Czech Journal of Food Sciences (Jun 2010)
Effect of pressure on the Maillard reaction between ribose and cysteine in supercritical carbon dioxide
Abstract
An aqueous ribose-cysteine model system, heated at 140°C under supercritical carbon dioxide (SC-CO2) and supercritical nitrogen (SC-N2), was investigated with emphasis on the formation of volatile compounds. In general, SC-CO2 facilitated the overall intermediates accumulation while suppressing the advanced stage of browning. 3-Methyl-1, 2-dithian-4-one increased with increasing SC-CO2 pressure, and was always more concentrated than in the case of SC-N2-treatment. The formation of thiols, disulfides, and formyl substituted thiophenes was also promoted in SC-CO2-treated reaction products, while the effect of high pressure on the individual components followed different patterns. The reversible pH decrease and reinforced acid-base catalysis of 2, 3-enolisation by SC-CO2 could attribute to the decreased browning and higher amounts of most intense meaty aromatic compounds.
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