The complex protein folding kinetics in wide temperature ranges is studied through diffusive dynamics on the underlying energy landscape. The well-known kinetic chevron rollover behavior is recovered from the mean first passage time, with the U-shape dependence on temperature. The fastest folding temperature T-0 is found to be smaller than the folding transition temperature T-f. We found that the fluctuations of the kinetics through the distribution of first passage time show rather universal behavior, from high-temperature exponential Poissonian kinetics to the relatively low-temperature highly nonexponential kinetics. The transition temperature is at T-k and T-0, T-k, T-f. In certain low-temperature regimes, a power law behavior at long t...
We developed both analytical and simulation methods to explore the diffusion dynamics in protein fol...
AbstractUnderstanding how proteins fold is one of the central problems in biochemistry. A new genera...
For small molecule reaction kinetics, computed reaction coordinates often mimic experimentally measu...
AbstractThe complex protein folding kinetics in wide temperature ranges is studied through diffusive...
More than 22 000 folding kinetic simulations were performed to study the temperature dependence of t...
We propose an approach to integrate the theory, simulations, and experiments in protein-folding kine...
BackgroundRecent experimental and theoretical studies have revealed that protein folding kinetics ca...
BackgroundRecent data have suggested two principles that are central to the work we describe here. F...
AbstractWe propose an approach to integrate the theory, simulations, and experiments in protein-fold...
We study the dynamics of protein folding via statistical energy-landscape theory. In particular, we ...
Configuration-dependent diffusion (CDD) is important for protein folding kinetics with small thermod...
AbstractWe propose a new approach to activated protein folding dynamics via a diffusive path integra...
Protein folding is one of the fundamental problems in contemporary structural biology. A very import...
AbstractThermodynamic measurements of proteins indicate that the folding to the native state takes p...
Protein folding is one of the most fundamental problems in biophysics and structural biology. Despit...
We developed both analytical and simulation methods to explore the diffusion dynamics in protein fol...
AbstractUnderstanding how proteins fold is one of the central problems in biochemistry. A new genera...
For small molecule reaction kinetics, computed reaction coordinates often mimic experimentally measu...
AbstractThe complex protein folding kinetics in wide temperature ranges is studied through diffusive...
More than 22 000 folding kinetic simulations were performed to study the temperature dependence of t...
We propose an approach to integrate the theory, simulations, and experiments in protein-folding kine...
BackgroundRecent experimental and theoretical studies have revealed that protein folding kinetics ca...
BackgroundRecent data have suggested two principles that are central to the work we describe here. F...
AbstractWe propose an approach to integrate the theory, simulations, and experiments in protein-fold...
We study the dynamics of protein folding via statistical energy-landscape theory. In particular, we ...
Configuration-dependent diffusion (CDD) is important for protein folding kinetics with small thermod...
AbstractWe propose a new approach to activated protein folding dynamics via a diffusive path integra...
Protein folding is one of the fundamental problems in contemporary structural biology. A very import...
AbstractThermodynamic measurements of proteins indicate that the folding to the native state takes p...
Protein folding is one of the most fundamental problems in biophysics and structural biology. Despit...
We developed both analytical and simulation methods to explore the diffusion dynamics in protein fol...
AbstractUnderstanding how proteins fold is one of the central problems in biochemistry. A new genera...
For small molecule reaction kinetics, computed reaction coordinates often mimic experimentally measu...