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lüll The use of biophysical methods increases success in obtaining liganded crystal structures Chung CWActa Crystallogr D Biol Crystallogr 2007[Jan]; 63 (Pt 1): 62-71In attempts to determine the crystal structure of small molecule-protein complexes, a common frustration is the absence of ligand binding once the protein structure has been solved. While the first structure, even with no ligand bound (apo), can be a cause for celebration, the solution of dozens of apo structures can give an unwanted sense of deja vu. Much time and material is wasted on unsuccessful experiments, which can have a serious impact on productivity and morale. There are many reasons for the lack of observed binding in crystals and this paper highlights some of these. Biophysical methods may be used to confirm and optimize solution conditions to increase the success rate of crystallizing protein-ligand complexes. As there are an overwhelming number of biophysical methods available, some of the factors that need to be considered when choosing the most appropriate technique for a given system are discussed. Finally, a few illustrative examples where biophysical methods have proven helpful in real systems are given.|*Ligands[MESH]|Amino Acid Sequence[MESH]|Binding Sites[MESH]|Biophysics/*methods[MESH]|Calorimetry[MESH]|Crystallization[MESH]|Crystallography, X-Ray/*methods[MESH]|Kinetics[MESH]|Magnetic Resonance Spectroscopy[MESH]|Models, Molecular[MESH]|Molecular Conformation[MESH]|Molecular Sequence Data[MESH]|Protein Binding[MESH]|Proteins/*chemistry[MESH]|Thermodynamics[MESH] |