Folding of proteins and nucleic acids involves a diffusive search over a multidimensional conformational energy landscape for the minimal-energy structure. When examining the projection of conformational motions onto a one-dimensional reaction coordinate, as done in most experiments, the diffusion coefficient D is generally position dependent. However, it has proven challenging to measure such position-dependence experimentally. We investigated the position-dependence of D in the folding of DNA hairpins as a simple model system in two ways: first, by analyzing the round-trip time to return to a given extension in constant-force extension trajectories measured by force spectroscopy, and second, by analyzing the fall time required to reach a ...
In single-molecule force spectroscopy experiments, a biomolecule is attached to a force probe via po...
Single-molecule force spectroscopy has opened a new field of research in molecular biophysics and bi...
The duration of structural transitions in biopolymers is only a fraction of the time spent searching...
The conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the timescal...
AbstractThe conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the ...
Diffusion on a low-dimensional free-energy surface is a remarkably successful model for the folding ...
Folding of proteins and nucleic acids involves diffusion over a multidimensional energy landscape. O...
The conformational diffusion coefficient, D, sets the timescale for microscopic structural changes d...
Structural self-assembly in biopolymers, such as proteins and nucleic acids, involves a diffusive se...
Chemical reactions are typically described in terms of progress along a reaction coordinate. However...
Chemical reactions are typically described in terms of progress along a reaction coordinate. However...
ABSTRACT: Chemical reactions are typically described in terms of progress along a reaction coordinat...
We developed both analytical and simulation methods to explore the diffusion dynamics in protein fol...
AbstractPioneering studies have shown that the probability distribution of opening length for a DNA ...
Protein folding is described conceptually in terms of diffusion over a configurational free-energy l...
In single-molecule force spectroscopy experiments, a biomolecule is attached to a force probe via po...
Single-molecule force spectroscopy has opened a new field of research in molecular biophysics and bi...
The duration of structural transitions in biopolymers is only a fraction of the time spent searching...
The conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the timescal...
AbstractThe conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the ...
Diffusion on a low-dimensional free-energy surface is a remarkably successful model for the folding ...
Folding of proteins and nucleic acids involves diffusion over a multidimensional energy landscape. O...
The conformational diffusion coefficient, D, sets the timescale for microscopic structural changes d...
Structural self-assembly in biopolymers, such as proteins and nucleic acids, involves a diffusive se...
Chemical reactions are typically described in terms of progress along a reaction coordinate. However...
Chemical reactions are typically described in terms of progress along a reaction coordinate. However...
ABSTRACT: Chemical reactions are typically described in terms of progress along a reaction coordinat...
We developed both analytical and simulation methods to explore the diffusion dynamics in protein fol...
AbstractPioneering studies have shown that the probability distribution of opening length for a DNA ...
Protein folding is described conceptually in terms of diffusion over a configurational free-energy l...
In single-molecule force spectroscopy experiments, a biomolecule is attached to a force probe via po...
Single-molecule force spectroscopy has opened a new field of research in molecular biophysics and bi...
The duration of structural transitions in biopolymers is only a fraction of the time spent searching...