ABSTRACT: Chemical reactions are typically described in terms of progress along a reaction coordinate. However, the quality of reaction coordinates for describing reaction dynamics is seldom tested experimentally. We applied a framework for gauging reaction-coordinate quality based on transition-path analysis to experimental data for the first time, looking at folding trajectories of single DNA hairpin molecules measured under tension applied by optical tweezers. The conditional probability for being on a reactive transition path was compared with the probability expected for ideal diffusion over a 1D energy landscape based on the committor function. Analyzing measurements and simulations of hairpin folding where end-to-end extension is the...
Conformational changes in proteins often take place on long time scales compared to the molecular ti...
The molecular mechanism of a reaction in solution is reflected in its transition-state ensemble and ...
Single-molecule experiments provide new insights into biological processes hitherto not accessible b...
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...
Structural self-assembly in biopolymers, such as proteins and nucleic acids, involves a diffusive se...
The conformational diffusion coefficient, D, sets the timescale for microscopic structural changes d...
Folding of proteins and nucleic acids involves a diffusive search over a multidimensional conformati...
AbstractPioneering studies have shown that the probability distribution of opening length for a DNA ...
The duration of structural transitions in biopolymers is only a fraction of the time spent searching...
Here we provide high resolution study of DNA hairpin dynamics achieved by probability distribution a...
We examine the dynamical (un)folding pathways of the C-terminal β-hairpin of protein G-B1 at room te...
The modelling of single-molecule experiments is of vital interest to gain new insights into processe...
Nucleic acid hairpins provide a powerful model system for probing the formation of secondary structu...
Based on a confocal microscopy platform, we extended the FCS time window by three orders of magnitud...
Conformational changes in proteins often take place on long time scales compared to the molecular ti...
The molecular mechanism of a reaction in solution is reflected in its transition-state ensemble and ...
Single-molecule experiments provide new insights into biological processes hitherto not accessible b...
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...
Structural self-assembly in biopolymers, such as proteins and nucleic acids, involves a diffusive se...
The conformational diffusion coefficient, D, sets the timescale for microscopic structural changes d...
Folding of proteins and nucleic acids involves a diffusive search over a multidimensional conformati...
AbstractPioneering studies have shown that the probability distribution of opening length for a DNA ...
The duration of structural transitions in biopolymers is only a fraction of the time spent searching...
Here we provide high resolution study of DNA hairpin dynamics achieved by probability distribution a...
We examine the dynamical (un)folding pathways of the C-terminal β-hairpin of protein G-B1 at room te...
The modelling of single-molecule experiments is of vital interest to gain new insights into processe...
Nucleic acid hairpins provide a powerful model system for probing the formation of secondary structu...
Based on a confocal microscopy platform, we extended the FCS time window by three orders of magnitud...
Conformational changes in proteins often take place on long time scales compared to the molecular ti...
The molecular mechanism of a reaction in solution is reflected in its transition-state ensemble and ...
Single-molecule experiments provide new insights into biological processes hitherto not accessible b...