2013
DOI: 10.1021/ac400287n
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GlycoPep Detector: A Tool for Assigning Mass Spectrometry Data of N-Linked Glycopeptides on the Basis of Their Electron Transfer Dissociation Spectra

Abstract: Electron transfer dissociation (ETD) is commonly used in fragmenting N-linked glycopeptides in their mass spectral analyses to complement collision induced dissociation (CID) experiments. The glycan remains intact through ETD, while the peptide backbone is cleaved, providing the sequence of amino acids for a glycopeptide. Nonetheless, data analysis is a major bottleneck to high throughput glycopeptide identification based on ETD data, due to the complexity and diversity of ETD mass spectra compared to CID coun… Show more

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Cited by 49 publications
(51 citation statements)
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“…An example is given in Figure 6, where asialofetuin glycopeptides of varying charge states were fragmented by ETD. The c and z ions that result from peptide backbone cleavages are much more pronounced when the glycopeptide precursor is in the 6+ charge state, whereas no fragment ions except the charge-reduced precursors are found for the same glycopeptide in the 4+ charge state (97). To enhance the fragmentation efficiency in ETD, mnitrobenzyl alcohol, a supercharging reagent, was added to the LC eluate after column separation to increase the average charge state of glycopeptides (98).…”
Section: Electron-based Fragmentationmentioning
confidence: 99%
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“…An example is given in Figure 6, where asialofetuin glycopeptides of varying charge states were fragmented by ETD. The c and z ions that result from peptide backbone cleavages are much more pronounced when the glycopeptide precursor is in the 6+ charge state, whereas no fragment ions except the charge-reduced precursors are found for the same glycopeptide in the 4+ charge state (97). To enhance the fragmentation efficiency in ETD, mnitrobenzyl alcohol, a supercharging reagent, was added to the LC eluate after column separation to increase the average charge state of glycopeptides (98).…”
Section: Electron-based Fragmentationmentioning
confidence: 99%
“…In view of the great complementarity possible with ETD, a few programs have included functionality to analyze the ETD data of glycopeptides (97,(115)(116)(117)(118). This functionality is particularly useful in O-linked glycopeptide analysis, because no consensus sequence exists to predict the potential O-linked glycosylation site, which is also hard to determine by CID data (119-121).…”
Section: Automated Glycoproteomicsmentioning
confidence: 99%
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“…One software tool to aid in the interpretation of glycopeptide fragmentation spectra is GlycoMiner, an algorithm intended to approach MS/MS interpretation in a fashion similar to a human expert [137]. Desaire and coworkers have extended their work on GlycoPep DB, resulting in the more recently reported GlycoPep Grader, GlycoPep Detector and GlycoPep Scorer tools [138][139][140]. Collectively, these utilities provide support for interpretation of CID and ETD data for both N-linked and O-linked glycopeptide analytes.…”
Section: Tools For Interpretation Of Ms/ms Datamentioning
confidence: 99%
“…At the commencement of this work most available software relied on pre-defined glycan databases (255,261,263,(271)(272)(273), in a manner analogous to proteomic software. Software that did not require prior knowledge of glycan databases [reviewed in (244) In this work, OxoExtract was often used several times to search a single mzML file.…”
Section: Discussionmentioning
confidence: 99%