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1.
J Fungi (Basel) ; 10(8)2024 Jul 25.
Article in English | MEDLINE | ID: mdl-39194843

ABSTRACT

Thermophilic fungi have been seldom studied despite the fact that they can contribute to understanding ecological mechanisms of adaptation in diverse environments and have attractive toolboxes with a wide range of biotechnological applications. This work describes for the first time an endophytic and thermophilic strain of Aspergillus brasiliensis that was isolated in the crater of the active volcano "El Chichonal" in Mexico. This strain was capable of surviving in soil with a temperature of 60 °C and a pH of neutral acidity, which preluded a high thermostability and a potential in industrial application. The complete genome of A. brasiliensis E_15.1 was sequenced and assembled in 37 Mb of genomic DNA. We performed a comprehensive phylogenomic analysis for the precise taxonomic identification of this species as a novel strain of Aspergillus brasiliensis. Likewise, the predicted coding sequences were classified according to various functions including Carbohydrate-Active Enzymes (CAZymes), biosynthetic gene clusters of secondary metabolites (BGCs), and metabolic pathways associated with plant growth promotion. A. brasiliensis E_15.1 was found to degrade chitin, chitooligosaccharides, xylan, and cellulose. The genes to biosynthesize clavaric acid (a triterpene with antitumor activity) were found, thus probably having antitumor activity. In addition to the genomic analysis, a set of enzymatic assays confirmed the thermostability of extracellular xylanases and cellulases of A. brasiliensis E_15.1. The enzymatic repertoire of A. brasiliensis E_15.1 suggests that A. brasiliensis E_15.1 has a high potential for industrial application due to its thermostability and can promote plant growth at high temperatures. Finally, this strain constitutes an interesting source of terpenoids with pharmacological activity.

2.
Acta biol. colomb ; 24(1): 13-25, ene.-abr. 2019. tab, graf
Article in Spanish | LILACS | ID: biblio-989036

ABSTRACT

RESUMEN El mejoramiento genético convencional en frijol común resulta difícil debido a que presenta una base genética estrecha y muy estable. En este sentido, la combinación de la mutagénesis y el cultivo de tejidos, es una alternativa para inducir variabilidad genética en la búsqueda de tolerancia a factores bióticos y abióticos. Es por ello, que el presente trabajo tuvo como objetivo determinar el efecto de diferentes explantes irradiados en la regeneración in vitro de frijol común (Phaseolus vulgaris L.) cultivar "ICA Pijao". Se aplicaron radiaciones gamma en callos, en el nudo cotiledonal con un cotiledón (NC-1) con dosis de 0, 10, 20, 30, 40, 50 y 60 Gy y semillas con 0, 100, 200, 300 y 400 Gy. Se evaluó el porcentaje de germinación, longitud de las raíces, porcentaje de explantes que formaron callos, masa fresca (g) de los callos, número de brotes por callo y el número de brotes con raíces. La radiación gamma provocó una disminución en la masa fresca del callo y NC-1. Los callos y el NC-1 solamente formaron brotes con las dosis de 10 y 20 Gy, pero estos fueron hiperhíricos. Los resultados demostraron que la semilla irradiada fue el explante con el que se logró la regeneración in vitro de plantas con hojas definidas, por lo que se recomienda como explante inicial para el uso combinado de mutagénesis y regeneración in vitro de plantas para el cultivar P. vulgaris "ICA Pijao" a través de la organogénesis indirecta.


ABSTRACT Conventional breeding in common bean is difficult because they have a close and very stable genetic base. In this connection the combination of mutagenesis and tissue culture is an alternative to induce genetic variability in the search for tolerance to biotic and abiotic factors. For this reason, the present study aimed to determine the effect of different irradiated explants in the in vitro regeneration of common bean (Phaseolus vulgaris L.) cultivar "ICA Pijao". To do this, were applied doses gamma radiation in callus, cotiledonary node with one cotyledon (NC-1) with doses of radiation 0, 10, 20, 30, 40, 50 and 60 Gy and seeds with 0, 100, 200, 300 and 400 Gy. The length of roots in the germinated seeds, fresh mass (g) of the callus and the number of shoots per callus were determined. The gamma radiation caused a decrease in the fresh weight of callus and NC-1. The callus and NC-1, irradiated with doses of 10 and 20 Gy they formed buds but these were hyperhydric. Results demonstrated that the irradiated seed was the explant with which it was achieved regeneration of shoots with leaves defined, so it is recommended as initial explant for combined use of mutagenesis and in vitro regeneration of plants for P. vulgaris cultivar "ICA Pijao" via organogenesis indirect.

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