PXD058153 is an
original dataset announced via ProteomeXchange.
Dataset Summary
| Title | Improvements in glycoproteomics through architecture changes to the Orbitrap Tribrid MS platform |
| Description | Hardware changes introduced on the Orbitrap Ascend MultiOmics Tribrid MS include dual ion routing multipoles (IRMs) that can enable parallelized accumulation, dissociation, and Orbitrap mass analysis of three separate ion populations. The balance between these instrument functions is especially important in glycoproteomics, where complexities of glycopeptide fragmentation necessitate large precursor ion populations and, consequently, long ion accumulation times for quality MS/MS spectra. To compound matters further, dissociation methods like electron transfer dissociation (ETD) that benefit glycopeptide characterization come with overhead times that also slow down scan acquisition. Here we explored how the dual IRM architecture of the Orbitrap Ascend can improve glycopeptide analysis, with a focus on O-glycopeptide characterization using ETD with supplemental collisional activation (EThcD). We found that parallelization of ion accumulation and EThcD fragmentation ā uniquely enabled by the Orbitrap Ascend ā increased scan acquisition speed without sacrificing spectral quality, subsequently increasing the number of O-glycopeptides identified relative to analyses on the Orbitrap Eclipse (i.e., the previous generation Tribrid MS). Additionally, we systematically evaluated ion-ion reaction times and supplemental activation energies used for EThcD to understand how best to utilize acquisition time in the dual IRM architecture. We observed that shorter-than-expected ion-ion reaction times minimized scan overhead time without sacrificing c/zā¢-fragment ion generation, and that higher supplemental collision energies can generate combinations of glycan-retaining and glycan-neutral-loss peptide backbone fragments that benefit O-glycopeptide identification. We also saw improvements in N-glycopeptide analysis using collision-based dissociation, especially with methods using faster scan acquisition speeds. Overall, these data show how architectural changes to the Tribrid MS platform benefit glycoproteomic experiments by parallelizing scan functions to minimize overhead time and improve sensitivity. |
| HostingRepository | PRIDE |
| AnnounceDate | 2025-09-14 |
| AnnouncementXML | Submission_2025-09-14_11:19:51.013.xml |
| DigitalObjectIdentifier | |
| ReviewLevel | Peer-reviewed dataset |
| DatasetOrigin | Original dataset |
| RepositorySupport | Unsupported dataset by repository |
| PrimarySubmitter | Tim S Veth |
| SpeciesList | scientific name: Homo sapiens (Human); NCBI TaxID: 9606; |
| ModificationList | complex glycosylation |
| Instrument | Orbitrap Eclipse; Orbitrap Ascend |
Dataset History
| Revision | Datetime | Status | ChangeLog Entry |
|---|
| 0 | 2024-11-21 17:39:17 | ID requested | |
| ⏵ 1 | 2025-09-14 11:19:51 | announced | |
Publication List
| Veth TS, Sutherland E, Markuson KA, Zhang R, Duboff AG, Huang J, Bergen D, Lee AE, Melani RD, Canterbury JD, Zabrouskov V, McAlister GC, Mullen C, Riley NM, Improvements in Glycoproteomics through Architecture Changes to the Orbitrap Tribrid MS Platform. Anal Chem, 97(22):11413-11423(2025) [pubmed] |
| 10.1021/acs.analchem.4c06370; |
Keyword List
| submitter keyword: N-glycopeptides, fragmentation,Glycoproteomics, tandem mass spectrometry, O-glycopeptides, electron transfer dissociation |
Contact List
| Nicholas M. Riley |
|---|
| contact affiliation | Department of Chemistry, University of Washington, Seattle, WA, USA |
| contact email | nmriley@uw.edu |
| lab head | |
| Tim S Veth |
|---|
| contact affiliation | University of Washington |
| contact email | tveth@uw.edu |
| dataset submitter | |
Full Dataset Link List
Dataset FTP location
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| PRIDE project URI |
Repository Record List
[ + ]
[ - ]
- PRIDE
- PXD058153
- Label: PRIDE project
- Name: Improvements in glycoproteomics through architecture changes to the Orbitrap Tribrid MS platform
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