Toward a gold standard for benchmarking gene set enrichment analysis

Abstract Motivation Although gene set enrichment analysis has become an integral part of high-throughput gene expression data analysis, the assessment of enrichment methods remains rudimentary and ad hoc. In the absence of suitable gold standards, evaluations are commonly restricted to selected data...

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Published inBriefings in bioinformatics Vol. 22; no. 1; pp. 545 - 556
Main Authors Geistlinger, Ludwig, Csaba, Gergely, Santarelli, Mara, Ramos, Marcel, Schiffer, Lucas, Turaga, Nitesh, Law, Charity, Davis, Sean, Carey, Vincent, Morgan, Martin, Zimmer, Ralf, Waldron, Levi
Format Journal Article
LanguageEnglish
Published England Oxford University Press 18.01.2021
Oxford Publishing Limited (England)
Subjects
Benchmarks
Data analysis
Datasets
DNA microarrays
Enrichment
Gene expression
Gene set enrichment analysis
Phenotypes
Problem Solving Protocol
Ribonucleic acid
RNA
gene expression data
microarray
RNA-seq
pathway analysis
gene set analysis
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Summary:Abstract Motivation Although gene set enrichment analysis has become an integral part of high-throughput gene expression data analysis, the assessment of enrichment methods remains rudimentary and ad hoc. In the absence of suitable gold standards, evaluations are commonly restricted to selected datasets and biological reasoning on the relevance of resulting enriched gene sets. Results We develop an extensible framework for reproducible benchmarking of enrichment methods based on defined criteria for applicability, gene set prioritization and detection of relevant processes. This framework incorporates a curated compendium of 75 expression datasets investigating 42 human diseases. The compendium features microarray and RNA-seq measurements, and each dataset is associated with a precompiled GO/KEGG relevance ranking for the corresponding disease under investigation. We perform a comprehensive assessment of 10 major enrichment methods, identifying significant differences in runtime and applicability to RNA-seq data, fraction of enriched gene sets depending on the null hypothesis tested and recovery of the predefined relevance rankings. We make practical recommendations on how methods originally developed for microarray data can efficiently be applied to RNA-seq data, how to interpret results depending on the type of gene set test conducted and which methods are best suited to effectively prioritize gene sets with high phenotype relevance. Availability http://bioconductor.org/packages/GSEABenchmarkeR Contact ludwig.geistlinger@sph.cuny.edu
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ISSN:1477-4054
1467-5463
1477-4054
DOI:10.1093/bib/bbz158