Antonio Aguilera scite author profile

Ellagitannins (ETs) are phytochemicals derived from secondary metabolism associated to defense system, with complex chemical structures, which have high participation during all stages of protection against microbial infection. In this study, we report the fungal biodegradation of a bioactive ET, named punicaline which was recovered and purified from pomegranate peels and used as carbon source in solid-state culture (SSC) using polyurethane as solid support. SSC was kinetically monitored during 36 h of incubation time. ETs and glycosides consumption were spectrophotometrically determined. Ellagic acid (EA) accumulation was analyzed by HPLC. Several enzymatic activities were assayed (cellulase, xylanase, β-glucosydase, polyphenoloxidase, tannase, and ET hydrolyzing activities). The consumption levels of ETs and glycosides were 66 and 40%, while EA accumulation reached 42.02 mg g(-1). A differential pattern of enzymatic activities was found; evidence from our studies suggests that the ET hydrolyzing activity is directly associated to EA accumulation, and production of this enzyme may represent the most critical step to successfully develop a bioprocess for production of an important bioactive compound, the EA.

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Comparison of physicochemical pretreatments of banana peels for bioethanol production

Palacios

Ruiz

Ramos‐González

et al. 2017

Food Sci Biotechnol

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Pretreatments with different concentrations of sulfuric acid (0, 0.5, and 1% v/v) and temperatures (28 and 121 °C at 103 kPa in an autoclave) were performed on banana peels (BP) milled by mechanical grinding and grinding in a blender as well as without grinding. Cellulose, hemicellulose, lignin, ash, and total and reducing sugar contents were evaluated. The highest yields of cellulose enzymatic hydrolysis (99%) were achieved with liquefied autoclaved BP treated with 0.5 and 1% acid after 48 h of hydrolysis. Ethanol production by fermentation was assayed using hydrolyzed BP at 10, 15, and 20% (w/w). The highest ethanol level (21 g/L) was reached after 24 h of fermentation with 20% (w/w) BP. Kinetics of the consumption of reducing sugars under this fermentation condition demonstrates the presence of a period (about 8 h). Thus, BP are a good source for ethanol production.

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Fruit Wastes Fermentation for Phenolic Antioxidants Production and Their Application in Manufacture of Edible Coatings and Films

Martínez-Ávila

Aguilera

Saucedo

et al. 2013

Critical Reviews in Food Science and Nutrition

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Agro-industrial by-products are important sources of potent bioactive phenolic compounds. These compounds are of extreme relevance for food and pharmacological industries due to their great variety of biological activities. Fermentation represents an environmentally clean technology for production and extraction of these bioactive compounds, providing high quality and high activity extracts, which can be incorporated in foods using coatings/films wax-based in order to avoid alterations in their quality. In this document is presented an overview about importance and benefits of solid-state fermentation, pointing out this bioprocess as an alternative technology for use agro-industrial by-products as substrates to produce valuable secondary metabolites and their applications as food quality conservatives.

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Producción Fúngica de Proteasas Inducidas con Pelo de Cerdo

2008

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Se evaluaron las condiciones de producción de proteasas fúngicas inducidas con pelo de cerdo usando dos sistemas de cultivo, el proceso de cultivo en estado sólido y el cultivo líquido sumergido. El medio de cultivo fue Czapek-Dox en ambos casos. La cinética fue monitoreada cada 24 horas durante un periodo de incubación de 120 horas. La actividad proteolítica fue evaluada por hidrólisis de azocaseína y la producción de la biomasa fue estimada por el método gravimétrico. Rhizopus oryzae fue el microorganismo capaz de utilizar el pelo de cerdo como única fuente de carbononitrógeno, produciendo en cultivo sumergido los mayores títulos de actividad queratinasa. Se determinó el efecto que tiene el pH, el pretratamiento del sustrato y la adición de diferentes niveles de material queratinoso sobre el crecimiento fúngico y la actividad enzimática. Los resultados permitieron obtener títulos de actividad proteolítica de 975 U/L.

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