Gas‐phase fragmentation reactions of protonated benzofuran‐ and dihydrobenzofuran‐type neolignans investigated by accurate‐mass electrospray ionization tandem mass spectrometry

We have investigated gas‐phase fragmentation reactions of protonated benzofuran neolignans (BNs) and dihydrobenzofuran neolignans (DBNs) by accurate‐mass electrospray ionization tandem and multiple‐stage (MSn) mass spectrometry combined with thermochemical data estimated by Computational Chemistry....

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Bibliographic Details
Published in:Journal of mass spectrometry. 2019-01, Vol.54 (1), p.35-46
Main Authors: Dias, Herbert J., Baguenard, Manon, Crevelin, Eduardo J., Palaretti, Vinicius, Gates, Paul J., Vessecchi, Ricardo, Crotti, Antônio E.M.
Format: Article
Language:English
Subjects:
Benzofuran
Cascade chemical reactions
Computational chemistry
Computer applications
Data
Deuterium
Diagnostic systems
dihydrobenzofuran
Dissociation
Electrospraying
Fragmentation
fragmentation mechanisms
Hydroxyl groups
In vivo methods and tests
Ionization
Ions
Mass spectrometry
Mass spectroscopy
Metabolites
neolignans
Organic chemistry
Scientific imaging
Spectroscopy
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Summary:We have investigated gas‐phase fragmentation reactions of protonated benzofuran neolignans (BNs) and dihydrobenzofuran neolignans (DBNs) by accurate‐mass electrospray ionization tandem and multiple‐stage (MSn) mass spectrometry combined with thermochemical data estimated by Computational Chemistry. Most of the protonated compounds fragment into product ions B ([M + H–MeOH]+), C ([B–MeOH]+), D ([C–CO]+), and E ([D–CO]+) upon collision‐induced dissociation (CID). However, we identified a series of diagnostic ions and associated them with specific structural features. In the case of compounds displaying an acetoxy group at C‐4, product ion C produces diagnostic ions K ([C–C2H2O]+), L ([K–CO]+), and P ([L–CO]+). Formation of product ions H ([D–H2O]+) and M ([H–CO]+) is associated with the hydroxyl group at C‐3 and C‐3′, whereas product ions N ([D–MeOH]+) and O ([N–MeOH]+) indicate a methoxyl group at the same positions. Finally, product ions F ([A–C2H2O]+), Q ([A–C3H6O2]+), I ([A–C6H6O]+), and J ([I–MeOH]+) for DBNs and product ion G ([B–C2H2O]+) for BNs diagnose a saturated bond between C‐7′ and C‐8′. We used these structure‐fragmentation relationships in combination with deuterium exchange experiments, MSn data, and Computational Chemistry to elucidate the gas‐phase fragmentation pathways of these compounds. These results could help to elucidate DBN and BN metabolites in in vivo and in vitro studies on the basis of electrospray ionization ESI‐CID‐MS/MS data only.
ISSN:1076-5174
1096-9888
DOI:10.1002/jms.4304