Comparison of low-energy collisionally induced dissociation of n-butyl benzene ions with photodissociation

Per-O-acetylated methyl glycosides of D-xylan-type di-and trisaccharides were studied by mass-analysed ion kinetic energy (MIKE) and collisionally induced dissociation (CID) mass spectrometry using protonated ammonia and methylamine, respectively, as reaction gases in chemical ionization (CI). The o

Fungal cerebrosides (monohexosylceramides, or CMHs) exhibit a number of ceramide structural modifications not found in mammalian glycosphingolipids, which present additional challenges for their complete characterization. The use of Li cationization, in conjunction with electrospray ionization mass

Several underivatized mono-and bis-sulfated glycosphingolipids having gangliotriaose or gangliotetraose core structure were analyzed by negative liquid secondary ion mass spectrometry (LSIMS) with high-and low-energy collision-induced dissociation (CID). In the normal negative I\_SIMS spectra, each

A systematic comparison between the up-front Collision induced dissociation (CID) mass spectra and low-energy CID tandem mass spectra from twenty-one singly and/or doubly charged peptides has been made. CID spectra of the peptides were recorded at different electrode voltages in the up-front source

The high-energy collision-induced dissociation spectra of [M + Li] + ions of n-butyl palmitate or heptadecanoate and their labelled isotopomers containing a 2 H 2 -label at the C-2, C-3 and C-4 positions are reported. As is the case for positions remote from the charge, the removal of a hydrogen rad