Ranking metabolite sets by their activity levels

McLuskey, Karen and Wandy, Joe and Vincent, Isabel and Hooft, Justin J. J. van der and Rogers, Simon and Burgess, Karl and Daly, Rónán (2021) Ranking metabolite sets by their activity levels. Metabolites, 11 (2). 103. ISSN 2218-1989 (https://doi.org/10.3390/metabo11020103)

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Abstract

Related metabolites can be grouped into sets in many ways, e.g., by their participation in series of chemical reactions (forming metabolic pathways), or based on fragmentation spectral similarities or shared chemical substructures. Understanding how such metabolite sets change in relation to experimental factors can be incredibly useful in the interpretation and understanding of complex metabolomics data sets. However, many of the available tools that are used to perform this analysis are not entirely suitable for the analysis of untargeted metabolomics measurements. Here, we present PALS (Pathway Activity Level Scoring), a Python library, command line tool, and Web application that performs the ranking of significantly changing metabolite sets over different experimental conditions. The main algorithm in PALS is based on the pathway level analysis of gene expression (PLAGE) factorisation method and is denoted as mPLAGE (PLAGE for metabolomics). As an example of an application, PALS is used to analyse metabolites grouped as metabolic pathways and by shared tandem mass spectrometry fragmentation patterns. A comparison of mPLAGE with two other commonly used methods (overrepresentation analysis (ORA) and gene set enrichment analysis (GSEA)) is also given and reveals that mPLAGE is more robust to missing features and noisy data than the alternatives. As further examples, PALS is also applied to human African trypanosomiasis, Rhamnaceae, and American Gut Project data. In addition, normalisation can have a significant impact on pathway analysis results, and PALS offers a framework to further investigate this. PALS is freely available from our project Web site.

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• Item metadata

  Item type:	Article
  ID code:	75809
  Dates:	Date Event 11 February 2021 Published 7 February 2021 Accepted
  Subjects:	Science > Microbiology Medicine
  Department:	UNSPECIFIED
  Depositing user:	Pure Administrator
  Date deposited:	17 Mar 2021 02:26
  Last modified:	11 Nov 2024 13:01
  Related URLs:	Scopus publication
  URI:	https://strathprints.strath.ac.uk/id/eprint/75809