2014
DOI: 10.1002/rcm.6826
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The use of dicationic ion-pairing compounds to enhance the ambient detection of surface lipids in positive ionization mode using desorption electrospray ionisation mass spectrometry

Abstract: RATIONALE:Lipids are typically analysed in negative ionisation mode in desorption electrospray ionisation mass spectrometry (DESI-MS), which can result in reduced sensitivity. In this study we examine the use of dicationic compounds as reactive DESI-MS agents to detect a range of lipid standards from the surface in positive ionisation mode. METHODS: Nine dicationic compounds were tested for their ability to detect seven representative lipid species (palmitoleic acid, linoleic acid, phosphatidic acid (34:1), ph… Show more

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Cited by 17 publications
(40 citation statements)
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“…[C 5 (bpyr) 2 ] 2+ was able to form adducts with a broad range of negatively charged metabolites, and this dication does not seem to favor any particular mass range. This observation is in contrast with previous DESI-MSI studies, in which dicationic compound [C 6 (C 1 Pyrr) 2 ][Br] 2 [41, 42] was chosen as the reagent, where the higher mass ranges were less well detected. It is very likely that the difference of detection range resulted from the difference of sampling and ionization mechanisms between the Single-probe MSI and DESI-MSI techniques.…”
Section: Resultscontrasting
confidence: 73%
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“…[C 5 (bpyr) 2 ] 2+ was able to form adducts with a broad range of negatively charged metabolites, and this dication does not seem to favor any particular mass range. This observation is in contrast with previous DESI-MSI studies, in which dicationic compound [C 6 (C 1 Pyrr) 2 ][Br] 2 [41, 42] was chosen as the reagent, where the higher mass ranges were less well detected. It is very likely that the difference of detection range resulted from the difference of sampling and ionization mechanisms between the Single-probe MSI and DESI-MSI techniques.…”
Section: Resultscontrasting
confidence: 73%
“…This concentration is higher than those used in previous LC-PIESI MS (40 µM) [40] and DESI-MS (10 µM) [41] studies. It is likely that in our MSI experiments, a larger amount of complex molecules extracted from biological tissues can form adducts with the dicationic compounds resulting in higher consumptions of dicationic reagents.…”
Section: Resultsmentioning
confidence: 58%
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“…These experiments can differ from those seen with DART with the involvement of either covalent derivatization, such as xed charge derivatization with betaine aldehyde 50 and ketone modication with hydroxylamine, 54 or non-covalent complexation, such as dicationic pairing 51,52 and other supramolecular host-guest complexes.…”
mentioning
confidence: 85%
“…That method involves host-guest supramolecular chemistry with either the host or guest in the spray to complex with a target functionality present on the analyte in the sample, or derivatization chemistry involving attachment of a xed charge to the target functionality within the molecule, oen with the reagent molecule being delivered in the spray. 50 Many different hostguest supramolecular interactions [51][52][53] and chemical derivatization methods 50,54 have been used successfully with reactive DESI. We report in this study a similar method with DART ionization, referred to as reagent assisted desorption ionization (RADI), with which the introduction of host-guest supramolecular chemistry allows for enhanced detection of target species in a complex mixture and simplication of resultant spectra.…”
mentioning
confidence: 99%