Real-Time Search Assisted Acquisition on a Tribrid Mass Spectrometer Improves Coverage in Multiplexed Single-Cell Proteomics

Research output: Contribution to journalJournal articleResearchpeer-review

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Real-Time Search Assisted Acquisition on a Tribrid Mass Spectrometer Improves Coverage in Multiplexed Single-Cell Proteomics. / Furtwängler, Benjamin; Üresin, Nil; Motamedchaboki, Khatereh; Huguet, Romain; Lopez-Ferrer, Daniel; Zabrouskov, Vlad; Porse, Bo T; Schoof, Erwin M.

In: Molecular and Cellular Proteomics, Vol. 21, No. 4, 100219, 2022.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Furtwängler, B, Üresin, N, Motamedchaboki, K, Huguet, R, Lopez-Ferrer, D, Zabrouskov, V, Porse, BT & Schoof, EM 2022, 'Real-Time Search Assisted Acquisition on a Tribrid Mass Spectrometer Improves Coverage in Multiplexed Single-Cell Proteomics', Molecular and Cellular Proteomics, vol. 21, no. 4, 100219. https://doi.org/10.1016/j.mcpro.2022.100219

APA

Furtwängler, B., Üresin, N., Motamedchaboki, K., Huguet, R., Lopez-Ferrer, D., Zabrouskov, V., Porse, B. T., & Schoof, E. M. (2022). Real-Time Search Assisted Acquisition on a Tribrid Mass Spectrometer Improves Coverage in Multiplexed Single-Cell Proteomics. Molecular and Cellular Proteomics, 21(4), [100219]. https://doi.org/10.1016/j.mcpro.2022.100219

Vancouver

Furtwängler B, Üresin N, Motamedchaboki K, Huguet R, Lopez-Ferrer D, Zabrouskov V et al. Real-Time Search Assisted Acquisition on a Tribrid Mass Spectrometer Improves Coverage in Multiplexed Single-Cell Proteomics. Molecular and Cellular Proteomics. 2022;21(4). 100219. https://doi.org/10.1016/j.mcpro.2022.100219

Author

Furtwängler, Benjamin ; Üresin, Nil ; Motamedchaboki, Khatereh ; Huguet, Romain ; Lopez-Ferrer, Daniel ; Zabrouskov, Vlad ; Porse, Bo T ; Schoof, Erwin M. / Real-Time Search Assisted Acquisition on a Tribrid Mass Spectrometer Improves Coverage in Multiplexed Single-Cell Proteomics. In: Molecular and Cellular Proteomics. 2022 ; Vol. 21, No. 4.

Bibtex

@article{bcafb2b60d134b5a96f349391e13a515,
title = "Real-Time Search Assisted Acquisition on a Tribrid Mass Spectrometer Improves Coverage in Multiplexed Single-Cell Proteomics",
abstract = "In the young field of single-cell proteomics (scMS), there is a great need for improved global proteome characterization, both in terms of proteins quantified per cell and quantitative performance thereof. The recently introduced real-time search (RTS) on the Orbitrap Eclipse Tribrid mass spectrometer in combination with SPS-MS3 acquisition has been shown to be beneficial for the measurement of samples that are multiplexed using isobaric tags. Multiplexed single-cell proteomics requires high ion injection times and high-resolution spectra to quantify the single-cell signal, however the carrier channel facilitates peptide identification and thus offers the opportunity for fast on-the-fly precursor filtering before committing to the time intensive quantification scan. Here, we compared classical MS2 acquisition against RTS-SPS-MS3, both using the Orbitrap Eclipse Tribrid MS with the FAIMS Pro ion mobility interface and present a new acquisition strategy termed RETICLE (RTS Enhanced Quant of Single Cell Spectra) that makes use of fast real-time searched linear ion trap scans to preselect MS1 peptide precursors for quantitative MS2 Orbitrap acquisition. We show that classical MS2 acquisition is outperformed by both RTS-SPS-MS3 through increased quantitative accuracy at similar proteome coverage, and RETICLE through higher proteome coverage, with the latter enabling the quantification of over 1000 proteins per cell at a MS2 injection time of 750ms using a 2h gradient.",
author = "Benjamin Furtw{\"a}ngler and Nil {\"U}resin and Khatereh Motamedchaboki and Romain Huguet and Daniel Lopez-Ferrer and Vlad Zabrouskov and Porse, {Bo T} and Schoof, {Erwin M}",
note = "Copyright {\textcopyright} 2022 The Authors. Published by Elsevier Inc. All rights reserved.",
year = "2022",
doi = "10.1016/j.mcpro.2022.100219",
language = "English",
volume = "21",
journal = "Molecular and Cellular Proteomics",
issn = "1535-9476",
publisher = "American Society for Biochemistry and Molecular Biology",
number = "4",

}

RIS

TY - JOUR

T1 - Real-Time Search Assisted Acquisition on a Tribrid Mass Spectrometer Improves Coverage in Multiplexed Single-Cell Proteomics

AU - Furtwängler, Benjamin

AU - Üresin, Nil

AU - Motamedchaboki, Khatereh

AU - Huguet, Romain

AU - Lopez-Ferrer, Daniel

AU - Zabrouskov, Vlad

AU - Porse, Bo T

AU - Schoof, Erwin M

N1 - Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.

PY - 2022

Y1 - 2022

N2 - In the young field of single-cell proteomics (scMS), there is a great need for improved global proteome characterization, both in terms of proteins quantified per cell and quantitative performance thereof. The recently introduced real-time search (RTS) on the Orbitrap Eclipse Tribrid mass spectrometer in combination with SPS-MS3 acquisition has been shown to be beneficial for the measurement of samples that are multiplexed using isobaric tags. Multiplexed single-cell proteomics requires high ion injection times and high-resolution spectra to quantify the single-cell signal, however the carrier channel facilitates peptide identification and thus offers the opportunity for fast on-the-fly precursor filtering before committing to the time intensive quantification scan. Here, we compared classical MS2 acquisition against RTS-SPS-MS3, both using the Orbitrap Eclipse Tribrid MS with the FAIMS Pro ion mobility interface and present a new acquisition strategy termed RETICLE (RTS Enhanced Quant of Single Cell Spectra) that makes use of fast real-time searched linear ion trap scans to preselect MS1 peptide precursors for quantitative MS2 Orbitrap acquisition. We show that classical MS2 acquisition is outperformed by both RTS-SPS-MS3 through increased quantitative accuracy at similar proteome coverage, and RETICLE through higher proteome coverage, with the latter enabling the quantification of over 1000 proteins per cell at a MS2 injection time of 750ms using a 2h gradient.

AB - In the young field of single-cell proteomics (scMS), there is a great need for improved global proteome characterization, both in terms of proteins quantified per cell and quantitative performance thereof. The recently introduced real-time search (RTS) on the Orbitrap Eclipse Tribrid mass spectrometer in combination with SPS-MS3 acquisition has been shown to be beneficial for the measurement of samples that are multiplexed using isobaric tags. Multiplexed single-cell proteomics requires high ion injection times and high-resolution spectra to quantify the single-cell signal, however the carrier channel facilitates peptide identification and thus offers the opportunity for fast on-the-fly precursor filtering before committing to the time intensive quantification scan. Here, we compared classical MS2 acquisition against RTS-SPS-MS3, both using the Orbitrap Eclipse Tribrid MS with the FAIMS Pro ion mobility interface and present a new acquisition strategy termed RETICLE (RTS Enhanced Quant of Single Cell Spectra) that makes use of fast real-time searched linear ion trap scans to preselect MS1 peptide precursors for quantitative MS2 Orbitrap acquisition. We show that classical MS2 acquisition is outperformed by both RTS-SPS-MS3 through increased quantitative accuracy at similar proteome coverage, and RETICLE through higher proteome coverage, with the latter enabling the quantification of over 1000 proteins per cell at a MS2 injection time of 750ms using a 2h gradient.

U2 - 10.1016/j.mcpro.2022.100219

DO - 10.1016/j.mcpro.2022.100219

M3 - Journal article

C2 - 35219906

VL - 21

JO - Molecular and Cellular Proteomics

JF - Molecular and Cellular Proteomics

SN - 1535-9476

IS - 4

M1 - 100219

ER -

ID: 301281725