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Internal Fragments Generated from Different Top-Down Mass Spectrometry Fragmentation Methods Extend Protein Sequence Coverage

Muhammad A. Zenaidee, Benqian Wei, Carter Lantz, Hoi Ting Wu, Tyler R. Lambeth, Jolene K. Diedrich, Rachel R. Ogorzalek Loo, Ryan R. Julian, Joseph A. Loo

2021Journal of the American Society for Mass Spectrometry47 citationsDOIOpen Access PDF

Abstract

Top-down mass spectrometry (TD-MS) of intact proteins results in fragment ions that can be correlated to the protein primary sequence. Fragments generated can either be terminal fragments that contain the N- or C-terminus or internal fragments that contain neither termini. Traditionally in TD-MS experiments, the generation of internal fragments has been avoided because of ambiguity in assigning these fragments. Here, we demonstrate that in TD-MS experiments internal fragments can be formed and assigned in collision-based, electron-based, and photon-based fragmentation methods and are rich with sequence information, allowing for a greater extent of the primary protein sequence to be explained. For the three test proteins cytochrome c, myoglobin, and carbonic anhydrase II, the inclusion of internal fragments in the analysis resulted in approximately 15–20% more sequence coverage, with no less than 85% sequence coverage obtained. Combining terminal fragment and internal fragment assignments results in near complete protein sequence coverage. Hence, by including both terminal and internal fragment assignments in TD-MS analysis, deep protein sequence analysis, allowing for the localization of modification sites more reliably, can be possible.

Topics & Concepts

ChemistryMass spectrometryProtein sequencingSequence (biology)Fragmentation (computing)Complete sequenceElectron-capture dissociationSequence analysisFragment (logic)Protein primary structureMyoglobinPeptide sequenceTandem mass spectrometryBiochemistryDNAChromatographyAlgorithmGeneBiologyComputer scienceEcologyGenomeMass Spectrometry Techniques and ApplicationsAdvanced Proteomics Techniques and ApplicationsIon-surface interactions and analysis
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