蛋白质结构中最近邻残基四联体的成分偏好:统计几何分析

Proceedings. IEEE International Joint Symposia on Intelligence and Systems (Cat. No.98EX174) Pub Date : 1998-03-21 DOI:10.1109/IJSIS.1998.685437

I. Vaisman, Alexander Tropsha, Weifan Zheng

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引用次数: 30

摘要

蛋白质的三维结构和氨基酸序列是由一套未知的规则联系在一起的，这些规则通常被称为折叠代码。该密码被认为是显著影响的非局部相互作用之间的残基。非局部接触的定量描述需要识别邻近残基。我们应用统计几何方法来分析已知蛋白质结构中残基的空间接近模式。利用Delaunay算法对具有C/sub /spl α //原子残基单点表示的非同源蛋白数据集进行了结构细分。简单德劳内结构的组成分析揭示了蛋白质结构中氨基酸残基的高度非随机聚类。分析结果在蛋白质结构分类和预测算法中得到了实现。

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Compositional preferences in quadruplets of nearest neighbor residues in protein structures: statistical geometry analysis

The 3D structure and amino acid sequence of proteins are related by an unknown set of rules that is often referred to as the folding code. This code is believed to be significantly influenced by nonlocal interactions between the residues. A quantitative description of nonlocal contacts requires the identification of neighboring residues. We applied statistical geometry approach to analyze the patterns of spatial proximity of residues in known protein structures. Structures from a dataset of well resolved nonhomologous proteins with a single point representation of residues by C/sub /spl alpha// atoms were tessellated using Delaunay algorithm. Compositional analysis of Delaunay simplices reveals highly nonrandom clustering of amino acid residues in protein structures. Results of the analysis are implemented in algorithms for protein structure classification and prediction.

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Proceedings. IEEE International Joint Symposia on Intelligence and Systems (Cat. No.98EX174)

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