Literature DB >> 23373960

Autophaser: an algorithm for automated generation of absorption mode spectra for FT-ICR MS.

David P A Kilgour1, Rebecca Wills, Yulin Qi, Peter B O'Connor.   

Abstract

Phase correction of Fourier transform ion cyclotron resonance (FT-ICR) mass spectrometry data allows the spectra to be presented in absorption mode. Absorption mode spectra offer superior mass resolving power (up to a factor of 2), mass accuracy, and sensitivity over the conventional magnitude mode. Hitherto, the use of absorption mode in FT-ICR mass spectrometry has required either specially adapted instrumentation or a manually intensive process of phase correction or has ignored the potentially significant effects of image charge and the associated frequency shifts. Here we present an algorithm that allows spectra recorded on unadapted FT-ICR mass spectrometers to be phase corrected, their baseline deviations removed, and then an absorption mode spectrum presented in an automated manner that requires little user interaction.

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Mesh:

Year:  2013        PMID: 23373960      PMCID: PMC3712280          DOI: 10.1021/ac303289c

Source DB:  PubMed          Journal:  Anal Chem        ISSN: 0003-2700            Impact factor:   6.986


  14 in total

1.  Absorption-mode: the next generation of Fourier transform mass spectra.

Authors:  Yulin Qi; Mark P Barrow; Huilin Li; Joseph E Meier; Steve L Van Orden; Christopher J Thompson; Peter B O'Connor
Journal:  Anal Chem       Date:  2012-03-06       Impact factor: 6.986

2.  Initial experimental characterization of a new ultra-high resolution FTICR cell with dynamic harmonization.

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Journal:  J Am Soc Mass Spectrom       Date:  2011-04-19       Impact factor: 3.109

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Journal:  J Am Soc Mass Spectrom       Date:  2011-07-06       Impact factor: 3.109

4.  Automated broadband phase correction of Fourier transform ion cyclotron resonance mass spectra.

Authors:  Feng Xian; Christopher L Hendrickson; Greg T Blakney; Steven C Beu; Alan G Marshall
Journal:  Anal Chem       Date:  2010-10-14       Impact factor: 6.986

5.  Trapped-ion cell with improved DC potential harmonicity for FT-ICR MS.

Authors:  Aleksey V Tolmachev; Errol W Robinson; Si Wu; Hyuk Kang; Natacha M Lourette; Ljiljana Pasa-Tolić; Richard D Smith
Journal:  J Am Soc Mass Spectrom       Date:  2008-01-31       Impact factor: 3.109

Review 6.  Fourier transform ion cyclotron resonance mass spectrometry: a primer.

Authors:  A G Marshall; C L Hendrickson; G S Jackson
Journal:  Mass Spectrom Rev       Date:  1998 Jan-Feb       Impact factor: 10.946

7.  Phase correction of Fourier transform ion cyclotron resonance mass spectra using MatLab.

Authors:  Yulin Qi; Christopher J Thompson; Steve L Van Orden; Peter B O'Connor
Journal:  J Am Soc Mass Spectrom       Date:  2011-01-28       Impact factor: 3.109

8.  Appropriate degree of trust: deriving confidence metrics for automatic peak assignment in high-resolution mass spectrometry.

Authors:  David P A Kilgour; C Logan Mackay; Patrick R R Langridge-Smith; Peter B O'Connor
Journal:  Anal Chem       Date:  2012-08-21       Impact factor: 6.986

9.  An electrically compensated trap designed to eighth order for FT-ICR mass spectrometry.

Authors:  Adam M Brustkern; Don L Rempel; Michael L Gross
Journal:  J Am Soc Mass Spectrom       Date:  2008-07-02       Impact factor: 3.109

10.  Comparison of particle-in-cell simulations with experimentally observed frequency shifts between ions of the same mass-to-charge in Fourier transform ion cyclotron resonance mass spectrometry.

Authors:  Franklin E Leach; Andriy Kharchenko; Ron M A Heeren; Eugene Nikolaev; I Jonathan Amster
Journal:  J Am Soc Mass Spectrom       Date:  2009-10-06       Impact factor: 3.109
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  19 in total

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Journal:  J Am Soc Mass Spectrom       Date:  2015-03-14       Impact factor: 3.109

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5.  Least-squares fitting of time-domain signals for Fourier transform mass spectrometry.

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7.  Untargeted metabolomic analysis by ultra-high-resolution mass spectrometry for the profiling of new Italian wine varieties.

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8.  Absorption Mode Fourier Transform Ion Mobility Mass Spectrometry Multiplexing Combined with Half-Window Apodization Windows Improves Resolution and Shortens Acquisition Times.

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9.  Glycosylation characterization of therapeutic mAbs by top- and middle-down mass spectrometry.

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10.  QUDeX-MS: hydrogen/deuterium exchange calculation for mass spectra with resolved isotopic fine structure.

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