Parallel tempering (PT) molecular dynamics simulations have been extensively investigated as a means of efficient sampling of the configurations of biomolecular systems. Recent work has demonstrated how the short physical trajectories generated in PT simulations of biomolecules can be used to construct the Markov models describing biomolecular dynamics at each simulated temperature. While this approach describes the temperature-dependent kinetics, it does not make optimal use of all available PT data, instead estimating the rates at a given temperature using only data from that temperature. This can be problematic, as some relevant transitions or states may not be sufficiently sampled at the temperature of interest, but might be readily sam...
Computing the equilibrium properties of complex systems, such as free energy differences, is often h...
Journal ArticleWe present a novel simulation algorithm based on tempering a fraction of relaxation-l...
AbstractLinking experiments with the atomistic resolution provided by molecular dynamics simulations...
Using simulations or experiments performed at some set of temperatures to learn about the physics or...
Direct simulation of biomolecular dynamics in thermal equilibrium is challenging due to the metastab...
The effectiveness of a new algorithm, parallel tempering, is studied for numerical simulations of bi...
Molecular dynamics (MD) simulations can describe protein motions in atomic detail, but transitions b...
Classical atomistic simulations of biomolecules play an increasingly important role in molecular lif...
In this paper, we introduce a parallel continuous simulated tempering (PCST) method for enhanced sam...
In this thesis, the aim is to contribute to the development of long-time methods for molecular dynam...
We propose a discrete transition-based reweighting analysis method (dTRAM) for analyzing configurati...
Protein conformational change is of central importance in molecular biology. Here we demonstrate a c...
Enhanced sampling algorithms are indispensable when working with highly-disconnected multimodal dist...
AbstractToday's standard molecular dynamics simulations of moderately sized biomolecular systems at ...
To decipher the biomolecular interaction mechanism play an important role in understanding the myste...
Computing the equilibrium properties of complex systems, such as free energy differences, is often h...
Journal ArticleWe present a novel simulation algorithm based on tempering a fraction of relaxation-l...
AbstractLinking experiments with the atomistic resolution provided by molecular dynamics simulations...
Using simulations or experiments performed at some set of temperatures to learn about the physics or...
Direct simulation of biomolecular dynamics in thermal equilibrium is challenging due to the metastab...
The effectiveness of a new algorithm, parallel tempering, is studied for numerical simulations of bi...
Molecular dynamics (MD) simulations can describe protein motions in atomic detail, but transitions b...
Classical atomistic simulations of biomolecules play an increasingly important role in molecular lif...
In this paper, we introduce a parallel continuous simulated tempering (PCST) method for enhanced sam...
In this thesis, the aim is to contribute to the development of long-time methods for molecular dynam...
We propose a discrete transition-based reweighting analysis method (dTRAM) for analyzing configurati...
Protein conformational change is of central importance in molecular biology. Here we demonstrate a c...
Enhanced sampling algorithms are indispensable when working with highly-disconnected multimodal dist...
AbstractToday's standard molecular dynamics simulations of moderately sized biomolecular systems at ...
To decipher the biomolecular interaction mechanism play an important role in understanding the myste...
Computing the equilibrium properties of complex systems, such as free energy differences, is often h...
Journal ArticleWe present a novel simulation algorithm based on tempering a fraction of relaxation-l...
AbstractLinking experiments with the atomistic resolution provided by molecular dynamics simulations...