VIEW ARTICLE DOI: 10.1094/ASBCJ-37-0096
Peroxidatic Step in Oxidation of Beers. Lucien Chapon and Sylvette Chapon, Laboratoire de Chimie Biologique II, U.E.R. Alimentation & Nutrition, Université de Nancy I, Nancy, France. J. Am. Soc. Brew. Chem. 37:0096, 1979.
The formation of H2O2 in the oxidation of primary reducers by O2 is well known. The reactions to which H2O2 can lead were studied on model solutions at pH 4, first under strict exclusion of O2, then in its presence. This type of oxidation was called peroxidatic and studied by injecting progressively H2O2 into an aqueous solution of ascorbic acid (AH2) as a hydrogen donor, in the presence of various catalysts and of some typical substrates of coupled oxidation (ethanol, catechin, glutathione, sulfite). The more active catalysts are iron complexes. The phenomena can be satisfactorily explained by assuming a chain mechanism initiated by hydroxyl radicals formed in a FENTON reaction between H2O2 and the reduced forms of the catalysts. The role of AH2 seems to be limited to bringing the catalyst back to its reduced form. Ethanol is the main substrate of coupled oxidation. It leads to ethanal. Polyphenols are not completely protected by ethanol. They polymerize to tannoids. Sulfhydryl compounds act as radical scavengers. In beer the result of manifold reactions of activation and inhibition of peroxidatic catalysts is observed.
Keywords: Activators, Ascorbic acid, Inhibitors, Oxidation, Peroxidatic catalysts, Substrates.