Novel Parallelized Quadrupole/Linear Ion Trap/Orbitrap Tribrid Mass Spectrometer Improving Proteome Coverage and Peptide Identification Rates
Michael W. Senko(Thermo Fisher Scientific (United States)), Philip M. Remes(Thermo Fisher Scientific (United States)), Jesse D. Canterbury(Thermo Fisher Scientific (United States)), Raman Mathur(Thermo Fisher Scientific (United States)), Qingyu Song(Thermo Fisher Scientific (United States)), Shannon Eliuk(Thermo Fisher Scientific (United States)), Chris Mullen(Thermo Fisher Scientific (United States)), Lee Earley(Thermo Fisher Scientific (United States)), Mark Hardman(Thermo Fisher Scientific (United States)), Justin D. Blethrow(Thermo Fisher Scientific (United States)), Huy Anh Bui(Thermo Fisher Scientific (United States)), August A. Specht(Thermo Fisher Scientific (United States)), Oliver Lange(Thermo Fisher Scientific (Germany)), Eduard Denisov(Thermo Fisher Scientific (Germany)), Alexander Makarov(Thermo Fisher Scientific (Germany)), Stevan Horning(Thermo Fisher Scientific (Germany)), Vlad Zabrouskov(Thermo Fisher Scientific (United States))
Cited by 264
Abstract
Proteome coverage and peptide identification rates have historically advanced in line with improvements to the detection limits and acquisition rate of the mass spectrometer. For a linear ion trap/Orbitrap hybrid, the acquisition rate has been limited primarily by the duration of the ion accumulation and analysis steps. It is shown here that the spectral acquisition rate can be significantly improved through extensive parallelization of the acquisition process using a novel mass spectrometer incorporating quadrupole, Orbitrap, and linear trap analyzers. Further, these improvements to the acquisition rate continue to enhance proteome coverage and general experimental throughput.
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