Abstract
In‐source collision‐induced dissociation (CID) fragmentation features of multiclass flavonoid glycoconjugates were examined using liquid chromatography electrospray time‐of‐flight mass spectrometry. Systematic experiments were performed to search for optimal conditions for in‐source fragmentation in both positive and negative ion modes. The objective of the study was to attain uniformly appropriate conditions for a wide range of analytes independently of the aglycone, the attached sugar part and the type of bond between the aglycone and the glycan moieties (O‐ or C‐glycosides). Studied substances included representatives of flavonols, flavones, flavanones and anthocyanins and, regarding their glycan parts, mono‐, di‐ and triglycosides with varying distribution of carbohydrate moieties (di‐O‐glycosides, O‐diglycosides, O,C‐diglycosides). The breakdown properties of the analytes along with the abundances of the characteristic diagnostic ions required for structural elucidation of complex flavonoid derivatives were evaluated. An optimized value was found for the instrument parameter (fragmentor voltage) affecting the in‐source CID fragmentation of the analytes [230 V (ESI+) and 330 V (ESI−)]. Thus, appropriate performance in terms of both highly sensitive full‐scan acquisition and fragmentation information was obtained for all the investigated flavonoids. In addition, singularities in the abundance of selected diagnostic ions (e.g. Y~0~, Y~1~ and Y*) due to variations in the interglycosidic linkage (rutinoside–neohesperidoside) in the glycan part were found and are also evaluated and discussed in detail. The combination of in‐source CID fragmentation with high mass accuracy MS detection establishes a working basis for the development of versatile and useful LC‐MS methods for wide‐scope screening, non‐targeted detection and tentative identification of flavonoid derivatives. Copyright © 2011 John Wiley & Sons, Ltd.