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Structural and mechanistic studies of enolase |
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| Authors: | George H Reed Russell R Poyner Todd M Larsen Joseph E Wedekind Ivan Rayment |
| Affiliation: | aThe Institute for Enzyme Research, Graduate School, and Department of Biochemistry, College of Agricultural and Life Sciences, University of Wisconsin—Madison, Madison, WI 53705, USA;bDepartment of Structural Biology, Fairchild Center, Stanford University School of Medicine, Stanford, CA 94305-5400, USA |
| Abstract: | The high-resolutionstructure of yeast enolase cocrystallized with its equilibrium mixture of substrate and product reveals the stereochemistry of substrate/product binding and therefore the groups responsible for acid/base catalysis and stabilization of the enolate intermediate. Expression and characterization of site-specific mutant forms of the enzyme have confirmed the roles of amino acid side chains in the catalysis of the first and second steps of the reaction. Coordination of both required magnesium ions to the carboxylate of the substrate/product indicates a role for these cations in stabilization of the intermediate. |
| Keywords: | Abbreviations: EPR electron paramagnetic resonance PEG polyethylene glycol P-enolpyruvate phosphoenolpyruvate 2-PGA 2-phospho- font-variant: small-caps" >d-glycerate PhAH phosphonoacetohydroxamate TSP tartronate semialdehyde phosphate |
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