Temperature-based replica exchange (RE) is now considered a principal technique for enhanced sampling of protein conformations. It is also recognized that existence of sharp cooperative transitions (such as protein folding/unfolding) can lead to temperature exchange bottlenecks and significantly reduce the sampling efficiency. Here, we revisit two adaptive temperature-based RE protocols, namely, exchange equalization (EE) and current maximization (CM), that were previously examined using atomistic simulations (Lee and Olson, <i>J. Chem. Physics</i> <b>2011</b>, <i>134</i>, 24111). Both protocols aim to overcome exchange bottlenecks by adaptively adjusting the simulation temperatures, either to achieve uniform exchange rates (in EE) or to ma...
Computer simulation of conformational transitions in biomolecules, such as protein folding, is cons...
AbstractToday's standard molecular dynamics simulations of moderately sized biomolecular systems at ...
The computational study of conformational transitions in RNA and proteins with atomistic molecular d...
We critically examine a recently proposed convective replica exchange (cRE) method for enhanced samp...
Replica exchange methods (REMs) are increasingly used to improve sampling in molecular dynamics (MD)...
Replica exchange simulations have become the method of choice in computational protein science, but ...
A central problem of computational structural biology is the refinement of modeled protein structure...
Simplified Models for simulating replica exchange simulations and recovering kinetics of protein fol...
Replica exchange simulations have become the method of choice in computational protein science, but ...
Abstract: Computer simulations are increasingly being used to predict thermodynamic observables for ...
Abstract: Computer simulations are increasingly being used to predict thermodynamic observables for ...
Molecular dynamics (MD) simulations can describe protein motions in atomic detail, but transitions b...
We have devised a systematic approach to converge a replica exchange molecular dynamics simulation b...
We study generalizations of parallel tempering, also known as replica exchange method, that aim at m...
AbstractSimulating protein folding thermodynamics starting purely from a protein sequence is a grand...
Computer simulation of conformational transitions in biomolecules, such as protein folding, is cons...
AbstractToday's standard molecular dynamics simulations of moderately sized biomolecular systems at ...
The computational study of conformational transitions in RNA and proteins with atomistic molecular d...
We critically examine a recently proposed convective replica exchange (cRE) method for enhanced samp...
Replica exchange methods (REMs) are increasingly used to improve sampling in molecular dynamics (MD)...
Replica exchange simulations have become the method of choice in computational protein science, but ...
A central problem of computational structural biology is the refinement of modeled protein structure...
Simplified Models for simulating replica exchange simulations and recovering kinetics of protein fol...
Replica exchange simulations have become the method of choice in computational protein science, but ...
Abstract: Computer simulations are increasingly being used to predict thermodynamic observables for ...
Abstract: Computer simulations are increasingly being used to predict thermodynamic observables for ...
Molecular dynamics (MD) simulations can describe protein motions in atomic detail, but transitions b...
We have devised a systematic approach to converge a replica exchange molecular dynamics simulation b...
We study generalizations of parallel tempering, also known as replica exchange method, that aim at m...
AbstractSimulating protein folding thermodynamics starting purely from a protein sequence is a grand...
Computer simulation of conformational transitions in biomolecules, such as protein folding, is cons...
AbstractToday's standard molecular dynamics simulations of moderately sized biomolecular systems at ...
The computational study of conformational transitions in RNA and proteins with atomistic molecular d...