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多组学研究整合的通路富集分析的元分析

Meta-analysis for pathway enrichment analysis when combining multiple genomic studies.

机构信息

Department of Computational Biology, University of Pittsburgh School of Medicine, Pittsburgh, PA 15213, USA.

出版信息

Bioinformatics. 2010 May 15;26(10):1316-23. doi: 10.1093/bioinformatics/btq148. Epub 2010 Apr 21.

DOI:10.1093/bioinformatics/btq148
PMID:20410053
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2865865/
Abstract

MOTIVATION

Many pathway analysis (or gene set enrichment analysis) methods have been developed to identify enriched pathways under different biological states within a genomic study. As more and more microarray datasets accumulate, meta-analysis methods have also been developed to integrate information among multiple studies. Currently, most meta-analysis methods for combining genomic studies focus on biomarker detection and meta-analysis for pathway analysis has not been systematically pursued.

RESULTS

We investigated two approaches of meta-analysis for pathway enrichment (MAPE) by combining statistical significance across studies at the gene level (MAPE_G) or at the pathway level (MAPE_P). Simulation results showed increased statistical power of meta-analysis approaches compared to a single study analysis and showed complementary advantages of MAPE_G and MAPE_P under different scenarios. We also developed an integrated method (MAPE_I) that incorporates advantages of both approaches. Comprehensive simulations and applications to real data on drug response of breast cancer cell lines and lung cancer tissues were evaluated to compare the performance of three MAPE variations. MAPE_P has the advantage of not requiring gene matching across studies. When MAPE_G and MAPE_P show complementary advantages, the hybrid version of MAPE_I is generally recommended.

AVAILABILITY

http://www.biostat.pitt.edu/bioinfo/

CONTACT

ctseng@pitt.edu

SUPPLEMENTARY INFORMATION

Supplementary data are available at Bioinformatics online.

摘要

动机

许多通路分析(或基因集富集分析)方法已经被开发出来,以在基因组研究中不同的生物状态下识别丰富的途径。随着越来越多的微阵列数据集的积累,元分析方法也被开发出来,以整合多个研究之间的信息。目前,大多数用于组合基因组研究的元分析方法都集中在生物标志物检测上,而通路分析的元分析尚未得到系统的研究。

结果

我们通过在基因水平(MAPE_G)或通路水平(MAPE_P)上结合研究间的统计显著性,研究了两种通路富集的元分析方法(MAPE)。模拟结果表明,元分析方法的统计功效比单个研究分析有所提高,并显示了 MAPE_G 和 MAPE_P 在不同情况下的互补优势。我们还开发了一种综合方法(MAPE_I),它结合了两种方法的优势。对乳腺癌细胞系和肺癌组织药物反应的真实数据进行了全面的模拟和应用,以比较三种 MAPE 变化的性能。MAPE_P 的优势在于不需要在研究之间进行基因匹配。当 MAPE_G 和 MAPE_P 表现出互补优势时,通常推荐使用混合版本的 MAPE_I。

可用性

http://www.biostat.pitt.edu/bioinfo/

联系方式

ctseng@pitt.edu

补充信息

补充数据可在Bioinformatics 在线获得。