AbstractPioneering studies have shown that the probability distribution of opening length for a DNA hairpin, recorded under constant force using an optical trap, can be used to reconstruct the energy landscape of the transition. However, measurements made under constant force are subject to some limitations. Under constant force a system with a sufficiently high energy barrier spends most of its time in the closed or open conformation, with relatively few statistics collected in the transition state region. We describe a measurement scheme in which the system is driven progressively through the transition by an optical trap and an algorithm is used to extract the energy landscape of the transition from the fluctuations recorded during this ...
The conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the timescal...
AbstractBy exerting mechanical force, it is possible to unfold/refold RNA molecules one at a time. I...
Based on a confocal microscopy platform, we extended the FCS time window by three orders of magnitud...
AbstractPioneering studies have shown that the probability distribution of opening length for a DNA ...
Nucleic acid hairpins provide a powerful model system for probing the formation of secondary structu...
Structural self-assembly in biopolymers, such as proteins and nucleic acids, involves a diffusive se...
The sequence-dependent folding landscapes of nucleic acid hairpins reflect much of the complexity of...
The duration of structural transitions in biopolymers is only a fraction of the time spent searching...
Free-energy-landscape formalisms provide the fundamental conceptual framework for physical descripti...
Folding of proteins and nucleic acids involves diffusion over a multidimensional energy landscape. O...
ABSTRACT: Chemical reactions are typically described in terms of progress along a reaction coordinat...
Chemical reactions are typically described in terms of progress along a reaction coordinate. However...
AbstractWe investigate unfolding/folding force kinetics in DNA hairpins exhibiting two and three sta...
Single-molecule experiments provide new insights into biological processes hitherto not accessible b...
AbstractThe conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the ...
The conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the timescal...
AbstractBy exerting mechanical force, it is possible to unfold/refold RNA molecules one at a time. I...
Based on a confocal microscopy platform, we extended the FCS time window by three orders of magnitud...
AbstractPioneering studies have shown that the probability distribution of opening length for a DNA ...
Nucleic acid hairpins provide a powerful model system for probing the formation of secondary structu...
Structural self-assembly in biopolymers, such as proteins and nucleic acids, involves a diffusive se...
The sequence-dependent folding landscapes of nucleic acid hairpins reflect much of the complexity of...
The duration of structural transitions in biopolymers is only a fraction of the time spent searching...
Free-energy-landscape formalisms provide the fundamental conceptual framework for physical descripti...
Folding of proteins and nucleic acids involves diffusion over a multidimensional energy landscape. O...
ABSTRACT: Chemical reactions are typically described in terms of progress along a reaction coordinat...
Chemical reactions are typically described in terms of progress along a reaction coordinate. However...
AbstractWe investigate unfolding/folding force kinetics in DNA hairpins exhibiting two and three sta...
Single-molecule experiments provide new insights into biological processes hitherto not accessible b...
AbstractThe conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the ...
The conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the timescal...
AbstractBy exerting mechanical force, it is possible to unfold/refold RNA molecules one at a time. I...
Based on a confocal microscopy platform, we extended the FCS time window by three orders of magnitud...