AbstractSingle-molecule force-clamp spectroscopy is a valuable tool to analyze unfolding kinetics of proteins. Previous force-clamp spectroscopy experiments have demonstrated that the mechanical unfolding of ubiquitin deviates from the generally assumed Markovian behavior and involves the features of glassy dynamics. Here we use single molecule force-clamp spectroscopy to study the unfolding kinetics of a computationally designed fast-folding mutant of the small protein GB1, which shares a similar β-grasp fold as ubiquitin. By treating the mechanical unfolding of polyproteins as the superposition of multiple identical Poisson processes, we developed a simple stochastic analysis approach to analyze the dwell time distribution of individual u...
Single-molecule atomic force spectroscopy probes elastic properties of proteins such as titin and ub...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
Single-molecule force spectroscopy is providing unique, and sometimes unexpected, insights into the ...
AbstractSingle-molecule force-clamp spectroscopy is a valuable tool to analyze unfolding kinetics of...
ABSTRACT Using the recently developed single molecule force-clamp technique we quantitatively measur...
AbstractSingle-protein force experiments have relied on a molecular fingerprint based on tethering m...
AbstractUsing the recently developed single molecule force-clamp technique we quantitatively measure...
AbstractForce-clamp spectroscopy reveals the unfolding and disulfide bond rupture times of single pr...
AbstractSingle-molecule force spectroscopy is providing unique, and sometimes unexpected, insights i...
The work presented in this dissertation focuses on the kinetics of biomolecular reactions under mech...
The folding and unfolding kinetics of single molecules, such as proteins or nucleic acids, can be ex...
AbstractStatistical analyses of forced unfolding data for protein tandems, i.e., unfolding forces (f...
AbstractWe present, to our knowledge, a new theory that takes internal dynamics of proteins into acc...
ABSTRACT Statistical analyses of forced unfolding data for protein tandems, i.e., unfolding forces (...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
Single-molecule atomic force spectroscopy probes elastic properties of proteins such as titin and ub...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
Single-molecule force spectroscopy is providing unique, and sometimes unexpected, insights into the ...
AbstractSingle-molecule force-clamp spectroscopy is a valuable tool to analyze unfolding kinetics of...
ABSTRACT Using the recently developed single molecule force-clamp technique we quantitatively measur...
AbstractSingle-protein force experiments have relied on a molecular fingerprint based on tethering m...
AbstractUsing the recently developed single molecule force-clamp technique we quantitatively measure...
AbstractForce-clamp spectroscopy reveals the unfolding and disulfide bond rupture times of single pr...
AbstractSingle-molecule force spectroscopy is providing unique, and sometimes unexpected, insights i...
The work presented in this dissertation focuses on the kinetics of biomolecular reactions under mech...
The folding and unfolding kinetics of single molecules, such as proteins or nucleic acids, can be ex...
AbstractStatistical analyses of forced unfolding data for protein tandems, i.e., unfolding forces (f...
AbstractWe present, to our knowledge, a new theory that takes internal dynamics of proteins into acc...
ABSTRACT Statistical analyses of forced unfolding data for protein tandems, i.e., unfolding forces (...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
Single-molecule atomic force spectroscopy probes elastic properties of proteins such as titin and ub...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
Single-molecule force spectroscopy is providing unique, and sometimes unexpected, insights into the ...