posted on 2016-02-19, 20:59authored byDaiki Asakawa, David Calligaris, Nicolas Smargiasso, Edwin De Pauw
The early mechanisms of matrix-assisted laser desorption/ionization
in-source decay (MALDI-ISD) are described herein. MALDI-ISD is initiated
by the hydrogen transfer from excited matrix molecules to the carbonyl
oxygen of the peptide backbone, which is followed by a radical-induced
cleavage, producing the c′/z• fragment pair. As expected, the use of 2,5-DHB or 1,5-DAN
was efficient to induce MALDI-ISD, and the strongest intensity of
MALDI-ISD fragments was observed when laser shots were performed on
matrix crystals. In contrast, the hydrogen radical transfer reaction
was suppressed by using ionic liquid and amorphous structure of 2,5-DHB
and 1,5-DAN mixture as a matrix. Our results suggest that the hydrogen
transfer occurs on the matrix crystal during the dissipation of the
laser energy and before desorption, following ISD fragments formed
in the MALDI plume.