Journal
CHEMBIOCHEM
Volume 6, Issue 10, Pages 1891-1898Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/cbic.200500092
Keywords
kinases; molecular dynamics; NMR spectroscopy; phosphatases; proteins
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Here we present an NMR-based approach to solving protein-ligand structures. The procedure is guided by biophysical, biochemical, or knowledge-based data. The structures ore mainly derived from ligand-induced chemical-shift perturbations (CSP) induced in the resonances of the protein and ligand-detected saturated transfer difference signals between ligands and selectively labeled proteins (SOS-NMR). Accuracy, as judged by comparison. with X-ray results, depends on the nature and completeness of the experimental data. An experimental protocol is proposed that starts with calculations that make, use of readily available chemical-shift perturbations as experimental. constraints. If necessary, more sophisticated experimental results have to be added to improve,the accuracy of the protein-ligand complex structure. The criteria for evaluation and selection of meaningful complex structures are discussed. These are exemplified for three complexes,, and we show that the approach bridges the gap between theoretical docking approaches and complex NMR schemes for determining protein-ligand complexes; especially for relatively weak binders that do not lead to Intermolecular NOEs.
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