The description of the dynamics of a complex, high-dimensional system in terms of a low-dimensional set of collective variables Y can be fruitful if the low-dimensional representation satisfies a Langevin equation with drift and diffusion coefficients that depend only on Y . We present a computational scheme to evaluate whether a given collective variable provides a faithful low-dimensional representation of the dynamics of a high-dimensional system. The scheme is based on the framework of a finite-difference Langevin equation, similar to that used for molecular-dynamics simulations. This allows one to calculate the drift and diffusion coefficients in any point of the full-dimensional system. The width of the distribution of drift and diffu...
Biological functions of biomacromolecules are often indispensably linked to their internal dynamics....
The high concentration of macromolecules (i.e., macromolecular crowding) in cellular environments le...
Coarse-grained (CG) molecular dynamics enables the study of biological processes at temporal and spa...
We introduce a scheme for deriving an optimally-parametrised Langevin dynamics of few collective var...
In confocal single-molecule FRET experiments, the joint distribution of FRET efficiency and donor li...
AbstractWe present a general-purpose model for biomolecular simulations at the molecular level that ...
AbstractRecent experiments carried out in the dense cytoplasm of living cells have highlighted the i...
At scales below micrometers, Brownian motion dictates most of the behaviors. The simple observation ...
Almost all processes in life are governed by proteins which are biomolecules consisting of a chain o...
The transport of flexible biological macromolecules in confined geometries is found in a variety of ...
A novel framework for modelling biomolecular systems at multiple scales in space and time simultaneo...
Diffusion is a phenomenon of very widespread importance in molecular biophysics. Diffusion can deter...
This thesis contains several contributions to the theoretical description and interpretation of biop...
Transition paths are fleeting events when a molecule crosses a barrier separating stable configurati...
The interiors of all living cells are highly crowded with macromolecules, which differs considerably...
Biological functions of biomacromolecules are often indispensably linked to their internal dynamics....
The high concentration of macromolecules (i.e., macromolecular crowding) in cellular environments le...
Coarse-grained (CG) molecular dynamics enables the study of biological processes at temporal and spa...
We introduce a scheme for deriving an optimally-parametrised Langevin dynamics of few collective var...
In confocal single-molecule FRET experiments, the joint distribution of FRET efficiency and donor li...
AbstractWe present a general-purpose model for biomolecular simulations at the molecular level that ...
AbstractRecent experiments carried out in the dense cytoplasm of living cells have highlighted the i...
At scales below micrometers, Brownian motion dictates most of the behaviors. The simple observation ...
Almost all processes in life are governed by proteins which are biomolecules consisting of a chain o...
The transport of flexible biological macromolecules in confined geometries is found in a variety of ...
A novel framework for modelling biomolecular systems at multiple scales in space and time simultaneo...
Diffusion is a phenomenon of very widespread importance in molecular biophysics. Diffusion can deter...
This thesis contains several contributions to the theoretical description and interpretation of biop...
Transition paths are fleeting events when a molecule crosses a barrier separating stable configurati...
The interiors of all living cells are highly crowded with macromolecules, which differs considerably...
Biological functions of biomacromolecules are often indispensably linked to their internal dynamics....
The high concentration of macromolecules (i.e., macromolecular crowding) in cellular environments le...
Coarse-grained (CG) molecular dynamics enables the study of biological processes at temporal and spa...