SNP片段分类遗传算法的改进

2011 First International Conference on Informatics and Computational Intelligence Pub Date : 2011-12-12 DOI:10.1109/ICI.2011.18

Saman Poursiah Navi, Vahid Chahkandi

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引用次数: 0

摘要

MEC (Minimum Error Correction)模型中的单倍型重构是一个重要的聚类问题，其重点是从包含缺口和错误的SNP片段中推断出两个单倍型。人类基因组的突变形式是导致遗传疾病的原因，这些疾病大多发生在SNP位点。本文将遗传算法(GA)作为二倍体基因组的分类器。采用新的编码方法提高遗传算法的效率。在以往基于重构率的遗传算法中，染色体的所有位都被认为是snp片段的聚类状态。在我们提出的方法中，最终单倍型的值是基于SNP片段簇的中心。最后，在四个标准数据集(ACE、Daly、SIM0和SIM50)上执行了这两种方法，结果表明了我们提出的方法的有效性。

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Improvement of Genetic Algorithm for Classifying SNP Fragments

Reconstructing haplotype in MEC (Minimum Error Correction) model is an important clustering problem which focuses on inferring two haplotypes from SNP fragments (Single Nucleotide Polymorphism) containing gaps and errors. Mutated form of human genome is responsible for genetic diseases which mostly occur in SNP sites. In this paper, genetic algorithm (GA) is considered as a classifier of diploid genomes. New encoding approach is used to improve GA efficiency. In the previous approach of GA based on reconstruction rate, all bits of chromosome considered as cluster state of SNP-fragments. In our proposed method the value of the final haplotypes is based on the centers of SNP fragments clusters. Finally, these two approaches are executed on four standard datasets (ACE, Daly, SIM0 and SIM50) and the results show the efficiency of our proposed approach.

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2011 First International Conference on Informatics and Computational Intelligence

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