In a typical single-molecule force spectroscopy experiment, the ends of the molecule of interest are connected by long polymer linkers to a pair of mesoscopic beads trapped in the focus of two laser beams. At constant force load, the total extension, i.e., the end-to-end distance of the molecule plus linkers, is measured as a function of time. In the simplest systems, the measured extension fluctuates about two values characteristic of folded and unfolded states, with occasional transitions between them. We have recently shown that molecular (un)folding rates can be recovered from such trajectories, with a small linker correction, as long as the characteristic time of the bead fluctuations is shorter than the residence time in the unfolded ...
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...
Presented on October 6, 2010 from 4-5 pm in room G011 of the Molecular Science and Engineering Build...
In typical force spectroscopy experiments, a small biomolecule is attached to a soft polymer linker ...
In single-molecule force spectroscopy experiments, a biomolecule is attached to a force probe via po...
Single-molecule experiments with optical tweezers have become an important tool to study the prop-er...
AbstractThe conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the ...
Folding may be described conceptually in terms of trajectories over a landscape of free energies cor...
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...
AbstractMechanical forces play a key role in crucial cellular processes involving force-bearing biom...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
AbstractWe present, to our knowledge, a new theory that takes internal dynamics of proteins into acc...
Single-molecule force spectroscopy has opened a new field of research in molecular biophysics and bi...
Single-molecule force spectroscopy has opened a new field of research in molecular biophysics and bi...
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...
Presented on October 6, 2010 from 4-5 pm in room G011 of the Molecular Science and Engineering Build...
In typical force spectroscopy experiments, a small biomolecule is attached to a soft polymer linker ...
In single-molecule force spectroscopy experiments, a biomolecule is attached to a force probe via po...
Single-molecule experiments with optical tweezers have become an important tool to study the prop-er...
AbstractThe conformational diffusion coefficient for intrachain motions in biopolymers, D, sets the ...
Folding may be described conceptually in terms of trajectories over a landscape of free energies cor...
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...
AbstractMechanical forces play a key role in crucial cellular processes involving force-bearing biom...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
AbstractWe present, to our knowledge, a new theory that takes internal dynamics of proteins into acc...
Single-molecule force spectroscopy has opened a new field of research in molecular biophysics and bi...
Single-molecule force spectroscopy has opened a new field of research in molecular biophysics and bi...
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...
Presented on October 6, 2010 from 4-5 pm in room G011 of the Molecular Science and Engineering Build...