AbstractTo predict a protein-folding pathway, we present an alternative to the time-consuming dynamic simulation of atomistic models. We replace the actual dynamic simulation with variational optimization of a reaction path connecting known initial and final protein conformations in such a way as to maximize an estimate of the reactive flux or minimize the mean first passage time at a given temperature, referred to as MaxFlux. We solve the MaxFlux global optimization problem with an efficient graph-theoretic approach, the probabilistic roadmap method (PRM). We employed CHARMM19 and the EEF1 implicit solvation model to describe the protein solution. The effectiveness of our MaxFlux-PRM is demonstrated in our promising simulation results on t...
We develop a dynamic optimization technique for determining optimum folding pathways of proteins sta...
Motivation: This study presents a novel investigation of the effect of kinetic control on cotranslat...
The protein folding problem is to study how a protein dynamically folds to its so-called native stat...
AbstractTo predict a protein-folding pathway, we present an alternative to the time-consuming dynami...
We present a novel approach for studying the kinetics of pro-tein folding. The framework has evolved...
In this paper we present a framework for studying protein folding pathways and potential landscapes ...
We investigate a novel approach for studying protein folding that has evolved from robotics motion p...
We present a novel approach for studying the kinetics of protein folding. The framework has evolved ...
Probabilistic roadmap methods (PRM) in robotics have been successfully applied to find accurate prot...
Molecular dynamics (MD) simulations can now predict ms-timescale folding processes of small proteins...
We present a method for constructing thousands of compact protein conformations from fragments and t...
Although protein folding has been studied for decades many open issues still resist, and we yet lack...
Making use of an ab-initio folding simulator, we generate in vitro pathways leading to the native fo...
MOTIVATION: This study presents a novel investigation of the effect of kinetic control on cotranslat...
Proteins are known to fold into tertiary structures that determine their functionality in living org...
We develop a dynamic optimization technique for determining optimum folding pathways of proteins sta...
Motivation: This study presents a novel investigation of the effect of kinetic control on cotranslat...
The protein folding problem is to study how a protein dynamically folds to its so-called native stat...
AbstractTo predict a protein-folding pathway, we present an alternative to the time-consuming dynami...
We present a novel approach for studying the kinetics of pro-tein folding. The framework has evolved...
In this paper we present a framework for studying protein folding pathways and potential landscapes ...
We investigate a novel approach for studying protein folding that has evolved from robotics motion p...
We present a novel approach for studying the kinetics of protein folding. The framework has evolved ...
Probabilistic roadmap methods (PRM) in robotics have been successfully applied to find accurate prot...
Molecular dynamics (MD) simulations can now predict ms-timescale folding processes of small proteins...
We present a method for constructing thousands of compact protein conformations from fragments and t...
Although protein folding has been studied for decades many open issues still resist, and we yet lack...
Making use of an ab-initio folding simulator, we generate in vitro pathways leading to the native fo...
MOTIVATION: This study presents a novel investigation of the effect of kinetic control on cotranslat...
Proteins are known to fold into tertiary structures that determine their functionality in living org...
We develop a dynamic optimization technique for determining optimum folding pathways of proteins sta...
Motivation: This study presents a novel investigation of the effect of kinetic control on cotranslat...
The protein folding problem is to study how a protein dynamically folds to its so-called native stat...