期刊
PROTEINS-STRUCTURE FUNCTION AND BIOINFORMATICS
卷 74, 期 3, 页码 603-611出版社
WILEY
DOI: 10.1002/prot.22176
关键词
buried water; protein-water interaction; FKBP12; molecular dynamics simulation
资金
- University of Pennsylvania's Nano/Bio Interface Center through the National Science Foundation (NSF) NSEC [DMR-0425780]
- Laboratory for Research on the Structure of Matter through NSF MRSEC [DMR05-20020]
- NSF [NIRT BES 0210777]
Globular proteins often contain structurally well-resolved internal water molecules. Previously, we reported results from a molecular dynamics study that suggested that buried water (Wat3) may play a role in modulating the structure of the FK506 binding protein-12 (FKBP12) (Park and Saven, Proteins 2005;60:450-463). In particular, simulations suggested that disrupting a hydrogen bond to Wat:3 by mutating E60 to either A or Q would cause a structural perturbation involving the distant W59 side chain, which rotates to a new conformation in response to the mutation. This effectively remodels the ligand-binding pocket, as the side chain in the new conformation is likely to clash with bound FK506. To test whether the protein structure is in effect modulated by the binding of a buried water in the distance, we determined high-resolution (0.92-1.29 angstrom) structures of wild-type FKBP12 and its two mutants (E60A, E60Q) by X-ray crystallography. The structures of mutant FKBP12 show that the ligand-binding pocket is indeed remodeled as predicted by the substitution at position 60, even though the water molecule does not directly interact with any of the amino acids of the binding pocket. Thus, these structures support the view that buried water molecules constitute an integral, noncovalent component of the protein structure. Additionally, this study provides an example in which predictions from molecular dynamics simulations are experimentally validated with atomic precision, thus showing that the structural features of protein-water interactions can be reliably modeled at a molecular level.
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