Arely Prado-Barragán scite author profile

Tannase is one of the most versatile biocatalysts and plays an important role in a wide range of bioconversion reactions under protein-precipitating conditions. A comprehensive and illustrative review on the applied aspects of microbial tannases in modern biotechnological practices is presented. After a brief description of different substrates of tannases, fundamental biotechnological and catalytic aspects are reviewed and discussed to illustrate the pivotal role of tannases in the food and bioprocess industry. An emphasis on the biotechnological advances and challenges of tannase study is made.

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The complete biodegradation pathway of ellagitannins by Aspergillus niger in solid‐state fermentation

Ascacio-Valdés

Aguilera-Carbó

Buenrostro³

et al. 2016

J. Basic Microbiol.

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Our research group has found preliminary evidences of the fungal biodegradation pathway of ellagitannins, revealing first the existence of an enzyme responsible for ellagitannins degradation, which hydrolyzes pomegranate ellagitannins and it was called ellagitannase or elagitannin acyl hydrolase. However, it is necessary to generate new and clear information in order to understand the ellagitannin degradation mechanisms. This work describes the distinctive and unique features of ellagitannin metabolism in fungi. In this study, hydrolysis of pomegranate ellagitannins by Aspergillus niger GH1 was studied by solid-state culture using polyurethane foam as support and pomegranate ellagitannins as substrate. The experiment was performed during 36 h. Results showed that ellagitannin biodegradation started after 6 h of fermentation, reaching the maximal biodegradation value at 18 h. It was observed that ellagitannase activity appeared after 6 h of culture, then, the enzymatic activity was maintained up to 24 h of culture reaching 390.15 U/L, after this period the enzymatic activity decreased. Electrophoretic band for ellagitannase was observed at 18 h. A band obtained using non-denaturing electrophoresis was identified as ellagitannase, then, a tandem analysis to reveal the ellagitannase activity was performed using Petri plate with pomegranate ellagitannins. The extracts were analyzed by HPLC/MS to evaluate ellagitannins degradation. Punicalin, gallagic acid, and ellagic acid were obtained from punicalagin. HPLC/MS analysis identified the gallagic acid as an intermediate molecule and immediate precursor of ellagic acid. The potential application of catabolic metabolism of ellagitannin hydrolysis for ellagic acid production is outlined.

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Screening of microorganisms for bioconversion of (+)-valencene to (+)-nootkatone

Palmerín-Carreño

Rutiaga-Quiñones

Calvo

et al. 2015

LWT - Food Science and Technology

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Potential use of different agroindustrial by-products as supports for fungal ellagitannase production under solid-state fermentation

Buenrostro-Figueroa

Ascacio-Valdes

Sepúlveda

et al. 2014

Food and Bioproducts Processing

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Valorization of Grapefruit By-Products as Solid Support for Solid-State Fermentation to Produce Antioxidant Bioactive Extracts

Larios-Cruz

Buenrostro-Figueroa

Prado-Barragán

et al. 2017

Waste Biomass Valor

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