Electron Capture-Induced Charge Reduction Benefits the Recording of Ultralong Transients in Orbitrap-Based Individual-Ion Mass Spectrometry

Publication date

2025-06-10

Authors

Peris-Díaz, Manuel David
Barendregt, ArjanISNI 0000000419432815
Wörner, Tobias PISNI 0000000492960411
Fort, Kyle LISNI 0000000505995112
Makarov, AlexanderISNI 0000000118161206
Deslignière, EvolèneISNI 0000000518078719
Heck, AlbertORCID 0000-0002-2405-4404ISNI 0000000393921118

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Document Type

Article
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cc_by

Abstract

Recently, the use of ultralong transients has enabled exceptional resolution and sensitivity in Orbitrap-based charge detection mass spectrometry (CDMS). Nevertheless, measuring small analytes carrying a few charges remains a challenge. Prolonged trapping should, in theory, allow for the detection of lower charged ions (<10+) due to enhanced signal-to-noise (S/N) ratios. However, in practice, due to ion decay through frequency drifts, or collision-induced fragmentations, low m/z ions deviate from the ideal coherent trajectories in the Orbitrap. Here, by incorporating electron capture charge reduction (ECCR) in the gas phase prior to CDMS, we show that charge reduction significantly improves the stability of ion trajectories when ions are trapped for long periods in the Orbitrap analyzer. Using proteins with molecular weights ranging from 12 to 900 kDa, we demonstrate that ECCR-CDMS enhances ion survival by up to 60-fold, even enabling the detection of doubly charged individual ions from cytochrome c that typically elude conventional Orbitrap-based CDMS.

Keywords

Analytical Chemistry

Citation

Peris-Díaz, M D, Barendregt, A, Wörner, T P, Fort, K L, Makarov, A A, Deslignière, E & Heck, A J R 2025, 'Electron Capture-Induced Charge Reduction Benefits the Recording of Ultralong Transients in Orbitrap-Based Individual-Ion Mass Spectrometry', Analytical Chemistry, vol. 97, no. 22, pp. 11653-11660. https://doi.org/10.1021/acs.analchem.5c01000