Add to ORKGProtein folding involves physical timescales - microseconds to seconds - that are too long to be studied directly by straightforward molecular dynamics simulation, where the fundamental timestep is constrained to femtoseconds. Here we show how the long-time statistical dynamics of a simple solvated biomolecular system can be well described by a discrete-state Markov chain model constructed from trajectories that are an order of magnitude shorter than the longest relaxation times of the system. This suggests that such models, appropriately constructed from short molecular dynamics simulations, may have utility in the study of long-time conformational dynamics
The dynamics of peptides and proteins generated by classical molecular dynamics (MD) is described by...
In this thesis, the aim is to contribute to the development of long-time methods for molecular dynam...
Many interesting rare events in molecular systems, like ligand association, protein folding or confo...
Conformational changes of proteins are an*Author contributed equally with all other contributors. es...
A rigorous formalism for the extraction of state-to-state transition functions from a Boltzmann-weig...
The question of significant deviations of protein folding times simulated using molecular dynamics f...
The question of significant deviations of protein folding times simulated using molecular dynamics f...
Extended molecular dynamics simulations covering a total of 0.232 μs have been carried out on a simp...
Background: Many attempts have been made to resolve in time the folding of model proteins in compute...
CONSPECTUS: Protein function is inextricably linked to protein dynamics. As we move from a static st...
Extended molecular dynamics simulations covering a total of 0.232 μs have been carried out on a simp...
The dynamics of peptides and proteins generated by classical molecular dynamics (MD) is described by...
Protein folding has been a challenging puzzle for decades but it is still not fully understood. One ...
The dynamics of peptides and proteins generated by classical molecular dynamics (MD) is described by...
Background: Many attempts have been made to resolve in time the folding of model proteins in compute...
The dynamics of peptides and proteins generated by classical molecular dynamics (MD) is described by...
In this thesis, the aim is to contribute to the development of long-time methods for molecular dynam...
Many interesting rare events in molecular systems, like ligand association, protein folding or confo...
Conformational changes of proteins are an*Author contributed equally with all other contributors. es...
A rigorous formalism for the extraction of state-to-state transition functions from a Boltzmann-weig...
The question of significant deviations of protein folding times simulated using molecular dynamics f...
The question of significant deviations of protein folding times simulated using molecular dynamics f...
Extended molecular dynamics simulations covering a total of 0.232 μs have been carried out on a simp...
Background: Many attempts have been made to resolve in time the folding of model proteins in compute...
CONSPECTUS: Protein function is inextricably linked to protein dynamics. As we move from a static st...
Extended molecular dynamics simulations covering a total of 0.232 μs have been carried out on a simp...
The dynamics of peptides and proteins generated by classical molecular dynamics (MD) is described by...
Protein folding has been a challenging puzzle for decades but it is still not fully understood. One ...
The dynamics of peptides and proteins generated by classical molecular dynamics (MD) is described by...
Background: Many attempts have been made to resolve in time the folding of model proteins in compute...
The dynamics of peptides and proteins generated by classical molecular dynamics (MD) is described by...
In this thesis, the aim is to contribute to the development of long-time methods for molecular dynam...
Many interesting rare events in molecular systems, like ligand association, protein folding or confo...