[A method for delineation of domains in proteins based on refolding free energy--application to continuous and discontinuous domains].

Sheng wu hua xue yu sheng wu wu li xue bao Acta biochimica et biophysica Sinica Pub Date : 2003-12-01

Zhi-Qun Xie, Gen-Jun Xu

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Abstract

Domain is a protein architecture in a subunit. It might be defined as a basic unit for structure, function, folding, evolution and design. Different combinations of domains lead to the formation of various tertiary structures with various functions for proteins. The delineation of domains for a protein is important both conceptually and practically, which remains up to date a challenging and unsolved problem. Based on the above definition, a method was previously proposed based on refolding free energy to define continuous domains in proteins. By constructing a residue-residue contact matrix, using correspondence analysis, and then selecting optimal partition function of a protein according to refolding free energy and some empirical scoring functions, a new computer program, PDOM, was developed, which was applicable to both continuous and discontinuous domains. When compared with the manual partition results reported by crystallographers, PDOM has achieved an accuracy of 76% on a test data set including 55 protein structures frequently used. The differences in 13 proteins between PDOM, literature as well as SCOP have been discussed extensively.

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[一种基于可折叠自由能的蛋白质结构域描述方法——应用于连续和不连续结构域]。

结构域是蛋白质亚基中的结构。它可以被定义为结构、功能、折叠、演化和设计的基本单位。不同结构域的组合导致蛋白质形成具有不同功能的不同三级结构。蛋白质结构域的划分在概念上和实践上都具有重要意义，这是一个具有挑战性和尚未解决的问题。基于上述定义，先前提出了一种基于重折叠自由能来定义蛋白质连续结构域的方法。通过构造残基-残基接触矩阵，利用对应分析，根据可折叠自由能和一些经验评分函数选择蛋白质的最优配分函数，开发了一种适用于连续和不连续区域的计算机程序PDOM。与晶体学家报告的人工分割结果相比，PDOM在包括55种常用蛋白质结构的测试数据集上达到了76%的准确率。PDOM、文献和SCOP在13个蛋白上的差异已被广泛讨论。

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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Sheng wu hua xue yu sheng wu wu li xue bao Acta biochimica et biophysica Sinica

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