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Discovering organic reactions with a machine-learning-powered deciphering of tera-scale mass spectrometry data

Konstantin S. Kozlov, Daniil A. Boiko, Julia V. Burykina, Valentina V. Ilyushenkova, Alexander Yu. Kostyukovich, E. D. Patil, Valentine P. Ananikov

2025Nature Communications17 citationsDOIOpen Access PDF

Abstract

The accumulation of large datasets by the scientific community has surpassed the capacity of traditional processing methods, underscoring the critical need for innovative and efficient algorithms capable of navigating through extensive existing experimental data. Addressing this challenge, our study introduces a machine learning (ML)-powered search engine specifically tailored for analyzing tera-scale high-resolution mass spectrometry (HRMS) data. This engine harnesses a novel isotope-distribution-centric search algorithm augmented by two synergistic ML models, assisting with the discovery of hitherto unknown chemical reactions. This methodology enables the rigorous investigation of existing data, thus providing efficient support for chemical hypotheses while reducing the need for conducting additional experiments. Moreover, we extend this approach with baseline methods for automated reaction hypothesis generation. In its practical validation, our approach successfully identified several reactions, unveiling previously undescribed transformations. Among these, the heterocycle-vinyl coupling process within the Mizoroki-Heck reaction stands out, highlighting the capability of the engine to elucidate complex chemical phenomena.

Topics & Concepts

Tera-Mass spectrometryComputer scienceScale (ratio)ChemistryPhysicsChromatographyOperating systemQuantum mechanicsMetabolomics and Mass Spectrometry StudiesMass Spectrometry Techniques and ApplicationsMachine Learning in Materials Science
Discovering organic reactions with a machine-learning-powered deciphering of tera-scale mass spectrometry data | Litcius