Photodissociation pathways and lifetimes of protonated peptides and their dimers

G. Aravind, B. Klrke, J. Rajput, Y. Toker, L. H. Andersen, A. V. Bochenkova, R. Antoine, J. Lemoine, A. Racaud, P. Dugourd

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10 Scopus citations

Abstract

Photodissociation lifetimes and fragment channels of gas-phase, protonated YA n (n = 1,2) peptides and their dimers were measured with 266 nm photons. The protonated monomers were found to have a fast dissociation channel with an exponential lifetime of ∼200 ns while the protonated dimers show an additional slow dissociation component with a lifetime of ∼2 s. Laser power dependence measurements enabled us to ascribe the fast channel in the monomer and the slow channel in the dimer to a one-photon process, whereas the fast dimer channel is from a two-photon process. The slow (1 photon) dissociation channel in the dimer was found to result in cleavage of the H-bonds after energy transfer through these H-bonds. In general, the dissociation of these protonated peptides is non-prompt and the decay time was found to increase with the size of the peptides. Quantum RRKM calculations of the microcanonical rate constants also confirmed a statistical nature of the photodissociation processes in the dipeptide monomers and dimers. The classical RRKM expression gives a rate constant as an analytical function of the number of active vibrational modes in the system, estimated separately on the basis of the equipartition theorem. It demonstrates encouraging results in predicting fragmentation lifetimes of protonated peptides. Finally, we present the first experimental evidence for a photo-induced conversion of tyrosine-containing peptides into monocyclic aromatic hydrocarbon along with a formamide molecule both found in space.

Original languageEnglish
Article number014307
JournalJournal of Chemical Physics
Volume136
Issue number1
DOIs
StatePublished - 7 Jan 2012
Externally publishedYes

Bibliographical note

Funding Information:
We thank S. Brøndsted Nielsen for useful discussions. This work is supported by the Carlsberg Foundation, Lundbeckfonden, the Danish Research Agency and the Marie Curie European Career Integration Grant within the 7th European Community Framework Programme. A.V.B. acknowledges the support from the Russian Foundation for Basic Research (grant #11-03-01214) and from the grant MK-64815.2010.4, as well as the Research Computing Center at the M.V. Lomonosov Moscow State University for providing computing resources.

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