Common and differential recognition of structural features in synthetic peptides by the catalytic domain and the Src-homology 2 (SH2) domain of pp60c-src.

The relative efficiencies of the catalytic domain of the src-family kinase pp60c-src in phosphorylating four peptide substrates including (i) src-optimal peptide (AEEEIYGEFEAKKKK), (ii) "-YEEI-peptide" (KKTHQEEEEPQYEEIPIYL), (iii) cdc2(6-20) (KVEKIGEGTYGVVYK), (iv) src-autophosphorylation site peptide (ADFGLARLIEDNEYTARG) and the relative efficiencies of its SH2 domain in binding the phosphorylated forms of these peptide substrates were compared. The results show that the src-optimal peptide, "-YEEI-peptide," cdc2(6-20) peptide were phosphorylated by the catalytic domain with high efficiency and that the phosphorylated form of all three peptides could bind the SH2 domain of the kinase, confirming the hypothesis proposed by Songyang and co-workers that the catalytic domain of pp60c-src phosphorylates sites which are recognized by its own SH2 domain (Songyang et al. (1995) Nature 373, 536-539). The four peptides were phosphorylated by the kinase with relative efficiencies in the order of Src-optimal peptide > "-YEEI-peptide" > cdc2(6-20) >> src-autophosphorylation site peptide. However, the Tyr(P)-Src-optimal peptide and [pY]15cdc2(6-20) bound to the SH2 domain of the kinase with an affinity at least an order of magnitude lower than that of the tight-binding peptide, "-pYEEI-peptide." Thus, our study suggests that the catalytic and SH2 domains of pp60c-src recognize overlapping but not identical determinants in the local structure around the tyrosine phosphorylation site of the substrate peptides.