Comparison of Fragmentation Techniques for the Structural Characterization of Singly Charged Agrochemicals

Investigating the structure of active ingredients, such as agrochemicals and their associated metabolites, is a crucial requisite in the discovery and development of these molecules. In this study, structural characterization by electron-induced dissociation (EID) was compared to collisionally activ...

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Veröffentlicht in:Analytical chemistry (Washington) 2020-02, Vol.92 (4), p.3143-3151
Hauptverfasser: Marzullo, Bryan P, Morgan, Tomos E, Wootton, Christopher A, Li, Meng, Perry, Simon J, Saeed, Mansoor, Barrow, Mark P, O’Connor, Peter B
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Sprache:eng
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Zusammenfassung:Investigating the structure of active ingredients, such as agrochemicals and their associated metabolites, is a crucial requisite in the discovery and development of these molecules. In this study, structural characterization by electron-induced dissociation (EID) was compared to collisionally activated dissociation (CAD) on a series of agrochemicals. EID fragmentation produced a greater variety of fragment ions and complementary ion pairs leading to more complete functional group characterization compared to CAD. The results obtained displayed many more cross-ring fragmentation of the pyrimidine ring compared to the pyridine ring. Compounds that consisted of one aromatic heterocyclic moiety (azoxystrobin, fluazifop acid, fluazifop-p-butyl, and pirimiphos-methyl) displayed cross-ring fragmentation while compounds with only aromatic hydrocarbon rings (fenpropidin and S-metolachlor) displayed no cross-ring fragmentation. The advantages of high-resolution accurate mass spectrometry (HRAM MS) are shown with the majority of assignments at ppb range error values and the ability to differentiate ions with the same nominal mass but different elemental composition. This highlights the potential for HRAM MS and EID to be used as a tool for structural characterization of small molecules with a wide variety of functional groups and structural motifs.
ISSN:0003-2700
1520-6882
DOI:10.1021/acs.analchem.9b04820