2005
DOI: 10.1002/rcm.2270
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Examining the collision‐induced decomposition spectra of ammoniated triglycerides as a function of fatty acid chain length and degree of unsaturation. II. The PXP/YPY series

Abstract: A series of positionally pure triglycerides (TAGs) of the form PXP and YPY, where P is the palmitate moiety and X and Y are large arrays of different fatty acid moieties, is synthesized and analyzed by reversed-phase high-performance liquid chromatography/tandem mass spectrometry. The intensities of the collision-induced decomposition (CID) products of ammoniated TAGs were examined as a function of chain length, degree of unsaturation, double-bond position, and cis/trans configuration of X and Y. The major CID… Show more

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Cited by 37 publications
(62 citation statements)
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“…The next stage would be to uniquely identify those molecular species containing the fatty acyl group by MS 3 as demonstrated here (Table 4) perhaps before and after stimulation. As previously reported, changes in fatty acyl position can significantly alter the ion yield of the loss of the fatty acyl group (17,22); thus, it would be expected that remodeling of a molecular species to an isomeric molecular species containing the same fatty acyl groups may even be detected if the fatty acyl group that undergoes the neutral loss moves from sn-1 (3) to sn-2. If remodeling of a TAG or DAG species takes place with substitution of different fatty acyl groups, there will be an increase or decrease in molecular weight with corresponding loss of neutral loss abundance or increase in neutral loss abundance.…”
Section: Discussionmentioning
confidence: 80%
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“…The next stage would be to uniquely identify those molecular species containing the fatty acyl group by MS 3 as demonstrated here (Table 4) perhaps before and after stimulation. As previously reported, changes in fatty acyl position can significantly alter the ion yield of the loss of the fatty acyl group (17,22); thus, it would be expected that remodeling of a molecular species to an isomeric molecular species containing the same fatty acyl groups may even be detected if the fatty acyl group that undergoes the neutral loss moves from sn-1 (3) to sn-2. If remodeling of a TAG or DAG species takes place with substitution of different fatty acyl groups, there will be an increase or decrease in molecular weight with corresponding loss of neutral loss abundance or increase in neutral loss abundance.…”
Section: Discussionmentioning
confidence: 80%
“…In the RAW cell neutral loss experiment for 273 u, an ion at m/z 857.8 was observed (Figure 4). From previous work of Evans [17,22], it was clear that absolute abundances of each neutral loss of RCOOH + NH 3 from a synthetic TAG (and DAG) depended significantly on acyl position on the glycerol backbone, number of fatty acyl carbon atoms, and number of double bonds in the fatty acyl group. Thus it would not be valid to assume the abundance of each ion appearing in the neutral loss scan unambiguously indicated the quantitative measure of each component relative to the abundance of others.…”
Section: Relative Quantitation Of Fatty Acyl Substituents In Dags Andmentioning
confidence: 97%
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“…12,15 Further complications arise where the FA identity influences the product ion abundance. [17][18][19] Rather than relying on ion abundance ratios in CID spectra, an explicit marker ion for assigning positional isomerism in TGs is desirable. This approach was first demonstrated with high energy (> 1 keV) CID of [TG + M] + ions on a multi-sector instrument and has since been replicated on tandem time-offlight platforms.…”
Section: Introductionmentioning
confidence: 99%