Enzymolysis Reaction Kinetics and Liquid Chromatography High-Resolution Mass Spectrometry Analysis of Ovalbumin Glycated with Microwave Radiation

Microwave radiation was adopted to accelerate glycation between ovalbumin (OVA) and d-glucose. We evaluated the digestibility of glycated OVA from the perspective of kinetics, using pepsin and trypsin as model enzymes. Hydrolysed protein concentrations, enzymolysis kinetics, and activation energy (Ea) were investigated. The results showed that, under the conditions of simulating human digestion, the hydrolysis rate of OVA by pepsin was faster than that by trypsin, but for digestive enzymes, the digestion efficiency of OVA hydrolyzed by trypsin was higher. It was found that the rate constant of enzymatic hydrolysis of OVA was independent of the initial concentration of OVA but related to the type of protease and temperature. The reaction rate constants of glycated OVAs were significantly higher than that of native OVA during enzymolysis. Ea required for glycated OVA enzymatic hydrolysis by pepsin decreased, while that required by trypsin enzymatic hydrolysis nearly doubled. Liquid chromatography high-resolution mass spectrometry revealed that sample 1 had three glycated sites (R111, K227, and K264), sample 2 had two glycated sites (K207 and K323), sample 3 had five glycated sites (R127, R159, K227, R340, and K370), sample 4 had three glycated sites (R85, R143, and K323), and sample 5 had two glycated sites (R51 and R59). These sites increased Ea required for enzymatic hydrolysis of glycated OVA by trypsin.