Mémoire, Partim A, COLLÉGIALITÉ
Godaux, Simon
Promotor(s) : Eppe, Gauthier
Date of defense : 22-Jan-2024 • Permalink : http://hdl.handle.net/2268.2/19973
Details
Title : | Mémoire, Partim A, COLLÉGIALITÉ |
Author : | Godaux, Simon |
Date of defense : | 22-Jan-2024 |
Advisor(s) : | Eppe, Gauthier |
Committee's member(s) : | Matagne, André
Kune, Christopher Far, Johann |
Language : | English |
Keywords : | [en] Capillary electrophoresis, Ion mobility, mass spectrometry, peptides, Higher order structures |
Discipline(s) : | Physical, chemical, mathematical & earth Sciences > Chemistry |
Target public : | Researchers Professionals of domain |
Institution(s) : | Université de Liège, Liège, Belgique |
Degree: | Master en sciences chimiques, à finalité approfondie |
Faculty: | Master thesis of the Faculté des Sciences |
Abstract
[en] Native mass spectrometry (nMS) coupled to ion mobility (IM-MS) is an analytical strategy for studying
biological systems, particularly proteins and peptides, after transferring them to the gas phase.
However, can the absence of certain interactions in the gas phase compared to those in solution result
in new conformations compared to their native states? Or are ionic conformations kinetically trapped?
The aim of this work is to provide some answers to these questions by studying peptides obtained
following trypsin digestion of a well-known protein, bovine serum albumin. The peptides derived from
this digestion were studied using two separation methods, one in the gas phase (ion mobility) coupled
with another in solution (capillary electrophoresis), which also provided information on the structural
parameters of the systems studied. Both methods were tested under different conditions (pH,
interface between the two methods, ion activation regime) to determine the influence of experimental
parameters. After analysis and interpretation of the results, it was found that despite similar
conformational distributions between the two phases for the majority of peptides. Some peptides
undergo conformational changes after desolvation.
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