1. Conformational dependence of a protein kinase phosphate transfer reaction.
- Author
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Henkelman, Graeme, LaBute, Montiago X., Chang-Shung Tung, Fenimore, P. W., and McMahon, Benjamin H.
- Subjects
CYCLIC adenylic acid ,PROTEIN kinases ,PHOSPHATES ,AMINO acids ,PROTEINS ,BIOMOLECULES - Abstract
Atomic motions and energetics for a phosphate transfer reaction catalyzed by the cAMP-dependent protein kinase are calculated by plane-wave density functional theory, starting from structures of proteins crystallized in both the reactant conformation (RC) and the transition-state conformation (TC). In TC, we calculate that the reactants and products are nearly isoenergetic with a 20-kJ/mol barrier, whereas phosphate transfer is unfavorable by 120 kJ/mol in the RC, with an even higher barrier. With the protein in TC, the motions involved in reaction are small, with only Pγ and the catalytic proton moving >0.5 Å. Examination of the structures reveals that in the RC the active site cleft is not completely closed and there is insufficient space for the phosphorylated serine residue in the product state. Together, these observations imply that the phosphate transfer reaction occurs rapidly and reversibly in a particular conformation of the protein, and that the reaction can be gated by changes of a few tenths of an angstrom in the catalytic site. [ABSTRACT FROM AUTHOR]
- Published
- 2005
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