Literature DB >> 17307827

Finite element analysis of the time-dependent Smoluchowski equation for acetylcholinesterase reaction rate calculations.

Yuhui Cheng1, Jason K Suen, Deqiang Zhang, Stephen D Bond, Yongjie Zhang, Yuhua Song, Nathan A Baker, Chandrajit L Bajaj, Michael J Holst, J Andrew McCammon.   

Abstract

This article describes the numerical solution of the time-dependent Smoluchowski equation to study diffusion in biomolecular systems. Specifically, finite element methods have been developed to calculate ligand binding rate constants for large biomolecules. The resulting software has been validated and applied to the mouse acetylcholinesterase (mAChE) monomer and several tetramers. Rates for inhibitor binding to mAChE were calculated at various ionic strengths with several different time steps. Calculated rates show very good agreement with experimental and theoretical steady-state studies. Furthermore, these finite element methods require significantly fewer computational resources than existing particle-based Brownian dynamics methods and are robust for complicated geometries. The key finding of biological importance is that the rate accelerations of the monomeric and tetrameric mAChE that result from electrostatic steering are preserved under the non-steady-state conditions that are expected to occur in physiological circumstances.

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Year:  2007        PMID: 17307827      PMCID: PMC1853150          DOI: 10.1529/biophysj.106.102533

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  34 in total

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