AbstractThe conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the timescale for structural dynamics. Recently, force spectroscopy has been applied to determine D both for unfolded proteins and for the folding transitions in proteins and nucleic acids. However, interpretation of the results remains unsettled. We investigated how instrumental effects arising from the force probes used in the measurement can affect the value of D recovered via force spectroscopy. We compared estimates of D for the folding of DNA hairpins found from measurements of rates and energy landscapes made using optical tweezers with estimates obtained from the same single-molecule trajectories via the transition path time. The apparent...
Traditionally, protein-protein adhesion interactions have been studied in reversible equilibrium con...
This thesis contains several contributions to the theoretical description and interpretation of biop...
AbstractSingle-protein force experiments have relied on a molecular fingerprint based on tethering m...
The conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the timescal...
Folding of proteins and nucleic acids involves a diffusive search over a multidimensional conformati...
Folding of proteins and nucleic acids involves diffusion over a multidimensional energy landscape. O...
Single-molecule force spectroscopy methods can be used to generate folding trajectories of biopolyme...
In single-molecule force spectroscopy experiments, a biomolecule is attached to a force probe via po...
In typical force spectroscopy experiments, a small biomolecule is attached to a soft polymer linker ...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
We stretched a DNA molecule using atomic force microscope and quantified the mechanical properties a...
Advances in single-molecule manipulation techniques have recently enabled researchers to study a gro...
AbstractWe present, to our knowledge, a new theory that takes internal dynamics of proteins into acc...
Single-molecule force spectroscopy is a powerful tool for studying protein folding. Over the last de...
Single-molecule atomic force spectroscopy probes elastic properties of proteins such as titin and ub...
Traditionally, protein-protein adhesion interactions have been studied in reversible equilibrium con...
This thesis contains several contributions to the theoretical description and interpretation of biop...
AbstractSingle-protein force experiments have relied on a molecular fingerprint based on tethering m...
The conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the timescal...
Folding of proteins and nucleic acids involves a diffusive search over a multidimensional conformati...
Folding of proteins and nucleic acids involves diffusion over a multidimensional energy landscape. O...
Single-molecule force spectroscopy methods can be used to generate folding trajectories of biopolyme...
In single-molecule force spectroscopy experiments, a biomolecule is attached to a force probe via po...
In typical force spectroscopy experiments, a small biomolecule is attached to a soft polymer linker ...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
We stretched a DNA molecule using atomic force microscope and quantified the mechanical properties a...
Advances in single-molecule manipulation techniques have recently enabled researchers to study a gro...
AbstractWe present, to our knowledge, a new theory that takes internal dynamics of proteins into acc...
Single-molecule force spectroscopy is a powerful tool for studying protein folding. Over the last de...
Single-molecule atomic force spectroscopy probes elastic properties of proteins such as titin and ub...
Traditionally, protein-protein adhesion interactions have been studied in reversible equilibrium con...
This thesis contains several contributions to the theoretical description and interpretation of biop...
AbstractSingle-protein force experiments have relied on a molecular fingerprint based on tethering m...