We introduce an approach for computing the free energy and the probability density in high-dimensional spaces, such as those explored in molecular dynamics simulations of biomolecules. The approach exploits the presence of correlations between the coordinates, induced, in molecular dynamics, by the chemical nature of the molecules. Due to these correlations, the data points lay on a manifold that can be highly curved and twisted, but whose dimension is normally small. We estimate the free energies by finding, with a statistical test, the largest neighborhood in which the free energy in the embedding manifold can be considered constant. Importantly, this procedure does not require defining explicitly the manifold and provides an estimate of ...
We present a method for determining the average transition path and the free energy along this path ...
We previously used an adaptive reaction coordinate force biasing method for calculating the free ene...
Recently Tobias and Broods introduced a method to compute by molecular dynamics with constraints the...
We introduce an approach for computing the free energy and the probability density in high-dimension...
Free energy is the driving force behind countless processes ranging from the biological to the indus...
Collective variables (CVs) are a fundamental tool to understand molecular flexibility, to compute fr...
We introduce a powerful method for exploring the properties of the multidimensional free energy surf...
One common objective of molecular simulations in chemistry and biology is to calcu-late the free ene...
In classical molecular dynamics free energy is one of the most important quantities in analyzing a m...
New algorithms for sampling and exploring multidimensional free energy surfaces(FES) are developed. ...
In recent work, we have illustrated the construction of an exploration geometry on free energy surfa...
Molecular dynamics simulations enable access to free energy differences governing the driving force ...
We present a new approach to combine λ dynamics with metadynamics (named λ-metadynamics) to compute ...
In recent work, we demonstrated that it is possible to obtain approximate representations of high-di...
This thesis describes advances in methods to measure free energy changes in simulations of molecular...
We present a method for determining the average transition path and the free energy along this path ...
We previously used an adaptive reaction coordinate force biasing method for calculating the free ene...
Recently Tobias and Broods introduced a method to compute by molecular dynamics with constraints the...
We introduce an approach for computing the free energy and the probability density in high-dimension...
Free energy is the driving force behind countless processes ranging from the biological to the indus...
Collective variables (CVs) are a fundamental tool to understand molecular flexibility, to compute fr...
We introduce a powerful method for exploring the properties of the multidimensional free energy surf...
One common objective of molecular simulations in chemistry and biology is to calcu-late the free ene...
In classical molecular dynamics free energy is one of the most important quantities in analyzing a m...
New algorithms for sampling and exploring multidimensional free energy surfaces(FES) are developed. ...
In recent work, we have illustrated the construction of an exploration geometry on free energy surfa...
Molecular dynamics simulations enable access to free energy differences governing the driving force ...
We present a new approach to combine λ dynamics with metadynamics (named λ-metadynamics) to compute ...
In recent work, we demonstrated that it is possible to obtain approximate representations of high-di...
This thesis describes advances in methods to measure free energy changes in simulations of molecular...
We present a method for determining the average transition path and the free energy along this path ...
We previously used an adaptive reaction coordinate force biasing method for calculating the free ene...
Recently Tobias and Broods introduced a method to compute by molecular dynamics with constraints the...