AbstractRecent experiments have demonstrated that proteins unfold when two atoms are mechanically pulled apart, and that this process is different to when heated or when a chemical denaturant is added to the solution. Experiments have also shown that the response of proteins to external forces is very diverse, some of them being “hard,” and others “soft.” Mechanical resistance originates from the presence of barriers on the energy landscape; together, experiment and simulation have demonstrated that unfolding occurs through alternative pathways when different pairs of atoms undergo mechanical extension. Here we use simulation to probe the mechanical resistance of six structurally diverse proteins when pulled in different directions. For thi...
Background Single molecule experimental techniques such as optical tweezers or atomic force microsc...
AbstractSingle-molecule pulling experiments on unstructured proteins linked to neurodegenerative dis...
AbstractMechanical responses of elastic proteins are crucial for their biological function and nanot...
ABSTRACT Recent experiments have demonstrated that proteins unfold when two atoms are mechanically p...
Recent experiments have demonstrated that proteins unfold when two atoms are mechanically pulled apa...
AbstractRecent experiments have demonstrated that proteins unfold when two atoms are mechanically pu...
Single-molecule experiments and their application to probe the mechanical resistance and related pro...
Proteins show diverse responses when placed under mechanical stress. The molecular origins of their ...
β-sheet proteins are generally more able to resist mechanical deformation than β-helical proteins. E...
AbstractWith recent advances in single-molecule manipulation techniques, it is now possible to measu...
ABSTRACT b-sheet proteins are generally more able to resist mechanical deformation than a-helical pr...
ABSTRACT With recent advances in single-molecule manipulation techniques, it is now possible to meas...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
textProtein mechanical responses play a critical role in a wide variety of biological phenomena, imp...
The study of mechanical unfolding, through the combined efforts of atomic force microscopy and simul...
Background Single molecule experimental techniques such as optical tweezers or atomic force microsc...
AbstractSingle-molecule pulling experiments on unstructured proteins linked to neurodegenerative dis...
AbstractMechanical responses of elastic proteins are crucial for their biological function and nanot...
ABSTRACT Recent experiments have demonstrated that proteins unfold when two atoms are mechanically p...
Recent experiments have demonstrated that proteins unfold when two atoms are mechanically pulled apa...
AbstractRecent experiments have demonstrated that proteins unfold when two atoms are mechanically pu...
Single-molecule experiments and their application to probe the mechanical resistance and related pro...
Proteins show diverse responses when placed under mechanical stress. The molecular origins of their ...
β-sheet proteins are generally more able to resist mechanical deformation than β-helical proteins. E...
AbstractWith recent advances in single-molecule manipulation techniques, it is now possible to measu...
ABSTRACT b-sheet proteins are generally more able to resist mechanical deformation than a-helical pr...
ABSTRACT With recent advances in single-molecule manipulation techniques, it is now possible to meas...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
textProtein mechanical responses play a critical role in a wide variety of biological phenomena, imp...
The study of mechanical unfolding, through the combined efforts of atomic force microscopy and simul...
Background Single molecule experimental techniques such as optical tweezers or atomic force microsc...
AbstractSingle-molecule pulling experiments on unstructured proteins linked to neurodegenerative dis...
AbstractMechanical responses of elastic proteins are crucial for their biological function and nanot...