Jonathan AMSTER, University of Georgia, United States Accurate and Efficient Calculations of Image Charge for Multiparticle Simulations of FTICR Analyzer Cells
Kathrin BREUKER, University of Innsbruck, Austria Comprehensive characterization of ribonucleic acid modifications by top-down FT-ICR MS
Marc-André DELSUC, IGBMC CNRS, France FT-MS as viewed by an NMR spectroscopist
Isabelle FOURNIER, University of Lille, France Towards Quantification Based MS Imaging Under FT MS Condition
Neil KELLEHER, Northwestern University, United States Toward Complete Coverage of the Expressed Proteome using Top Down Proteomics
Anna LARSON, University of Wisconsin-Madison, United States NeuCode and FT-MS for highly-plexed proteome quantification
Bruno LE BIZEC, Ecole Veterinaire Nationale de Nantes, France Application and potential of FTMS in food safety
Joseph A. LOO, University of California, Los Angeles, United States Native Top-Down FT-ICR MS of Protein Complexes: Linking Gas-Phase Structures to Their Solution Origins
Alexander MAKAROV, ThermoFisher Scientific GmbH, Germany Playing ion symphony in Orbitrap mass spectrometry
Matthias MANN, Max-Planck Institute of Biochemistry, Germany Complete proteome analysis by Orbitrap FTMS and its applications in biomedicine
Alan MARSHALL, National High Magnetic Field Laboratory, United States The Path to 21 T Fourier Transform Mass Spectrometry: Progress and Prospects
Evgeny NIKOLAIEV, Institute for Energy Problems of Chemical Physics, Russia Supercomputer simulations of neutron coding multiplexing limits in FT MS
Peter O'CONNOR, University of Warwick, United Kingdom Metallodrug Binding to Proteins
Ljiljana PASA-TOLIC, Pacific Northwest National Laboratory, United States Unlocking the secrets of the secreted proteins
Yury TSYBIN, Ecole Polytechnique Fédérale de Lausanne, Switzerland Resolution: how high and fast can we go ?
Evan R. WILLIAMS, University of California, United States Ions and their Journey from Solution to Characterization by FTMS
Roman ZUBAREV, Karolinska Institutet, Sweden High content proteomics
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