The results of studies about interactions between microorganisms involving at least one plant pathogen are of interest to the areas of ethiology and control in Plant Pathology. Various aspects of these interactions have been studied over the years but the toxicity of volatile organic compounds (VOCs) has been emphasized only recently, developing techniques and procedures, and producing additional knowledge to those already obtained with water-soluble substances. This new facet of these interactions based on VOCs is discussed in this review involving mainly fungi, bacteria and nematodes pathogenic to plants. Also discussed is the role of VOCs produced by microorganisms, especially fungi and bacteria, in soil fungistasis and the effect of VOCs on fungal agents used in the control of plant parasitic nematodes. The evidence of VOCs broadens the research studies about these interactions. However, the scarcity of the research results in this area show up gaps which need to be filled and some research proposals are discussed. The present and future accumulated VOC knowledge will perhaps be beneficial to farmers, especially aspects related to increasing soil suppressiveness to plant disease and to the finding of analog molecules of VOCs highly effective against plant pathogens.Index terms: Biological control, volatiles, plant pathogens, interaction. RESUMOOs resultados dos estudos sobre interações entre microorganismos quando envolve, no mínimo, um patógeno de plantas são de interesse às áreas de etiologia e controle de fitodoenças. Vários aspectos dessas interações têm sido, por muitos anos, estudados, porém, a toxicidade de compostos orgânicos voláteis (COV) tem sido enfatizada apenas recentemente, desenvolvendo-se técnicas e rotinas, além de produzir conhecimentos adicionais àqueles já obtidos por meio de pesquisas com substâncias solúveis em água. Essa nova faceta dessas interações, envolvendo COVs, é discutida nesta revisão, enfatizando, principalmente, o antagonismo a fungos, bactérias e nematóides patogênicos de plantas. Também é discutido o papel dos COVs produzidos por microorganismos especialmente, fungos e bactérias envolvidos na fungistase do solo, bem como o efeito dos COVs nos agentes fúngicos usados no controle de fitonematóides. A evidência comprovada dos COVs nessas interações amplia esse campo de pesquisa. Entretanto, a escassez de pesquisas nessa área afloram lacunas no conhecimento científico que precisam ser preenchidas e, desta forma, algumas propostas de pesquisas são discutidas. O conhecimento científico presentemente acumulado nessa área de pesquisa, juntamente com aquele a ser produzido, serão, talvez, úteis aos produtores rurais, especialmente nos aspectos envolvendo a constatação de supressividade de solo a fitodoenças e aos testes com moléculas análogas dos COVs altamente tóxicos a patógenos de plantas.Termos para indexação: controle biológico, voláteis, patógenos de plantas, interações.
To contribute to the development of products to control Meloidogyne exigua, the bacteria Bacillus cereus and B. subtilis were cultivated in liquid medium to produce metabolites active against this plant-parasitic nematode. Fractionation of the crude dichloromethane extracts obtained from the cultures afforded uracil, 9H-purine and dihydrouracil. All compounds were active against M. exigua, the latter being the most efficient. This substance presented a LC 50 of 204 µg/mL against the nematode, while a LC 50 of 260 µg/mL was observed for the commercial nematicide carbofuran. A search for protein-ligand complexes in which the ligands were structurally similar to dihydrouracil resulted in the selection of phosphoribosyltransferases, the sequences of which were used in an in silico search in the genome of M. incognita for a similar sequence of amino acids. The resulting sequence was modelled and dihydrouracil and 9H-purine were inserted in the active site of this putative phosphoribosyltransferase resulting in protein-ligand complexes that underwent molecular dynamics simulations. Calculation of the binding free-energies of these complexes revealed that the dissociation constant of dihydrouracil and 9H-purine to this protein is around 8.3 x 10 -7 and 1.6 x 10 -6 M, respectively. Consequently, these substances and the putative phosphoribosyltransferase are promising for the development of new products to control M. exigua.
Objetivou-se, com esse estudo, isolar e selecionar rizobactérias autóctones de arroz, com potencial para o controle in vitro de Pyricularia grisea, para o controle de fungos veiculados por sementes e para a promoção de crescimento em plântulas de arroz. Para isso, foram isoladas 18 rizobactérias autóctones de arroz, as quais foram submetidas ao teste de antibiose in vitro, em que se avaliou o índice de velocidade de crescimento micelial e o percentual de inibição de crescimento micelial. No tratamento de sementes com rizobactérias, as sementes foram bacterizadas e, posteriormente, avaliou-se a qualidade sanitária (incidência de fungos), a qualidade fisiológica (vigor, germinação e índice de velocidade de germinação de sementes) e a promoção de crescimento das plântulas. No teste de antibiose, todos os isolados apresentaram potencial de antagonismo frente à P. grisea. Houve melhorias na qualidade sanitária das sementes de arroz. Contudo, os isolados não apresentaram efeito positivo sobre a qualidade fisiológica das sementes. Três isolados induziram os maiores incrementos de parte aérea e raiz de plântulas de arroz na promoção de crescimento. Assim, conclui-se que as rizobactérias testadas apresentaram potencial de controle in vitro de fungos, em especial a P. grisea, e também para promoção de crescimento de plântulas de arroz.
Sclerotinia sclerotiorumis one of the main pathogens of soybean crop, reducing crop yield potential and causing losses of up to 37%. Because it is a soil inhabitant, its management is difficult. However, the adoption of alternative methods, such as the use of antagonists, may help reduce the pathogen inoculum. Thus, the objective of this work was to select native soybean rhizobacteria and to verify the potential of in vitroantagonism against Sclerotinia sclerotiorum, as well as the effect of these isolates on the germination and vegetative developmentof soybean seedlings. For this, tests of inhibition and mycelial growth rate index, production of volatile compounds, production of rhizobacterial metabolites and vegetative development of soybean seedlings were conducted.With respect to antagonism, I1, U4, M6, M8 and U13 isolates were the most effective. For the production of volatile compounds by the overlapping plate method, isolates M8, M10, M9, I1, M6 and U4 had the largest reductions in pathogen mycelial growth. For the ability of isolates to produce water-soluble metabolites in culture medium, it was found that isolates I1, M3, M6 and U13 were the most effective. For the vegetative development of soybean seedlings, except for the root length, in which the isolates M8, I14, M9, I1, M6 and M10 provided the largest increases in root size, the other variables did not show significant increases when compared with the witness.In general, isolates M8, M10, M9, I1, M6 and U4 are effective in inhibiting mycelial growth of Sclerotinia sclerotiorum, produce volatile organic compounds that help control the pathogen, however, they do not show significant increases in the vegetative development of soybean seedlings.
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