Phosphorylation of phosvitin by casein kinase-2 provides the evidence that phosphoserines can replace carboxylic amino acids as specificity determinants.

The consensus sequence of casein kinase-2 consists of a serine (threonine) followed by a cluster of glutamic and/or aspartic acids, the one at position +3 playing an especially crucial role (Marin et al., (1986) Eur. J. Biochem. 160, 239-244 and Kuenzel et al. (1987) J. Biol. Chem. 262, 9136-9140). None of the 123 serines of the main phosvitin component (34 kDa) fulfils such a requirement (Byrne et al. (1984) Biochemistry 23, 4275-4279), rather, most of them are clustered into stretches of up to 14 entirely phosphorylated residues. Three out of the four threonines lie close to the N-terminal side of such phosphoseryl blocks. Here we show that native 34 kDa phosvitin is a poor substrate of casein kinase-2, its radiolabeling occurring mostly at threonine residue(s); a very slight (1%) previous dephosphorylation with acid phosphatase converts phosvitin into an excellent substrate for casein kinase-2, its phosphorylation occurring almost exclusively at serine residues. Extensive dephosphorylation however (greater than 40%) reduces the phosphorylation efficiency of casein kinase-2. These results show that phosphoserine residues can replace carboxylic residues as specificity determinants for casein kinase-2.