Active Learning Approach for Guiding Site-of-Metabolism Measurement and Annotation

Chen, Ya; Seidel, Thomas; Jacob, Roxane Axel; Hirte, Steffen; Mazzolari, Angelica; Pedretti, Alessandro; Vistoli, Giulio; Langer, Thierry; Miljković, Filip; Kirchmair, Johannes

doi:10.1021/acs.jcim.3c01588

J. Chem. Inf. Model.

2024

DOI: 10.1021/acs.jcim.3c01588

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Active Learning Approach for Guiding Site-of-Metabolism Measurement and Annotation

Ya Chen,

Thomas Seidel,

Roxane Axel Jacob

et al.

Abstract: The ability to determine and predict metabolically labile atom positions in a molecule (also called "sites of metabolism" or "SoMs") is of high interest to the design and optimization of bioactive compounds, such as drugs, agrochemicals, and cosmetics. In recent years, several in silico models for SoM prediction have become available, many of which include a machinelearning component. The bottleneck in advancing these approaches is the coverage of distinct atom environments and rare and complex biotransformati… Show more

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Deciphering Molecular Embeddings with Centered Kernel Alignment

Welsch,

Hirte,

Kirchmair

2024

J. Chem. Inf. Model.

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Analyzing machine learning models, especially nonlinear ones, poses significant challenges. In this context, centered kernel alignment (CKA) has emerged as a promising model analysis tool that assesses the similarity between two embeddings. CKA's efficacy depends on selecting a kernel that adequately captures the underlying properties of the compared models. The model analysis tool was designed for neural networks (NNs) with their invariance to data rotation in mind and has been successfully employed in various scientific domains. However, CKA has rarely been adopted in cheminformatics, partly because of the popularity of the random forest (RF) machine learning algorithm, which is not rotationally invariant. In this work, we present the adaptation of CKA that builds on the RF kernel to match the properties of RF. As part of the method validation, we show that the model analysis method is well-correlated with the prediction similarity of RF models. Furthermore, we demonstrate how CKA with the RF kernel can be utilized to analyze and explain the behavior of RF models derived from molecular and rooted fingerprints.

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Deciphering Molecular Embeddings with Centered Kernel Alignment

Welsch,

Hirte,

Kirchmair

2024

J. Chem. Inf. Model.

View full text Add to dashboard Cite

show abstract

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Active Learning Approach for Guiding Site-of-Metabolism Measurement and Annotation

Cited by 1 publication

References 26 publications

Deciphering Molecular Embeddings with Centered Kernel Alignment

Deciphering Molecular Embeddings with Centered Kernel Alignment

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