Résumé
The second harmonic signal of an amphiphilic dye embedded in a lipid bilayer has been calculated by combining molecular dynamics simulations and quantum chemistry calculations based on density functional theory. This computational approach provides insight into the morphology and dynamics of the fully hydrated biological system and the relationships linking the geometry and the environment of the dye to the amplitude of its second-order nonlinear optical response. The results point out a significant enhancement of the dynamic first hyperpolarizability of the dye induced by its interaction with the membrane and highlight the relative importance of dynamical, steric, and electrostatic effects. This computational scheme is thus particularly relevant for rationalizing the nonlinear optical contrasts revealed by second harmonic imaging microscopy of exogenous dyes embedded in biological media.
| langue originale | Anglais |
|---|---|
| Pages (de - à) | 2101-2109 |
| Nombre de pages | 9 |
| journal | The Journal of Physical Chemistry. B, Condensed matter, materials, surfaces, interfaces & biophysical |
| Volume | 124 |
| Numéro de publication | 11 |
| Les DOIs | |
| Etat de la publication | Publié - 19 mars 2020 |
Financement
C.B. thanks the F.R.S.-FNRS for her FRIA fellowship. The calculations were performed on the computers of the Consortium des Équipements de Calcul Intensif (CÉCI, http://www.ceci-hpc.be ) and particularly those of the Technological Platform of High-Performance Computing, for which the authors gratefully acknowledge the financial support of the FNRS-FRFC, of the Walloon Region, and of the University of Namur (Conventions no. 2.5020.11, GEQ U.G006.15, 1610468, and RW/GEQ2016), and on zenobe, the Tier-1 facility of the Walloon Region (Convention 1117545).
| Bailleurs de fonds | Numéro du bailleur de fonds |
|---|---|
| Consortium des Equipements de Calcul Intensif | |
| F.R.S.-FNRS | |
| FNRS-FRFC, of the Walloon Region | |
| Fonds De La Recherche Scientifique - FNRS | |
| Université de Namur | 1610468, 2.5020.11, RW/GEQ2016, 1117545, GEQ U.G006.15 |
Empreinte digitale
Examiner les sujets de recherche de « Second-Order Nonlinear Optical Properties of an Amphiphilic Dye Embedded in a Lipid Bilayer. A Combined Molecular Dynamics-Quantum Chemistry Study ». Ensemble, ils forment une empreinte digitale unique.Projets
- 2 Terminé
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Développement et application d’une méthode de chimie théorique multiéchelle pour l’étude de la génération de seconde harmonique de membranes lipidiques
BOUQUIAUX, C. (Responsable du Projet) & Champagne, B. (Promoteur)
1/10/19 → 31/12/21
Projet: Recherche
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CÉCI – Consortium des Équipements de Calcul Intensif
Champagne, B. (Responsable du Projet), Lazzaroni, R. (Responsable du Projet), Geuzaine , C. (Co-investigateur), Chatelain, P. (Co-investigateur) & Knaepen, B. (Co-investigateur)
1/01/18 → 31/12/22
Projet: Recherche
Équipement
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Plateforme Technologique Calcul Intensif
Champagne, B. (!!Manager)
Plateforme technologique Calcul intensifEquipement/installations: Plateforme technolgique
Thèses de l'étudiant
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Modeling and analysis of nonlinear optical properties of dyes embedded in increasingly complex environments, up to the lipid bilayer : A quantum mechanics and molecular dynamics study
Bouquiaux, C. (Auteur), Champagne, B. (Promoteur), 2019Student thesis: Master types › Master en sciences chimique à finalité approfondie
Fichier -
Multi-Scale Theoretical Investigation of the Linear and Nonlinear Optical Responses of Di-8-ANEPPS Embedded in Complex Environments: on the Way to Explore the Complexity of Cell Membranes
Bouquiaux, C. (Auteur), CHAMPAGNE, B. (Promoteur), Olivier, Y. (Président), Cecchet, F. (Jury), Ramos, T. N. (Jury), Deleu, M. (Jury), Le Bras, L. (Jury) & Castet, F. (Jury), 11 oct. 2023Student thesis: Doc types › Docteur en Sciences
Fichier
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