P. Ferranti et al., COPRESENCE OF DELETED PROTEIN SPECIES GENERATES STRUCTURAL HETEROGENEITY OF OVINE ALPHA(S1)-CASEIN, Journal of agricultural and food chemistry, 46(2), 1998, pp. 411-416
Multiple forms of mature alpha(s1)-casein have been characterized in o
vine variants A and D using a combination of mass spectrometry and aut
omated Edman degradation. Mature ovine alpha(s1)-casein was found to b
e a heterogeneous mixture of at least seven molecular species. The mai
n component, representing about 50% total alpha(s1)-casein, correspond
ed to the full-length (199 residues long) protein. The other component
s were alpha(s1)-casein of different lengths: 198 (less Gln78), 191 (l
ess peptide 110-117), 191 residues (less peptide 140-148), 190 (less p
eptide 110-117 and Gln78), 190 (less peptide 140-148 and Gln78), and 1
83 (less peptides 110-117 and 140-148) residues long alpha(s1)-casein.
Each of the alpha(s1)-casein multiple forms occurred at three differe
nt phosphorylation levels, due to the partial phosphorylation of both
Ser115 (at about 50%) and Ser41 (at about 20%). In the case of deleted
peptide 110-117, the protein heterogeneity linked to the partially ph
osphorylated Ser115 was abolished, and only two levels of phosphorylat
ion were observed. These multiple forms differing in molecular weight
and degree of phosphorylation may have been developed from an exon ski
pping during mRNA splicing in ovine alpha(s1)-casein, similar to that
recently described in the case of its caprine counterpart.