Effects of reaction conditions on Nε-(1-Carboxymethyl)-L-lysine formation in reducing sugar-lysine mode reaction systems

A This study aimed to employ three reducing sugar (fructose, galactose and glucose)-lysine mode reaction systems (FLMRS, GaLMRS and GLMRS) in examining the influences of reaction conditions, such as initial pH value, reaction temperature, and time on the Nε-(1-Carboxymethyl)-L-lysine (CML) formation. Results indicated that the initial pH value were positively correlated with the CML content in the system. However, the influence of reaction temperature and time on the CML content in the system displayed an initial increasing trend followed by a decline. A temperature of 100.58/125.24/123.24 ° C and a heating time of 30.00/24.66/25.38 min maximized the formation of CML on FLMRS/GaLMRS/GLMRS and resulted in a CML production of 2.11/1.39/1.34 mmol/mol lysine of response surface methodology. The results of this study would provide particular theoretical support for studying the formation mechanism and control methods of CML in food processing.