Spectral Features and Stability of Oligomeric Pyranoanthocyanin-flavanol Pigments Isolated from Red Wines

Overview

Journal J Agric Food Chem

Specialties Chemistry
Nutritional Sciences

Date 2010 Aug 5

PMID 20681623

Citations 16

Authors

Jingren He

Alexandre R F Carvalho

Nuno Mateus

Victor de Freitas

Affiliations

Soon will be listed here.

Abstract

The spectral characteristics and stability of three red wine pigments (pyranoMv-catechin, pyranoMv-epicatechin, and pyranoMv-dimer B3) toward pH variation and bisulfite bleaching, as well as their color stability and degradation during storage, have been studied. Unlike the absorbance spectra of most wine pigments, the intensity of which is more increased in more acidic conditions, oligomeric pyranoMv-flavanols have maximum absorbance at wine pH around 3.6, up to 30-50% higher than that in pH 1.0. This particular hyperchromic effect shown in mildly acidic solutions suggests the presence of intramolecular copigmentation in the molecule of pyranoanthocyanin-flavanols, giving rise to higher molar extinction coefficients around wine pH and contributing to the overall wine color. The most probable conformations were determined by computer-assisted model building and molecular mechanics. Besides exceptional stability toward pH variations, pyranoanthocyanin-flavanols were also shown to be entirely resistant to bleaching by sulfur dioxide. During a 6 month storage period, pyranoanthocyanin-flavanols were much more stable against degradation than the anthocyanin with the following order: pyranoMv-catechin > pyranoMv-dimer B3 > pyranoMv-epicatechin > carboxy-pyranoMv ≫ Mv. Kinetic decomposition monitored by high-performance liquid chromatography-diode array detection-mass spectrometry revealed the formation of a new pigment (pyranone-Mv structure) and the cleavage of the interflavanic linkage of procyanidin dimer in the solutions containing carboxy-pyranoMv and pyranoMv-dimer B3, respectively. Despite some degree of decline of these oligomeric pyranoanthocyanins, their color intensity was surprisingly enhanced, and their color stability greatly improved throughout the entire storage period, thus contributing significantly as long-lived orange-red pigments to the maintenance of aged wine color.

Citing Articles

Impact of Condensed Tannin and Sulfur Dioxide Addition on Acetaldehyde Accumulation and Anthocyanin Profile of L. Cv. Cabernet Sauvignon Wines During Alcoholic Fermentation.

Wang Q, Cui X, Wang J, Chang H, Wang J, Zhang A Molecules. 2024; 29(22).

PMID: 39598628 PMC: 11596415. DOI: 10.3390/molecules29225238.

Factors affecting the stability of anthocyanins and strategies for improving their stability: A review.

Xue H, Zhao J, Wang Y, Shi Z, Xie K, Liao X Food Chem X. 2024; 24:101883.

PMID: 39444439 PMC: 11497485. DOI: 10.1016/j.fochx.2024.101883.

In Vitro Inhibition of Enzymes and Antioxidant and Chemical Fingerprinting Characteristics of Ruiz & Pav. Fruits, an Endemic Plant of the Valdivian Forest of Chile.

Hopfstock P, Romero-Parra J, Winterhalter P, Gok R, Simirgiotis M Plants (Basel). 2024; 13(19).

PMID: 39409626 PMC: 11478526. DOI: 10.3390/plants13192756.

Anthocyanins: Modified New Technologies and Challenges.

Lin Y, Li C, Shi L, Wang L Foods. 2023; 12(7).

PMID: 37048188 PMC: 10093405. DOI: 10.3390/foods12071368.

Stability and Antiproliferative Activity of Malvidin-Based Non-Oxonium Derivative (Oxovitisin A) Compared with Precursor Anthocyanins and Pyranoanthocyanins.

Wu M, Ma Y, Li A, Wang J, He J, Zhang R Molecules. 2022; 27(15).

PMID: 35956980 PMC: 9370602. DOI: 10.3390/molecules27155030.