Comprehensive single-shot proteomics with FAIMS on a hybrid orbitrap mass spectrometer

AS Hebert, S Prasad, MW Belford, DJ Bailey… - Analytical …, 2018 - ACS Publications
AS Hebert, S Prasad, MW Belford, DJ Bailey, GC McAlister, SE Abbatiello, R Huguet…
Analytical Chemistry, 2018ACS Publications
Liquid chromatography (LC) prefractionation is often implemented to increase proteomic
coverage; however, while effective, this approach is laborious, requires considerable
sample amount, and can be cumbersome. We describe how interfacing a recently described
high-field asymmetric waveform ion mobility spectrometry (FAIMS) device between a
nanoelectrospray ionization (nanoESI) emitter and an Orbitrap hybrid mass spectrometer
(MS) enables the collection of single-shot proteomic data with comparable depth to that of …
Liquid chromatography (LC) prefractionation is often implemented to increase proteomic coverage; however, while effective, this approach is laborious, requires considerable sample amount, and can be cumbersome. We describe how interfacing a recently described high-field asymmetric waveform ion mobility spectrometry (FAIMS) device between a nanoelectrospray ionization (nanoESI) emitter and an Orbitrap hybrid mass spectrometer (MS) enables the collection of single-shot proteomic data with comparable depth to that of conventional two-dimensional LC approaches. This next generation FAIMS device incorporates improved ion sampling at the ESI–FAIMS interface, increased electric field strength, and a helium-free ion transport gas. With fast internal compensation voltage (CV) stepping (25 ms/transition), multiple unique gas-phase fractions may be analyzed simultaneously over the course of an MS analysis. We have comprehensively demonstrated how this device performs for bottom-up proteomics experiments as well as characterized the effects of peptide charge state, mass loading, analysis time, and additional variables. We also offer recommendations for the number of CVs and which CVs to use for different lengths of experiments. Internal CV stepping experiments increase protein identifications from a single-shot experiment to >8000, from over 100 000 peptide identifications in as little as 5 h. In single-shot 4 h label-free quantitation (LFQ) experiments of a human cell line, we quantified 7818 proteins with FAIMS using intra-analysis CV switching compared to 6809 without FAIMS. Single-shot FAIMS results also compare favorably with LC fractionation experiments. A 6 h single-shot FAIMS experiment generates 8007 protein identifications, while four fractions analyzed for 1.5 h each produce 7776 protein identifications.
ACS Publications
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