Ethanol stability of casein micelles cross-linked with transglutaminase

The influence of transglutaminase (TGase)-induced cross-linking on the ethanol stability of skimmed milk was investigated. The stability of milk against ethanol-induced coagulation increased in sigmoidal fashion with milk pH (5.0–7.5) for all samples; ethanol stability also increased upon incubation (0–24 h) with 0.05 g L−1 TGase at 30 °C. In untreated milk, addition of ethanol induced a collapse of the polyelectrolyte brush of κ-casein on the micelle surface, thereby facilitating micellar aggregation. Dynamic and static light scattering measurements indicated that in TGase-treated milk, the ethanol-induced collapse of the polyelectrolyte brush was far less than in untreated milk, suggesting that the increased ethanol stability of TGase-treated casein micelles is caused by the cross-linking of the polyelectrolyte brush on the micellar surface.