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FIORA: Local neighborhood-based prediction of compound mass spectra from single fragmentation events

Yannek Nowatzky, Francesco F. Russo, Jan Lisec, Alexander Kister, Knut Reinert, Thilo Muth, Philipp Benner

2025Nature Communications12 citationsDOIOpen Access PDF

Abstract

Non-targeted metabolomics holds great promise for advancing precision medicine and biomarker discovery. However, identifying compounds from tandem mass spectra remains a challenging task due to the incomplete nature of spectral reference libraries. Augmenting these libraries with simulated mass spectra can provide the necessary references to resolve unmatched spectra, but generating high-quality data is difficult. In this study, we present FIORA, an open-source graph neural network designed to simulate tandem mass spectra. Our main contribution lies in utilizing the molecular neighborhood of bonds to learn breaking patterns and derive fragment ion probabilities. FIORA not only surpasses state-of-the-art fragmentation algorithms, ICEBERG and CFM-ID, in prediction quality, but also facilitates the prediction of additional features, such as retention time and collision cross section. Utilizing GPU acceleration, FIORA enables rapid validation of putative compound annotations and large-scale expansion of spectral reference libraries with high-quality predictions.

Topics & Concepts

Fragmentation (computing)Computer scienceMass spectrumGraphSpectral lineTandem mass spectrometryTandemData miningPattern recognition (psychology)Artificial intelligenceMass spectrometryChemistryPhysicsTheoretical computer scienceMaterials scienceOperating systemAstronomyComposite materialChromatographyMetabolomics and Mass Spectrometry StudiesComputational Drug Discovery MethodsAdvanced Proteomics Techniques and Applications
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