Assessing the heat induced changes in major cow and non-cow whey proteins conformation on kinetic and thermodynamic basis

In this study, the RP-HPLC technique was used as the main analytical method to measure the residual native -lactoglobulin and -lactalbumin concentration after heat treatment in raw milk from three different species (goat, sheep and cow). Further, a detailed comparative kinetic study of -lactoglobulin and -lactalbumin denaturation was carried out at temperature ranging from 72.5 to 90 ◦C. Kinetic studies showed that the thermal denaturation of -lactoglobulin followed biphasic behavior, resulting in activation energy of 91.68 ± 13.18 kJ mol−1, 137.13 ± 25.25 kJ mol−1 and 62.11 ± 3.26 kJ mol−1 for the denaturated fraction in goat, sheep and cow milk and 307.91 ± 61.29 kJ mol−1, 158.99 ± 23.64 kJ mol−1 and 170.18 ± 43.61 kJ mol−1 for the native fraction in milk samples. -Lactalbumin denaturation followed the first-order kinetics, resulting in activation energy values of 202.65 ± 1.42 kJ mol−1, 155.56 ± 5.53 kJ mol−1 and 140.44± 6.14 kJ mol−1 respectively in goat, sheep and cow milk. The heat-induced changes in protein structure were outlined after running molecular dynamics simulations at different temperatures, supporting the experimental observations. These experiments were conducted only for cow and goat -lactalbumin and were limited by the lack of protein structures from databases.