Low levels of b-mercaptoethanol (up to 0.5%, v/v) were added to k-casein and b-lactoglobulin solutions (5 mg mL 1), mixtures thereof, and milk. The reduction of disulphide bonds was monitored over time for up to 24 h, using micro-fluidic electrophoresis, at temperatures ranging from 20 to 50 C. Lower concentrations of b-mercaptoethanol and a shorter reaction time were required to reduce k-casein to the same extent as b-lactoglobulin. This suggests that the intermolecular disulphide bonds of k-casein were more accessible than the intra-molecular disulphide bonds of b-lactoglobulin. The reduction of b-lactoglobulin at any b-mercaptoethanol concentration and reaction time was enhanced as the temperature increased up to 50 C. The level of reduced k-casein increased with increasing temperature during the first 2 h; however, as the reaction time was prolonged, the level of monomeric k-casein decreased. This suggests that monomeric k-casein can re-form disulphide bonds via either re-oxidation or thiol-disulphide exchange reactions.