Structural characterization of the ligstroside aglycone isoforms in virgin olive oils by liquid chromatography–high‐resolution Fourier‐transform mass spectrometry and H/Dexchange

Structural characterization of the ligstroside aglycone isoforms in virgin olive oils by liquid chromatography–high‐resolution Fourier‐transform mass spectrometry and H/Dexchange

A systematic structural characterization of the isomeric forms related to ligstroside aglycone (LA), one of the most relevant secoiridoids contained in virgin olive oils, was performed using reverse phase liquid chromatography with electrospray ionization Fourier‐transform single and tandem mass spe...

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Bibliographic Details
Published in:Journal of mass spectrometry. Vol. 54; no. 10; pp. 843 - 855
Main Authors: Abbattista, Ramona, Losito, Ilario, De Ceglie, Cristina, Basile, Graziana, Calvano, Cosima D., Palmisano, Francesco, Cataldi, Tommaso R.I.
Format: Journal Article
Language:English
Published: England Wiley Subscription Services, Inc 01-10-2019
Subjects:
Acetonitrile
Anions
Chromatography
H/D exchange
high‐resolution mass spectrometry
Hydrogen-deuterium exchange
Ionization
Ions
Isoforms
ligstroside aglycone
Liquid chromatography
Mass spectrometry
Mass spectroscopy
Molecular structure
Negative ions
Oils & fats
Oleuropein
Olive oil
Resolution
Room temperature
Scientific imaging
secoiridoids
Spectroscopy
Structural analysis
Tautomers
high-resolution mass spectrometry
ligstroside aglycone
olive oil
H/D exchange
secoiridoids
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Summary:A systematic structural characterization of the isomeric forms related to ligstroside aglycone (LA), one of the most relevant secoiridoids contained in virgin olive oils, was performed using reverse phase liquid chromatography with electrospray ionization Fourier‐transform single and tandem mass spectrometry, operated in negative ion mode (RPLC‐ESI(−)‐FTMS and FTMS/MS). The high mass resolution and accuracy provided by the adopted orbital trap mass analyzer enabled the recognition of more than 10 different isomeric forms of LA in virgin olive oil extracts. They were related to four different types of molecular structure, two of which including a dihydropyranic ring bearing one or two aldehydic groups, whereas the others corresponded to dialdehydic open‐structure forms, differing just for the position of a C═C bond. The contemporary presence of enolic or dienolic tautomers associated to most of these compounds, stable at room temperature (23°C), was also assessed through RPLC‐ESI‐FTMS analyses operated under H/D exchange conditions, ie, by using D2O instead of H2O as co‐solvent of acetonitrile in the RPLC mobile phase. As discussed in the paper, the results obtained for LA indicated a remarkable structural similarity with oleuropein aglycone (OA), the most abundant secoiridoid of olive oil, whose isoforms had been previously characterized using the same analytical approach.
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ISSN:1076-5174
1096-9888
DOI:10.1002/jms.4438