微管弹性：将原子模拟与连续力学联系起来。

Microtubule elasticity: connecting all-atom simulations with continuum mechanics.

机构信息

Department of Biomedical Engineering and Center for Computational Medicine and Bioinformatics, University of Michigan, Ann Arbor, Michigan 48109, USA.

出版信息

Phys Rev Lett. 2010 Jan 8;104(1):018101. doi: 10.1103/PhysRevLett.104.018101. Epub 2010 Jan 4.

DOI:10.1103/PhysRevLett.104.018101

PMID:20366396

Abstract

The mechanical properties of microtubules have been extensively studied using a wide range of biophysical techniques, seeking to understand the mechanics of these cylindrical polymers. Here we develop a method for connecting all-atom molecular dynamics simulations with continuum mechanics and show how this can be applied to understand microtubule mechanics. Our coarse-graining technique applied to the microscopic simulation system yields consistent predictions for the Young's modulus and persistence length of microtubules, while clearly demonstrating how binding of the drug Taxol decreases the stiffness of microtubules. The techniques we develop should be widely applicable to other macromolecular systems.

摘要

微管的力学性质已经通过广泛的生物物理技术进行了深入研究，旨在了解这些圆柱聚合物的力学特性。在这里，我们开发了一种将全原子分子动力学模拟与连续介质力学相结合的方法，并展示了如何将其应用于理解微管力学。我们应用于微观模拟系统的粗粒化技术对微管的杨氏模量和持久长度给出了一致的预测，同时清楚地表明了药物紫杉醇的结合如何降低微管的刚度。我们开发的技术应该广泛适用于其他高分子体系。

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Microtubule elasticity: connecting all-atom simulations with continuum mechanics.微管弹性：将原子模拟与连续力学联系起来。

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微管弹性：将原子模拟与连续力学联系起来。

Microtubule elasticity: connecting all-atom simulations with continuum mechanics.

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