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首页 > Journal of the American Society for Mass Spectrome... > Kinetics for tautomerizations and dissociations of triglycine radical cations.
Kinetics for tautomerizations and dissociations of triglycine radical cations.
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Fragmentations of tautomers of the alpha-centered radical triglycine radical cation, [GGG(*)](+), [GG(*)G](+), and [G(*)GG](+), are charge-driven, giving b-type ions; these are processes that are facilitated by a mobile proton, as in the fragmentation of protonated triglycine (Rodriquez, C. F. et al. J. Am. Chem. Soc. 2001, 123, 3006-3012). By contrast, radical centers are less mobile. Two mechanisms have been examined theoretically utilizing density functional theory and Rice-Ramsperger-Kassel-Marcus modeling: (1) a direct hydrogen-atom migration between two alpha-carbons, and (2) a two-step proton migration involving canonical [GGG](*+) as an intermediate. Predictions employing the latter mechanism are in good agreement with results of recent CID experiments (Chu, I. K. et al. J. Am. Chem. Soc. 2008, 130, 7862-7872).

作者:Chi-Kit, Siu;Junfang, Zhao;Julia, Laskin;Ivan K, Chu;Alan C, Hopkinson;K W Michael, Siu

来源:Journal of the American Society for Mass Spectrometry 2009 年 20卷 6期

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Kinetics for tautomerizations and dissociations of triglycine radical cations.
收藏
| 浏览:16
作者:
Chi-Kit, Siu;Junfang, Zhao;Julia, Laskin;Ivan K, Chu;Alan C, Hopkinson;K W Michael, Siu
来源:
Journal of the American Society for Mass Spectrometry 2009 年 20卷 6期
Fragmentations of tautomers of the alpha-centered radical triglycine radical cation, [GGG(*)](+), [GG(*)G](+), and [G(*)GG](+), are charge-driven, giving b-type ions; these are processes that are facilitated by a mobile proton, as in the fragmentation of protonated triglycine (Rodriquez, C. F. et al. J. Am. Chem. Soc. 2001, 123, 3006-3012). By contrast, radical centers are less mobile. Two mechanisms have been examined theoretically utilizing density functional theory and Rice-Ramsperger-Kassel-Marcus modeling: (1) a direct hydrogen-atom migration between two alpha-carbons, and (2) a two-step proton migration involving canonical [GGG](*+) as an intermediate. Predictions employing the latter mechanism are in good agreement with results of recent CID experiments (Chu, I. K. et al. J. Am. Chem. Soc. 2008, 130, 7862-7872).

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