论文信息 - A researcher's guide to mass spectrometry‐based proteomics

A researcher's guide to mass spectrometry‐based proteomics

Mass spectrometry (MS) is widely recognized as a powerful analytical tool for molecular research. MS is used by researchers around the globe to identify, quantify, and characterize biomolecules like proteins from any number of biological conditions or sample types. As instrumentation has advanced, and with the coupling of liquid chromatography (LC) for high‐throughput LC‐MS/MS, a proteomics experiment measuring hundreds to thousands of proteins/protein groups is now commonplace. While expert practitioners who best understand the operation of LC‐MS systems tend to have strong backgrounds in physics and engineering, consumers of proteomics data and technology are not exposed to the physio‐chemical principles underlying the information they seek. Since articles and reviews tend not to focus on bridging this divide, our goal here is to span this gap and translate MS ion physics into language intuitive to the general reader active in basic or applied biomedical research. Here, we visually describe what happens to ions as they enter and move around inside a mass spectrometer. We describe basic MS principles, including electric current, ion optics, ion traps, quadrupole mass filters, and Orbitrap FT‐analyzers.

[1] M. B. Denton,et al. The quadrupole mass filter: Basic operating concepts , 1986 .

[2] I. Amster,et al. Fourier Transform Mass Spectrometry , 1996 .

[3] R. Cooks,et al. Orbitrap mass spectrometry: instrumentation, ion motion and applications. , 2008, Mass spectrometry reviews.

[4] G. Siuzdak,et al. Innovation: Metabolomics: the apogee of the omics trilogy , 2012, Nature Reviews Molecular Cell Biology.

[5] R. March. An Introduction to Quadrupole Ion Trap Mass Spectrometry , 1997 .

[6] M. Guilhaus,et al. Orthogonal acceleration time-of-flight mass spectrometry. , 2000, Mass spectrometry reviews.

[7] M. Guilhaus,et al. Special feature: Tutorial. Principles and instrumentation in time‐of‐flight mass spectrometry. Physical and instrumental concepts , 1995 .

[8] R. Aebersold,et al. Selected reaction monitoring for quantitative proteomics: a tutorial , 2008, Molecular systems biology.

[9] A. Marshall,et al. Fourier transform ion cyclotron resonance mass spectrometry: a primer. , 1998, Mass spectrometry reviews.

[10] M. Karas,et al. Laser desorption ionization of proteins with molecular masses exceeding 10,000 daltons. , 1988, Analytical chemistry.

[11] J. Yates,et al. Mass spectrometry for proteomics. , 2008, Current opinion in chemical biology.

[12] M. Gross,et al. Fourier transform mass spectrometry. , 1984, Science.