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Comparing the Chemistry of Malvidin-3‑O‑glucoside and Malvidin-3,5‑O‑diglucoside Networks: A Holistic Approach to the Acidic and Basic Paradigms with Implications in Biological Studies

The kinetics, thermodynamics, and degradation of malvidin mono- and diglucosides were studied following a holistic approach by extending to the basic medium. In acidic conditions, the reversible kinetics of the flavylium cation toward the equilibrium is controlled by the hydration and cis–trans isom...

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Published in:	Journal of agricultural and food chemistry 2024-04, Vol.72 (13), p.7497-7510
Main Authors:	Seco, André, Pereira, Ana Rita, Camuenho, Ambrósio, Oliveira, Joana, Dias, Ricardo, Brás, Natércia F., Basílio, Nuno, Parola, A. Jorge, Lima, João C., de Freitas, Victor, Pina, Fernando
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Language:	English
Subjects:	Anthocyanins - metabolism cations cis-trans isomerism food chemistry Functional Structure/Activity Relationships Glucosides Lewis bases malvidin Thermodynamics
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creator	Seco, André Pereira, Ana Rita Camuenho, Ambrósio Oliveira, Joana Dias, Ricardo Brás, Natércia F. Basílio, Nuno Parola, A. Jorge Lima, João C. de Freitas, Victor Pina, Fernando
description	The kinetics, thermodynamics, and degradation of malvidin mono- and diglucosides were studied following a holistic approach by extending to the basic medium. In acidic conditions, the reversible kinetics of the flavylium cation toward the equilibrium is controlled by the hydration and cis–trans isomerization steps, while in the basic medium, the OH– nucleophilic addition to the anionic quinoidal bases is the slowest step. There is a pH range (transition pHs), between the acidic and basic paradigms, that includes physiological pH (7.4), where degradation reactions occur faster, preventing the system from reaching the equilibrium. The transition pH of the diglucoside is narrower, and in contrast with the monoglucoside, there is no evidence for the formation of colored oligomers among the degradation products. Noteworthy, OH– addition in position 4 to form B42–, a kinetic product that decreases the overall equilibration rate, was observed only for the diglucoside.
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source	American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list)
subjects	Anthocyanins - metabolism cations cis-trans isomerism food chemistry Functional Structure/Activity Relationships Glucosides Lewis bases malvidin Thermodynamics
title	Comparing the Chemistry of Malvidin-3‑O‑glucoside and Malvidin-3,5‑O‑diglucoside Networks: A Holistic Approach to the Acidic and Basic Paradigms with Implications in Biological Studies
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