화학공학소재연구정보센터
Journal of Physical Chemistry B, Vol.114, No.6, 2270-2280, 2010
Formation, Isomerization, and Dissociation of alpha-Carbon-Centered and pi-Centered Glycylglycyltryptophan Radical Cations
Gas phase fragmentations of two isomeric radical cationic tripeptides of glycylglycyltryptophan-[G(center dot)GW](+) and [GGW](center dot+)-with well-defined initial radical sites at the alpha-carbon atom and the 3-methylindole ring, respectively, have been studied using collision-induced dissociation (CID), density functional theory (DFT), and Rice-Ramsperger-Kassel-Marcus (RRKM) theory. Substantially different low-energy CID spectra were obtained for these two isomeric GGW structures, suggesting that they did not interconvert on the time scale of these experiments. DFT and RRKM calculations were used to investigate the influence of the kinetics, stabilities, and locations of the radicals on the competition between the isomerization and dissociation channels. The calculated isomerization barrier between the GGW radical cations (>35.4 kcal/mol) was slightly higher than the barrier for competitive dissociation of these species (<30.5 kcal/mol); the corresponding microcanonical rate constants for isomerization obtained from RRKM calculations were all considerably lower than the dissociation rates at all internal energies. Thus, interconversion between the GGW isomers examined in this study cannot compete with their fragmentations.