AbstractSingle-molecule mechanical unfolding experiments have the potential to provide insights into the details of protein folding pathways. To investigate the relationship between force–extension unfolding curves and microscopic events, we performed molecular dynamics simulations of the mechanical unfolding of the C-terminal hairpin of protein G. We have studied the dependence of the unfolding pathway on pulling speed, cantilever stiffness, and attachment points. Under conditions that generate low forces, the unfolding trajectory mimics the untethered, thermally accessible pathway previously proposed based on high-temperature studies. In this stepwise pathway, complete breakdown of backbone hydrogen bonds precedes dissociation of the hydr...
AbstractWe have compared force-induced unfolding with traditional unfolding methods using apomyoglob...
Proteins show diverse responses when placed under mechanical stress. The molecular origins of their ...
ABSTRACT The determination of the folding mechanisms of proteins is critical to understand the topol...
ABSTRACT Single-molecule mechanical unfolding experiments have the potential to provide insights int...
AbstractSingle-molecule mechanical unfolding experiments have the potential to provide insights into...
We have studied the folding mechanism of β-hairpins from proteins of 1GB1, 3AIT and 1A2P by unfoldin...
AbstractWe have studied the mechanism of formation of a 16-residue β-hairpin from the protein GB1 us...
The folding and unfolding kinetics of single molecules, such as proteins or nucleic acids, can be ex...
AbstractMolecular dynamics simulations supplement single-molecule pulling experiments by providing t...
All-atom explicit-solvent molecular dynamics simulations are used to pull with extremely large const...
We have employed a Hamiltonian model based on a self-consistent Gaussian appoximation to examine the...
Single-molecule experiments and their application to probe the mechanical resistance and related pro...
Steered molecular dynamics simulations are performed to explore the unfolding and refolding processe...
AbstractSingle-molecule force-clamp spectroscopy is a valuable tool to analyze unfolding kinetics of...
The structure and trajectories of the 41-56 β-hairpins from the protein G (PDB ID: 1GB1) has been st...
AbstractWe have compared force-induced unfolding with traditional unfolding methods using apomyoglob...
Proteins show diverse responses when placed under mechanical stress. The molecular origins of their ...
ABSTRACT The determination of the folding mechanisms of proteins is critical to understand the topol...
ABSTRACT Single-molecule mechanical unfolding experiments have the potential to provide insights int...
AbstractSingle-molecule mechanical unfolding experiments have the potential to provide insights into...
We have studied the folding mechanism of β-hairpins from proteins of 1GB1, 3AIT and 1A2P by unfoldin...
AbstractWe have studied the mechanism of formation of a 16-residue β-hairpin from the protein GB1 us...
The folding and unfolding kinetics of single molecules, such as proteins or nucleic acids, can be ex...
AbstractMolecular dynamics simulations supplement single-molecule pulling experiments by providing t...
All-atom explicit-solvent molecular dynamics simulations are used to pull with extremely large const...
We have employed a Hamiltonian model based on a self-consistent Gaussian appoximation to examine the...
Single-molecule experiments and their application to probe the mechanical resistance and related pro...
Steered molecular dynamics simulations are performed to explore the unfolding and refolding processe...
AbstractSingle-molecule force-clamp spectroscopy is a valuable tool to analyze unfolding kinetics of...
The structure and trajectories of the 41-56 β-hairpins from the protein G (PDB ID: 1GB1) has been st...
AbstractWe have compared force-induced unfolding with traditional unfolding methods using apomyoglob...
Proteins show diverse responses when placed under mechanical stress. The molecular origins of their ...
ABSTRACT The determination of the folding mechanisms of proteins is critical to understand the topol...