Coffee Science
URI permanente desta seção${dspace.url}/handle/123456789/3355
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Item Total phenolic content and antioxidant capacity in Muscodor spp. inoculated seedlings of coffee cultivars of Brazil(Editora UFLA, 2025-06-04) Mourão, Bárbara; Bertolucci, Suzan Kelly Vilela; Guimarães, Sarah da Silva Costa; Coelho, Adriane Duarte; Rocha, João Pedro Miranda; Carvalho, Júlia Helena Gomes de; Pedroso, Márcio Pozzobon; Cardoso, Patrícia GomesFungi of the genus Muscodor have received considerable attention for producing volatile and non-volatile organic compounds with biological activity. The objective of this study was to determine the total phenolic content and antioxidant capacity in two coffee cultivars (Catuaí Vermelho and Topázio) inoculated with the endophytic fungi Muscodor coffeanum and Muscodor sp. and in fungal extracts, as well as to characterize the phenolic compounds and trigonelline produced by isolates of Muscodor. Seeds of Coffea arabica (Catuaí Vermelho and Topázio cultivars) were inoculated with twelve fungal isolates and grown in a greenhouse for 24 months. The results showed that the cultivars inoculated with M. coffeanum (CML 4019) had the highest production of total phenolic content and antioxidant capacity. The presence of total phenolic content showed a direct correlation with antioxidant activity. Total phenolic content and antioxidant capacity varied among different Muscodor isolates. The phenolic profile of Muscodor extract determined by HPLCDAD showed the production of catechin, vanillin, and the caffeic, chlorogenic, ferulic, gallic, o-coumaric, p-coumaric, and syringic acids and the alkaloid trigonelline. These endophyte fungi associated with the coffee fruit can improve the quality of the beverage.Item Phialomyces macrosporus reduces Cercospora coffeicola survival on symptomatic coffee leaves(Editora UFLA, 2019-01) Laborde, Marie Caroline Ferreira; Botelho, Deila Magna dos Santos; Rodríguez, Gabriel Alfonso Alvarez; Resende, Mário Lúcio Vilela de; Queiroz, Marisa Vieira de; Batista, Aline Duarte; Cardoso, Patrícia Gomes; Pascholati, Sérgio Florentino; Gusmão, Luis Fernando Pascholati; Martins, Samuel Júlio; Medeiros, Flávio Henrique Vasconcelos deBrown eye spot is among the most important coffee diseases, it is caused by a necrotrophic fungal Cercospora coffeicola. Saprobe fungi have potential in reducing the survival of necrotrophic pathogens and can act through competition of nutrients, mycoparasitism, antibiosis and resistance induction. We have screened saprobe fungi for the ability to reduce C. coffeicola sporulation and viability and determined the possible mechanisms involved in the biocontrol. The selected saprobe fungus, Phialomyces macrosporus, reduced the germination of C. coffeicola conidia by 40%. P. macrosporus produced both volatile and non-volatile compounds that inhibited C. coffeicola growth, sporulation and viability. The production of antimicrobial substances was the main mode of action used by the saprobe fungi. Therefore, P. macrosporus is a promising biological agent for the integrated management of brown eye spot