Your search keyword '"Denis Morsa"' showing total 18 results

1. Response to Comment on Effective Temperature and Structural Rearrangement in Trapped Ion Mobility Spectrometry

Author

Denis Morsa, Edwin De Pauw, Valérie Gabelica, and Emeline Hanozin

Subjects

Chemistry, Ion-mobility spectrometry, Analytical chemistry, Effective temperature, Analytical Chemistry

Published

2020

2. Multi-Enzymatic Limited Digestion: The Next-Generation Sequencing for Proteomics?

Author

Raphaël La Rocca, Nicolas Smargiasso, Elodie Grifnée, Dominique Baiwir, Rémi Longuespée, Denis Morsa, Edwin De Pauw, Tyler A. Zimmerman, Marie-Alice Meuwis, Emeline Hanozin, and Gabriel Mazzucchelli

Subjects

Proteomics, 0301 basic medicine, Flexibility (engineering), 030102 biochemistry & molecular biology, Computer science, High-Throughput Nucleotide Sequencing, General Chemistry, Computational biology, Biochemistry, DNA sequencing, 03 medical and health sciences, 030104 developmental biology, Sequence Analysis, Protein, Tandem Mass Spectrometry, Redundancy (engineering), Humans, De novo sequencing, Amino Acid Sequence, Peptides, Protein Processing, Post-Translational, Algorithms

Abstract

Over the past 40 years, proteomics, generically defined as the field dedicated to the identification and analysis of proteins, has tremendously gained in popularity and potency through advancements in genome sequencing, separative techniques, mass spectrometry, and bioinformatics algorithms. As a consequence, its scope of application has gradually enlarged and diversified to meet specialized topical biomedical subjects. Although the tryptic bottom-up approach is widely regarded as the gold standard for rapid screening of complex samples, its application for precise and confident mapping of protein modifications is often hindered due to partial sequence coverage, poor redundancy in indicative peptides, and lack of method flexibility. We here show how the synergic and time-limited action of a properly diluted mix of multiple enzymes can be exploited in a versatile yet straightforward protocol to alleviate present-day drawbacks. Merging bottom-up and middle-down ideologies, our results highlight broad assemblies of overlapping peptides that enable refined and reliable characterizations of proteins, including variant identification, and their carried modifications, including post-translational modifications, truncations, and cleavages. Beyond this boost in performance, our methodology also offers efficient de novo sequencing capabilities, in view of which we here present a dedicated custom assembly algorithm.

Published

2019

3. Radical-Pairing Interactions in a Molecular Switch Evidenced by Ion Mobility Spectrometry and Infrared Ion Spectroscopy

Author

Damien Sluysmans, Benoît Mignolet, Anne-Sophie Duwez, Edwin De Pauw, Jos Oomens, J. Fraser Stoddart, Emeline Hanozin, Jonathan Martens, Giel Berden, Denis Morsa, and Gauthier Eppe

Subjects

Materials science, Ion-mobility spectrometry, Supramolecular chemistry, Infrared spectroscopy, 010402 general chemistry, Mass spectrometry, 01 natural sciences, Supramolecular Chemistry, Catalysis, Ion, donor-acceptor foldamer, ion mobility, infrared spectroscopy, Research Articles, mass spectrometry, Molecular switch, FELIX Molecular Structure and Dynamics, 010405 organic chemistry, Foldamer, General Medicine, General Chemistry, electron transfer, Molecular machine, 0104 chemical sciences, Chemical physics, Research Article

Abstract

The digital revolution sets a milestone in the progressive miniaturization of working devices and in the underlying advent of molecular machines. Foldamers involving mechanically entangled components with modular secondary structures are among the most promising designs for molecular switch‐based applications. Characterizing the nature and dynamics of their intramolecular network following the application of a stimulus is the key to their performance. Here, we use non‐dissociative electron transfer as a reductive stimulus in the gas phase and probe the consecutive co‐conformational transitions of a donor‐acceptor oligorotaxane foldamer using electrospray mass spectrometry interfaced with ion mobility and infrared ion spectroscopy. A comparison of collision cross section distributions for analogous closed‐shell and radical molecular ions sheds light on their respective formation energetics, while variations in their respective infrared absorption bands evidence changes in intramolecular organization as the foldamer becomes more compact. These differences are compatible with the advent of radical‐pairing interactions., Gas‐phase non‐dissociative electron transfer is used for charge reduction of a donor‐acceptor oligorotaxane foldamer (green). The consecutive co‐conformational transition is monitored using ion mobility spectrometry and infrared ion spectroscopy. Comparing the collision cross section distributions (blue) and infrared spectra (red) recorded for analogous closed‐shell and radical systems highlights differences that can be attributed to radical‐pairing interactions.

Published

2021

4. Solvent Adducts in Ion Mobility Spectrometry: Toward an Alternative Reaction Probe for Thermometer Ions

Author

Edwin De Pauw, Emeline Hanozin, Denis Morsa, and Gauthier Eppe

Subjects

Electrospray, Addition reaction, Chemistry, Ion-mobility spectrometry, 010401 analytical chemistry, 010402 general chemistry, Mass spectrometry, Photochemistry, 01 natural sciences, 0104 chemical sciences, Ion, chemistry.chemical_compound, Fragmentation (mass spectrometry), Structural Biology, Pyridine, Acetonitrile, Spectroscopy

Abstract

The fragmentation of benzylpyridinium "thermometer" ions is widely used to quantify the energetics of ions studied by mass spectrometry and other hyphenated techniques such as ion mobility. The reaction pathway leads to a benzylium cation with the release of a neutral pyridine. Using trapped ion mobility spectrometry, we noticed that the addition of acetonitrile, present in the electrosprayed solvent mixture, could occur on some electrophilic benzylium cations. This process results in the formation of adducts and in the appearance of a supplementary mobility peak. We here demonstrate that the addition takes place both in the electrospray source and inside the mobility analyzer, thereby evidencing possible outflow of solvent vapors downstream the instrument. By further characterizing the initial kinetics and the resulting equilibrium linked with the addition reaction, we presently discuss these as alternative probes to calibrate ion temperature in the framework of ion mobility.

Published

2020

5. Author Correction: A light-fuelled nanoratchet shifts a coupled chemical equilibrium

Author

Michael Kathan, Stefano Crespi, Niklas O. Thiel, Daniel L. Stares, Denis Morsa, John de Boer, Gianni Pacella, Tobias van den Enk, Piermichele Kobauri, Giuseppe Portale, Christoph A. Schalley, and Ben L. Feringa

Subjects

Biomedical Engineering, General Materials Science, Bioengineering, Electrical and Electronic Engineering, Condensed Matter Physics, Atomic and Molecular Physics, and Optics

Published

2022

6. Predicting Ion Mobility-Mass Spectrometry trends of polymers using the concept of apparent densities

Author

Edwin De Pauw, Johann Far, Philippe Lecomte, Christine Jérôme, Jean Haler, and Denis Morsa

Subjects

Models, Molecular, chemistry.chemical_classification, Materials science, Molecular Structure, Polymers, Ion-mobility spectrometry, 010401 analytical chemistry, Dispersity, Polymer, Function (mathematics), 010402 general chemistry, Mass spectrometry, 01 natural sciences, Mass Spectrometry, General Biochemistry, Genetics and Molecular Biology, 0104 chemical sciences, Ion, Folding (chemistry), Models, Chemical, chemistry, Chemical physics, Ion Mobility Spectrometry, Curve fitting, Molecular Biology

Abstract

Ion Mobility (IM) coupled to Mass Spectrometry (MS) has been used for several decades, bringing a fast separation dimension to the MS detection. IM-MS is a convenient tool for structural elucidation. The folding of macromolecules is often assessed with the support of computational chemistry. However, this strategy is strongly dependent on computational initial guesses. Here, we propose the analysis of the Collision Cross-Section (CCS) trends of synthetic homopolymers based on a fitting method which does not rely on computational chemistry a prioris of the three-dimensional structures. The CCS trends were evaluated as a function of the polymer chain length and the charge state. This method is also applicable to mobility trends. It leads to two parameters containing all information available through IM(-MS) measurements. One parameter can be interpreted as an apparent density. The second parameter is related to the shape of the ions and leads us to introduce the concept of trends with constant apparent density. Based on the two fitting parameters, a method for IM trend predictions is elaborated. Experimental deviations from the predictions facilitate detecting structural rearrangements and three-dimensional structure differences of the cationized polymer ions. This leads for instance to an easy identification and prediction of the presence of different polymer topologies in complex polymer mixtures. The classification of predicted trends could as well allow for software-assisted data processing. Finally, we suggest the link between the CCS trends of homopolymers and those obtained from (monodisperse) biomolecules to interpret potential folding differences during IM-MS studies.

Published

2018

7. Covalent Cross-Linking as an Enabler for Structural Mass Spectrometry

Author

Hugo Gattuso, Elodie Grifnée, Emeline Hanozin, Edwin De Pauw, Denis Morsa, and André Matagne

Subjects

Electrospray, Circular dichroism, Spectrometry, Mass, Electrospray Ionization, Chemistry, Myoglobin, Protein Conformation, Cytochromes c, Lactoglobulins, Molecular Dynamics Simulation, Mass spectrometry, Analytical Chemistry, Molecular dynamics, Protein structure, Cross-Linking Reagents, Covalent bond, Chemical physics, Ion Mobility Spectrometry, Molecule, Animals, Gases, Conformational isomerism

Abstract

The number of studies referring to the structural elucidation of intact biomolecular systems using mass spectrometry techniques has gradually increased in the post-2000s literature topics. As part of native mass spectrometry, this domain capitalizes on the kinetic trapping of physiological folds in view of probing solution-like conformational properties of isolated molecules or complexes after their electrospray transfer to the gas phase. Despite its efficiency for a wide array of analytes, this approach is expected to be pushed to its limits when considering highly dynamic systems or when dealing with nonideal operating conditions. To circumvent these limitations, we challenge the adequacy of an original strategy based on cross-linkers to improve the gas-phase stability of isolated proteins and ensure the preservation of folded conformations when measuring with strong transmission voltages, by spraying from denaturing solvents, or trapping for extended periods of time. Tested on cytochrome c, myoglobin, and β-lactoglobulin cross-linked using BS3, we validated the process as structurally nonintrusive in solution using far-ultraviolet circular dichroism and unraveled the preservation of folded conformations showing better resilience to denaturation on cross-linked species using ion mobility. The resulting collision cross sections were found in agreement with the native fold, and a preservation of the proteins' secondary and tertiary structures was evidenced using molecular dynamics simulations. Our results provide new insights concerning the fate of electro-sprayed cross-linked conformers in the gas phase, while constituting promising evidence for the validation of this technique as part of future structural mass spectrometry workflows.

Published

2019

8. Two-Parameter Power Formalism for Structural Screening of Ion Mobility Trends: Applied Study on Artificial Molecular Switches

Author

Emeline Hanozin, Denis Morsa, and Edwin De Pauw

Subjects

Molecular switch, Formalism (philosophy of mathematics), Two parameter, 010304 chemical physics, Chemistry, 0103 physical sciences, Statistical physics, Physical and Theoretical Chemistry, 010402 general chemistry, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, Ion

Abstract

Recent literature provides increasing samples of structural studies relying on ion mobility coupled to mass spectrometry in view of characterizing gas-phase conformation and energetics properties of biomolecular ions. A typical framework consists in experimentally monitoring the collisional cross sections for various experimental conditions and using them as references to select appropriate candidate structures issued from theoretical modeling. Although it has proved successful for structural assignment, this process is resource costly and lengthy, namely due to intricacies in the selection of appropriate input geometries. In the present work, we propose simplified methodologies dedicated to the systematic screening of ion mobility data acquired on systems built from repetitive subunits and detail their application to challenging artificial molecular switch systems. Capitalizing on coarse-grained design, we first demonstrate how the assimilation of subunits into adequately assembled building-blocks can be used for fast assignments of a system topology. Further focusing on topology-specific differential ion mobility trends, we show that the building-block assemblies can be fused into single fully convex solid figure models, i.e., sphere and cylinder, whose projected areas follow a two-parameter power formalism

Published

2019

9. Ion Mobility-Mass Spectrometry as a Tool for the Structural Characterization of Peptides Bearing Intramolecular Disulfide Bond(s)

Author

Michel Degueldre, Loïc Quinton, Edwin De Pauw, Denis Morsa, Philippe Massonnet, Jean Haler, Gilles Mourier, Nicolas Gilles, Gregory Upert, and Nicolas Smargiasso

Subjects

Stereochemistry, Ion-mobility spectrometry, Chemistry, 010401 analytical chemistry, 010402 general chemistry, Mass spectrometry, 01 natural sciences, Mass Spectrometry, 0104 chemical sciences, Characterization (materials science), Adduct, Ion, Structural Biology, Intramolecular force, Organic chemistry, Amino Acid Sequence, Cysteine, Disulfides, Protons, Peptides, Peptide sequence, Spectroscopy

Abstract

Disulfide bonds are post-translationnal modifications that can be crucial for the stability and the biological activities of natural peptides. Considering the importance of these disulfide bond-containing peptides, the development of new techniques in order to characterize these modifications is of great interest. For this purpose, collision cross cections (CCS) of a large data set of 118 peptides (displaying various sequences) bearing zero, one, two, or three disulfide bond(s) have been measured in this study at different charge states using ion mobility-mass spectrometry. From an experimental point of view, CCS differences (ΔCCS) between peptides bearing various numbers of disulfide bonds and peptides having no disulfide bonds have been calculated. The ΔCCS calculations have also been applied to peptides bearing two disulfide bonds but different cysteine connectivities (Cys1-Cys2/Cys3-Cys4; Cys1-Cys3/Cys2-Cys4; Cys1-Cys4/Cys2-Cys3). The effect of the replacement of a proton by a potassium adduct on a peptidic structure has also been investigated. Graphical Abstract ᅟ.

Published

2016

10. Energetics and structural characterization of isomers using ion mobility and gas-phase H/D exchange: Learning from lasso peptides

Author

Edwin De Pauw, Denis Morsa, and Emeline Hanozin

Subjects

Chemistry, Kinetics, Analytical chemistry, Deuterium Exchange Measurement, Reproducibility of Results, Capistruin, Mass spectrometry, Biochemistry, Mass Spectrometry, Ion, Gas phase, Isomerism, Computational chemistry, Thermodynamics, Dissociative substitution, Amino Acid Sequence, Peptides, Molecular Biology, Isomerization

Abstract

State-of-the-art characterization of proteins using MS namely relies on fragmentation methods that allow exploring featured dissociative reaction pathways. These pathways are often initiated by a series of potentially informative mass-constant conformational changes that are nonetheless frequently overlooked by lack of adequate investigation techniques. In the present study, we propose a methodology to readily address both structural and energetic aspects of stereoisomerization reactions using ion mobility coupled with MS. To this end, a commercial spectrometer was used as a reactor comprising an energy resolved collisional activation step intended at promoting controlled conformational changes and a structural assignment step dedicated to the identification of the generated isomers. This identification relies on ion mobility and other on-line coupled techniques, namely an originally designed gas-phase H/D exchange experiment. We here apply this methodology to characterize the isomerization kinetics of capistruin, a 19-residue long lasso-folded peptide. We expect this approach to bring insights into the physical origin of global dissociation thresholds monitored in MS/MS experiments and to set a promising basis for quantitative investigations of the stability of different molecular folds.

Published

2015

11. Where Ion Mobility and Molecular Dynamics Meet To Unravel the (Un)Folding Mechanisms of an Oligorotaxane Molecular Switch

Author

Edwin De Pauw, Emeline Hanozin, Damien Sluysmans, Benoît Mignolet, Anne-Sophie Duwez, Denis Morsa, Françoise Remacle, and J. Fraser Stoddart

Subjects

Molecular switch, chemistry.chemical_classification, 010405 organic chemistry, General Engineering, General Physics and Astronomy, Context (language use), 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Folding (chemistry), Molecular dynamics, chemistry, Computational chemistry, Chemical physics, Intramolecular force, Molecule, General Materials Science, Counterion, Protein secondary structure

Abstract

At the interface between foldamers and mechanically interlocked molecules, oligorotaxanes exhibit a spring-like folded secondary structure with remarkable mechanical and physicochemical properties. Among these properties, the ability of oligorotaxanes to act as molecular switches through controlled modulations of their spatial extension over (un)folding dynamics is of particular interest. The present study aims to assess and further characterize this remarkable feature in the gas phase using mass spectrometry tools. In this context, we focused on the [4]5NPR+12 oligorotaxane molecule complexed with PF6– counterion and probed its co-conformational states as a function of the in-source-generated charge states. Data were interpreted in light of electronic secondary structure computations at the PM6 and DFT levels. Our results highlight two major co-conformational groups associated either with folded compact structures, notably stabilized by intramolecular π–π interactions and predominant for low charge state...

Published

2017

12. P057 Proteomic analysis highlights divergences and convergences between ileal and colonic pathological processes involved in Crohn’s ulcers

Author

Catherine Reenaers, Nicolas Smargiasso, Jean-Philippe Loly, Marie-Alice Meuwis, Nicolas Pierre, E. De Pauw, Edouard Louis, Gabriel Mazzucchelli, Dominique Baiwir, C Van Kemseke, and Denis Morsa

Subjects

Pathology, medicine.medical_specialty, Crohn's disease, Leukocyte L1 Antigen Complex, medicine.diagnostic_test, business.industry, Gastroenterology, Mucous membrane, Ileum, General Medicine, Golgi apparatus, medicine.disease, symbols.namesake, medicine.anatomical_structure, Immune system, Biopsy, medicine, symbols, business, Reticulum

Published

2018

13. Polymer topology revealed by ion mobility coupled with mass spectrometry

Author

Thomas Defize, Dominique Dehareng, Denis Morsa, Edwin De Pauw, and Christine Jérôme

Subjects

chemistry.chemical_classification, Ions, Quantitative Biology::Biomolecules, Work (thermodynamics), Field (physics), Chemistry, Polymers, Context (language use), Polymer, Topology, Mass spectrometry, Mass Spectrometry, Analytical Chemistry, Ion, Invariant (mathematics), Topology (chemistry)

Abstract

Hyperbranched and star shaped polymers have raised tremendous interest because of their unusual structural and photochemical properties, which provide them potent applications in various domains, namely in the biomedical field. In this context, the development of adequate tools aiming to probe particular three-dimensional features of such polymers is of crucial importance. In this present work, ion mobility coupled with mass spectrometry was used to experimentally derive structural information related to cationized linear and star shaped poly-ε-caprolactones as a function of their charge state and chain length. Two major conformations were observed and identified using theoretical modeling: (1) near spherical conformations whose sizes are invariant with the polymer topology for long and lightly charged chains and (2) elongated conformations whose sizes vary with the polymer topology for short and highly charged chains. These conformations were further confirmed by collisional activation experiments based on the ejection thresholds of the coordinated cations that vary according to the elongation amplitude of the polymer chains. Finally, a comparison between solution and gas-phase conformations highlights a compaction of the structure with a loss of specific chain arrangements during the ionization and desolvation steps of the electrospray process, fueling the long-time debated question related to the preservation of the analyte structure during the transfer into the mass spectrometer.

Published

2014

14. Fragmentation and isomerization due to field heating in traveling wave ion mobility spectrometry

Author

Denis Morsa, Edwin De Pauw, and Valérie Gabelica

Subjects

Spectrometer, Chemistry, Ion-mobility spectrometry, Analytical chemistry, Ion, symbols.namesake, Fragmentation (mass spectrometry), Structural Biology, Normal mode, Electric field, Boltzmann constant, symbols, Isomerization, Spectroscopy

Abstract

During their travel inside a traveling wave ion mobility cell (TW IMS), ions are susceptible to heating because of the presence of high intensity electric fields. Here, we report effective temperatures Teff,vib obtained at the injection and inside the mobility cell of a SYNAPT G2 HDMS spectrometer for different probe ions: benzylpyridinium ions and leucine enkephalin. Using standard parameter sets, we obtained a temperature of ~800 K at injection and 728 ± 2 K into the IMS cell for p-methoxybenzylpyridinium. We found that Teff,vib inside the cell was dependent on the separation parameters and on the nature of the analyte. While the mean energy of the Boltzmann distributions increases with ion size, the corresponding temperature decreases because of increasing numbers of vibrational normal modes. We also investigated conformational rearrangements of 7+ ions of cytochrome c and reveal isomerization of the most compact structure, therefore highlighting the effects of weak heating on the gas-phase structure of biologically relevant ions.

Published

2014

15. Dissociation pathways of benzylpyridinium 'thermometer' ions depend on the activation regime: An irmpd spectroscopy study

Author

Jos Oomens, Denis Morsa, Edwin De Pauw, Frédéric Rosu, Valérie Gabelica, and Molecular Spectroscopy (HIMS, FNWI)

Subjects

Molecular Structure and Dynamics, Chemistry, 010401 analytical chemistry, Kinetics, Analytical chemistry, 010402 general chemistry, Mass spectrometry, Photochemistry, 01 natural sciences, Dissociation (chemistry), 0104 chemical sciences, Ion, Fragmentation (mass spectrometry), General Materials Science, Infrared multiphoton dissociation, Physical and Theoretical Chemistry, Spectroscopy, Isomerization

Abstract

The dissociation of benzylpyridinium "thermometer" ions is widely used to calibrate the internal energy of ions produced in mass spectrometry. The fragmentation mechanism is usually believed to yield a benzylium cation, although recent studies suggest the possibility of a rearrangement leading to the tropylium isomer, which would compromise the accuracy of energy calibrations. In this study, we used IRMPD spectroscopy to probe the dissociation pathways of the p-(tert-butyl)benzylpyridinium ion. Our results show that the formation of both benzylium and tropylium products is feasible depending on the activation regime and on the reaction time scale. Varying the trapping delays in the hexapole gives insight into a rearrangement mechanism occurring through consecutive reactions with an isomerization from benzylium to tropylium. Our work provides experimental validations for the established calibration procedure and highlights the adequacy of IRMPD spectroscopy to qualitatively resolve gas-phase rearrangement kinetics. [GRAPHICS]

Published

2014

16. La dette de la ville de Huy au 17e siècle

Author

Denis Morsa

Subjects

Economics

Published

2003

17. Une croissance manquée : Huy (1600-1800). Quelques hypothèses sur un effondrement économique

Author

Denis Morsa

Subjects

Linguistics and Language, History, Literature and Literary Theory, Language and Linguistics

Abstract

Morsa Denis. Une croissance manquée : Huy (1600-1800). Quelques hypothèses sur un effondrement économique. In: Revue belge de philologie et d'histoire, tome 59, fasc. 2, 1981. Histoire médiévale, moderne et contemporaine — Middeleeuwse, moderne en hedendaagse geschiedenis. pp. 325-381.

Published

1981

18. Les petites villes dans la principauté de Liège à la fin du XVIIIe siècle. Premières approches

Author

Denis Morsa

Subjects

History

Abstract

Denis Morsa. Small towns in the principality of Liège at the end of the 18th century. First approaches. This analysis of small towns in the principality of Liège at the end of the 18th century is an attempt to contribute to the study of the problems of urbanization in Western Europe. It is divided in several steps: the definition of criteria to distinguish small towns from areas and villages inhabited by country people, the evaluation of the popupation of the entities described, the use of precise statistical processes to check the correspondence of the Liège urban structure to some distribution types or normative hierarchies. This approach throws a new light on two essential elements of the rban net in the region of Liège: immaturity and general lack of balance., Denis Morsa. Les petites villes dans la principauté de Liège à la fin du XVnie diècle. Premières approches. En étudiant les petites villes dans la principauté de Liège à la fin du XVIIIe siècle, il s'agit d'apporter une contribution à la problématique de l'urbanisation en Europe occidentale. L'analyse progresse en plusieurs étapes : mise au point d'une critériologie pour distinguer les petites villes des agglomérations et communautés d'habitants du plat-pays ; évaluation des effectifs de la population des localités prises en compte ; mise en oeuvre de procédés statistiques explicitement définis afin de tester le degré de conformité de l'armature urbaine liégeoise par rapport à certaines distributions types ou à des hiérarchies normatives. Cette démarche met en lumière deux composantes essentielles du réseau urbain liégeois : immaturité et déséquilibre d'ensemble., Morsa Denis. Les petites villes dans la principauté de Liège à la fin du XVIIIe siècle. Premières approches. In: Histoire & Mesure, 1987 volume 2 - n°2. Varia. pp. 73-91.

Published

1987