Nature Communications (Apr 2023)

PeakDecoder enables machine learning-based metabolite annotation and accurate profiling in multidimensional mass spectrometry measurements

  • Aivett Bilbao,
  • Nathalie Munoz,
  • Joonhoon Kim,
  • Daniel J. Orton,
  • Yuqian Gao,
  • Kunal Poorey,
  • Kyle R. Pomraning,
  • Karl Weitz,
  • Meagan Burnet,
  • Carrie D. Nicora,
  • Rosemarie Wilton,
  • Shuang Deng,
  • Ziyu Dai,
  • Ethan Oksen,
  • Aaron Gee,
  • Rick A. Fasani,
  • Anya Tsalenko,
  • Deepti Tanjore,
  • James Gardner,
  • Richard D. Smith,
  • Joshua K. Michener,
  • John M. Gladden,
  • Erin S. Baker,
  • Christopher J. Petzold,
  • Young-Mo Kim,
  • Alex Apffel,
  • Jon K. Magnuson,
  • Kristin E. Burnum-Johnson

DOI
https://doi.org/10.1038/s41467-023-37031-9
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 18

Abstract

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Abstract Multidimensional measurements using state-of-the-art separations and mass spectrometry provide advantages in untargeted metabolomics analyses for studying biological and environmental bio-chemical processes. However, the lack of rapid analytical methods and robust algorithms for these heterogeneous data has limited its application. Here, we develop and evaluate a sensitive and high-throughput analytical and computational workflow to enable accurate metabolite profiling. Our workflow combines liquid chromatography, ion mobility spectrometry and data-independent acquisition mass spectrometry with PeakDecoder, a machine learning-based algorithm that learns to distinguish true co-elution and co-mobility from raw data and calculates metabolite identification error rates. We apply PeakDecoder for metabolite profiling of various engineered strains of Aspergillus pseudoterreus, Aspergillus niger, Pseudomonas putida and Rhodosporidium toruloides. Results, validated manually and against selected reaction monitoring and gas-chromatography platforms, show that 2683 features could be confidently annotated and quantified across 116 microbial sample runs using a library built from 64 standards.