基于模因算法和三维FCC晶格模型的从头算蛋白质结构预测

Jyh-Jong Tsay, S. Su
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引用次数: 4

摘要

蛋白质是细胞的主要工作机器。它具有多种催化和生理功能。它的功能来自于蛋白质的构象和催化活性。构象是由氨基酸的排列形成的,氨基酸的排列完成了蛋白质的多样性。从蛋白质的一级氨基酸序列判断蛋白质的天然结构是计算分子生物学的一大挑战。获得蛋白质序列并不难。然而,以目前的技术来确定蛋白质的结构并不是一件容易的事。他们之间有很大的差距。因此,需要更多的研究来填补这一空白。本文提出了一种用于FCC晶格HP模型中蛋白质结构预测的模因算法。实验结果表明,本文提出的遗传算法保留了遗传算法在解决组合问题方面的优点。还能有效提高疗效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ab initio protein structure prediction based on memetic algorithm and 3D FCC lattice model
The protein is the main working machine of the cells. It has various catalytic and physiological functions. Its function comes from the conformation of the protein and catalytic activity. The conformation is formed by the permutations of amino-acids, and the permutation of the amino-acids, accomplishes the multiplicity of the protein. A great challenge in computational molecular biology is to predicate the protein native structure from its primary amino acid sequence. It is not difficult to obtain protein sequences. However to determine protein structure is not an easy task by current technologies. There is a large gap between them. Therefore, more research is needed to fill the gap. This study proposed a memetic algorithm for protein structure prediction in FCC lattice HP model. The experiment result shows that the MA method proposed in this study can retain the merits of the Genetic algorithm which is good at solve combinatorial problem. It can also increase the efficacy effectively.
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