Force probe methods are routinely used to study conformational transitions of biomolecules at single-molecule level. In contrast to simple kinetics, some proteins show complex response to mechanical perturbations that is manifested in terms of unusual force-dependent kinetics. Here, we study, via fully atomistic molecular dynamics simulations, constant force-induced unfolding of ubiquitin protein. Our simulations reveal a crossover at an intermediate force (about 400 pN) in the unfolding rate versus force curve. We find by calculation of multidimensional free-energy landscape (FEL) of the protein that the complex unfolding kinetics is intimately related to the force-dependent modifications in the FEL. Pearson correlation coefficient analysi...
International audienceSingle-molecule force spectroscopies are remarkable tools for studying protein...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
AbstractThe mechanical unfolding of proteins under a stretching force has an important role in livin...
Force probe methods are routinely used to study conformational transitions of biomolecules at single...
Force probe methods are routinely used to study conformational transitions of biomolecules at single...
We apply novel atomistic simulations based on potential energy surface exploration to investigate th...
Force spectroscopy techniques are often used to learn about the free energy landscape of single biom...
AbstractSingle-molecule force spectroscopy has opened up new approaches to the study of protein dyna...
AbstractMolecular dynamics simulations supplement single-molecule pulling experiments by providing t...
Mechanical unfolding of polyproteins by force spectroscopy provides valuable insight into their free...
AbstractSingle-molecule force spectroscopy is providing unique, and sometimes unexpected, insights i...
We apply novel atomistic simulations based on potential energy surface exploration to investigate th...
AbstractSingle-molecule force-clamp spectroscopy is a valuable tool to analyze unfolding kinetics of...
Single-molecule force spectroscopy is providing unique, and sometimes unexpected, insights into the ...
The folding and unfolding kinetics of single molecules, such as proteins or nucleic acids, can be ex...
International audienceSingle-molecule force spectroscopies are remarkable tools for studying protein...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
AbstractThe mechanical unfolding of proteins under a stretching force has an important role in livin...
Force probe methods are routinely used to study conformational transitions of biomolecules at single...
Force probe methods are routinely used to study conformational transitions of biomolecules at single...
We apply novel atomistic simulations based on potential energy surface exploration to investigate th...
Force spectroscopy techniques are often used to learn about the free energy landscape of single biom...
AbstractSingle-molecule force spectroscopy has opened up new approaches to the study of protein dyna...
AbstractMolecular dynamics simulations supplement single-molecule pulling experiments by providing t...
Mechanical unfolding of polyproteins by force spectroscopy provides valuable insight into their free...
AbstractSingle-molecule force spectroscopy is providing unique, and sometimes unexpected, insights i...
We apply novel atomistic simulations based on potential energy surface exploration to investigate th...
AbstractSingle-molecule force-clamp spectroscopy is a valuable tool to analyze unfolding kinetics of...
Single-molecule force spectroscopy is providing unique, and sometimes unexpected, insights into the ...
The folding and unfolding kinetics of single molecules, such as proteins or nucleic acids, can be ex...
International audienceSingle-molecule force spectroscopies are remarkable tools for studying protein...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
AbstractThe mechanical unfolding of proteins under a stretching force has an important role in livin...