In single-molecule force spectroscopy, individual molecules and complexes are often stretched by pulling devices via intervening molecular handles. Accurate interpretation of measurements from such experiments in terms of the underlying energy landscape, defined by activation barriers and intrinsic rates of transition, relies on our understanding, and proper theoretical treatment, of the effects of the pulling device and handle. Here, we present a framework based on Kramers ’ theory that elucidates the dependence of measured rupture forces and rates on the pulling device stiffness and attributes of the handle, contour length and persistence length. We also introduce a simple analytic model that improves prediction of activation barriers and...
AbstractMechanical forces exerted by laser tweezers or atomic force microscopes can be used to drive...
The loading rate depends on the dynamics of force applied to the bond. Often the loading rate is con...
We use molecular dynamics to determine the force needed to rupture a chain molecule being stretched ...
In typical force spectroscopy experiments, a small biomolecule is attached to a soft polymer linker ...
Presented on October 6, 2010 from 4-5 pm in room G011 of the Molecular Science and Engineering Build...
Evstigneev M, Reimann P. Force dependence of energy barriers in atomic friction and single-molecule ...
AbstractUsing Langevin modeling, we investigate the role of the experimental setup on the unbinding ...
Dynamic force spectroscopy probes the kinetic and thermodynamic properties of single molecules and m...
The atomic force microscope (AFM) is able to manipulate biomolecules and their complexes with exquis...
Getfert S, Reimann P. Optimal evaluation of single-molecule force spectroscopy experiments. PHYSICAL...
The atomic force microscope (AFM) is able to manipulate biomolecules and their complexes with exquis...
In single-molecule force spectroscopy experiments, a biomolecule is attached to a force probe via po...
AbstractWe show that the standard theoretical framework in single-molecule force spectroscopy has to...
We show that the standard theoretical framework in single-molecule force spectroscopy has to be exte...
AbstractForce spectroscopy measurements of the rupture of the molecular bond between biotin and stre...
AbstractMechanical forces exerted by laser tweezers or atomic force microscopes can be used to drive...
The loading rate depends on the dynamics of force applied to the bond. Often the loading rate is con...
We use molecular dynamics to determine the force needed to rupture a chain molecule being stretched ...
In typical force spectroscopy experiments, a small biomolecule is attached to a soft polymer linker ...
Presented on October 6, 2010 from 4-5 pm in room G011 of the Molecular Science and Engineering Build...
Evstigneev M, Reimann P. Force dependence of energy barriers in atomic friction and single-molecule ...
AbstractUsing Langevin modeling, we investigate the role of the experimental setup on the unbinding ...
Dynamic force spectroscopy probes the kinetic and thermodynamic properties of single molecules and m...
The atomic force microscope (AFM) is able to manipulate biomolecules and their complexes with exquis...
Getfert S, Reimann P. Optimal evaluation of single-molecule force spectroscopy experiments. PHYSICAL...
The atomic force microscope (AFM) is able to manipulate biomolecules and their complexes with exquis...
In single-molecule force spectroscopy experiments, a biomolecule is attached to a force probe via po...
AbstractWe show that the standard theoretical framework in single-molecule force spectroscopy has to...
We show that the standard theoretical framework in single-molecule force spectroscopy has to be exte...
AbstractForce spectroscopy measurements of the rupture of the molecular bond between biotin and stre...
AbstractMechanical forces exerted by laser tweezers or atomic force microscopes can be used to drive...
The loading rate depends on the dynamics of force applied to the bond. Often the loading rate is con...
We use molecular dynamics to determine the force needed to rupture a chain molecule being stretched ...