潜在语义分析在心血管基因本体聚类中的应用

2016 IEEE 16th International Conference on Bioinformatics and Bioengineering (BIBE) Pub Date : 2016-10-01 DOI:10.1109/BIBE.2016.71

Charles C. N. Wang, Yu-Liang Lee, P. Sheu, J. Tsai

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引用次数: 2

摘要

心血管疾病(CVD)是一组心脏和血管疾病，是全球主要的死亡原因，每年死于心血管疾病的人数超过任何其他原因。因此，控制和预防心血管疾病及其复杂的发病机制(即受遗传和生活方式因素的影响)得到了相当大的关注。在这项研究中，我们使用LSA算法对高度相关的心血管疾病相关基因进行聚类。LSA可以进一步探索每个功能基因簇，包括簇中基因共享的共识项列表。全面的网络生物学分析可以通过构建相互关联的通路网络，将CVD基因中的聚类基因与通路信息整合起来。基于LSA，将GAD数据库中的CVD关联基因划分为5个簇(k=5)。基因集富集分析揭示了25条显著通路。进一步分析整合通路分析，并结合miRNA和Drugbank数据，以获得更多关于相互作用的见解，可能有助于建议药物重新定位。

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Application of Latent Semantic Analysis to Clustering of Cardiovascular Gene Ontology

Cardiovascular disease (CVD) is group of diseases of the heart and blood vessels and a major global cause of death, with more people dying every year from CVDs than from any other cause. Therefore, controlling and preventing CVDs and their complex pathogenesis (i.e., influenced by genetic and lifestyle factors) has gained considerable attention. In this study, we use the LSA algorithm to cluster highly related CVD association genes. The LSA can further explore each functional gene cluster including listing of the consensus terms shared by the genes in the cluster. A comprehensive network biology analysis can integrates clustered genes in the CVD genes with pathway information by building a network of interconnected pathways. Based on LSA, the CVD association genes from the GAD database are divided into 5 clusters (k=5). The gene set enrichment analysis reveals 25 significantly pathways. Further analysis to integrate pathway analysis and to combine miRNA and Drugbank data to gain more insights in the interplay can be useful to suggest drug repositioning.

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2016 IEEE 16th International Conference on Bioinformatics and Bioengineering (BIBE)

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