Fast atom bombardment and fast atom bombardment collision-activated dissociation/mass-analysed ion kinetic energy analysis of C-glycosidic flavonoids

Positive-ion fast atom bombardment maw spectrometry appears to be a useful method for the differentiation of anomeric C-glycosides. The mass-analysed ion kinetic energy (MIKE) and collision-activated dissociation (CAD) MIKE spectra of selected positive ions can be used as fingerprints of the a-or /$

## Abstract The collision‐induced dissociation (CID) spectra of glycoside–alkali metal adduct ions [M + C]^+^ (C = Li, Na, K and Rb) produced under fast atom bombardment (FAB) conditions are reported. The results obtained suggested that the CID spectra of the [M + C]^+^ ions of some flavonoid glyco

The syntheses of 2'-O-snccinyl, 2'-O-succinyltyrosinyl methyl ester and 2'-O-succinyliodotyrosinyl methyl ester derivatives of a cyclic nucleotide, derivatives necessary for the successful development of a specific radioimmunoassay, are described. Fast atom bombardment with collision-induced dissoci

The present study deals with the use of liquid secondary ion mass spectrometry in combination with collisionally activated dissociation and linked scanning at constant BIE for differentiation and structural analysis of 6-C-and 8-C-glycosidic flavonoids in the positive ion mode. Flavonoids of mono-C-