多假设检验框架下基因本体空间中基因集的比较分析。

Sheng Zhong, Lu Tian, Cheng Li, Kai-Florian Storch, Wing H Wong
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引用次数: 0

摘要

基因本体(GO)资源可以作为一个强大的工具来揭示高通量功能基因组学研究(如微阵列研究)产生的一系列基因之间共享的和特定的特性。在几个基因列表的比较分析中,研究人员可能有兴趣知道哪些氧化石墨烯在一个基因列表中富集,而在另一个基因列表中相对缺乏。统计检验,如费雪精确检验或卡方检验,可以执行搜索这类GO项。然而,由于同时测试多个氧化石墨烯项,单个测试的单个p值不能作为选择氧化石墨烯项的良好指标。此外,这些多重测试是高度相关的,通常在独立性假设下工作的多重测试程序不适用。本文介绍了一种基于错误发现率(FDR)的方法来处理这一相关多重测试问题。这个程序计算每个GO项的q值的适度保守估计量。我们识别具有满足期望水平的q值的GO项作为有效GO项。此程序已在GoSurfer软件中实现。GoSurfer是一个基于windows的图形数据挖掘工具。它可以在http://www.gosurfer.org上免费获得。
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Comparative analysis of gene sets in the Gene Ontology space under the multiple hypothesis testing framework.

The Gene Ontology (GO) resource can be used as a powerful tool to uncover the properties shared among, and specific to, a list of genes produced by high-throughput functional genomics studies, such as microarray studies. In the comparative analysis of several gene lists, researchers maybe interested in knowing which GO terms are enriched in one list of genes but relatively depleted in another. Statistical tests such as Fisher's exact test or Chi-square test can be performed to search for such GO terms. However, because multiple GO terms are tested simultaneously, individual p-values from individual tests do not serve as good indicators for picking GO terms. Furthermore, these multiple tests are highly correlated, usual multiple testing procedures that work under an independence assumption are not applicable. In this paper we introduce a procedure, based on False Discovery Rate (FDR), to treat this correlated multiple testing problem. This procedure calculates a moderately conserved estimator of q-value for every GO term. We identify the GO terms with q-values that satisfy a desired level as the significant GO terms. This procedure has been implemented into the GoSurfer software. GoSurfer is a windows based graphical data mining tool. It is freely available at http://www.gosurfer.org.

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