Parallelized Acquisition of Orbitrap and Astral Analyzers Enables High-Throughput Quantitative Analysis

Hamish Stewart(Thermo Fisher Scientific (Germany)), Dmitry Grinfeld(Thermo Fisher Scientific (Germany)), Anastassios E. Giannakopulos(Thermo Fisher Scientific (Germany)), J. Petzoldt(Thermo Fisher Scientific (Germany)), Toby Shanley(Thermo Fisher Scientific (Germany)), Matthew Garland(Thermo Fisher Scientific (Germany)), Eduard Denisov(Thermo Fisher Scientific (Germany)), Amelia C. Peterson(Thermo Fisher Scientific (Germany)), Eugen Damoc(Thermo Fisher Scientific (Germany)), Martin Zeller(Thermo Fisher Scientific (Germany)), Tabiwang N. Arrey(Thermo Fisher Scientific (Germany)), Anna Pashkova(Thermo Fisher Scientific (Germany)), Santosh Renuse(Thermo Fisher Scientific (United States)), Amirmansoor Hakimi(Thermo Fisher Scientific (United States)), Andreas Kühn(Thermo Fisher Scientific (Germany)), Matthias Biel(Thermo Fisher Scientific (Germany)), Arne Kreutzmann(Thermo Fisher Scientific (Germany)), Bernd Hagedorn(Thermo Fisher Scientific (Germany)), Immo Colonius(Thermo Fisher Scientific (Germany)), Adrian Schütz(Thermo Fisher Scientific (Germany)), Arne Stefes(Thermo Fisher Scientific (Germany)), Ankit Dwivedi(Thermo Fisher Scientific (Germany)), Daniel Mourad(Thermo Fisher Scientific (Germany)), Max Hoek(Thermo Fisher Scientific (Germany)), Bastian Reitemeier(Thermo Fisher Scientific (Germany)), Philipp Cochems(Thermo Fisher Scientific (United States)), Alexander Kholomeev(Thermo Fisher Scientific (Germany)), Robert Ostermann(Thermo Fisher Scientific (Germany)), Gregor Quiring(Thermo Fisher Scientific (Germany)), Maximilian Ochmann(Thermo Fisher Scientific (Germany)), Sascha Möhring(Thermo Fisher Scientific (Germany)), Alexander Wagner(Thermo Fisher Scientific (Germany)), André Petker(Thermo Fisher Scientific (Germany)), Sebastian Kanngiesser(Thermo Fisher Scientific (Germany)), Michael Wiedemeyer(Thermo Fisher Scientific (Germany)), Wilko Balschun(Thermo Fisher Scientific (Germany)), Daniel Hermanson(Thermo Fisher Scientific (United States)), Vlad Zabrouskov(Thermo Fisher Scientific (United States)), Alexander Makarov(Thermo Fisher Scientific (Germany)), Christian Hock(Thermo Fisher Scientific (Germany))
Analytical Chemistry
October 10, 2023
10.1021/acs.analchem.3c02856
Cited by 208Open Access
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Abstract

The growing trend toward high-throughput proteomics demands rapid liquid chromatography-mass spectrometry (LC-MS) cycles that limit the available time to gather the large numbers of MS/MS fragmentation spectra required for identification. Orbitrap analyzers scale performance with acquisition time and necessarily sacrifice sensitivity and resolving power to deliver higher acquisition rates. We developed a new mass spectrometer that combines a mass-resolving quadrupole, the Orbitrap, and the novel Asymmetric Track Lossless (Astral) analyzer. The new hybrid instrument enables faster acquisition of high-resolution accurate mass (HRAM) MS/MS spectra compared with state-of-the-art mass spectrometers. Accordingly, new proteomics methods were developed that leverage the strengths of each HRAM analyzer, whereby the Orbitrap analyzer performs full scans with a high dynamic range and resolution, synchronized with the Astral analyzer's acquisition of fast and sensitive HRAM MS/MS scans. Substantial improvements are demonstrated over previous methods using current state-of-the-art mass spectrometers.

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