Influence of Acetaldehyde Induction on Monomeric and Polymeric Polyphenols in Wine using the Polyphenol/Protein-binding Model

Since the grape skin and seed contain different phenolic substances, the proportion of the skin and seed will affect the wine mouthfeel during the wine making process. During the wine ageing, the interaction between flavanols with anthocyanins is an important reaction and considered linked to astringency. Hence, a major question is whether changing the skin-seed ratio will affect the polymerization of phenolic substances in wine, thus affecting the astringency of wine. To answer this, astringency of wine was studied by changing the content of grape skins and seeds by SDS-PAGE, fluorescence quenching and sensory taste. Besides, acetaldehyde-mediated condensation reaction between different flavan-3-ols and malvidin-3-glucoside were studied in model solution.The result showed that grape skins and seeds contribute differently to astringency sensation, mainly because of the difference in the type and content of flavanols and anthocyanins contained in them. In addition, acetaldehyde-induced flavan-3-ols: anthocyanin mixture presents a strong effect toward the interaction with BSA when compared to other phenolic combinations. Furthermore, it was observed that the protein-binding ability of the polyphenols in red wine has a strong correlation with the wine astringency intensity.

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“…Components of model wine solutions were selected on basis of those in real red wines (Wang et al, 2018).…”

Section: Fluorescence Measurementmentioning

confidence: 99%

Characterization of wine astringency contributed by acetaldehyde-mediated condensation between flavan-3-ols and grape skin/seeds polyphenol

Wang

LIU

et al. 2022

Food Sci. Technol

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Wine aging and artificial simulated wine aging: Technologies, applications, challenges, and perspectives

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Food Research International

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The perception and influencing factors of astringency, and health-promoting effects associated with phytochemicals: A comprehensive review

Wei

Wang

Luo

et al. 2023

Food Research International

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Influence of Acetaldehyde Induction on Monomeric and Polymeric Polyphenols in Wine using the Polyphenol/Protein-binding Model

Cited by 4 publications

References 33 publications

Characterization of wine astringency contributed by acetaldehyde-mediated condensation between flavan-3-ols and grape skin/seeds polyphenol

Characterization of wine astringency contributed by acetaldehyde-mediated condensation between flavan-3-ols and grape skin/seeds polyphenol

Wine aging and artificial simulated wine aging: Technologies, applications, challenges, and perspectives

The perception and influencing factors of astringency, and health-promoting effects associated with phytochemicals: A comprehensive review

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