Literature DB >> 23194268

High-field asymmetric waveform ion mobility spectrometry for mass spectrometry-based proteomics.

Kristian E Swearingen1, Robert L Moritz.   

Abstract

High-field asymmetric waveform ion mobility spectrometry (FAIMS) is an atmospheric pressure ion mobility technique that separates gas-phase ions by their behavior in strong and weak electric fields. FAIMS is easily interfaced with electrospray ionization and has been implemented as an additional separation mode between liquid chromatography (LC) and mass spectrometry (MS) in proteomic studies. FAIMS separation is orthogonal to both LC and MS and is used as a means of on-line fractionation to improve the detection of peptides in complex samples. FAIMS improves dynamic range and concomitantly the detection limits of ions by filtering out chemical noise. FAIMS can also be used to remove interfering ion species and to select peptide charge states optimal for identification by tandem MS. Here, the authors review recent developments in LC-FAIMS-MS and its application to MS-based proteomics.

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Year:  2012        PMID: 23194268      PMCID: PMC4777519          DOI: 10.1586/epr.12.50

Source DB:  PubMed          Journal:  Expert Rev Proteomics        ISSN: 1478-9450            Impact factor:   3.940


  59 in total

1.  Optimization of the design and operation of FAIMS analyzers.

Authors:  Alexandre A Shvartsburg; Keqi Tang; Richard D Smith
Journal:  J Am Soc Mass Spectrom       Date:  2005-01       Impact factor: 3.109

2.  Genome-specific gas-phase fractionation strategy for improved shotgun proteomic profiling of proteotypic peptides.

Authors:  Alexander Scherl; Scott A Shaffer; Gregory K Taylor; Hemantha D Kulasekara; Samuel I Miller; David R Goodlett
Journal:  Anal Chem       Date:  2008-01-23       Impact factor: 6.986

3.  Review of applications of high-field asymmetric waveform ion mobility spectrometry (FAIMS) and differential mobility spectrometry (DMS).

Authors:  Beata M Kolakowski; Zoltán Mester
Journal:  Analyst       Date:  2007-06-26       Impact factor: 4.616

4.  Scaling of the resolving power and sensitivity for planar FAIMS and mobility-based discrimination in flow- and field-driven analyzers.

Authors:  Alexandre A Shvartsburg; Richard D Smith
Journal:  J Am Soc Mass Spectrom       Date:  2007-06-30       Impact factor: 3.109

5.  Selection and generation of waveforms for differential mobility spectrometry.

Authors:  Evgeny V Krylov; Stephen L Coy; John Vandermey; Bradley B Schneider; Thomas R Covey; Erkinjon G Nazarov
Journal:  Rev Sci Instrum       Date:  2010-02       Impact factor: 1.523

Review 6.  Building and searching tandem mass spectral libraries for peptide identification.

Authors:  Henry Lam
Journal:  Mol Cell Proteomics       Date:  2011-09-06       Impact factor: 5.911

7.  Quantifying the impact of chimera MS/MS spectra on peptide identification in large-scale proteomics studies.

Authors:  Stephane Houel; Robert Abernathy; Kutralanathan Renganathan; Karen Meyer-Arendt; Natalie G Ahn; William M Old
Journal:  J Proteome Res       Date:  2010-08-06       Impact factor: 4.466

8.  Improvement of phosphoproteome analyses using FAIMS and decision tree fragmentation. application to the insulin signaling pathway in Drosophila melanogaster S2 cells.

Authors:  Gaëlle Bridon; Eric Bonneil; Tara Muratore-Schroeder; Olivier Caron-Lizotte; Pierre Thibault
Journal:  J Proteome Res       Date:  2011-12-01       Impact factor: 4.466

9.  Direct analysis of protein complexes using mass spectrometry.

Authors:  A J Link; J Eng; D M Schieltz; E Carmack; G J Mize; D R Morris; B M Garvik; J R Yates
Journal:  Nat Biotechnol       Date:  1999-07       Impact factor: 54.908

10.  Assessing the dynamic range and peak capacity of nanoflow LC-FAIMS-MS on an ion trap mass spectrometer for proteomics.

Authors:  Jesse D Canterbury; Xianhua Yi; Michael R Hoopmann; Michael J MacCoss
Journal:  Anal Chem       Date:  2008-08-12       Impact factor: 6.986
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  18 in total

1.  Optimization of a New Aerodynamic Cylindrical FAIMS Device for Small Molecule Analysis.

Authors:  Randy W Purves; Satendra Prasad; Michael Belford; Albert Vandenberg; Jean-Jacques Dunyach
Journal:  J Am Soc Mass Spectrom       Date:  2017-01-17       Impact factor: 3.109

2.  A Novel Differential Ion Mobility Device Expands the Depth of Proteome Coverage and the Sensitivity of Multiplex Proteomic Measurements.

Authors:  Sibylle Pfammatter; Eric Bonneil; Francis P McManus; Satendra Prasad; Derek J Bailey; Michael Belford; Jean-Jacques Dunyach; Pierre Thibault
Journal:  Mol Cell Proteomics       Date:  2018-07-14       Impact factor: 5.911

3.  Description of gas-phase ion/neutral interactions in differential ion mobility spectrometry: CV prediction using calibration runs.

Authors:  David Auerbach; Julia Aspenleiter; Dietrich A Volmer
Journal:  J Am Soc Mass Spectrom       Date:  2014-06-14       Impact factor: 3.109

4.  Deep Proteomics Using Two Dimensional Data Independent Acquisition Mass Spectrometry.

Authors:  Kyung-Cho Cho; David J Clark; Michael Schnaubelt; Guo Ci Teo; Felipe da Veiga Leprevost; William Bocik; Emily S Boja; Tara Hiltke; Alexey I Nesvizhskii; Hui Zhang
Journal:  Anal Chem       Date:  2020-02-26       Impact factor: 6.986

5.  Quantitative, multiplexed workflow for deep analysis of human blood plasma and biomarker discovery by mass spectrometry.

Authors:  Hasmik Keshishian; Michael W Burgess; Harrison Specht; Luke Wallace; Karl R Clauser; Michael A Gillette; Steven A Carr
Journal:  Nat Protoc       Date:  2017-07-27       Impact factor: 13.491

6.  Ambient Ionization and FAIMS Mass Spectrometry for Enhanced Imaging of Multiply Charged Molecular Ions in Biological Tissues.

Authors:  Clara L Feider; Natalia Elizondo; Livia S Eberlin
Journal:  Anal Chem       Date:  2016-11-09       Impact factor: 6.986

Review 7.  A Review on Quantitative Multiplexed Proteomics.

Authors:  Nishant Pappireddi; Lance Martin; Martin Wühr
Journal:  Chembiochem       Date:  2019-04-18       Impact factor: 3.164

8.  Improved Sensitivity of Ultralow Flow LC-MS-Based Proteomic Profiling of Limited Samples Using Monolithic Capillary Columns and FAIMS Technology.

Authors:  Michal Greguš; James C Kostas; Somak Ray; Susan E Abbatiello; Alexander R Ivanov
Journal:  Anal Chem       Date:  2020-10-15       Impact factor: 6.986

9.  Decreased Gap Width in a Cylindrical High-Field Asymmetric Waveform Ion Mobility Spectrometry Device Improves Protein Discovery.

Authors:  Kristian E Swearingen; Jason M Winget; Michael R Hoopmann; Ulrike Kusebauch; Robert L Moritz
Journal:  Anal Chem       Date:  2015-11-25       Impact factor: 6.986

10.  Deeper Protein Identification Using Field Asymmetric Ion Mobility Spectrometry in Top-Down Proteomics.

Authors:  Vincent R Gerbasi; Rafael D Melani; Susan E Abbatiello; Michael W Belford; Romain Huguet; John P McGee; Dawson Dayhoff; Paul M Thomas; Neil L Kelleher
Journal:  Anal Chem       Date:  2021-04-12       Impact factor: 6.986
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