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W2890680787 abstract "Glycosylation is an important and variable protein modification that can have a profound effect on the physiological characteristics of the substrate, warranting careful examination in applications ranging from the development and quality control of biopharmaceuticals to clinical glycoproteomics. Glycoproteomics describes the mass spectrometric analysis of protein glycosylation in a site-specific manner, typically of proteolytically digested glycoprotein samples. This may be achieved by interpreting the mass (over charge) values of (glyco)peptides across a run of liquid chromatography coupled to mass spectrometry (LC-MS), and acquiring the fragmentation patterns of selected precursors to sequence the peptide and characterize the composition/structure of the glycan. It has become apparent, however, that most fragmentation mechanisms do not equivalently affect the glycan and peptide portion of a glycopeptide. For example, collision-induced dissociation (CID) and higher-energy collisional dissociation (HCD) primarily yield abundant B- and Y-ions from the glycan portion of a glycopeptide conjugate, whereas electron-transfer dissociation methods such as electron-capture dissociation (ECD) and electron-transfer dissociation (ETD) mainly affect the peptide backbone to yield c- and z-ions. Hybrid fragmentation, i.e., the application of sequential or combinatorial fragmentation by orthogonal fragmentation strategies, has shown to greatly benefit the characterization of glycopeptides by combining the advantages of the individual methods. Examples of hybrid fragmentation methods include the sequential triggering of HCD and ETD on a closely situated precursor mass, using multiple steps of collision energy for the same precursor, and combining multiple methods on the same time/mass window. This is for instance the case with electron-transfer/collision-induced dissociation (ETciD) and electron transfer/higher-energy collisional dissociation (EThcD). Many modern-day mass spectrometers are capable of applying these fragmentation workflows, and the reported use of hybrid fragmentation for glycoproteomics is rapidly expanding. This review will cover recent the developments and applications within the use of hybrid fragmentation for glycoproteomics. The work will be broadly centered on 1) energy-stepping in collisional activation, 2) sequential fragmentation, and 3) combinatorial fragmentation methods. We close by discussing remaining technical challenges, and outline possible future developments." @default.
W2890680787 created "2018-09-27" @default.
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W2890680787 date "2018-11-01" @default.
W2890680787 modified "2023-10-18" @default.
W2890680787 title "The benefits of hybrid fragmentation methods for glycoproteomics" @default.
W2890680787 cites W1780987232 @default.
W2890680787 cites W1897375905 @default.
W2890680787 cites W1934555946 @default.
W2890680787 cites W1976023732 @default.
W2890680787 cites W1977432663 @default.
W2890680787 cites W1985625499 @default.
W2890680787 cites W1993838215 @default.
W2890680787 cites W2008380709 @default.
W2890680787 cites W2025221635 @default.
W2890680787 cites W2030864700 @default.
W2890680787 cites W2035343873 @default.
W2890680787 cites W2036564100 @default.
W2890680787 cites W2044538978 @default.
W2890680787 cites W2047418952 @default.
W2890680787 cites W2060142309 @default.
W2890680787 cites W2070552573 @default.
W2890680787 cites W2089573452 @default.
W2890680787 cites W2093208477 @default.
W2890680787 cites W2109830799 @default.
W2890680787 cites W2110438218 @default.
W2890680787 cites W2116796947 @default.
W2890680787 cites W2155482447 @default.
W2890680787 cites W2170177203 @default.
W2890680787 cites W2171731524 @default.
W2890680787 cites W2172295047 @default.
W2890680787 cites W2202024625 @default.
W2890680787 cites W2221488325 @default.
W2890680787 cites W2280012540 @default.
W2890680787 cites W2289041409 @default.
W2890680787 cites W2296811751 @default.
W2890680787 cites W2304125728 @default.
W2890680787 cites W2317506622 @default.
W2890680787 cites W2318126049 @default.
W2890680787 cites W2323420949 @default.
W2890680787 cites W2343251287 @default.
W2890680787 cites W2345343629 @default.
W2890680787 cites W2399585673 @default.
W2890680787 cites W2467251810 @default.
W2890680787 cites W2512633185 @default.
W2890680787 cites W2526201851 @default.
W2890680787 cites W2543713321 @default.
W2890680787 cites W2549829486 @default.
W2890680787 cites W2551001349 @default.
W2890680787 cites W2553120354 @default.
W2890680787 cites W2560373489 @default.
W2890680787 cites W2561217603 @default.
W2890680787 cites W2587916895 @default.
W2890680787 cites W2590064181 @default.
W2890680787 cites W2590332124 @default.
W2890680787 cites W2591498323 @default.
W2890680787 cites W2593627153 @default.
W2890680787 cites W2596810175 @default.
W2890680787 cites W2604220201 @default.
W2890680787 cites W2615718202 @default.
W2890680787 cites W2736206659 @default.
W2890680787 cites W2738682266 @default.
W2890680787 cites W2753169979 @default.
W2890680787 cites W2753651877 @default.
W2890680787 cites W2754475126 @default.
W2890680787 cites W2755805289 @default.
W2890680787 cites W2757225757 @default.
W2890680787 cites W2757600719 @default.
W2890680787 cites W2770809689 @default.
W2890680787 cites W2774393512 @default.
W2890680787 cites W2784544605 @default.
W2890680787 cites W2789682399 @default.
W2890680787 cites W2792276368 @default.
W2890680787 cites W2792518984 @default.
W2890680787 cites W2796514122 @default.
W2890680787 cites W2800459063 @default.
W2890680787 cites W2801157237 @default.
W2890680787 cites W2801591477 @default.
W2890680787 cites W2802194796 @default.
W2890680787 cites W2805060409 @default.
W2890680787 cites W2807108702 @default.
W2890680787 cites W2809629921 @default.
W2890680787 cites W2810824885 @default.
W2890680787 cites W993338644 @default.
W2890680787 doi "https://doi.org/10.1016/j.trac.2018.09.007" @default.
W2890680787 hasPublicationYear "2018" @default.
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