AbstractAssessing the convergence of a biomolecular simulation is an essential part of any careful computational investigation, because many fundamental aspects of molecular behavior depend on the relative populations of different conformers. Here we present a physically intuitive method to self-consistently assess the convergence of trajectories generated by molecular dynamics and related methods. Our approach reports directly and systematically on the structural diversity of a simulation trajectory. Straightforward clustering and classification steps are the key ingredients, allowing the approach to be trivially applied to systems of any size. Our initial study on met-enkephalin strongly suggests that even fairly long trajectories (∼50ns)...
Computer simulations of biomolecules such as molecular dynamics simulations are limited by the time ...
All-atom molecular dynamics simulations need convergence tests to evaluate the quality of data. The ...
Machine learning has been playing an increasingly important role in many fields of computational phys...
ABSTRACT Assessing the convergence of a biomolecular simulation is an essential part of any careful ...
Assessing the convergence of a biomolecular simulation is an essential part of any computational inv...
ABSTRACT: Quantifying convergence and sufficient sam-pling of macromolecular molecular dynamics simu...
Molecular dynamics (MD) simulation is a natural method for the study of flexible molecules but at th...
The dynamics of biomolecules, in particular the folding of peptides and proteins, is a highly comple...
If molecular dynamics simulations are used to characterize the folding of peptides or proteins, a wi...
Calculating the kinetics of conformational changes in macromolecules, such as proteins and nucleic a...
All-atom unbiased molecular dynamics simulations are now able to explore the microsecond to millisec...
We present an unsupervised data processing workflow that is specifically designed to obtain a fast c...
To understand functions of biomolecules such as proteins, not only structures but their conformation...
Molecular dynamics simulation generates large quantities of data that must be interpreted using phys...
This dissertation presents three research projects on novel methods in computational bio- physics. E...
Computer simulations of biomolecules such as molecular dynamics simulations are limited by the time ...
All-atom molecular dynamics simulations need convergence tests to evaluate the quality of data. The ...
Machine learning has been playing an increasingly important role in many fields of computational phys...
ABSTRACT Assessing the convergence of a biomolecular simulation is an essential part of any careful ...
Assessing the convergence of a biomolecular simulation is an essential part of any computational inv...
ABSTRACT: Quantifying convergence and sufficient sam-pling of macromolecular molecular dynamics simu...
Molecular dynamics (MD) simulation is a natural method for the study of flexible molecules but at th...
The dynamics of biomolecules, in particular the folding of peptides and proteins, is a highly comple...
If molecular dynamics simulations are used to characterize the folding of peptides or proteins, a wi...
Calculating the kinetics of conformational changes in macromolecules, such as proteins and nucleic a...
All-atom unbiased molecular dynamics simulations are now able to explore the microsecond to millisec...
We present an unsupervised data processing workflow that is specifically designed to obtain a fast c...
To understand functions of biomolecules such as proteins, not only structures but their conformation...
Molecular dynamics simulation generates large quantities of data that must be interpreted using phys...
This dissertation presents three research projects on novel methods in computational bio- physics. E...
Computer simulations of biomolecules such as molecular dynamics simulations are limited by the time ...
All-atom molecular dynamics simulations need convergence tests to evaluate the quality of data. The ...
Machine learning has been playing an increasingly important role in many fields of computational phys...