Evolving Conformation Paths to Model Protein Structural Transitions

Proceedings of the 8th ACM International Conference on Bioinformatics, Computational Biology,and Health Informatics Pub Date : 2017-08-20 DOI:10.1145/3107411.3107498

Emmanuel Sapin, K. D. Jong, Amarda Shehu

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Abstract

Proteins are dynamic biomolecules. A structure-by-structure characterization of a protein's transition between two different functional structures is central to elucidating the role of dynamics in modulating protein function and designing therapeutic drugs. Characterizing transitions challenges both dry and wet laboratories. Some computational methods compute discrete representations of the energy landscape that organizes structures of a protein by their potential energies. The representations support queries for paths (series of structures) connecting start and goal structures of interest. Here we address the problem of modeling protein structural transitions under the umbrella of stochastic optimization and propose a novel evolutionary algorithm (EA). The EA evolves paths without reconstructing the energy landscape, addressing two competing optimization objectives, energetic cost and structural resolution. Rather than seek one path, the EA yields an ensemble of paths to represent a transition. Preliminary applications suggest the EA is effective while operating under a reasonable computational budget.

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进化构象路径以模拟蛋白质结构转变

蛋白质是动态的生物分子。蛋白质在两种不同功能结构之间转换的逐个结构表征对于阐明动力学在调节蛋白质功能和设计治疗药物中的作用至关重要。表征过渡对干湿实验室都是挑战。一些计算方法计算能量景观的离散表示，这些能量景观通过它们的势能组织蛋白质的结构。这些表示支持对连接感兴趣的开始和目标结构的路径(一系列结构)进行查询。本文提出了一种基于随机优化的蛋白质结构迁移建模方法，并提出了一种新的进化算法(EA)。EA在不重建能源格局的情况下发展路径，解决了两个相互竞争的优化目标，能源成本和结构解决方案。EA不是寻找一条路径，而是生成一系列路径来表示转换。初步应用表明，在合理的计算预算下，EA是有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 8th ACM International Conference on Bioinformatics, Computational Biology,and Health Informatics

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