p-Hydroxyphenyl-pyranoanthocyanins: An Experimental and Theoretical Investigation of Their Acid—Base Properties and Molecular Interactions

Vallverdú‐Queralt, Anna; Biler, Michal; Meudec, Emmanuelle; Guernevé, Christine Le; Vernhet, Aude; Mazauric, Jean-Paul; Legras, Jean Luc; Loonis, Michèle; Trouillas, Patrick; Cheynier, Véronique; Dangles, Olivier

doi:10.3390/ijms17111842

Cited by 28 publications

(26 citation statements)

References 26 publications

(45 reference statements)

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“…In this context, the most important C-centered nucleophiles are electron-rich C–C double bonds, such as 4-vinylphenols (4-hydroxystyrenes), formed upon microbial decarboxylation of 4-hydroxycinnamic acids ( Figure 6 ) and the enol forms of various aldehydes and ketones such as pyruvic acid and ethanal (acetaldehyde) [ 8 , 9 ]. In the process, new pigments, called pyranoanthocyanins, are formed, which are resistant to nucleophilic addition at C2 and C4 [ 10 , 11 , 12 ]. Their color (shifted to orange-red, compared to the corresponding flavylium ion) is thus more stable.…”

Section: The Basis Of Anthocyanin Chemistrymentioning

confidence: 99%

The Chemical Reactivity of Anthocyanins and Its Consequences in Food Science and Nutrition

2018

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Owing to their specific pyrylium nucleus (C-ring), anthocyanins express a much richer chemical reactivity than the other flavonoid classes. For instance, anthocyanins are weak diacids, hard and soft electrophiles, nucleophiles, prone to developing π-stacking interactions, and bind hard metal ions. They also display the usual chemical properties of polyphenols, such as electron donation and affinity for proteins. In this review, these properties are revisited through a variety of examples and discussed in relation to their consequences in food and in nutrition with an emphasis on the transformations occurring upon storage or thermal treatment and on the catabolism of anthocyanins in humans, which is of critical importance for interpreting their effects on health.

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Section: The Basis Of Anthocyanin Chemistrymentioning

confidence: 99%

The Chemical Reactivity of Anthocyanins and Its Consequences in Food Science and Nutrition

2018

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“…Perceived hue and colour stability are determined by the unique chemical structure of a range of phenolic substances, consisting of at least one benzene ring with one or more hydroxyl groups, and a system of conjugated π electrons which may or may not absorb in the visible region (Aleixandre‐Tudo et al 2017). Conjugation lowers the energy required for electron transitions to take place between OH‐phenolic groups, causing an increase of absorption wavelengths in the UV–Vis spectra and subsequent displays of colour (Vallverdú‐Queralt et al 2016, Waterhouse et al 2016b). As such, the visible colour of a compound is influenced by its degree of conjugation, with less conjugation causing a material to absorb light at shorter wavelengths (perceived as yellow and red hues) and greater conjugation causing absorption at longer wavelengths (perceived as blue and green hues) (Sanna et al 2014).…”

Section: Phenolic Compounds and Wine Colourmentioning

confidence: 99%

Mathematical modelling to enhance winemaking efficiency: a review of red wine colour and polyphenol extraction and evolution

Tindal

Jeffery

Muhlack

2021

Australian Journal of Grape and Wine Research

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Red wine quality is determined greatly by phenolic substances whose presence relies on extraction of grape skins and seeds during fermentation. Monitoring phenolic behaviour is beneficial for fermentation management because of the importance of maceration during red winemaking and its influence on phenolics that contribute to predominant red wine characteristics, such as colour, flavour and mouthfeel. Properly quantifying the kinetics associated, however, with red grape and wine phenolics is an intricate process. This review focuses on the extraction and ensuing reactions of principal phenolic substances during various stages of red winemaking as described by dynamic and spatial mathematical models. The extraction and reaction phenomena are concurrently influenced by several environmental and technological factors during fermentation, such as temperature, oxidation and mixing regimes, resulting in complex phenolic behaviour over time. As such, employing mathematical modelling is extremely useful for ascertaining the kinetic and spatial basis for phenolic behaviour, and the models significantly enhance the existing understanding of the extraction and reaction mechanisms of phenolic substances that are critical to red wine quality. Ultimately, this knowledge will allow for the development of predictive tools for phenolic extraction based on fruit composition and can potentially contribute to increased wine quality with optimised and sustainable production practices.

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“…Regarding the molecular structure modification, the change in the absorption spectra was analyzed in a theoretical study of pyranoanthocyanins [ 31 ] showing that the site of deprotonation could change the theoretical UV-Vis spectra. Thus, in DpS, the position where the hydrogen atom was substituted by the aliphatic chain also produces different spectra for the anthocyanin-esters.…”

Section: Resultsmentioning

confidence: 99%

Theoretical Characterization by Density Functional Theory (DFT) of Delphinidin 3-O-Sambubioside and Its Esters Obtained by Chemical Lipophilization

et al. 2018

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Anthocyanins are water-soluble phenolic pigments. However, their poor solubility in lipidic media limits their use. This hurdle can be overcome with the lipophilization of anthocyanins, which consists of adding an aliphatic chain to a hydrophilic compound, in order to increase its solubility in lipids. Still, the unspecific chemical lipophilization of anthocyanin-esters produces molecules with different properties from their precursors. In this work, experimental changes of anthocyanin-esters obtained by chemical lipophilization are investigated in silico aiming specifically at observing their molecular behavior and comparing it with their anthocyanin precursor. Thus, the analysis of delphinidin 3-O-sambubioside and its esters employing Density Functional Theory (DFT) methods, such as the hybrid functional B3LYP in combination with the 6-31++G(d,p) Pople basis set, provides the ground state properties, the local reactivity and the molecular orbitals (MOs) of these compounds. Excited states properties were analyzed by TD-DFT with the B3LYP functional, and the M06 and M06-2X meta-GGA functionals. Local reactivity calculations showed that the electrophilic site for all the anthocyanin-esters was the same as the one for the anthocyanin precursor, however the nucleophilic site changed depending localization of the esterification. TD-DFT results indicate that the place of esterification could change the electronic transitions and the MOs spatial distribution.

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p-Hydroxyphenyl-pyranoanthocyanins: An Experimental and Theoretical Investigation of Their Acid—Base Properties and Molecular Interactions

Cited by 28 publications

References 26 publications

The Chemical Reactivity of Anthocyanins and Its Consequences in Food Science and Nutrition

The Chemical Reactivity of Anthocyanins and Its Consequences in Food Science and Nutrition

Mathematical modelling to enhance winemaking efficiency: a review of red wine colour and polyphenol extraction and evolution

Theoretical Characterization by Density Functional Theory (DFT) of Delphinidin 3-O-Sambubioside and Its Esters Obtained by Chemical Lipophilization

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