The space accessed by a folding macromolecule is vast, and how to best project computer simulations of protein folding trajectories into an interpretable sequence of discrete states is an open research problem. There are numerous alternative ways of associating individual configurations into collective states, and in deciding on the number of such clustered states there is a trade-off between human interpretability (smaller number of states) and accuracy of representation (larger number of states). Here we introduce a trajectory likelihood measure for assessing alternative discrete state models of protein folding. We find that widely used rmsd-based clustering methods require large numbers of initial states and a second agglomeration step b...
In this paper we present a framework for studying protein folding pathways and potential landscapes ...
This thesis is focused on developing advanced path sampling simulation methods to study protein fold...
Simulating biologically relevant timescales at atomic resolution is a challenging task since typical...
The space accessed by a folding macromolecule is vast, and how to best project computer simulations ...
Thesis (Ph.D.)--University of Washington, 2012The purpose of this thesis is to rigorously assess and...
Molecular dynamics (MD) simulations can now predict ms-timescale folding processes of small proteins...
We have used molecular dynamics simulations restrained by experimental φ values derived from protein...
The mechanism through which a given sequence of amino acids finds its way to a global free energy mi...
Abstract: We describe the master equation method for computing the kinetics of protein folding. We i...
Markov state models (MSMs) are a powerful framework for analyzing protein dynamics. MSMs require the...
A variety of experimental and theoretical studies have established that the folding process of m...
MOTIVATION: This study presents a novel investigation of the effect of kinetic control on cotranslat...
Conformational changes associated with protein function often occur beyond the time scale currently ...
A rigorous formalism for the extraction of state-to-state transition functions from a Boltzmann-weig...
All-atom molecular dynamics simulations now allow us to create movies of proteins folding and unfold...
In this paper we present a framework for studying protein folding pathways and potential landscapes ...
This thesis is focused on developing advanced path sampling simulation methods to study protein fold...
Simulating biologically relevant timescales at atomic resolution is a challenging task since typical...
The space accessed by a folding macromolecule is vast, and how to best project computer simulations ...
Thesis (Ph.D.)--University of Washington, 2012The purpose of this thesis is to rigorously assess and...
Molecular dynamics (MD) simulations can now predict ms-timescale folding processes of small proteins...
We have used molecular dynamics simulations restrained by experimental φ values derived from protein...
The mechanism through which a given sequence of amino acids finds its way to a global free energy mi...
Abstract: We describe the master equation method for computing the kinetics of protein folding. We i...
Markov state models (MSMs) are a powerful framework for analyzing protein dynamics. MSMs require the...
A variety of experimental and theoretical studies have established that the folding process of m...
MOTIVATION: This study presents a novel investigation of the effect of kinetic control on cotranslat...
Conformational changes associated with protein function often occur beyond the time scale currently ...
A rigorous formalism for the extraction of state-to-state transition functions from a Boltzmann-weig...
All-atom molecular dynamics simulations now allow us to create movies of proteins folding and unfold...
In this paper we present a framework for studying protein folding pathways and potential landscapes ...
This thesis is focused on developing advanced path sampling simulation methods to study protein fold...
Simulating biologically relevant timescales at atomic resolution is a challenging task since typical...