Role of the conserved acidic residue Asp21 in the structure of phosphatidylinositol 3-kinase Src homology 3 domain: circular dichroism and nuclear magnetic resonance studies.

To elucidate a role of the Src homology 3 (SH3)-conserved acidic residue Asp21 of the phosphatidylinositol 3-kinase (PI3K) SH3 domain, structural changes induced by the D21N mutation (Asp21 --> Asn) were examined by circular dichroism (CD) and nuclear magnetic resonance (NMR) spectroscopies. In the previous study, we demonstrated that environmental alterations occurred at the side chains of Trp55 and some Tyr residues from the comparison of the near-UV CD spectra of the PI3K SH3 domain with or without a D21N mutation [Okishio, N., et al. (2000) Biopolymers 57, 208-217]. In this work, the affected Tyr residues were identified as Tyr14 and Tyr73 by the CD analysis of a series of mutants, in which every single Tyr residue was replaced by a Phe residue with or without a D21N mutation. The (1)H and (15)N resonance assignments of the PI3K SH3 domain and its D21N mutant revealed that significant chemical shift changes occurred to the aromatic side-chain protons of Trp55 and Tyr14 upon the D21N mutation. All these aromatic residues are implicated in ligand recognition. In addition, the NMR analysis showed that the backbone conformations of Lys15-Asp23, Gly54-Trp55, Asn57-Gly58, and Gly67-Pro70 were affected by the D21N mutation. Furthermore, the (15)N[(1)H] nuclear Overhauser effect values of Tyr14, Glu19, and Glu20 were remarkably changed by the mutation. These results show that the D21N mutation causes structural deformation of more than half of the ligand binding cleft of the domain and provide evidence that Asp21 plays an important role in forming a well-ordered ligand binding cleft in cooperation with the RT loop (Lys15-Glu20).