Prediction of Hydrophobic Core Residues Based on Network Analysis

2009 International Symposium on Intelligent Ubiquitous Computing and Education Pub Date : 2009-05-15 DOI:10.1109/IUCE.2009.70

Haiyan Li

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Abstract

In recent years, Protein folding kinetics studies performed the hydrophobic core residues play a key role not only in stabilizing the native state, but also in driving the folding reaction itself. In this work, the protein structure is modeled as an undirected network with the amino acids the vertexes and the contacts between them the edges. We find that the core residues have mainly high degree and low clustering coefficient compared with the surface residues. The four different centrality measurements have been proposed to predict hydrophobic core residues from four well-characterized proteins. We show that the four network-based centrality measurements (degree, clustering coefficient, closeness centrality, betweenness) accurately detect the hydrophobic core residues and there is strong functional relationship between any two different network-based centrality measurements. Additionally, we plot four network centrality measurements versus the Conseq value, the results show that all hydrophobic core residues have high conseq values and this means that the hydrophobic core residues are conserved in proteins.

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基于网络分析的疏水核残基预测

近年来，蛋白质折叠动力学研究表明疏水核心残基不仅在稳定天然状态中起着关键作用，而且在折叠反应本身的驱动中起着关键作用。在这项工作中，蛋白质结构被建模为一个无向网络，其中氨基酸是顶点，它们之间的接触是边缘。我们发现，与表面残基相比，核心残基主要具有高聚类度和低聚类系数的特点。提出了四种不同的中心性测量方法来预测四种特性良好的蛋白质的疏水性核心残基。研究表明，四种基于网络的中心性测量方法(度、聚类系数、接近中心性、中间度)能够准确地检测疏水核残基，并且任意两种不同的网络中心性测量方法之间存在很强的函数关系。此外，我们绘制了四个网络中心性测量与后果值，结果表明所有疏水核心残基都具有高后果值，这意味着疏水核心残基在蛋白质中是保守的。

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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2009 International Symposium on Intelligent Ubiquitous Computing and Education

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