Probing reaction mechanisms of supramolecular processes in soft and biological matter, such as protein aggregation, is inherently challenging. This is because these processes involve multiple molecular mechanisms that are associated with the rearrangement of large numbers of weak bonds, resulting in complex free energy landscapes with many kinetic barriers. Reaction rate measurements at different temperatures can offer unprecedented insights into the underlying molecular mechanisms. However, to be able to interpret such measurements, a key challenge is to establish which properties of the complex free energy landscapes are probed by the reaction rate. Here, we present a reaction rate theory for supramolecular kinetics based on Kramers theor...
AbstractThe potential energy profile for many complex reactions of proteins, such as folding or allo...
We study the folding kinetics of a three-helix bundle protein using a coarse polymer model. The fold...
AbstractUsing distributed molecular dynamics simulations we located four distinct folding transition...
<p>Probing reaction mechanisms of supramolecular processes in soft and biological matter, such as pr...
The rate coefficient k(T) of a barrier-limited, two-state reaction proceeding through multiple pathw...
Biological systems are characterized by compartmentalization from the subcellular to the tissue leve...
BackgroundRecent data have suggested two principles that are central to the work we describe here. F...
The formation of amyloid fibrils from soluble peptide is a hallmark of many neurodegenerative diseas...
We propose an approach to integrate the theory, simulations, and experiments in protein-folding kine...
Understanding the mechanism of action of compounds capable of inhibiting amyloid-fibril formation is...
[[abstract]]Thermodynamic and kinetic properties of proteins affect their folding and aggregation pr...
It is increasingly recognized that molecular chaperones play a key role in modulating the formation ...
For most multidomain proteins the thermal unfolding transi-tions are accompanied by an irreversible ...
AbstractThe effect of macromolecular crowding on the rates of association reactions are investigated...
AbstractGiven the importance of protein aggregation in amyloid diseases and in the manufacture of pr...
AbstractThe potential energy profile for many complex reactions of proteins, such as folding or allo...
We study the folding kinetics of a three-helix bundle protein using a coarse polymer model. The fold...
AbstractUsing distributed molecular dynamics simulations we located four distinct folding transition...
<p>Probing reaction mechanisms of supramolecular processes in soft and biological matter, such as pr...
The rate coefficient k(T) of a barrier-limited, two-state reaction proceeding through multiple pathw...
Biological systems are characterized by compartmentalization from the subcellular to the tissue leve...
BackgroundRecent data have suggested two principles that are central to the work we describe here. F...
The formation of amyloid fibrils from soluble peptide is a hallmark of many neurodegenerative diseas...
We propose an approach to integrate the theory, simulations, and experiments in protein-folding kine...
Understanding the mechanism of action of compounds capable of inhibiting amyloid-fibril formation is...
[[abstract]]Thermodynamic and kinetic properties of proteins affect their folding and aggregation pr...
It is increasingly recognized that molecular chaperones play a key role in modulating the formation ...
For most multidomain proteins the thermal unfolding transi-tions are accompanied by an irreversible ...
AbstractThe effect of macromolecular crowding on the rates of association reactions are investigated...
AbstractGiven the importance of protein aggregation in amyloid diseases and in the manufacture of pr...
AbstractThe potential energy profile for many complex reactions of proteins, such as folding or allo...
We study the folding kinetics of a three-helix bundle protein using a coarse polymer model. The fold...
AbstractUsing distributed molecular dynamics simulations we located four distinct folding transition...