AbstractWe propose a new approach to activated protein folding dynamics via a diffusive path integral framework. The important issues of kinetic paths in this situation can be directly addressed. This leads to the identification of the kinetic paths of the activated folding process, and provides a direct tool and language for the theoretical and experimental community to understand the problem better. The kinetic paths giving the dominant contributions to the long-time folding activation dynamics can be quantitatively determined. These are shown to be the instanton paths. The contributions of these instanton paths to the kinetics lead to the “bell-like” shape folding rate dependence on temperature, which is in good agreement with folding ki...
We present a novel approach for studying the kinetics of protein folding. The framework has evolved ...
BackgroundRecent data have suggested two principles that are central to the work we describe here. F...
Numerically predicting rate constants of protein folding and other relevant biological events is sti...
AbstractWe propose a new approach to activated protein folding dynamics via a diffusive path integra...
AbstractWe propose an approach to integrate the theory, simulations, and experiments in protein-fold...
AbstractBiomolecular recognition often involves large conformational changes, sometimes even local u...
AbstractUsing distributed molecular dynamics simulations we located four distinct folding transition...
We propose an approach to integrate the theory, simulations, and experiments in protein-folding kine...
The identification of kinetic pathways is a central issue in understanding the nature of flexible bi...
AbstractUnderstanding how proteins fold is one of the central problems in biochemistry. A new genera...
Biomolecular recognition often involves large conformational changes, sometimes even local unfolding...
AbstractThe complex protein folding kinetics in wide temperature ranges is studied through diffusive...
BackgroundRecent experimental and theoretical studies have revealed that protein folding kinetics ca...
We developed both analytical and simulation methods to explore the diffusion dynamics in protein fol...
We present a novel approach for studying the kinetics of pro-tein folding. The framework has evolved...
We present a novel approach for studying the kinetics of protein folding. The framework has evolved ...
BackgroundRecent data have suggested two principles that are central to the work we describe here. F...
Numerically predicting rate constants of protein folding and other relevant biological events is sti...
AbstractWe propose a new approach to activated protein folding dynamics via a diffusive path integra...
AbstractWe propose an approach to integrate the theory, simulations, and experiments in protein-fold...
AbstractBiomolecular recognition often involves large conformational changes, sometimes even local u...
AbstractUsing distributed molecular dynamics simulations we located four distinct folding transition...
We propose an approach to integrate the theory, simulations, and experiments in protein-folding kine...
The identification of kinetic pathways is a central issue in understanding the nature of flexible bi...
AbstractUnderstanding how proteins fold is one of the central problems in biochemistry. A new genera...
Biomolecular recognition often involves large conformational changes, sometimes even local unfolding...
AbstractThe complex protein folding kinetics in wide temperature ranges is studied through diffusive...
BackgroundRecent experimental and theoretical studies have revealed that protein folding kinetics ca...
We developed both analytical and simulation methods to explore the diffusion dynamics in protein fol...
We present a novel approach for studying the kinetics of pro-tein folding. The framework has evolved...
We present a novel approach for studying the kinetics of protein folding. The framework has evolved ...
BackgroundRecent data have suggested two principles that are central to the work we describe here. F...
Numerically predicting rate constants of protein folding and other relevant biological events is sti...