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Gas-Phase Fragmentation Reactions of Protonated Cystine Using High-Resolution Tandem Mass Spectrometry
Zhang, P.; Poon, C. W.
2019-06-12
Source Publication6th Macau Symposium on Biomedical Sciences 2019
AbstractCystine is an important biomolecule in living systems. Although collision-induced dissociation (CID)-based tandem mass spectrometry (MS/MS) is commonly applied for identification and quantification of cystine in both biomedical and nutritional studies, gas-phase fragmentation reactions of cystine in CID has remained unclear. This may lead to improper assay design, which may in turn result in inaccurate test results. In the present study, gas-phase fragmentation reactions of protonated cystine in CID were characterized using high-resolution MS/MS and pseudo MS3. Fragmentations started from cleavages of disulfide bond (S–S) and carbon–sulfur bond (C–S). When cleaving at the S–S, protonated cysteine was generated as one of the predominant fragmentation products. Minor fragmentations started from the loss of H2O + CO and the loss of NH3. Our results reveal that the m/z 74 fragment ion, which is commonly used as a product ion of the transition (precursor/product ion pair) in selected reaction monitoring (SRM) assay for quantifying cystine, comprises two isobaric fragments originating from different parts of cystine. This indicates the need for careful selection of a stable isotope-labeled cystine molecule as an internal standard for SRM assays. Here, we provide a clear picture of the fragmentation reactions of protonated cystine in CID. It can serve as a useful guidance for designing MS/MS-based assays for cystine testing.
Keywordcysteine cystine gas-phase fragmentation reaction high-resolution MS/MS isobaric fragment pseudo MS3
Language英語English
The Source to ArticlePB_Publication
PUB ID48705
Document TypeConference paper
CollectionDEPARTMENT OF BIOMEDICAL SCIENCES
Corresponding AuthorPoon, C. W.
Recommended Citation
GB/T 7714		 Zhang, P.,Poon, C. W.. Gas-Phase Fragmentation Reactions of Protonated Cystine Using High-Resolution Tandem Mass Spectrometry[C], 2019.
APA Zhang, P.., & Poon, C. W. (2019). Gas-Phase Fragmentation Reactions of Protonated Cystine Using High-Resolution Tandem Mass Spectrometry. 6th Macau Symposium on Biomedical Sciences 2019.
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