2015
DOI: 10.1016/j.ijms.2015.05.001
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New evidence for H/D scrambling of tryptophan and its analogues in the gas phase

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Cited by 5 publications
(6 citation statements)
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“…We propose an alternative route for the proton transfer which involves the aromatic ring of the phenethylamines, as shown in Scheme A. This mechanism is similar to the one proposed for the H/D scrambling observed during fragmentation of protonated tryptophan and protonated alkyl dihydrocinnamates and is consistent with the H/D scrambling observed in our study (Figure ). Note that the scrambling observed in the spectra rules out a direct O to N proton transfer, which would result in no observable scrambling.…”
Section: Resultssupporting
confidence: 88%
“…We propose an alternative route for the proton transfer which involves the aromatic ring of the phenethylamines, as shown in Scheme A. This mechanism is similar to the one proposed for the H/D scrambling observed during fragmentation of protonated tryptophan and protonated alkyl dihydrocinnamates and is consistent with the H/D scrambling observed in our study (Figure ). Note that the scrambling observed in the spectra rules out a direct O to N proton transfer, which would result in no observable scrambling.…”
Section: Resultssupporting
confidence: 88%
“…According to the literature reports, in the fragmentation of protonated tryptophan, a natural indole derivative with an acyclic amino acid substituent on the C 3 position of the indole core, the hydrogen atoms on the amino nitrogen and those at the C 2 and C 4 positions of the indole core are completely scrambled before fragmentation, which is surprisingly similar to the extraordinary scrambling of amide hydrogen in gaseous protonated peptides and proteins. It is meaningful to demonstrate whether this same phenomenon is present in the fragmentation of protonated cyclic indolyl α‐amino esters.…”
mentioning
confidence: 87%
“…This stereoselective proton transfer process is very similar to those of the reversible intramolecular proton transfers between the amino nitrogen and the C 2 and C 4 positions of the indole core prior to the fragmentation of deuterated tryptophan reported in the literature, which proceed from both faces of the indole ring, i.e., delivery of a deuterium from one face and subsequent loss of a proton from the other, resulting in hydrogen-deuterium scrambling. [22][23][24] Moreover, although the hydrogen atom on the C 4 position of the indole ring has been replaced with a methoxyl, the unlabeled product ion b is exclusively generated for the fragmentation of fully labile H/D-exchanged compound 8 shown in Fig. 1(c), which indicates that the hydrogens of the methoxyl on the C 4 position have participated in the proton transfer reaction.…”
Section: Stereoselective Proton Transfer Reaction In Ion-neutral Complexmentioning
confidence: 99%
“…In addition, the H/D scrambling reactions can take place between the deuterium and the hydrogens on the ortho-position of the phenyl ring, [14] and the hydrogens in the methyl linked to the indole ring. [15] As described in Scheme 2, ions A and B result from hydride transfer and direct separation of the intermediate INC-1, respectively, and ions C and D arise from hydride transfer and electron transfer reactions within the intermediate INC-2, respectively. To investigate the influence of the substituents on these two competitive reactions, compounds 2-6 with different substituents at the C2 position were measured (Table 1 …”
Section: Resultsmentioning
confidence: 99%