1A08
C-SRC (SH2 DOMAIN) COMPLEXED WITH ACE-DIFLUORO PHOSPHOTYR-GLU-(N,N-DIPENTYL AMINE)
Summary for 1A08
| Entry DOI | 10.2210/pdb1a08/pdb |
| Descriptor | C-SRC TYROSINE KINASE, ACE-DIFLUORO PHOSPHOTYR-GLU-(N,N-DIPENTYL AMINE) (3 entities in total) |
| Functional Keywords | complex (transferase-peptide), complex (transferase-peptide) complex, complex (transferase/peptide) |
| Biological source | Homo sapiens (human) |
| Cellular location | Cell membrane : P12931 |
| Total number of polymer chains | 4 |
| Total formula weight | 25786.99 |
| Authors | Shewchuk, L.,Jordan, S. (deposition date: 1997-12-09, release date: 1998-04-08, Last modification date: 2023-08-02) |
| Primary citation | Charifson, P.S.,Shewchuk, L.M.,Rocque, W.,Hummel, C.W.,Jordan, S.R.,Mohr, C.,Pacofsky, G.J.,Peel, M.R.,Rodriguez, M.,Sternbach, D.D.,Consler, T.G. Peptide ligands of pp60(c-src) SH2 domains: a thermodynamic and structural study. Biochemistry, 36:6283-6293, 1997 Cited by PubMed Abstract: Thermodynamic measurements, structural determinations, and molecular computations were applied to a series of peptide ligands of the pp60(c-src) SH2 domain in an attempt to understand the critical binding determinants for this class of molecules. Isothermal titration calorimetry (ITC) measurements were combined with structural data derived from X-ray crystallographic studies on 12 peptide-SH2 domain complexes. The peptide ligands studied fall into two general classes: (1) dipeptides of the general framework N-acetylphosphotyrosine (or phosphotyrosine replacement)-Glu or methionine (or S-methylcysteine)-X, where X represents a hydrophobic amine, and (2) tetra- or pentapeptides of the general framework N-acetylphosphotyrosine-Glu-Glu-Ile-X, where X represents either Glu, Gln, or NH2. Dipeptide analogs which featured X as either hexanolamine or heptanolamine were able to pick up new hydrogen bonds involving their hydroxyl groups within a predominantly lipophilic surface cavity. However, due to internal strain as well as the solvent accessibility of the new hydrogen bonds formed, no net increase in binding affinity was observed. Phosphatase-resistant benzylmalonate and alpha,alpha-difluorobenzyl phosphonate analogs of phosphotyrosine retained some binding affinity for the pp60(c-src) SH2 domain but caused local structural perturbations in the phosphotyrosine-binding site. In the case where a reversible covalent thiohemiacetal was formed between a formylated phosphotyrosine analog and the thiol side chain of Cys-188, deltaS was 25.6 cal/(mol K) lower than for the nonformylated phosphotyrosine parent. Normal mode calculations show that the dramatic decrease in entropy observed for the covalent thiohemiacetal complex is due to the inability of the phosphotyrosine moiety to transform lost rotational and translational degrees of freedom into new vibrational modes. PubMed: 9174343DOI: 10.1021/bi970019n PDB entries with the same primary citation |
| Experimental method | X-RAY DIFFRACTION (2.2 Å) |
Structure validation
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