Ultra-fast label-free quantification and comprehensive proteome coverage with narrow-window data-independent acquisition

Ulises H. Guzman; Ana Martinez-Val; Zilu Ye; Eugen Damoc; Tabiwang N. Arrey; Anna Pashkova; Santosh Renuse; Eduard Denisov; Johannes Petzoldt; Amelia C. Peterson; Florian Harking; Ole Østergaard; Rasmus Rydbirk; Susana Aznar; Hamish Stewart; Yue Xuan; Daniel Hermanson; Stevan Horning; Christian Hock; Alexander Makarov; Vlad Zabrouskov; Jesper V. Olsen

doi:10.1038/s41587-023-02099-7

Ultra-fast label-free quantification and comprehensive proteome coverage with narrow-window data-independent acquisition

Ulises H. Guzman, Ana Martinez-Val, Zilu Ye, Eugen Damoc, Tabiwang N. Arrey, Anna Pashkova, Santosh Renuse, Eduard Denisov, Johannes Petzoldt, Amelia C. Peterson, Florian Harking, Ole Østergaard, Rasmus Rydbirk, Susana Aznar, Hamish Stewart, Yue Xuan, Daniel Hermanson, Stevan Horning, Christian Hock, Alexander MakarovVlad Zabrouskov, Jesper V. Olsen

Laboratory Medicine and Pathology

Research output: Contribution to journal › Article › peer-review

Abstract

Mass spectrometry (MS)-based proteomics aims to characterize comprehensive proteomes in a fast and reproducible manner. Here we present the narrow-window data-independent acquisition (nDIA) strategy consisting of high-resolution MS1 scans with parallel tandem MS (MS/MS) scans of ~200 Hz using 2-Th isolation windows, dissolving the differences between data-dependent and -independent methods. This is achieved by pairing a quadrupole Orbitrap mass spectrometer with the asymmetric track lossless (Astral) analyzer which provides >200-Hz MS/MS scanning speed, high resolving power and sensitivity, and low-ppm mass accuracy. The nDIA strategy enables profiling of >100 full yeast proteomes per day, or 48 human proteomes per day at the depth of ~10,000 human protein groups in half-an-hour or ~7,000 proteins in 5 min, representing 3× higher coverage compared with current state-of-the-art MS. Multi-shot acquisition of offline fractionated samples provides comprehensive coverage of human proteomes in ~3 h. High quantitative precision and accuracy are demonstrated in a three-species proteome mixture, quantifying 14,000+ protein groups in a single half-an-hour run.

Original language	English (US)
Journal	Nature biotechnology
DOIs	https://doi.org/10.1038/s41587-023-02099-7
State	Accepted/In press - 2024

ASJC Scopus subject areas

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology
Molecular Medicine
Biomedical Engineering

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10.1038/s41587-023-02099-7

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Guzman, U. H., Martinez-Val, A., Ye, Z., Damoc, E., Arrey, T. N., Pashkova, A., Renuse, S., Denisov, E., Petzoldt, J., Peterson, A. C., Harking, F., Østergaard, O., Rydbirk, R., Aznar, S., Stewart, H., Xuan, Y., Hermanson, D., Horning, S., Hock, C., ... Olsen, J. V. (Accepted/In press). Ultra-fast label-free quantification and comprehensive proteome coverage with narrow-window data-independent acquisition. Nature biotechnology. https://doi.org/10.1038/s41587-023-02099-7

Guzman, UH, Martinez-Val, A, Ye, Z, Damoc, E, Arrey, TN, Pashkova, A, Renuse, S, Denisov, E, Petzoldt, J, Peterson, AC, Harking, F, Østergaard, O, Rydbirk, R, Aznar, S, Stewart, H, Xuan, Y, Hermanson, D, Horning, S, Hock, C, Makarov, A, Zabrouskov, V & Olsen, JV 2024, 'Ultra-fast label-free quantification and comprehensive proteome coverage with narrow-window data-independent acquisition', Nature biotechnology. https://doi.org/10.1038/s41587-023-02099-7

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title = "Ultra-fast label-free quantification and comprehensive proteome coverage with narrow-window data-independent acquisition",

abstract = "Mass spectrometry (MS)-based proteomics aims to characterize comprehensive proteomes in a fast and reproducible manner. Here we present the narrow-window data-independent acquisition (nDIA) strategy consisting of high-resolution MS1 scans with parallel tandem MS (MS/MS) scans of ~200 Hz using 2-Th isolation windows, dissolving the differences between data-dependent and -independent methods. This is achieved by pairing a quadrupole Orbitrap mass spectrometer with the asymmetric track lossless (Astral) analyzer which provides >200-Hz MS/MS scanning speed, high resolving power and sensitivity, and low-ppm mass accuracy. The nDIA strategy enables profiling of >100 full yeast proteomes per day, or 48 human proteomes per day at the depth of ~10,000 human protein groups in half-an-hour or ~7,000 proteins in 5 min, representing 3× higher coverage compared with current state-of-the-art MS. Multi-shot acquisition of offline fractionated samples provides comprehensive coverage of human proteomes in ~3 h. High quantitative precision and accuracy are demonstrated in a three-species proteome mixture, quantifying 14,000+ protein groups in a single half-an-hour run.",

author = "Guzman, {Ulises H.} and Ana Martinez-Val and Zilu Ye and Eugen Damoc and Arrey, {Tabiwang N.} and Anna Pashkova and Santosh Renuse and Eduard Denisov and Johannes Petzoldt and Peterson, {Amelia C.} and Florian Harking and Ole {\O}stergaard and Rasmus Rydbirk and Susana Aznar and Hamish Stewart and Yue Xuan and Daniel Hermanson and Stevan Horning and Christian Hock and Alexander Makarov and Vlad Zabrouskov and Olsen, {Jesper V.}",

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doi = "10.1038/s41587-023-02099-7",

language = "English (US)",

journal = "Nature biotechnology",

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AU - Guzman, Ulises H.

AU - Martinez-Val, Ana

AU - Ye, Zilu

AU - Damoc, Eugen

AU - Arrey, Tabiwang N.

AU - Pashkova, Anna

AU - Renuse, Santosh

AU - Denisov, Eduard

AU - Petzoldt, Johannes

AU - Peterson, Amelia C.

AU - Harking, Florian

AU - Østergaard, Ole

AU - Rydbirk, Rasmus

AU - Aznar, Susana

AU - Stewart, Hamish

AU - Xuan, Yue

AU - Hermanson, Daniel

AU - Horning, Stevan

AU - Hock, Christian

AU - Makarov, Alexander

AU - Zabrouskov, Vlad

AU - Olsen, Jesper V.

PY - 2024

Y1 - 2024

N2 - Mass spectrometry (MS)-based proteomics aims to characterize comprehensive proteomes in a fast and reproducible manner. Here we present the narrow-window data-independent acquisition (nDIA) strategy consisting of high-resolution MS1 scans with parallel tandem MS (MS/MS) scans of ~200 Hz using 2-Th isolation windows, dissolving the differences between data-dependent and -independent methods. This is achieved by pairing a quadrupole Orbitrap mass spectrometer with the asymmetric track lossless (Astral) analyzer which provides >200-Hz MS/MS scanning speed, high resolving power and sensitivity, and low-ppm mass accuracy. The nDIA strategy enables profiling of >100 full yeast proteomes per day, or 48 human proteomes per day at the depth of ~10,000 human protein groups in half-an-hour or ~7,000 proteins in 5 min, representing 3× higher coverage compared with current state-of-the-art MS. Multi-shot acquisition of offline fractionated samples provides comprehensive coverage of human proteomes in ~3 h. High quantitative precision and accuracy are demonstrated in a three-species proteome mixture, quantifying 14,000+ protein groups in a single half-an-hour run.

AB - Mass spectrometry (MS)-based proteomics aims to characterize comprehensive proteomes in a fast and reproducible manner. Here we present the narrow-window data-independent acquisition (nDIA) strategy consisting of high-resolution MS1 scans with parallel tandem MS (MS/MS) scans of ~200 Hz using 2-Th isolation windows, dissolving the differences between data-dependent and -independent methods. This is achieved by pairing a quadrupole Orbitrap mass spectrometer with the asymmetric track lossless (Astral) analyzer which provides >200-Hz MS/MS scanning speed, high resolving power and sensitivity, and low-ppm mass accuracy. The nDIA strategy enables profiling of >100 full yeast proteomes per day, or 48 human proteomes per day at the depth of ~10,000 human protein groups in half-an-hour or ~7,000 proteins in 5 min, representing 3× higher coverage compared with current state-of-the-art MS. Multi-shot acquisition of offline fractionated samples provides comprehensive coverage of human proteomes in ~3 h. High quantitative precision and accuracy are demonstrated in a three-species proteome mixture, quantifying 14,000+ protein groups in a single half-an-hour run.

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Ultra-fast label-free quantification and comprehensive proteome coverage with narrow-window data-independent acquisition

Abstract

ASJC Scopus subject areas

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