2015
DOI: 10.1007/s13361-015-1080-7
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Formation of a1 Ions Directly from Oxazolone b2 Ions: an Energy-Resolved and Computational Study

Abstract: Abstract. It is well-known that oxazolone b 2 ions fragment extensively by elimination of CO to form a 2 ions, which often fragment further to form a 1 ions. Less well-known is that some oxazolone b 2 ions may fragment directly to form a 1 ions. The present study uses energy-resolved collision-induced dissociation experiments to explore the occurrence of the direct b 2 →a 1 fragmentation reaction. The experimental results show that the direct b 2 →a 1 reaction is generally observed when Gly is the C-terminal r… Show more

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Cited by 18 publications
(11 citation statements)
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“…The m / z 116 product ion (neutral loss of 43, ethanimine, CH 3 CH=NH) suggests detachment of the ethylamine side-chain, 52 which is only plausible for the oxazolone and oxazoline structures. Neutral loss of the N-terminus as an alkylimine, rather than neutral loss of CO, has been shown to be diagnostic for b-type ions that are not oxazolones protonated on the oxazolone N. 36 , 60 Here, further evidence for a non-oxazolone structure is provided by the absence in the experimental spectrum of the main predicted IR band of oxazolone structure 2.4 near 1930 cm –1 (oxazolone ring C=O stretch). Again, this leaves the oxazoline structure as the only plausible product ion structure.…”
Section: Resultsmentioning
confidence: 73%
“…The m / z 116 product ion (neutral loss of 43, ethanimine, CH 3 CH=NH) suggests detachment of the ethylamine side-chain, 52 which is only plausible for the oxazolone and oxazoline structures. Neutral loss of the N-terminus as an alkylimine, rather than neutral loss of CO, has been shown to be diagnostic for b-type ions that are not oxazolones protonated on the oxazolone N. 36 , 60 Here, further evidence for a non-oxazolone structure is provided by the absence in the experimental spectrum of the main predicted IR band of oxazolone structure 2.4 near 1930 cm –1 (oxazolone ring C=O stretch). Again, this leaves the oxazoline structure as the only plausible product ion structure.…”
Section: Resultsmentioning
confidence: 73%
“…Loss of HN=CH 2 from the imidazolone (structure I) formed by loss of water from the first amide is easily rationalized in terms of C α −C bond cleavage adjacent to the fivemembered ring as it is analogous to the formation of an [a 1 ] + ion from a [b 2 ] + ion. 37 Loss of HN=CH 2 from the second residue requires rearrangement of structure II into I, thereby moving the second residue to the N-terminus. A possible pathway for rearrangement of II is given in Scheme 1.…”
Section: ■ Theoretical Methodsmentioning
confidence: 99%
“…All three models consistently predict that the furanose-forming mechanism is the most likely (Table S2). Like the Kuo group, we find that the newer models, which contain dispersion terms and larger proportions of exact exchange, produce larger barriers for gas-phase glycan reactions. ,, Here, the key reactions are S N 2-like, a known weakness of the B3LYP model, which systematically underestimates S N 2 reaction barriers. …”
Section: Resultsmentioning
confidence: 48%