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Mechanisms Underlying the Effect of Tea Extracts on <i>In Vitro</i> Digestion of Wheat Starch

Liujing Li, Hanbin Xu, Jiaping Zhou, Jinglin Yu, Les Copeland, Shujun Wang

2021Journal of Agricultural and Food Chemistry27 citationsDOI

Abstract

The effect of extracts from four types of tea made from Camelia sinensis (green, white, black, and oolong) on in vitro amylolysis of gelatinized starch and the underlying mechanisms were studied. Of the four extracts, black tea extract (BTE) gave the strongest inhibition of starch digestion and on α-amylase activity. Fluorescence quenching and surface plasmon resonance (SPR) showed compounds in BTE bound to α-amylase more strongly than those in the green, white, and oolong tea extracts. Individual testing of five phenolic compounds abundant in tea extracts showed that theaflavins had a greater inhibitory effect than catechins on α-amylase. SPR showed that theaflavins had much lower equilibrium dissociation constants and therefore bound more tightly to α-amylase than catechins. We conclude that BTE had a stronger inhibitory effect on in vitro enzymatic starch digestion than the other tea extracts, mainly due to the higher content of theaflavins causing stronger inhibition of α-amylase.

Topics & Concepts

ChemistryAmylaseFood scienceStarchDigestion (alchemy)In vitroBlack teaBiochemistryEnzymeChromatographyFood composition and propertiesTea Polyphenols and EffectsPhytoestrogen effects and research
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