and transmitting viruses to their host plants. Cloning and heterologous expression of plantderived insect resistance genes is a promising approach to control aphids and other sap-sucking insect pests. While expression from the constitutive 35S promoter provides broad protection, the phloem-specific rolC promoter provides better defense against sap sucking insects. The selection of plant-derived insect resistance genes for expression in crop species will minimize bio-safety concerns. RESULTS: Pinellia ternata leaf agglutinin gene (pta), encodes an insecticidal lectin, was isolated and cloned under the 35S and rolC promoters in the pGA482 plant transformation vector for Agrobacterium-mediated tobacco transformation. Integration and expression of the transgene was validated by Southern blotting and qRT-PCR, respectively. Insect bioassays data of transgenic tobacco plants showed that expression of pta under rolC promoter caused 100% aphid mortality and reduced aphid fecundity up to 70% in transgenic tobacco line LRP9. These results highlight the better effectivity of pta under rolC promoter to control phloem feeders, aphids. CONCLUSIONS: These findings suggested the potential of PTA against aphids and other sap sucking insect pests. Evaluation of gene in tobacco under two different promoters; 35S constitutive promoter and rolC phloemspecific promoter could be successfully use for other crop plants particularly in cotton. Development of transgenic cotton plants using plant-derived insecticidal, PTA, would be key step towards commercialization of environmentally safe insect-resistant crops.
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Afídeos/patogenicidade , Controle Biológico de Vetores , Pinellia/química , Vírus de Plantas , Nicotiana , Southern Blotting , Reação em Cadeia da Polimerase , Regiões Promotoras Genéticas , Plantas Geneticamente Modificadas , Folhas de Planta/química , Transgenes , Resistência à Doença , Proteção de CultivosRESUMO
The study of complex ecological interactions, such as those among host, pathogen, and vector communities, can help to explain host ranges and the emergence of novel pathogens. We evaluated the viromes of papaya orchards, including weed and insect viromes, to identify common viruses in intensive production of papaya in the Pacific Coastal Plain and the Central Depression of Chiapas, Mexico. Samples of papaya cultivar Maradol, susceptible to papaya ringspot virus (PRSV), were categorized by symptoms by local farmers (papaya ringspot symptoms, non-PRSV symptoms, or asymptomatic). These analyses revealed the presence of 61 viruses, where only 4 species were shared among both regions, 16 showed homology to known viruses, and 36 were homologous with genera including Potyvirus, Comovirus, and Tombusvirus (RNA viruses) and Begomovirus and Mastrevirus (DNA viruses). We analyzed the network of associations between viruses and host-location combinations, revealing ecological properties of the network, such as an asymmetric nested pattern, and compared the observed network to null models of network association. Understanding the network structure informs management strategies, for example, revealing the potential role of PRSV in asymptomatic papaya and that weeds may be an important pathogen reservoir. We identify three key management implications: (i) each region may need a customized management strategy; (ii) visual assessment of papaya may be insufficient for PRSV, requiring diagnostic assays; and (iii) weed control within orchards may reduce the risk of virus spread to papaya. Network analysis advances understanding of host-pathogen interactions in the agroecological landscape.IMPORTANCE Virus-virus interactions in plants can modify host symptoms. As a result, disease management strategies may be unsuccessful if they are based solely on visual assessment and diagnostic assays for known individual viruses. Papaya ringspot virus is an important limiting factor for papaya production and likely has interactions with other viruses that are not yet known. Using high-throughput sequencing, we recovered known and novel RNA and DNA viruses from papaya orchards in Chiapas, Mexico, and categorized them by host and, in the case of papaya, symptom type: asymptomatic papaya, papaya with ringspot virus symptoms, papaya with nonringspot symptoms, weeds, and insects. Using network analysis, we demonstrated virus associations within and among host types and described the ecological community patterns. Recovery of viruses from weeds and asymptomatic papaya suggests the need for additional management attention. These analyses contribute to the understanding of the community structure of viruses in the agroecological landscape.
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The nearly complete genome sequences of two Cucumis melo endornavirus (CmEV) strains were obtained using deep sequencing while investigating fecal samples for the presence of gastroenteritis viruses. The Brazilian CmEV BRA/TO-23 (aa positions 116-5027) and BRA/TO-74 (aa positions 26-5057) strains were nearly identical to the reference CmEV CL-01 (USA) and SJ1 (South Korea) strains, showing 97% and 98% of nucleotide and amino acid identity, respectively. Endornaviruses are not known to be associated with human disease and their presence may simply reflect recent dietary consumption. Metagenomic analyses offered an opportunity to identify for the first time in Brazil a newly described endornavirus species.
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Cucumis melo/virologia , Genoma Viral/genética , Doenças das Plantas/genética , Vírus de RNA/genética , Brasil , Humanos , Metagenômica , Anotação de Sequência Molecular , Filogenia , Doenças das Plantas/virologia , Vírus de RNA/patogenicidade , Análise de Sequência de DNARESUMO
Insect-borne plant viruses usually alter the interactions between host plant and insect vector in ways conducive to their transmission ('host manipulation hypothesis'). Most studies have tested this hypothesis with persistently and non-persistently transmitted viruses, while few have examined semi-persistently transmitted viruses. The crinivirus Tomato chlorosis virus (ToCV) is semi-persistently transmitted virus by whiteflies, and has been recently reported infecting potato plants in Brazil, where Bemisia tabaci Middle East Asia Minor 1 (MEAM1) is a competent vector. We investigated how ToCV infection modifies the interaction between potato plants and B. tabaci in ways that increase the likelihood of ToCV transmission, in two clones, one susceptible ('Agata') and the other moderately resistant (Bach-4) to B. tabaci. Whiteflies alighted and laid more eggs on ToCV-infected plants than mock-inoculated plants of Bach-4. When non-viruliferous whiteflies were released on ToCV-infected plants near mock-inoculated plants, adults moved more intensely towards non-infected plants than in the reverse condition for both clones. Feeding on ToCV-infected plants reduced egg-incubation period in both clones, but the egg-adult cycle was similar for whiteflies fed on ToCV-infected and mock-inoculated plants. Our results demonstrated that ToCV infection in potato plants alters B. tabaci behaviour and development in distinct ways depending on the host clone, with potential implications for ToCV spread.
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Crinivirus/fisiologia , Hemípteros/virologia , Doenças das Plantas/virologia , Animais , Comportamento Apetitivo , Hemípteros/crescimento & desenvolvimento , Hemípteros/fisiologia , Insetos Vetores/fisiologia , Insetos Vetores/virologia , Oviposição/fisiologia , Solanum tuberosum/parasitologia , Solanum tuberosum/virologiaRESUMO
RESUMEN Los potyvirus son uno de los grupos de virus más limitantes en los cultivos de papa (Solanum tuberosum y S. phureja) en el mundo, siendo PVY, PVV y PVA las especies más prevalentes. En este trabajo se evaluó la presencia de estos potyvirus en cuatro lotes de S. tuberosum cv. Diacol-Capiro y cuatro lotes de S. phureja cv. Criolla-Colombia ubicados en el oriente de Antioquia, analizando la cápside viral mediante RT-PCR/secuenciación Sanger y secuenciación de nueva generación (NGS) para S. tuberosum. Los resultados indicaron la ocurrencia de los potyvirus PVY y PVV en las muestras de S. tuberosum y S. phureja, respectivamente; siendo detectadas mediante cebadores específicos la presencia de tres diferentes cepas de PVY (PVYN, PVYNTN y PVY°) en la región de estudio. Este hallazgo fue confirmado por NGS, obteniendo las secuencias completas de los genomas de estas tres cepas, lo que representa el primer reporte de PVYO en Colombia. Por su parte, los análisis de secuencias de la región CP de PVV indicaron niveles de identidad superiores a 99% con respecto a aislamientos del linaje PVVPhu reportado previamente en Antioquia. Estos hallazgos evidencian la necesidad de ajustar los sistemas de detección de virus en los programas de certificación de tubérculo-semilla de papa adelantados en el país.
ABSTRACT Potyviruses are one of the most limiting viruses for the potato (Solanum tuberosum and S. phureja) production worldwide, being PVY, PVV and PVA the most prevalent species. In this work, we tested the presence of these viruses in four commercial S. tuberosum cv. Diacol-Capiro and S. phureja cv. Criolla-Colombia plots in eastern Antioquia using RT-PCR and Sanger sequencing of the coat protein (CP) region, as well as next generation sequencing (NGS) for S. tuberosum samples. Our results revealed the presence of a PVV strain infecting S. phureja with high sequence identity (>99%) to lineage PVVPhu previously reported in Antioquia. Three strains of PVY (PVYN, PVYNTN and PVY°) were found to infect S. tuberosum. The presence of these three PVY strains was confirmed by NGS, allowing the assembly of their complete genomes. This is the first report of the full genome sequence of PVYo strain in Colombia. These findings highlight the need to adjust the tuber-seed certification programs currently implemented in the country.
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Citrus sudden death (CSD) has caused the death of approximately four million orange trees in a very important citrus region in Brazil. Although its etiology is still not completely clear, symptoms and distribution of affected plants indicate a viral disease. In a search for viruses associated with CSD, we have performed a comparative high-throughput sequencing analysis of the transcriptome and small RNAs from CSD-symptomatic and -asymptomatic plants using the Illumina platform. The data revealed mixed infections that included Citrus tristeza virus (CTV) as the most predominant virus, followed by the Citrus sudden death-associated virus (CSDaV), Citrus endogenous pararetrovirus (CitPRV) and two putative novel viruses tentatively named Citrus jingmen-like virus (CJLV), and Citrus virga-like virus (CVLV). The deep sequencing analyses were sensitive enough to differentiate two genotypes of both viruses previously associated with CSD-affected plants: CTV and CSDaV. Our data also showed a putative association of the CSD-symptomatic plants with a specific CSDaV genotype and a likely association with CitPRV as well, whereas the two putative novel viruses showed to be more associated with CSD-asymptomatic plants. This is the first high-throughput sequencing-based study of the viral sequences present in CSD-affected citrus plants, and generated valuable information for further CSD studies.
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Citrus/virologia , Coinfecção/virologia , Doenças das Plantas/virologia , Vírus de Plantas/genética , Vírus de Plantas/isolamento & purificação , RNA de Plantas/química , RNA de Plantas/genética , Brasil , Perfilação da Expressão Gênica , Sequenciamento de Nucleotídeos em Larga Escala , Vírus de Plantas/classificação , Pequeno RNA não Traduzido/química , Pequeno RNA não Traduzido/genética , RNA Viral/química , RNA Viral/genéticaRESUMO
Viral diseases of plants cause important economic losses due to reduction in crop quality and quantity to the point of threatening food security in some countries. Given the reduced availability of natural sources, genetic resistance to viruses has been successfully engineered for some plant-virus combinations. A sound understanding of the basic mechanisms governing plant-virus interactions, including antiviral RNA silencing, is the foundation to design better management strategies and biotechnological approaches to engineer and implement antiviral resistance in plants. In this review, we present current molecular models to explain antiviral RNA silencing and its application in basic plant research, biotechnology and genetic engineering.
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Objetivou-se com esse trabalho avaliar o efeito de extratos foliares de primavera (Bougainvillea spetabilis L.) e maravilha (Mirabilis jalapa L.) e de Trichoderma spp., isoladamente ou em combinação, no manejo de viroses e na produção de alface. Os ensaios foram conduzidos em área de produção de hortaliças folhosas no município de Pinhalzinho/SP. O delineamento experimental foi de blocos casualizados, com dez tratamentos comparados com controle químico convencional. Foram observadas reduções de 18 por cento e 32 por cento na população de bactérias da rizosfera nas plantas de alface tratadas com o isolado IB18/22 e extrato de primavera + isolados de Trichoderma spp., respectivamente. Verificou-se que o extrato de maravilha estimulou o aumento do número de UFC/g da população de fungos. Entretanto, não houve diferença significativa na massa fresca da parte aérea e, apesar da pressão de inóculo e da alta densidade populacional de insetos vetores de vírus no local, não foi constatada a ocorrência de viroses, com exceção do espessamento de nervuras, que ocorreu em menor número em plantas tratadas, comparadas as do controle. Economicamente, houve 27,8 por cento de lucratividade e margem bruta de 38,5 por cento, indicando a viabilidade do uso de ferramentas de base ecológica no cultivo de alface. Além disso, os produtos usados são de fácil aquisição, seguros em termos de aplicação, meio ambiente e para o consumidor.
The aim of the work was to evaluate the effect of leaf extracts of bougainvillea (Bougainvillea spetabilis L.) and of four o'clock flowers (Mirabilis jalapa L.) plants and Trichoderma spp., alone or in combination, on viruses management and lettuce production. The tests were conducted in a producing area in Pinhalzinho-SP. The experimental design was randomized blocks with ten treatments in comparison with conventional chemical control. Reductions of 18 percent and 32 percent in the bacterial population of the lettuce rhizosphere treated with IB18/22 isolate and bougainvillea extract + Trichoderma spp. isolates, respectivelly, were observed. Four o'clock plant leaf extract stimulated growth of CFU / g number of fungi population. However, no significant change in fresh mass and size of lettuce was observed, and despite the inoculum pressure and high population density of virus vector insects in place, the occurrence of viruses was not found, except for big-vein syndrome which was higher in control than in treated plants. Economically, 27.8 percent net profit and 38.5 percent gross profit margin were verified, indicating that the use of ecological tools in lettuce crops is feasible. Moreover, the products are easy to obtain, safe to apply and safe for environment and human consumption.
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Trichoderma/isolamento & purificação , Lactuca/crescimento & desenvolvimento , Nyctaginaceae/classificação , Mirabilis/classificação , Antivirais/administração & dosagem , Plantas Medicinais/classificação , Extratos Vegetais/análise , Controle Biológico de Vetores/métodosRESUMO
As viroses são um sério problema para a agricultura, podendo se tomar um fator limitante para o desenvolvimento de determinadas espécies. Medidas de controle, como a eliminação dos vetores, o uso de material sadio, a rotação de culturas e a erradicação de plantas infectadas são apenas soluções temporárias. A mais eficiente estratégia de controle envolve o uso de cultivares melhoradas para resistência ao vírus ou a seu vetor. A reduzida disponibilidade de fontes de resistência pode ser aumentada através da tecnologia do DNA recombinante, que traz novas perspectivas para o melhoramento de plantas resistentes a viroses.
Virus diseases are a serious problem to agricuiture, can be a limitant factor to normal development of some crops. Control measures, like vectors elimination, healthy material use, culture rotation and infected plants eradication, are only transient solutions. The more efficient approach for control involves plant breeding resistant to virus or its vector. Reduced availability of resistance source can be increased through recombinant DNA technology, which brings new breeding perspectives to virus resistant crops.
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Virus diseases are a serious problem to agricuiture, can be a limitant factor to normal development of some crops. Control measures, like vectors elimination, healthy material use, culture rotation and infected plants eradication, are only transient solutions. The more efficient approach for control involves plant breeding resistant to virus or its vector. Reduced availability of resistance source can be increased through recombinant DNA technology, which brings new breeding perspectives to virus resistant crops.
As viroses são um sério problema para a agricultura, podendo se tomar um fator limitante para o desenvolvimento de determinadas espécies. Medidas de controle, como a eliminação dos vetores, o uso de material sadio, a rotação de culturas e a erradicação de plantas infectadas são apenas soluções temporárias. A mais eficiente estratégia de controle envolve o uso de cultivares melhoradas para resistência ao vírus ou a seu vetor. A reduzida disponibilidade de fontes de resistência pode ser aumentada através da tecnologia do DNA recombinante, que traz novas perspectivas para o melhoramento de plantas resistentes a viroses.
RESUMO
Virus diseases are a serious problem to agricuiture, can be a limitant factor to normal development of some crops. Control measures, like vectors elimination, healthy material use, culture rotation and infected plants eradication, are only transient solutions. The more efficient approach for control involves plant breeding resistant to virus or its vector. Reduced availability of resistance source can be increased through recombinant DNA technology, which brings new breeding perspectives to virus resistant crops.
As viroses são um sério problema para a agricultura, podendo se tomar um fator limitante para o desenvolvimento de determinadas espécies. Medidas de controle, como a eliminação dos vetores, o uso de material sadio, a rotação de culturas e a erradicação de plantas infectadas são apenas soluções temporárias. A mais eficiente estratégia de controle envolve o uso de cultivares melhoradas para resistência ao vírus ou a seu vetor. A reduzida disponibilidade de fontes de resistência pode ser aumentada através da tecnologia do DNA recombinante, que traz novas perspectivas para o melhoramento de plantas resistentes a viroses.