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1.
Steroids ; 187: 109101, 2022 11.
Artículo en Inglés | MEDLINE | ID: mdl-35970224

RESUMEN

Biotransformation has been successfully employed to conduct uncommon reactions, which would hardly be carried out by chemical synthesis. A wide diversity of compounds may be metabolized by fungi, leading to chemical derivatives through selective reactions that work under ecofriendly conditions. Endophytic fungi live inside vegetal tissues without causing damage to the host plant, making available unique enzymes for interesting chemical derivatization. Biotransformation of steroids by endophytic fungi may provide new derivatives as these microorganisms came from uncommon and underexplored habitats. In this study, endophytic strains isolated from Handroanthus impetiginosus leaves were assayed for biotransformation of progesterone, and its derivatives were identified through GC-EI-MS analysis. The endophyte Talaromyces sp. H4 was capable of transforming the steroidal nucleus selectively into four products through selective ene-reduction of the C4-C5 double bond and C-17 oxidation. The best conversion rate of progesterone (>90 %) was reached with Penicillium citrinum H7 endophytic strain that transformed the substrate into one derivative. The results highlight endophytic fungi's potential to obtain new and interesting steroidal derivatizations.


Asunto(s)
Oxidantes , Progesterona , Tabebuia , Brasil , Endófitos/química , Endófitos/metabolismo , Hongos/química , Hongos/metabolismo , Progesterona/química , Progesterona/metabolismo , Tabebuia/química , Oxidantes/química , Oxidantes/metabolismo
2.
World J Microbiol Biotechnol ; 37(11): 190, 2021 Oct 11.
Artículo en Inglés | MEDLINE | ID: mdl-34632549

RESUMEN

Considering that current biotechnological advances have been contributing towards improving the well-being of humanity, endophytic fungi, such as Lasiodiplodia, are promising sources of new substances to be used in chemical, pharmaceutical and agrochemical processes. Bioactive secondary metabolites are examples of such substances, although it is widely known that Lasiodiplodia inflicts irreparable damage to several crops of major economic importance. They are often produced as a response against biotic and abiotic factors, thus revealing that they play different roles, such as in signaling and defense mechanisms. Therefore, this review presents a few subtle differences between pathogenicity and mutualistic endophyte-host interactions. Moreover, the main secondary metabolites produced by Lasiodiplodia endophytes have been described with respect to their relevant antimicrobial and cytotoxic activities.


Asunto(s)
Ascomicetos/metabolismo , Ascomicetos/patogenicidad , Animales , Antiinfecciosos/química , Antiinfecciosos/aislamiento & purificación , Antiinfecciosos/metabolismo , Ascomicetos/clasificación , Ascomicetos/aislamiento & purificación , Biotecnología , Productos Agrícolas , Endófitos/metabolismo , Endófitos/patogenicidad , Hongos/metabolismo , Humanos , Patología de Plantas , Simbiosis
3.
Folia Microbiol (Praha) ; 65(2): 323-328, 2020 Apr.
Artículo en Inglés | MEDLINE | ID: mdl-31250361

RESUMEN

Endophytic fungi live inside vegetal tissues without causing damage to the host plant and may provide lead compounds for drug discovery. The co-culture of two or more endophytic fungi can trigger silent gene clusters, which could lead to the isolation of bioactive compounds. In this study, two endophytic strains isolated from Handroanthus impetiginosus leaves, identified as Talaromyces purpurogenus H4 and Phanerochaete sp. H2, were grown in mixed and axenic cultures. The meroterpenoid austin was detected only in the extracts from the mixed culture. Once isolated, austin displayed very interesting trypanocidal activity, with an IC50 value of 36.6 ± 1.2 µg/mL against Trypanosoma cruzi in the epimastigote form. The results obtained highlight the importance of the co-culturing of endophytic fungi to obtain natural bioactive products. The findings also enhance our understanding of the ecological relationships between endophytic fungi.


Asunto(s)
Endófitos/crecimiento & desarrollo , Tabebuia/microbiología , Talaromyces/crecimiento & desarrollo , Talaromyces/metabolismo , Tripanocidas/metabolismo , Técnicas de Cocultivo , Endófitos/química , Endófitos/genética , Phanerochaete/química , Phanerochaete/genética , Phanerochaete/crecimiento & desarrollo , Phanerochaete/metabolismo , Hojas de la Planta/microbiología , Talaromyces/química , Talaromyces/genética , Terpenos/análisis , Terpenos/metabolismo , Terpenos/farmacología , Tripanocidas/análisis , Tripanocidas/farmacología , Trypanosoma cruzi/efectos de los fármacos , Trypanosoma cruzi/crecimiento & desarrollo
4.
Appl Microbiol Biotechnol ; 102(21): 9105-9119, 2018 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-30203146

RESUMEN

Medicinal plants are a rich source of natural products used to treat many diseases; therefore, they are the basis for a new drug discovery. Plants are capable of generating different bioactive secondary metabolites, but a large amount of botanical material is often necessary to obtain small amounts of the target substance. Nowadays, many medicinal plants are becoming rather scarce. For this reason, it is important to point out the interactions between endophytic microorganisms and the host plant, because endophytes are able to produce highly diverse compounds, including those from host plants that have important biological activities. Thence, this review aims at presenting the richness in bioactive compounds of the medicinal plants from Tabebuia and Handroanthus genera, as well as important aspects about endophyte-plant interactions, with emphasis on the production of bioactive compounds by endophytic fungi, which has been isolated from various medicinal plants for such a purpose. Furthermore, bio-prospection of natural products synthesized by endophytes isolated from the aforementioned genera used in traditional medicine could be used to treat illnesses.


Asunto(s)
Productos Biológicos/metabolismo , Endófitos/metabolismo , Hongos/metabolismo , Plantas Medicinales/metabolismo , Tabebuia/metabolismo , Animales , Humanos
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