分子动力学模拟中三种采样方法观察到的无序肽的温度诱导崩塌。
Temperature-induced collapse of a disordered peptide observed by three sampling methods in molecular dynamics simulations.
机构信息
Department of Physics and Institute of Molecular Biophysics, Florida State University, Tallahassee, Florida 32306, USA.
出版信息
J Chem Phys. 2018 Aug 21;149(7):072313. doi: 10.1063/1.5027409.
Abstract
The conformational ensembles of a disordered peptide, polyglutamine Q15, over a wide temperature range were sampled using multiple replicates of conventional molecular dynamics (cMD) simulations as well as two enhanced sampling methods, temperature replica exchange (TREMD) and replica exchange with solute tempering (REST). The radius of gyration, asphericity, secondary structure, and hydrogen bonding patterns were used for the comparison of the sampling methods. Overall, the three sampling methods generated similar conformational ensembles, with progressive collapse at higher temperatures. Although accumulating the longest simulation time (90 s), cMD at room temperature missed a small subspace that was sampled by both TREMD and REST. This subspace was high in α-helical content and separated from the main conformational space by an energy barrier. REST used less simulation time than TREMD (36 s versus 42 s), and this gap is expected to widen significantly for larger disordered proteins. We conclude that REST is the method of choice for conformational sampling of intrinsically disordered proteins.
摘要
在较宽的温度范围内,使用多个常规分子动力学 (cMD) 模拟以及两种增强采样方法(温度复制交换 (TREMD) 和溶质温度调整的复制交换 (REST))对无序肽聚谷氨酰胺 Q15 的构象集合进行了采样。采用回转半径、各向异性、二级结构和氢键模式对采样方法进行了比较。总体而言,三种采样方法生成了相似的构象集合,在较高温度下逐渐坍塌。尽管 cMD 在室温下积累了最长的模拟时间(90 秒),但它错过了 TREMD 和 REST 都采样的一个小的子空间。该子空间富含α-螺旋结构,与主要构象空间由能量势垒隔开。REST 比 TREMD (36 秒对 42 秒)使用的模拟时间更少,对于较大的无序蛋白,这种差距预计会显著扩大。我们得出结论,REST 是用于构象采样的首选方法。
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