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Prediction of Reten...
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Celma Tirado, AlbertoSwedish University of Agricultural Sciences,Sveriges lantbruksuniversitet,Institutionen för vatten och miljö,Department of Aquatic Sciences and Assessment,Universitat Jaume I
(författare)
Prediction of Retention Time and Collision Cross Section (CCSH plus , CCSH-, and CCSNa plus ) of Emerging Contaminants Using Multiple Adaptive Regression Splines
- Artikel/kapitelEngelska2022
Förlag, utgivningsår, omfång ...
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2022-10-24
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American Chemical Society (ACS),2022
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American Chemical Society,2024
Nummerbeteckningar
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LIBRIS-ID:oai:slubar.slu.se:120226
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https://res.slu.se/id/publ/120226URI
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https://doi.org/10.1021/acs.jcim.2c00847DOI
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Språk:engelska
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Sammanfattning på:engelska
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Ämneskategori:art swepub-publicationtype
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Ultra-high performance liquid chromatography coupled to ion mobility separation and high-resolution mass spectrometry instruments have proven very valuable for screening of emerging contaminants in the aquatic environment. However, when applying suspect or nontarget approaches (i.e., when no reference standards are available), there is no information on retention time (RT) and collision cross-section (CCS) values to facilitate identification. In silico prediction tools of RT and CCS can therefore be of great utility to decrease the number of candidates to investigate. In this work, Multiple Adaptive Regression Splines (MARS) were evaluated for the prediction of both RT and CCS. MARS prediction models were developed and validated using a database of 477 protonated molecules, 169 deprotonated molecules, and 249 sodium adducts. Multivariate and univariate models were evaluated showing a better fit for univariate models to the experimental data. The RT model (R2 = 0.855) showed a deviation between predicted and experimental data of +/- 2.32 min (95% confidence intervals). The deviation observed for CCS data of protonated molecules using the CCSH model (R2 = 0.966) was +/- 4.05% with 95% confidence intervals. The CCSH model was also tested for the prediction of deprotonated molecules, resulting in deviations below +/- 5.86% for the 95% of the cases. Finally, a third model was developed for sodium adducts (CCSNa, R2 = 0.954) with deviation below +/- 5.25% for 95% of the cases. The developed models have been incorporated in an open-access and user-friendly online platform which represents a great advantage for third-party research laboratories for predicting both RT and CCS data.
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Sveriges lantbruksuniversitetInstitutionen för vatten och miljö
(creator_code:org_t)
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Sveriges lantbruksuniversitet
Sammanhörande titlar
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Ingår i:Journal of Chemical Information and Modeling: American Chemical Society (ACS)62, s. 5425-54341549-95961549-960X
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