Disulphide bonds play an important role in protein structure and function. Bovine kappa-casein (kappa-csn), an important glycoprotein in milk, contains two cysteines that can form disulphide bonds. On 2-D gels run under nonreducing conditions the kappa-csn in milk presented a complex pattern of monomers and disulphide-linked oligomers. Trains of spots corresponding to monomers to hexamers were observed as a result of the participation of different glycoforms and phosphoforms in oligomer formation. The dimers and trimers ran as doublets on the gel and analysis of the disulphide-linked peptides released from them after in-gel tryptic digestion showed they were the result of different disulphide linkages. The linkages were confirmed by MSMS. When milks with electrophoretically distinct genetic variants of kappa-csn were mixed and run on 2-D gels, they retained their distinct patterns indicating that disulphide exchange reactions or disulphide 'scrambling' was not occurring during 2-D analysis. The patterns observed represent the native distribution of kappa-csn in milk at harvest. The role and significance of the disulphide bonding of kappa-csn are discussed.