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Metabolism of different dietary phenolic compounds by the urolithin-producing human-gut bacteria <i>Gordonibacter urolithinfaciens</i> and <i>Ellagibacter isourolithinifaciens</i>

Rocío Garcı́a-Villalba, David Beltrán, María D Frutos, María V. Selma, Juan Carlos Espı́n, Francisco A. Tómas‐Barberán

2020Food & Function82 citationsDOIOpen Access PDF

Abstract

. Both strains metabolized ellagic acid leading to the characteristic urolithins. They also metabolized caffeic, dihydrocaffeic, rosmarinic, and chlorogenic acids. The rest of the phenolic compounds were not transformed. Catechol dehydroxylation and double bond reduction were prominent transformations observed during the incubations. The enzymatic activities seem to have a narrow substrate scope as many catechol- (quercetin, catechin, esculetin, gallic acid) and double bond-containing (resveratrol, esculetin, scoparone, umbelliferone) phenolics were not metabolized. The catechol-dehydroxylase activity was more efficient in E. isourolithinifaciens, while the reductase activity was more relevant in G. urolithinfaciens.

Topics & Concepts

Ellagic acidCatecholChemistryMetabolismBacteriaBiochemistryMicrobial metabolismGut bacteriaEllagitanninPolyphenolFood scienceBiologyGut floraAntioxidantGeneticsPomegranate: compositions and health benefitsPhytase and its ApplicationsGinkgo biloba and Cashew Applications
Metabolism of different dietary phenolic compounds by the urolithin-producing human-gut bacteria <i>Gordonibacter urolithinfaciens</i> and <i>Ellagibacter isourolithinifaciens</i> | Litcius