多RNA结构比对的量子遗传算法

2008 Second Asia International Conference on Modelling & Simulation (AMS) Pub Date : 2008-05-13 DOI:10.1109/AMS.2008.151

Abdesslem Layeb, S. Meshoul, M. Batouche

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引用次数: 13

摘要

RNA结构比对是生物信息学中的关键问题之一。它旨在阐明一组序列中的保守结构区域。找到一个精确的保守结构仍然是一项困难和耗时的任务，其中包括结构对齐作为先决条件。在这项工作中，结构对齐被视为一个优化过程。提出了一种基于量子的遗传算法来实现这一过程。该算法的主要特点在于用于表示排列的量子结构和定义遗传算法整体进化动态的量子算子。量子结构依赖于量子比特的概念，并允许对个体进行有效编码。在广泛的数据集上进行的实验表明，所提出的框架是有效的，并且能够获得高质量的解决方案。

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Quantum Genetic Algorithm for Multiple RNA Structural Alignment

RNA structural alignment is one of key issues in bioinformatics. It aims to elucidate conserved structural regions among a set of sequences. Finding an accurate conserved structure is still difficult and a time consuming task that involves structural alignment as a prerequisite. In this work, structural alignment is viewed as an optimization process. A quantum based genetic algorithm is proposed to carry out this process. The main features of this algorithm consist in the quantum structure used to represent alignments and the quantum operators defining the overall evolutionary dynamic of the genetic algorithm. The quantum structure relies on the concept of qubit and allows efficient encoding of individuals. Experiments on a wide range of data sets have shown the effectiveness of the proposed framework and its ability to achieve good quality solutions.

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2008 Second Asia International Conference on Modelling & Simulation (AMS)

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