Thèses

Mercredi 14 Juin 2017 à 10h30.

Coupling Laser with Mass Spectrometry for Biomolecules Characterization: From Peptides towards Protein Fibrils


Mohammad Abdul HALIM
(Institut Lumière Matière - groupe SpectroBio)

Salle de Seminaire - ISA / CLEA

Invité(e) par
Marion GIROD (ISA), Philippe DUGOURD

présentera en 3 heures :

''The structural characterization of proteins often required them to be fragmented into small units containing only few amino acids. In bottom-up approach, proteins are cleaved into small peptides by enzyme then these peptides are subjected to further fragmentation in a collision cell of a tandem mass spectrometer. However, in top-down approach, proteins can directly be dissociated (without enzyme) into small fragments by collision, electron and photon-driven dissociations. Photon-based activation methods including ultraviolet photodissociation (UVPD) and infrared multiphoton dissociation (IRMPD) have received great attention as an alternative to electron-driven and collision induced dissociation methods. Absorption of the high-energy UV photon is dispersed over the whole peptide or protein and stimulates extensive C‒Cα backbone fragmentation while the low-energy IR photons gradually increases the internal energy and thus favorably dissociates the most labile amide (C‒N) bonds. This thesis focuses on the method development and applications for characterizing biomolecules by photon-based activation methods. The interest of combining high-energy UV photons and low-energy IR photons in an Orbitrap mass spectrometer, for protein and post-translationally modified peptide characterization, has been evaluated. Moreover, infrared multiphoton dissociation has been implemented in a gated electrostatic ion trap to push forward the limit of fragmentation methods to large megadalton ions. One of the main breakthroughs in this thesis is the ability to adapt these method developments and applications to biomolecular objects ranging from small peptides (in kilodalton mass range) to entire protein fibrils (in megadalton mass range).''



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