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RESUMEN El ARN de interferencia (ARNi) es un mecanismo evolutivamente conservado en la mayoría de las células eucariotas que permite silenciar genes mediante la degradación de ARN mensajero (ARNm) y la supresión de la síntesis de proteínas. En plantas, las moléculas de ARNi están involucradas en mecanismos de defensa contra patógenos y transposones, en la respuesta adaptativa al estrés, y en la expresión de genes relacionados con su crecimiento. El ARNi se considera una herramienta biotecnológica eficaz para silenciar la expresión de genes de microorganismos fitopatógenos, esto permite el diseño de bioplaguicidas ambientalmente seguros con una afinidad y selectividad, en muchos casos superior a la de los plaguicidas químicos. En esta revisión se señalan los últimos avances en la aplicación del ARNi en el contexto agrícola y su efectividad en el control biológico de fitopatógenos e insectos plaga. Asimismo, se presentan diversos ensayos experimentales cuyos resultados pueden ser la base para futuros bioproductos, además de algunos ejemplos disponibles en el mercado. Por último, se abordan aspectos de bioseguridad y consideraciones regulatorias necesarias para la aceptación y uso de esta tecnología a nivel global.
ABSTRACT RNA interference (RNAi) is an evolutionarily conserved mechanism in most eukaryotic cells that allows genes to be silenced by degradation of messenger RNA (mRNA) and suppression of protein synthesis. In plants, RNAi molecules are involved in defense mechanisms against pathogens and transposons, in the adaptive response to stress, and in the expression of genes related to their growth. RNAi is an effective biotechnological tool to silence the expression of specific genes which are essential for the survival of phytopathogenic microorganisms, thus allowing the design of environmentally safe biopesticides with affinity and selectivity, in many cases greater than chemical pesticides. This review describes the latest advances in the application of RNAi in the agricultural context and its effectiveness in the biological control of phytopathogens and pest insects. Likewise, various experimental trials are presented, the results of which may be the basis for future bioproducts, as well as some examples available on the market. Finally, biosafety aspects and regulatory considerations necessary for the acceptance and use of this technology at a global level are presented.
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Introducción. Las susceptibilidades de las plantaciones al ataque de organismos dañinos pueden ocasionar efectos nocivos para su desarrollo, cuando se considera que el nivel de daños ocasionado no se puede tolerar, es indispensable determinar acertadamente la naturaleza del agente causal, sea éste tipo biótico o abiótico; la acertada determinación del agente de un problema fitosanitario en un vivero o plantaciones forestale, se fundamenta en un análisis detallado de los factores que la pueden estar afectando. Tabebuia rosea o Guayacán rosado es una especie forestal nativa de amplia aceptación en el mercado, que presenta durante su etapa de vivero, limitantes en las fases de germinación, emergencia y sobrevivencia, por lo anterior el objetivo de esta investigación era la de Identificar morfológicamente los posibles agentes patógenos asociados a Tabebuia rosea en etapa de vivero y comprobar su patogenicidad. Metodología. Se tomaron plántulas de vivero, las cuales se les realizo un análisis de los signos y los síntomas para el aislamiento y siembra de zonas afectadas en agar papa dextrosa. En el cultivo mixto se identificó los posibles agentes patógenos, los cuales fueron sembrados para obtener cultivos puros, y utilizados en la prueba de patogenicidad, para la inoculación de las estructuras sanas (hojas, peciolos y tallos) y su respectivo control. Resultados. Se identificaron tres géneros de hongos Colletotrichum, Mucor, y Candida, y un género de nematodo denominado Meloidogyne. La prueba de patogenicidad para Colletotrichum y Candida mostraron relaciones significativas en el proceso de infección principalmente en estructuras foliares. Se concluye en este trabajo dos nuevos posibles géneros patógenos para Tabebuia rosea evidenciados en la prueba de patogenicidad. Y se corrobora que el género Meloidogyne es un patógeno severo en el guayacán rosado que ocasiona anomalías morfológicas en la raíz; cabe resaltar que es el primer reporte para el departamento de Risaralda
Introduction. The susceptibilities of plantations to attack by harmful organisms can cause harmful effects for their development, when it is considered that the level of damage caused cannot be tolerated, it is essential to correctly determine the nature of the causal agent, be it biotic or abiotic; The correct determination of the agent of a phytosanitary problem in a nursery or forest plantations is based on a detailed analysis of the factors that may be affecting it. Tabebuia rosea or pink Guayacán is a native forest species widely accepted in the market, which presents, during its nursery stage, limitations in the germination, emergence and survival phases, therefore the objective of this research was to morphologically identify the possible pathogens associated with Tabebuia rosea in the nursery stage and check its pathogenicity. Methodology. Nursery seedlings were taken, which were analyzed for signs and symptoms for the isolation and sowing of affected areas on potato dextrose agar. In the mixed culture, possible pathogens were identified, which were sown to obtain pure cultures, and used in the pathogenicity test, for the inoculation of healthy structures (leaves, petioles and stems) and their respective control. Results. Three fungal genera Colletotrichum, Mucor, and Candida, and a nematode genus named Meloidogyne were identified. The pathogenicity test for Colletotrichum and Candida showed significant relationships in the infection process mainly in leaf structures. Two new possible pathogenic genera for Tabebuia rosea evidenced in the pathogenicity test are concluded in this work. And it is corroborated that the genus Meloidogyne is a severe pathogen in the pink guayacán that causes morphological anomalies in the root; It should be noted that it is the first report for the department of Risaralda
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Tabebuia , Virulencia , HelmintosRESUMEN
El objetivo de este estudio fue caracterizar y evaluar in vitro la eficiencia del aceite esencial foliar de Lippia alba contra Colletotrichum gloeosporioides. Se extrajo el aceite esencial a partir de las hojas mediante el método de hidrodestilación asistida por microondas (MWHD) y se identificaron sus metabolitos mediante una cromatografía de gases acoplada a espectrometría de masas (GC/MS). La evaluación in vitro se realizó empleando 4 concentraciones del aceite esencial (500, 1000, 3000 y 10000 ppm) diluidas en acetona; se utilizó un control positivo con Benomil 1 g/L, un control negativo con acetona y un testigo absoluto; la eficiencia del aceite se midió mediante el porcentaje de índice antifúngico (%I.A). El componente mayoritario en el aceite esencial fue el citral (34.62 a 40.03%) y que el mayor %I.A se encontró a la concentración de 10000 ppm (97.8%), muy similar a la del Benomil (100%). Lo anterior demostraría la eficacia del aceite esencial de L. alba para controlar a C. gloeosporioides, y su posible uso como fungicida biológico.
The aim of this study was to characterize and evaluate the in vitro efficiency of leaf essential oil of Lippia alba against Colletotrichum gloeosporioides. Essential oil from the leaves was extracted by the method of assisted microwave hydrodistillation (MWHD) and metabolites were identified by gas chromatography coupled to mass spectrometry (GC/ MS). The in vitro evaluation was performed using 4 concentrations of essential oil (500, 1000, 3000 and 10000 ppm) diluted in acetone; positive control with Benomyl 1 g /L, a negative control with acetone and absolute control was used; oil efficiency was measured by the percentage of antifungal index (% IA). It was found that the major component was in the essential oil citral (34.62 to 40.03%) and the highest %I.A was found to 10000 ppm concentration (97.8%) very similar to Benomyl (100%). This would demonstrate the efficacy of the L. alba essential oil to control C. gloeosporioides, and its possible use as a biological fungicide.
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ABSTRACT Recent research reports the importance of preserving plants in Brazilian semiarid regions, in this context, the scientific literature has reported different pharmacological studies from plant extracts with an antifungal potential, coming from forest species that can contribute as a control and management strategy in the transmission of phytopathogens. This study aimed to evaluate the effect of biotech treatments in controlling the transmission of Colletotrichum sp. in seeds of S. obtusifolium. In this study, 100 seeds were subjected to the following preventive treatments: fungicide Captan®, extract of Caesalpinia ferrea Mart. Ex. Tul., and biological control with Trichoderma spp. The biological control with Trichoderma spp. and the alternative control using C. ferrea extract provided a greater protection to seeds and seedlings of S. obtusifolium facing the transmissibility of Colletotrichum sp.The treatment based on plant extract is more efficient for this purpose only in large seeds and does not interfere on the germination percentage and speed. Therefore it is necessary to perform other studies with Trichoderma spp. and C. ferrea extract to test different doses of these products.
RESUMO Recentes pesquisas relatam a importância da preservação de plantas do semiárido brasileiro. Neste contexto, a literatura científica tem relatado diferentes estudos farmacológicos com extratos vegetais com potencial antifúngico proveniente de espécies florestais que podem contribuir como estratégia de controle e gerenciamento na transmissão de fitopatógenos. No presente estudo o objetivo foi avaliar o efeito de tratamentos biotecnológicos no controle da transmissibilidade de Colletotrichum sp. em sementes de S. obtusifolium. Neste estudo foram utilizadas 100 sementes submetidas aos seguintes tratamentos preventivos: fungicida Captan®, extrato de Caesalpinia ferrea Mart. Ex. Tul. e controle biológico com Trichoderma spp. O controle biológico com Trichoderma spp. e o alternativo com extrato de C. ferrea proporcionam maior proteção às sementes e plântulas S. obtusifolium quanto a transmissibilidade do Colletotrichum sp. O tratamento à base de extrato vegetal foi o mais eficiente para este fim, apenas em sementes de maior tamanho, por não interferir na porcentagem e velocidade de germinação. Portanto, faz-se necessário à realização de outros trabalhos com Trichoderma spp. e extrato de C. ferrea para testar doses diferentes desses produtos.
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Trichoderma/clasificación , Extractos Vegetales/análisis , Colletotrichum/clasificación , Sapotaceae/clasificación , Fabaceae/clasificación , Semillas/clasificaciónRESUMEN
Los productos naturales son una alternativa para el control de microorganismos que ocasionan enfermedades en los cultivos. Este trabajo tuvo como objetivo evaluar diferentes solventes para la obtención de extractos crudos a partir de exudados foliares de líneas de tabaco, y el efecto in vitro de estos extractos contra dos bacterias fitopatógenas: Xanthomonas campestris (Xc) y Pectobacterium carotovorum (Pc). Se evaluaron solventes con polaridades entre 3.1 y 6.2 (diclorometano, n-butanol, acetato de etilo, metanol y etanol 90 %). El etanol 90 % se seleccionó como mejor solvente y como sustituto del diclorometano por su mayor rendimiento. Los extractos etanólicos crudos se obtuvieron a partir de exudados foliares de diez líneas de tabaco seleccionadas. La diversidad de la composición química de los extractos etanólicos se reveló por cromatografía en capa delgada. La actividad antibacteriana se evaluó por el método de difusión en agar con discos de papel de filtro y la medición del diámetro del halo de inhibición. Se observó inhibición para todos los extractos contra Xc destacándose los correspondientes a las líneas Nic 1061 "TI 1738" y Nic 1016 "Incekara" hasta 5 µg de extracto crudo seco /disco, con un mayor rendimiento para la línea Nic 1061. El extracto de la línea Nic 1015 fue el único con actividad contra Pc hasta 5 µg de extracto crudo seco por disco. Estos resultados sugieren un uso potencial de los extractos crudos de las líneas Nic 1061 y Nic 1015 "TI 1341" como un agente efectivo para la protección de cultivos contra estas bacterias.
Natural products are an alternative to control microorganisms that cause diseases in crops. This work aimed to evaluate different solvents for obtaining crude extracts from tobacco leaf exudates and to determine in vitro effect of these extracts against two phytopathogenic bacteria: Xanthomonas campestris(Xc) and Pectobacterium carotovorum(Pc). Crude extracts from ten tobacco lines using solvents with polarities between 3.1 and 6.2 (dichloromethane, n-butanol, ethyl acetate, methanol and ethanol 90%) were obtained. Ethanol 90% was selected as the best solvent for obtaining extracts from tobacco leaf exudates and as a substitute of dichloromethane due to the best yield. The chemical composition diversity of the ethanolic extracts was revealed by thin-layer chromatography. The antibacterial activity was evaluated by agar disk diffusion method recording the inhibition zones. Growth inhibition was observed for all extracts against Xc, and the better activity corresponded to the lines Nic 1061"TI 1738" and Nic 1016 "Incekara" until a minimal amount of 5 µg/ disc, with higher yield in case of the line Nic1061 . Only the extract of the line Nic 1015 was able to inhibit the growth of Pc until a minimal inhibitory concentration of 5 µg/disc. These results suggest a potential use of crude extracts from lines Nic 1061 and Nic 1015 "TI 1341" as an effective agent for the crop protection against Xc and Pc respectively.
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Twenty four bacterial strains from four different regions of mud volcano and lime cave were isolated to estimate their diversity, plant growth promoting and biocontrol activities to use them as inoculant strains in the fields. An excellent antagonistic effect against four plant pathogens and plant growth promoting properties such as IAA production, HCN production, phosphate solubilization, siderophore production, starch hydrolysis and hydrolytic enzymes syntheses were identified in OM5 (Pantoea agglomerans) and EM9 (Exiguobacterium sp.) of 24 studied isolates. Seeds (Chili and tomato) inoculation with plant growth promoting strains resulted in increased percentage of seedling emergence, root length and plant weight. Results indicated that co-inoculation gave a more pronounced effects on seedling emergence, secondary root numbers, primary root length and stem length, while inoculation by alone isolate showed a lower effect. Our results suggest that the mixed inocula of OM5 and EM9 strains as biofertilizers could significantly increase the production of food crops in Andaman archipelago by means of sustainable and organic agricultural system.
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Bacillales/aislamiento & purificación , Capsicum/microbiología , Microbiología Ambiental , Solanum lycopersicum/microbiología , Desarrollo de la Planta , Pantoea/aislamiento & purificación , Reguladores del Crecimiento de las Plantas/metabolismo , Biomasa , Bacillales/clasificación , Bacillales/genética , Bacillales/metabolismo , Capsicum/fisiología , ADN Bacteriano/química , ADN Bacteriano/genética , ADN Ribosómico/química , ADN Ribosómico/genética , India , Islas , Solanum lycopersicum/fisiología , Datos de Secuencia Molecular , Pantoea/clasificación , Pantoea/genética , Pantoea/metabolismo , Raíces de Plantas/crecimiento & desarrollo , /genética , Análisis de Secuencia de ADN , Plantones/crecimiento & desarrolloRESUMEN
A total of 104 actinomycete isolates were recovered from farming soil samples collected from 11 states in Sudan. Upon screening for potential antifungal activity, an actinomycete isolate (R92) was found to be highly antagonistic against all of the tested phytopathogenic fungi. It was identified as Streptomyces rochei on the basis of its morphology, chemotaxonomy and 16S rDNA sequence analysis. In vivo antagonistic activities of the nbutanol extract of R92 culture were significant since the progress of Drechslera halodes leaf spot on sorghum and Alternaria alternata early blight on tomato was highly restricted and incidence of both diseases was greatly suppressed. Trials to evaluate the In vivo control efficacy of this extract under field conditions is recommended.
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Objetivou-se avaliar a ação de diferentes concentrações de óleos essenciais de três plantas medicinais sobre o crescimento micelial, a produção e a germinação de conídios de Colletotrichum gloeosporioides (Penz.). Utilizou-se os óleos essenciais de Lippia sidoides Cham., Cymbopogon citratus (DC) Stapf.) e Ocimum gratissimum L. em cinco concentrações (0 µL mL-1, 1 µL mL-1, 3 µL mL-1, 5 µL mL-1 e 7 µL mL-1) com 4 repetições no delineamento inteiramente casualizado, em esquema fatorial 5x3. Os óleos foram analisados por cromatografia gasosa acoplada com espectrometria de massas. Para todas as características verificou-se efeito significativo da interação "Óleo" versus "Concentração". O óleo essencial de C. citratus proporcionou a maior inibição do crescimento micelial em todas as concentrações testadas. Os outros óleos não se diferenciaram, exceto a partir da concentração de 5 µL mL-1, onde o óleo de L. sidoides foi superior ao óleo de O. gratissimum. Na produção e germinação de conídios, o óleo de C. citratus, foi superior aos óleos de L. sidoides e de O. gratissimum nas concentrações de 1 µL mL-1 e 3 µL mL-1, inibindo completamente a produção e germinação a partir da concentração de 3 µL mL-1. As concentrações influenciam em todas as variáveis, ajustando-se à equação do modelo linear. Observa-se o decréscimo nessas, à medida em que se aumentam as concentrações dos óleos testados. Os óleos essenciais testados possuem efeito fungitóxico e fungistático.
The objective of this study was to evaluate the action of different concentrations of essential oils of three medicinal plants on the mycelial growth, production and conidial germination of Colletotrichum gloeosporioides (Penz.). We used a completely randomized design, in a 5x3 factorial design, being five concentrations (0 µL mL-1, 1 µL mL-1, 3 µL mL-1, 5 µL mL-1 e 7 µL mL-1) x three oils from Lippia sidoides Cham., Cymbopogon citratus (DC) Stapf. and Ocimum gratissimum L., with four replications. The oils were analyzed by gas chromatography with mass spectrometry. There was a significant interaction of concentration versus species on all analyzed traits. The essential oil from C. citratus yielded the highest mycelial growth inhibition at all concentrations. The other oils were not differentiated, except at the concentration of 5µL mL-1, in which the oil of L. sidoides was more efficient that the oil of O. gratissimum. In conidial production and germination, the oil of C. citratus was superior to the oil of L. sidoides and O. gratissimum at the concentrations of 1 µL mL-1 and 3 µL mL-1, as it completely inhibited the production and germination of conidia at the concentrations of 3 µL mL-1 and above. The concentrations influenced all the variables, adjusting themselves to the linear model equation. We observed a decrease in the variables, as the concentrations of the oils tested are increased. The essential oils used have antifungal and fungicidal effect.
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Aceites Volátiles/análisis , Colletotrichum/aislamiento & purificación , Passiflora/clasificación , AntifúngicosRESUMEN
As proteínas inibidoras de poligalacturonases (PGIPs) presentes na parede celular são capazes de limitar o potencial destrutivo da poligalacturonase (PG) fúngica e, assim, constituem um tipo importante dentre os diversos sistemas de defesa do tecido vegetal frente à infecção fúngica. No mamão, o ataque fitopatogênico é o principal causador de danos pós-colheita, e sua alta susceptibilidade pode estar relacionada com a baixa eficácia ou pouca abundância dos meios de defesa anti-fitopatogênica. Uma vez que isso pode estar relacionado com as PGIPs e nada se conhece sobre o papel dessas proteínas nesse fruto, o objetivo do trabalho foi clonar os genes das PGIPs de mamoeiro e definir seu padrão de expressão em diferentes órgãos e tecidos e ao longo do amadurecimento. Para tanto, foram identificadas no genoma do mamoeiro, a partir de critérios que definem a identidade de uma PGIP, duas prováveis sequências dentre 13 candidatas iniciais. Ambas foram clonadas a partir das sequências genômicas e de cDNA, sequenciadas e sua identidade confirmada, sendo denominadas Cppgip4 e Cppgip6. As análises de expressão relativa em diversos tecidos e idades fisiológicas do mamoeiro demonstraram que os dois genes apresentaram diminuição da expressão com o desenvolvimento dos frutos, sendo que com a polpa apresentou redução dos níveis de expressão relativa de Cppgip4 em até 18 vezes dos 30 dias pós-antese (DPA) ao 9 dias pós-colheita (DPC). Na casca também houve redução significativa da expressão com o desenvolvimento. Para a expressão absoluta, nos frutos, sementes, caules, raízes e folhas, o número de cópias de ambos os transcritos decresceu com o desenvolvimento, sendo cerca de cem mil vezes mais abundante para Cppgip6 que para Cppgip4. As tentativas de expressão de proteínas recombinantes em Pichia pastoris não geraram resultado positivo, provavelmente em virtude das condições ideais de indução ainda não terem sido estabelecidas corretamente para o ensaio. A atividade de PGIPs extraídas diretamente do tecido foi medida por análise de difusão em ágar empregando pectinase de Aspergillus niger e revelou uma tendência à diminuição da porcentagem de inibição à medida que os frutos se desenvolveram, em concordância com os resultados da análise por qPCR. O conjunto de resultados sugere que a expressão varia com o estádio de desenvolvimento do fruto e é tecido-específica, possivelmente em resposta à diferente susceptibilidade dos tecidos ao ataque fitopatogênico, indicando que menores níveis de transcritos e atividade no amadurecimento, período de maior susceptibilidade, poderiam sinalizar para a regulação do processo degradativo marcando o início da senescência
Polygalacturonase inhibiting proteins (PGIPs) present in plant cell walls are able to inhibit the destructive action of fungal polygalacturonase (PG). In this way, they constitute an important type of plant defense system against fungal infections. In papaya fruit, the pathogenic attack is the main cause of post harvesting loss, and its high susceptibility may be related to the low efficiency or low abundance of anti-phytopathogenic defense. Since this fact could be related to PGIPs expression and little is known about the response of these proteins in the fruit, the aim of the present work was to clone the genes of PGIPs papaya fruit and set their expression pattern in different organs and tissues throughout fruit ripening. Thus, two probable PGIP sequences among 13 initial candidates were identified in the papaya genome by using specific criteria. Both sequences were cloned from cDNA and genomic samples, sequenced and confirmed its identity, and then being named Cppgip4 and Cppgip6. Analysis of relative expression in various tissues at different physiological stages demonstrated that both genes were down regulated during fruit development. The relative expression levels of Cppgip4 in papaya pulp was reduced by 18 times from the 30 days post-anthesis (DPA) to the 9 days post-harvest (DPH). Similarly, gene expression in papaya peel was significant down regulated during fruit development. Absolute expression analysis revealed gene expressions in the fruit pulp, seed, stem, root and leaf were also down regulated within development. Moreover, Cppgip6 gene expression was a hundred thousand times more abundant than Cppgip4. The recombinant protein expression in Pichia pastoris did not result positive, probably because of the ideal conditions of induction have not been properly established the yet. The activity of PGIPs extracted directly from the tissue was measured by the agar diffusion assay using pectinase from Aspergillus niger and showed decrease of inhibition during fruit developed in accordance with the results of the qPCR analysis. Based on the results it is possible to suggest the expression of these genes varies temporally with the developmental stage of the fruit and is tissue-specific, possibly in response to the different susceptibility of tissues to pathogenic attack. In addition, the lowest levels of PGIP expression were achieved at the fruit ripening, when the susceptibility to fungal infection is high and could signal for regulating the degradation process characterized by the onset of senescence
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Poligalacturonasa , Poligalacturonasa/análisis , Pruebas de Sensibilidad Microbiana/instrumentación , Clonación de Organismos/métodos , Carica/clasificación , Pichia , Aspergillus niger , Expresión Génica , Cápsulas Fúngicas , Infecciones , Biología Molecular/métodosRESUMEN
Beneficial plant microbe interactions in the rhizosphere are primary determinants of plant health and soil fertility. Plant growth promoting fungi have great effect towards the growth of plant crops. Soil borne pathogenic fungi cause heavy crop losses all over the world. As the use of chemicals for disease control and fertilization causes environmental problems, there is a need for alternative control measures. The most important and economically cultivated plant pea-nut was selected to test the growth promotion by antagonistic microorganisms with or with our pathogen Rhizoctonia solani . This necessitates a study on Plant Growth Promoting Fungi (PGPF) as adequate work has gone on rhizobacteria. The present investigation was conducted to study the effect of PGPF on the growth of Arachis hypogea (L.) and its role of induction of systemic resistance against Rhizoctonia solani. Forty five rhizosphere fungal isolates were obtained from 12 different cultivated field crops and were screened for their potential to promote growth in Arachis hypogea (L.). The isolate (Cc2) obtained from Cucumis sativus (L.). Duch.ex. poir was identified as the potential plant growth promoting fungus. The effect of soil inoculation with the selected isolate Cc2 on the growth of healthy plants of Arachis hypogea (L.) and those challenged with Rhizoctonia solani was studied by pot culture experiment. The overall vegetative growth of plant (Root and Shoot development, Dry matter accumulation) and reproductive growth (Pod and Seed development) were studied. The fungal inoculants improved effectively the growth both in plants challenged and unchallenged with Rhizoctonia solani. The soil inoculation of Cc2 has improved the chlorophyll, carotenoid, anthocyanins ,total soluble sugar and protein content compare to the untreated plants (T0) and plants infected by Rhizoctonia solani (T1). The phenol and proline contents were found to be higher in plants challenged with Rhizoctonia solani. Growth hormone production ability of the selected isolate was determined. Results revealed that the selected isolate could produce Indole Acetic Acid and Gibberellic Acid. The in vitro study by dual culture method revealed that there was a negative interaction (Antibiosis) between the plant growth promoting fungal inoculant (Cc2) and the pathogen Rhizoctonia solani. It could be concluded that the selected isolate Cc2 proved to be a potential fungus in promoting plant growth and yield in Arachis hypogea (L.) and in inducing systemic resistance in Arachis hypogea (L.) against Rhizoctonia solani. Finally Cc2 was identified as Rhizopus sp., in generic level.
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Virus diseases are significant threats to modern agriculture and their control remains a challenge to the management of cultivation. The main virus resistance strategies are based on either natural resistance or engineered virus-resistant plants. Recent progress in understanding the molecular mechanisms underlying the roles of resistance genes has promoted the development of new anti-virus strategies. Engineered plants, in particular plants expressing RNA-silencing nucleotides, are becoming increasingly important and are likely to provide more effective strategies in future. A general discussion on the biotechnology of plant responses to virus infection is followed by recent advances in engineered plant resistance.
As viroses são problemas importantes para a agricultura moderna e o seu controle representa um desafio para o manejo de áreas cultivadas. As principais estratégias de resistência a vírus se baseiam em mecanismos naturais ou em engenharia genética. Recentemente, a maior compreensão dos mecanismos moleculares envolvidos na função de genes de resistência da planta facilitou o desenvolvimento de novas estratégias antivirais. Plantas modificadas geneticamente, em particular aquelas expressando a via de silenciamento de RNA, são alvo de interesse crescente e representam a possibilidade de estratégias futuras mais efetivas. Neste trabalho são discutidos diferentes aspectos relacionados à resistência a viroses em plantas. Adicionalmente, a perspectiva de aplicação biotecnológica das diferentes vias de resistência é apresentada.
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O objetivo deste trabalho foi avaliar a atividade fungicida in vitro do óleo essencial das folhas de Piper hispidinervum sobre Bipolaris sorokiniana, Fusarium oxysporum e Colletotrichum gloeosporioides. Para os ensaios biológicos, empregou-se o teste bioanalítico in vitro utilizando as concentrações de 100, 200, 500, 1000, 1500 e 2000 µg.mL-1 do óleo essencial. Estas foram incorporadas no meio de cultura BDA (batata-dextrose-ágar) para avaliação do crescimento ou inibição micelial. O delineamento estatístico utilizado foi o inteiramente casualizado, com quatro repetições. Na concentração de 200 µg.mL-1, observou-se uma inibição total do fitopatógeno Bipolaris sorokiniana enquanto que, para o Fusarium oxysporum e o Colletotrichum gloeosporioides esta ocorreu na concentração de 1000 µg.mL-1.
The objective of this study was to evaluate the in vitro antifungal activity of the essential oil of the leaves of Piper hispidinervum against Bipolaris sorokiniana, Fusarium oxysporum and Colletotrichum gloeosporioides. For the biological tests, using the bioanalitic test in vitro the concentrations of 100, 200, 500, 1000, 1500 and 2000 µg.mL-1 the essential oil. This were incorporated into PDA (potato dextrose agar) medium in order to evaluate fungal mycelial growth or inhibition. The statistic design used was completely randomized, with four replicates. In the concentration of 200 µg.mL-1, observed inhibited complete the phytopathogens Bipolaris sorokiniana while the Fusarium oxysporum and Colletotrichum gloeosporioides this is occurred in the concentration of 1000 µg.mL-1.
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Plantas , Enfermedad , PiperRESUMEN
Thirty-two bacterial isolates were obtained from wheat rhizosphere in black cotton soils of North Maharashtra region and subsequently tested for in-vitro siderophore production. Wheat isolate SCW1, being a strong siderophore producer, was selected, identified and confirmed as Acinetobacter calcoaceticus. The strain produced catechol type of siderophores during exponential phase which was influenced by iron content of medium. Seed bacterization with siderophoregenic A.calcoaceticus improved plant growth in pot and field studies. Such PGPR activity was attributed to the ability of strain to solubilise phosphates and produce IAA. Siderophore mediated antagonism was observed against common phytopathogens viz., Aspergillus flavus, A. niger, Colletotrichum capsicum and Fusarium oxysporum