Abstract
Suspect screening strives to rapidly monitor a large number of substances in a sample using mass spectral libraries. For hydrophobic organic chemicals (HOCs), these libraries are primarily based on electron ionization mass spectra. To improve the efficacy of suspect screening, new libraries and workflows are required, leveraging the highly specific analytical data acquired by state-of-the-art mass spectrometers. In this study, we established a new library for 1,590 suspect contaminants, including exact mass and a combination of measured and model-predicted values for retention time (RT) and collision cross section (CCS). The accuracy of in silico predictions was assessed using standards for 102 environmental contaminants. Thereafter, using gas chromatography-atmospheric pressure chemical ionization-ion mobility-mass spectrometry, a suspect screening workflow constrained by exact mass, RT, CCS, and product ion data, together with a continuous scoring system, was established to reduce false positives and improve identification confidence. Application of the method to fortified and standard reference sediment samples demonstrated true positive rates of 79% and 64%, respectively, with all false positives attributed to suspect isomers, indicating high specificity of our method. This study offers a new workflow for improved suspect screening of HOCs using multidimensional information, and highlights the need to enrich CCS databases and extend the applicable chemical space of current in silico tools to non-polar substances.
Supplementary materials
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Supporting Information
Description
Instrumental method (Section A); software parameters (Section B); conversion between RTs and RIs (Section C); regressions among RTs and RIs (Table S1); RTs and RIs of fatty acid methyl esters (Table S2); measured RTs of alkanes (Table S3); suspect list of GC-amenable chemicals with experimentally-derived CCS values (Table S4); suspect list of chemicals of concern (Table S5); qualitative information of reference standards (Table S6); true positive rates using different weights (Figure S1); sample preparation (Section D); highest-scoring candidates in sediment samples (Table S7)
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MS2 library
Description
MS2 library
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Supplementary weblinks
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R scripts
Description
R scripts for exact mass, RT, CCS matching and format converting
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