Add to ORKGBy suitably extending a recent approach [G. Bussi et al, J Am Chem Soc 2006, 128, 13435] we introduce a powerful methodology that allows the parallel reconstruction of the free energy of a system in a virtually unlimited number of variables. Multiple metadynamics simulations of the same system at the same temperature are performed, biasing each replica with a time-dependent potential constructed in a different set of collective variables. Exchanges between the bias potentials in the different variables are periodically allowed according to a replica exchange scheme. Due to the efficaciously multidimensional nature of the bias the method allows exploring complex free energy landscapes with high efficiency. The usefulness of the method is dem...
The investigation of complex molecular systems by molecular dynamics simulations has been successful...
Limited searching in the conformational space is one of the major obstacles for investigating protei...
Herein, we present a novel Hamiltonian replica exchange protocol for classical molecular dynamics s...
By suitably extending a recent approach [Bussi, G.; et al. J. Am. Chem. Soc. 2006, 128, 13435] we in...
Computer simulation of conformational transitions in biomolecules, such as protein folding, is cons...
Computer simulation provides an increasingly realistic picture of large-scale conformational change ...
The computational study of conformational transitions in RNA and proteins with atomistic molecular d...
AbstractSimulating protein folding thermodynamics starting purely from a protein sequence is a grand...
ABSTRACT: The computational study of conformational transitions in RNA and proteins with atomistic m...
AbstractNested sampling is a Bayesian sampling technique developed to explore probability distributi...
AbstractAll-atom free-energy methods offer a promising alternative to kinetic molecular mechanics si...
We describe a multiscale enhanced sampling (MSES) method where efficient topology-based coarse-grain...
Metadynamics is a powerful computational tool to obtain the free-energy landscape of complex systems...
Background: A common approach to the protein folding problem involves computer simulation of folding...
AbstractHere, we propose a technique for sampling complex molecular systems with many degrees of fre...
The investigation of complex molecular systems by molecular dynamics simulations has been successful...
Limited searching in the conformational space is one of the major obstacles for investigating protei...
Herein, we present a novel Hamiltonian replica exchange protocol for classical molecular dynamics s...
By suitably extending a recent approach [Bussi, G.; et al. J. Am. Chem. Soc. 2006, 128, 13435] we in...
Computer simulation of conformational transitions in biomolecules, such as protein folding, is cons...
Computer simulation provides an increasingly realistic picture of large-scale conformational change ...
The computational study of conformational transitions in RNA and proteins with atomistic molecular d...
AbstractSimulating protein folding thermodynamics starting purely from a protein sequence is a grand...
ABSTRACT: The computational study of conformational transitions in RNA and proteins with atomistic m...
AbstractNested sampling is a Bayesian sampling technique developed to explore probability distributi...
AbstractAll-atom free-energy methods offer a promising alternative to kinetic molecular mechanics si...
We describe a multiscale enhanced sampling (MSES) method where efficient topology-based coarse-grain...
Metadynamics is a powerful computational tool to obtain the free-energy landscape of complex systems...
Background: A common approach to the protein folding problem involves computer simulation of folding...
AbstractHere, we propose a technique for sampling complex molecular systems with many degrees of fre...
The investigation of complex molecular systems by molecular dynamics simulations has been successful...
Limited searching in the conformational space is one of the major obstacles for investigating protei...
Herein, we present a novel Hamiltonian replica exchange protocol for classical molecular dynamics s...