Towards the understanding of molecular mechanisms in the early stages of heat-induced aggregation of β-lactoglobulin AB

Abstract Heat-induced aggregation of bovine β-lactoglobulin AB (10 mg/ml) was studied at 68.5 °C at two different pH values (6.7, 4.9) using gel electrophoresis techniques and matrix-assisted laser desorption ionization mass spectrometry (MALDI–TOF MS). Sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS–PAGE) analysis under non-reducing and reducing conditions showed that in the early stages of the aggregation of β-lactoglobulin disulfide linked aggregates were formed on heating at pH 6.7, but not at pH 4.9. We related this result to the pH-dependent activity of the free thiol group at C121. Mass spectrometric analyses were conducted in two steps. The first involved the analysis of intact non-native monomers and dimers following their ultrasonic passive elution into a suitable solvent mixture in order to confirm the identity of the different gel bands. The second step comprises the analysis of in-gel digests for the determination of disulfide patterns in non-native monomers, covalent dimers and trimers. The results of in-gel digestions analyzed by mass spectrometry suggest that non-native dimers could result from the formation of inter-molecular disulfide bonds C121–C66, C160–C160, or C121–C160. Moreover, two inter-molecular bonds C121–C66 and C160–C160 between two and the same monomer units have been detected, which may play an important role in limiting the process of covalent β-lactoglobulin network formation. The combination of SDS–PAGE and MALDI–TOF MS enables us to understand the mechanism of β-lactoglobulin aggregation at the macromolecular level.