三种微阵列数据聚类算法的比较研究

Noveenaa Pious, Dicky John Davis G
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引用次数: 0

摘要

高通量基因组数据分析正日益成为生物医学研究中不可或缺的一部分。来自基因表达分析的信息有助于诊断给予患者的治疗方式。然而,数据量是巨大的,手工检查变得复杂。无监督机器学习算法通过聚类来理解模式的底层结构和行为,在未标记的数据上执行复杂的任务。聚类微阵列数据,通过根据表达值的相似性对基因进行分组,检查发现的差异表达基因。在这项研究中,我们提出阐明在不同临床条件下基因表达数据的最佳聚类算法。该研究是在严重急性呼吸综合征、肌萎缩侧索硬化症和帕金森病三个基因表达数据集上进行的。差异表达基因的p值分别为0.01、0.05和0.001,p值为0.05时,差异表达基因的数量最多。我们对差异表达基因进行了三种聚类算法的实验,即三种疾病的分层聚类、k-means聚类和模糊聚类。使用内部有效性指数对三种聚类算法的性能进行了评估,其中发现分层聚类最适合基因表达数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative Study of three Clustering Algorithms for Microarray Data
High throughput genomic data analysis is becoming an increasingly integral part of biomedical research. The information derived from gene expression analysis helps in diagnosing the treatment modality given to the patient. However, the amount of data is humongous and becomes complex to examine manually. Unsupervised machine learning algorithms perform complex tasks on an unlabelled data by clustering to comprehend the underlying structure and behaviour of the pattern. Clustering microarray data, examines the differential expressed genes found by grouping the genes based on the similarity of the expression values. In this study, we propose to elucidate the best clustering algorithm for gene expression data on various clinical conditions. The proposed study was carried on three gene expression datasets of Severe acute respiratory syndrome, Amyotrophic lateral sclerosis and Parkinson’s disease. Differentially expressed genes were found at three p-values 0.01, 0.05, 0.001 and the most significant number of genes were retrieved at p-value 0.05. We experimented the differential expressed genes on three clustering algorithms, namely Hierarchical clustering, k-means clustering and fuzzy clustering of the three diseases. The performance of the three clustering algorithms was evaluated using the internal validity index, wherein Hierarchical clustering was found to be best for gene expression data.
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