GPU-Accelerated Generation of the Molecular Surface

Mousa Alhazzazi, S. Hayward, S. Laycock
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Abstract

A variety of visualisation methods have been developed for displaying molecular structures. The solvent-excluded surface (SES) or molecular surface is one of the most popular and useful depictions as it helps to identify binding-site cavities. The molecular surface is particularly useful therefore for interactive molecular docking tools. Docking tools that incorporate molecular flexibility bring new challenges as the molecular surface must be recomputed in real time as the molecule changes shape in interaction with a ligand. Here we compute the SES by using a GPU-accelerated Marching Cubes algorithm which promises to lead to real-time surface generation for small- to medium-sized biomolecules undergoing conformational change.
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gpu加速生成分子表面
各种显示分子结构的可视化方法已经发展起来。溶剂排除表面(SES)或分子表面是最流行和有用的描述之一,因为它有助于识别结合位点空腔。因此,分子表面对于相互作用的分子对接工具特别有用。结合分子灵活性的对接工具带来了新的挑战,因为当分子在与配体相互作用中改变形状时,必须实时重新计算分子表面。在这里,我们通过使用gpu加速的Marching Cubes算法来计算SES,该算法有望为正在发生构象变化的中小型生物分子提供实时表面生成。
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