posted on 2019-12-18, 22:14authored byAleksandr
Y. Pereverzev, Zsuzsanna Koczor-Benda, Erik Saparbaev, Vladimir N. Kopysov, Edina Rosta, Oleg V. Boyarkin
We study the photodissociation induced by ultraviolet
excitation
of amide bonds in gas-phase protonated peptides. Jointly, mass spectrometry
and cold ion spectroscopy provide evidence for a selective nonstatistical
dissociation of specific peptide bonds in the spectral region of the
formally forbidden n → π* transition of amide groups.
Structural analysis reveals that the activation of this transition,
peaked at 226 nm, originates from the nonplanar geometry of the bond.
In contrast, the statistical dissociation in the electronic ground
state appears to be the main outcome of the π → π*
excitation of the peptide bonds at 193 nm. We propose a tentative
model that explains the difference in the fragmentation mechanisms
by the difference in localization of the electronic transitions and
the higher amount of vibrational energy released in the electronic
excited state upon absorption at 193 nm.