Oxygen-induced enzymatic and chemical degradation kinetics in wine model solution of selected phenolic compounds involved in browning
Marco Bustamante, Mariona Gil-Cortiella, Álvaro Peña‐Neira, Jordi Gombau, Aitor García-Roldán, Matias Cisterna, Xavier Montané, Francesca Fort, Nicolás Rozés, Joan Miquel Canals, Fernando Zamora
Abstract
Hydroxycinnamic and hydroxybenzoic acids are phenolic compounds that, upon oxidation, intensify browning, thus compromising the organoleptic quality of musts and white wines. This process is enhanced by the presence laccase, which is present in grapes after Botrytis cinerea infection. The aim of this study was to evaluate the kinetics of enzymatic and non-enzymatic degradation and browning of 15 phenolic compounds. Generally, hydroxycinnamic acids are more prone to degradation and browning reactions than hydroxybenzoic acids. The substituents present in the aromatic ring are key for determining their reaction rate. Indeed, the presence of both hydroxyl and methoxy substituents on the aromatic ring appears to facilitate enzymatic degradation in all the compounds studied. On the other hand, browning did not display a direct correlation with the degradation rate of the phenols. Finally, the chemical structure features of phenols were a reliable predictor of both browning and degradation rates. • Degradation kinetics of fifteen phenolic compounds by the action of laccase has been studied. • Hydroxycinnamic acids are more susceptible to degradation and browning processes than hydroxybenzoic acids. • The substituents present in the aromatic ring are key for determining their reaction rate. • Chemical structures features performed well in estimating the degradation rates. • There is no a clear relationship between the consumption of these compounds and the browning intensity.