AbstractStatistical analyses of forced unfolding data for protein tandems, i.e., unfolding forces (force-ramp) and unfolding times (force-clamp), used in single-molecule dynamic force spectroscopy rely on the assumption that the unfolding transitions of individual protein domains are independent (uncorrelated) and characterized, respectively, by identically distributed unfolding forces and unfolding times. In our previous work, we showed that in the experimentally accessible piconewton force range, this assumption, which holds at a lower constant force, may break at an elevated force level, i.e., the unfolding transitions may become correlated when force is increased. In this work, we develop much needed statistical tests for assessing the ...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
AbstractSingle-protein force experiments have relied on a molecular fingerprint based on tethering m...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
ABSTRACT Statistical analyses of forced unfolding data for protein tandems, i.e., unfolding forces (...
AbstractStatistical analyses of forced unfolding data for protein tandems, i.e., unfolding forces (f...
ABSTRACT Most of the mechanically active proteins are organized into tandems of identical repeats, (...
AbstractMost of the mechanically active proteins are organized into tandems of identical repeats, (D...
AbstractDynamic force spectroscopy has become indispensable for the exploration of the mechanical pr...
ABSTRACT Using the recently developed single molecule force-clamp technique we quantitatively measur...
The unfolding of a protein by the application of an external force pulling two atoms of the protein ...
AbstractSingle-molecule force-clamp spectroscopy is a valuable tool to analyze unfolding kinetics of...
AbstractForce-clamp spectroscopy reveals the unfolding and disulfide bond rupture times of single pr...
AbstractUsing the recently developed single molecule force-clamp technique we quantitatively measure...
Single molecule 'force spectroscopy' techniques (e.g., atomic force microscopy) that measure the for...
AbstractSingle-molecule force spectroscopy is providing unique, and sometimes unexpected, insights i...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
AbstractSingle-protein force experiments have relied on a molecular fingerprint based on tethering m...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
ABSTRACT Statistical analyses of forced unfolding data for protein tandems, i.e., unfolding forces (...
AbstractStatistical analyses of forced unfolding data for protein tandems, i.e., unfolding forces (f...
ABSTRACT Most of the mechanically active proteins are organized into tandems of identical repeats, (...
AbstractMost of the mechanically active proteins are organized into tandems of identical repeats, (D...
AbstractDynamic force spectroscopy has become indispensable for the exploration of the mechanical pr...
ABSTRACT Using the recently developed single molecule force-clamp technique we quantitatively measur...
The unfolding of a protein by the application of an external force pulling two atoms of the protein ...
AbstractSingle-molecule force-clamp spectroscopy is a valuable tool to analyze unfolding kinetics of...
AbstractForce-clamp spectroscopy reveals the unfolding and disulfide bond rupture times of single pr...
AbstractUsing the recently developed single molecule force-clamp technique we quantitatively measure...
Single molecule 'force spectroscopy' techniques (e.g., atomic force microscopy) that measure the for...
AbstractSingle-molecule force spectroscopy is providing unique, and sometimes unexpected, insights i...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
AbstractSingle-protein force experiments have relied on a molecular fingerprint based on tethering m...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...