Exploring the Chemical Subspace of RPLC: a Data Driven Approach

21 September 2023, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The chemical space is comprised of a vast number of possible structures, of which an unknown portion comprises the human and environmental exposome. Such samples are frequently analyzed using non-targeted analysis via liquid chromatography (LC) coupled to high-resolution mass spectrometry often employing a reversed phase (RP) column. However, prior to analysis, the contents of these samples are unknown and could be comprised of thousands of known and unknown chemical constituents. Moreover, it is unknown which part of the chemical space is sufficiently retained and eluted using RPLC. Therefore, we present a generic framework that uses a data driven approach to predict whether molecules fall "inside", "maybe" inside, or "outside" of the RPLC subspace. Firstly, three retention index random forest (RF) regression models were constructed that showed that molecular fingerprints are able to predict RPLC retention behavior. Secondly, these models were used to setup the dataset for building a RPLC RF classification model. The RPLC classification model was able to correctly predict whether a chemical belonged to the RPLC subspace with an accuracy of 92% for the testing set. Finally, applying this model to the 91737 small molecules (i.e., <=1000 Da) in NORMAN SusDat showed that 19.1% fall "outside" of the RPLC subspace. Knowing which chemicals are outside of the RPLC subspace can assist in reducing potential candidates for library searching and avoid screening for chemicals that will not be present in RPLC data.

Keywords

Chemical space
Non-targeted analysis
data driven
reversed-phase liquid chromatography
High-resolution mass spectrometry
RPLC subspace

Supplementary materials

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Supporting information
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Overview of performance for using different types of molecular fingerprints, composition of reduced PubChem fingerprints, optimization, prediction, leverage, and feature importance results for the 3 RF regression models and the RPLC classification model, and the RPLC classification of NORMAN SusDat visualized by plotting the XLogP values versus the predicted ri values for the three ri regression models.
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