Gating of the active site of triose phosphate isomerase: Brownian dynamics simulations of flexible peptide loops in the enzyme
- PMID: 8431552
- PMCID: PMC1262297
- DOI: 10.1016/S0006-3495(93)81335-3
Gating of the active site of triose phosphate isomerase: Brownian dynamics simulations of flexible peptide loops in the enzyme
Abstract
The enzyme triose phosphate isomerase has flexible peptide loops at its active sites. The loops close over these sites upon substrate binding, suggesting that the dynamics of the loops could be of mechanistic and kinetic importance. To investigate these issues, the loop motions in the dimeric enzyme were simulated by Brownian dynamics. The two loops, one on each monomer, were represented by linear chains of appropriately parameterized spheres, each sphere corresponding to an amino acid residue. The loops moved in the electrostatic field of the rest of the enzyme, which was held rigid in its crystallographically observed conformation. In the absence of substrate, the loops exhibited gating of the active site with a period of about 1 ns and occupied "closed" conformations for about half of the time. As the period of gating is much shorter than the enzyme-substrate relaxation time, the motion of the loops does not reduce the rate constant for the approach of substrate from its simple diffusion-controlled value. This suggests that the flexible loops may have evolved to create the appropriate environment for catalysis while, at the same time, minimizing the kinetic penalty for gating the active site.
Comment in
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A commentary on gating of the active site of triose phosphate isomerase: Brownian dynamics simulations of flexible peptide loops in the enzyme, by R. C. Wade, M. E. Davis, B. A. Luty, J. D. Madura, and J. A. McCammon.Biophys J. 1993 Jan;64(1):1-2. doi: 10.1016/S0006-3495(93)81331-6. Biophys J. 1993. PMID: 8431534 Free PMC article. No abstract available.
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