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利用表面包膜来约束分子建模。

Using surface envelopes to constrain molecular modeling.

作者信息

Dugan Jonathan M, Altman Russ B

机构信息

Department of Genetics, Stanford University, CA 94305-5120, USA.

出版信息

Protein Sci. 2007 Jul;16(7):1266-73. doi: 10.1110/ps.062733407.

Abstract

Molecular density information (as measured by electron microscopic reconstructions or crystallographic density maps) can be a powerful source of information for molecular modeling. Molecular density constrains models by specifying where atoms should and should not be. Low-resolution density information can often be obtained relatively quickly, and there is a need for methods that use it effectively. We have previously described a method for scoring molecular models with surface envelopes to discriminate between plausible and implausible fits. We showed that we could successfully filter out models with the wrong shape based on this discrimination power. Ideally, however, surface information should be used during the modeling process to constrain the conformations that are sampled. In this paper, we describe an extension of our method for using shape information during computational modeling. We use the envelope scoring metric as part of an objective function in a global optimization that also optimizes distances and angles while avoiding collisions. We systematically tested surface representations of proteins (using all nonhydrogen heavy atoms) with different abundance of distance information and showed that the root mean square deviation (RMSD) of models built with envelope information is consistently improved, particularly in data sets with relatively small sets of short-range distances.

摘要

分子密度信息(通过电子显微镜重建或晶体学密度图测量)对于分子建模而言可能是强大的信息来源。分子密度通过指定原子应在和不应在的位置来约束模型。低分辨率密度信息通常能够相对快速地获取,因此需要能有效利用它的方法。我们之前描述了一种利用表面包络对分子模型进行评分以区分合理与不合理拟合的方法。我们表明基于这种区分能力能够成功滤除形状错误的模型。然而,理想情况下,表面信息应在建模过程中用于约束所采样的构象。在本文中,我们描述了我们的方法在计算建模期间使用形状信息的扩展。我们将包络评分度量用作全局优化中目标函数的一部分,该全局优化在避免碰撞的同时还优化距离和角度。我们系统地测试了具有不同距离信息丰富度的蛋白质表面表示(使用所有非氢重原子),结果表明利用包络信息构建的模型的均方根偏差(RMSD)持续得到改善,尤其是在具有相对较少短程距离集的数据集里。

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