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Predicting Compound Amenability with Liquid Chromatography Mass Spectrometry to Improve Non-Targeted Analysis.
Citation:
Lowe, C., K. Isaacs, A. McEachran, C. Grulke, J. Sobus, E. Ulrich, A. Richard, A. Chao, J. Wambaugh, AND A. Williams. Predicting Compound Amenability with Liquid Chromatography Mass Spectrometry to Improve Non-Targeted Analysis. NTA Focused Topic Meeting (SETAC), Durham, NC, May 22 - 26, 2022. https://doi.org/10.23645/epacomptox.19765663
Impact/Purpose:
N/A
Description:
With the increasing availability of high-resolution mass spectrometers, suspect screening and non-targeted analysis are becoming popular compound identification tools for environmental researchers. Samples of interest often contain a large (unknown) number of chemicals spanning the detectable mass range of the instrument. In an effort to separate these chemicals prior to injection into the mass spectrometer, a chromatography method is often utilized. There are numerous types of gas and liquid chromatographs that can be coupled to commercially available mass spectrometers. Depending on the type of instrument used for analysis, the researcher is likely to observe a different subset of compounds based on the amenability of those chemicals to the selected experimental techniques and equipment. It would be advantageous if this subset of chemicals could be predicted prior to conducting the experiment, in order to minimize potential false positive and false negative identifications. In this work, we utilize experimental datasets to predict the amenability of chemical compounds to detection with liquid chromatography mass spectrometry (LC-MS). The assembled dataset totals 5,517 unique chemicals either explicitly detected or not detected with LC-MS. The resulting detected/not-detected matrix has been modeled using specific molecular descriptors to predict which chemicals are amenable to LC-MS, and to which form(s) of ionization. Random forest models, including a measure of the applicability domain of the model for both positive and negative modes of the electrospray ionization source, were successfully developed. The outcome of this work will help to inform future suspect screening and non-targeted analyses of chemicals by better defining the potential LC-MS detectable chemical landscape of interest. This abstract does not necessarily represent the views or policies of the U.S. Environmental Protection Agency
URLs/Downloads:
DOI: Predicting Compound Amenability with Liquid Chromatography Mass Spectrometry to Improve Non-Targeted Analysis.
AMEN_SETACNTA_DRAFT.PDF (PDF, NA pp, 2060.726 KB, about PDF)