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QC-GN <sup>2</sup> oMS <sup>2</sup> : a Graph Neural Net for High Resolution Mass Spectra Prediction

Richard Overstreet, Ethan King, Grady Clopton, Julia Nguyen, Danielle Ciesielski

2024Journal of Chemical Information and Modeling8 citationsDOIOpen Access PDF

Abstract

Predicting the mass spectrum of a molecular ion is often accomplished via three generalized approaches: rules-based methods for bond breaking, deep learning, or quantum chemical (QC) modeling. Rules-based approaches are often limited by the conditions for different chemical subspaces and perform poorly under chemical regimes with few defined rules. QC modeling is theoretically robust but requires significant amounts of computational time to produce a spectrum for a given target. Among deep learning techniques, graph neural networks (GNNs) have performed better than previous work with fingerprint-based neural networks in mass spectra prediction. To explore this technique further, we investigate the effects of including quantum chemically derived information as edge features in the GNN to increase predictive accuracy. The models we investigated include categorical bond order, bond force constants derived from extended tight-binding (xTB) quantum chemistry, and acyclic bond dissociation energies. We evaluated these models against a control GNN with no edge features in the input graphs. Bond dissociation enthalpies yielded the best improvement with a cosine similarity score of 0.462 relative to the baseline model (0.437). In this work we also apply dynamic graph attention which improves performance on benchmark problems and supports the inclusion of edge features. Between implementations, we investigate the nature of the molecular embedding for spectra prediction and discuss the recognition of fragment topographies in distinct chemistries for further development in tandem mass spectrometry prediction.

Topics & Concepts

Computer scienceArtificial neural networkArtificial intelligenceMolecular graphQuantum chemistryChemistryAlgorithmGraphMachine learningTheoretical computer scienceMoleculeSupramolecular chemistryOrganic chemistryMetabolomics and Mass Spectrometry StudiesComputational Drug Discovery MethodsMass Spectrometry Techniques and Applications
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