一种蛋白质-蛋白质对接的跳盆算法

I. Hashmi, Amarda Shehu
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引用次数: 10

摘要

提出了一种新的概率搜索算法,以有效地搜索蛋白质二聚体的结构空间。该算法基于盆地跳跃框架,反复跟踪结构扰动与能量最小化,以获得二聚体能量表面的局部最小值的粗粒度视图。随着时间的推移,Metropolis标准倾向于寻找更低能量的最小值。广泛的分析强调了对扰动和最小化组件的高效和有效的实现。在广泛的二聚体列表上的测试表明,该算法以很高的精度恢复了二聚体的原始构型,并在原始构型附近产生了许多最小值。该算法可以有效地产生相关的诱饵,这些诱饵可以在更大的细节上进一步细化以预测本地配置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A basin hopping algorithm for protein-protein docking
We present a novel probabilistic search algorithm to efficiently search the structure space of protein dimers. The algorithm is based on the basin hopping framework that repeatedly follows up structural perturbation with energy minimization to obtain a coarse-grained view of the dimeric energy surface in terms of its local minima. A Metropolis criterion biases the search towards lower-energy minima over time. Extensive analysis highlights efficient and effective implementations for the perturbation and minimization components. Testing on a broad list of dimers shows the algorithm recovers the native dimeric configuration with great accuracy and produces many minima near the native configuration. The algorithm can be employed to efficiently produce relevant decoys that can be further refined at greater detail to predict the native configuration.
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