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Enhancing Biomolecule Analysis and 2DMS Experiments by Implementation of (Activated Ion) 193 nm UVPD on a FT-ICR Mass Spectrometer

Alina Theisen, Christopher A. Wootton, Anisha Haris, Tomos E. Morgan, Yuko P. Y. Lam, Mark P. Barrow, Peter B. O’Connor

2022Analytical Chemistry14 citationsDOIOpen Access PDF

Abstract

Ultraviolet photodissociation is a fast, photon-mediated fragmentation method that yields high sequence coverage and informative cleavages of biomolecules. In this work, 193 nm UVPD was coupled with a 12 Tesla FT-ICR mass spectrometer and 10.6 μm infrared multi-photon dissociation to provide gentle slow-heating of UV-irradiated ions. No internal instrument hardware modifications were required. Adjusting the timing of laser pulses to the ion motion within the ICR cell provided consistent fragmentation yield shot-to-shot and may also be used to monitor ion positions within the ICR cell. Single-pulse UVPD of the native-like 5+ charge state of ubiquitin resulted in 86.6% cleavage coverage. Additionally, IR activation post UVPD doubled the overall fragmentation yield and boosted the intensity of UVPD-specific x-type fragments up to 4-fold. This increased yield effect was also observed for the 6+ charge state of ubiquitin, albeit less pronounced. This indicates that gentle slow-heating serves to sever tethered fragments originating from non-covalently linked compact structures and makes activation post UVPD an attractive option to boost fragmentation efficiency for top-down studies. Lastly, UVPD was implemented and optimized as a fragmentation method for 2DMS, a data-independent acquisition method. UVPD-2DMS was demonstrated to be a viable method using BSA digest peptides as a model system.

Topics & Concepts

ChemistryFragmentation (computing)PhotodissociationMass spectrometryBiomoleculeIonAnalytical Chemistry (journal)Dissociation (chemistry)UltravioletPhotochemistryOptoelectronicsChromatographyPhysicsOperating systemBiochemistryComputer sciencePhysical chemistryOrganic chemistryMass Spectrometry Techniques and ApplicationsIon-surface interactions and analysisAdvanced Proteomics Techniques and Applications
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