Reaction between Hydroxycinnamic Acids and Anthocyanin−Pyruvic Acid Adducts Yielding New Portisins

Three new anthocyanin-derived pigments were found to occur in a 2-year-old Port red wine. Their structures were elucidated through LC/DAD-MS and NMR analysis and were found to correspond to a pyranoanthocyanin moiety linked to substituted cinnamyl substituents. The structures of these compounds are...

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Bibliographic Details
Published in:Journal of agricultural and food chemistry 2007-07, Vol.55 (15), p.6349-6356
Main Authors: Oliveira, Joana, de Freitas, Victor, Silva, Artur M. S, Mateus, Nuno
Format: Article
Language:English
Subjects:
anthocyanins
Anthocyanins - analysis
Anthocyanins - chemistry
Biological and medical sciences
chemical bonding
chemical reactions
chemical structure
Color
coumaric acids
Coumaric Acids - chemistry
Fermented food industries
Food industries
Fundamental and applied biological sciences. Psychology
mass spectrometry
nuclear magnetic resonance spectroscopy
pigments
port wines
portisins
pyruvic acid
Pyruvic Acid - chemistry
reaction kinetics
red wines
Wine - analysis
wine aging
Wines and vinegars
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Summary:Three new anthocyanin-derived pigments were found to occur in a 2-year-old Port red wine. Their structures were elucidated through LC/DAD-MS and NMR analysis and were found to correspond to a pyranoanthocyanin moiety linked to substituted cinnamyl substituents. The structures of these compounds are very similar to the one already reported for portisins, with a phenolic moiety replacing the catechin moiety. The newly formed anthocyanin-derived compounds display a bathochromic shift of the λmax (∼540 nm) when compared with their anthocyanin−pyruvic acid adduct precursor (λmax = 511 nm), which may be due to the extended conjugation of the π electrons in the structures of those pigments. Studies performed in model solutions helped to clarify the formation mechanism of these pigments that can result from the nucleophilic attack of the olefinic double bond of a hydroxycinnamic acid to the eletrophilic C-10 position of the anthocyanin−pyruvic acid adduct, followed by the loss of a formic acid molecule and decarboxylation. The chromatic characterization of these malvidin-3-glucoside-derived compounds revealed a higher resistance to discoloration against the nucleophilic attack by water and bisulfite when compared to malvidin-3-glucoside that is almost converted into its colorless hemiacetal form. However, the resistance to discoloration of these new pigments is not as high as the one reported for catechin-derived portisins. This could be explained by the presence of a smaller group (hydroxycinnamyl group), which does not protect so efficiently the chromophore against nucleophilic attack at the C-2 position. The occurrence of these pigments in red wine highlights new chemical pathways involving anthocyanin−pyruvic acid derivatives as precursors for the formation of new pigments in subsequent stages of wine aging that may contribute to its color evolution. Keywords: Portisins; hydroxycinnamic acids; wine; model solutions; anthocyanin; pyruvic acid
ISSN:0021-8561
1520-5118
DOI:10.1021/jf070968f