Experimental and computational mapping of the binding surface of a crystalline protein

Multiple Solvent Crystal Structures (MSCS) is a crystallographic technique to identify energetically favorable positions and orientations of small organic molecules on the surface of proteins. We determined the high-resolution crystal structures of thermolysin (TLN), generated from crystals soaked i...

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Bibliographic Details
Published in:Protein engineering 2001-01, Vol.14 (1), p.47-59
Main Authors: English, Andrew C., Groom, Colin R., Hubbard, Roderick E.
Format: Article
Language:English
Subjects:
Acetone - antagonists & inhibitors
Acetonitriles - antagonists & inhibitors
Binding Sites
Computer-Aided Design
Crystallography, X-Ray
Drug Design
Hydrogen Bonding
inhibitors
Ligands
Models, Molecular
Molecular Structure
organic solvent
Phenol - antagonists & inhibitors
Protease Inhibitors - chemistry
Protein Binding
Protein Conformation
Protein Structure, Secondary
Solvents
Static Electricity
structure-based drug design
Thermodynamics
Thermolysin - chemistry
Water - chemistry
X-ray crystallography
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Summary:Multiple Solvent Crystal Structures (MSCS) is a crystallographic technique to identify energetically favorable positions and orientations of small organic molecules on the surface of proteins. We determined the high-resolution crystal structures of thermolysin (TLN), generated from crystals soaked in 50–70% acetone, 50–80% acetonitrile and 50 mM phenol. The structures of the protein in the aqueous–organic mixtures are essentially the same as the native enzyme and a number of solvent interaction sites were identified. The distribution of probe molecules shows clusters in the main specificity pocket of the active site and a buried subsite. Within the active site, we compared the experimentally determined solvent positions with predictions from two computational functional group mapping techniques, GRID and Multiple Copy Simultaneous Search (MCSS). The experimentally determined small molecule positions are consistent with the structures of known protein–ligand complexes of TLN.
ISSN:0269-2139
1741-0126
1460-213X
1741-0134
DOI:10.1093/protein/14.1.47