AbstractRecent technical developments that allow precise force measurements on single molecules, together with numerical simulations of biomolecules under stress, offer new insight into how stress affects molecular interactions, and how large the force developed by a travelling enzyme such as RNA polymerase can be
During communication processes, such as the allosteric regulation of enzymatic activity or the openi...
<p>Nucleic acids are subjected to many different mechanical loadings inside. These loadings could ...
Many crucial biological processes are regulated by mechanical stimuli. Here, we report new findings ...
AbstractRecent technical developments that allow precise force measurements on single molecules, tog...
Force can drive conformational changes in proteins, as well as modulate their stability and the affi...
All living organisms utilize thousands of molecular building blocks to perform mechanical tasks. The...
Force can drive conformational changes in proteins, as well as modulate their stability and the affi...
International audienceThe mechanical properties of cells and of subcellular components are important...
Many processes in the body are effected and regulated by highly, specialized protein molecules: Thes...
Recent advances in single-molecule techniques allow the application of force to an individual biomol...
AbstractSteered molecular dynamics simulations are a tool to examine the energy landscape of protein...
Mechanical signals are central for the regulation of developmental, physiological, and pathological ...
One of the most successful applications of atomic force microscopy (AFM) in biology involves monitor...
Can molecular dynamics simulations predict the mechanical behavior of protein complexes? Can simulat...
AbstractProtein–ligand interactions are ubiquitous and play important roles in almost every biologic...
During communication processes, such as the allosteric regulation of enzymatic activity or the openi...
<p>Nucleic acids are subjected to many different mechanical loadings inside. These loadings could ...
Many crucial biological processes are regulated by mechanical stimuli. Here, we report new findings ...
AbstractRecent technical developments that allow precise force measurements on single molecules, tog...
Force can drive conformational changes in proteins, as well as modulate their stability and the affi...
All living organisms utilize thousands of molecular building blocks to perform mechanical tasks. The...
Force can drive conformational changes in proteins, as well as modulate their stability and the affi...
International audienceThe mechanical properties of cells and of subcellular components are important...
Many processes in the body are effected and regulated by highly, specialized protein molecules: Thes...
Recent advances in single-molecule techniques allow the application of force to an individual biomol...
AbstractSteered molecular dynamics simulations are a tool to examine the energy landscape of protein...
Mechanical signals are central for the regulation of developmental, physiological, and pathological ...
One of the most successful applications of atomic force microscopy (AFM) in biology involves monitor...
Can molecular dynamics simulations predict the mechanical behavior of protein complexes? Can simulat...
AbstractProtein–ligand interactions are ubiquitous and play important roles in almost every biologic...
During communication processes, such as the allosteric regulation of enzymatic activity or the openi...
<p>Nucleic acids are subjected to many different mechanical loadings inside. These loadings could ...
Many crucial biological processes are regulated by mechanical stimuli. Here, we report new findings ...
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