Herein, we present a novel Hamiltonian replica exchange protocol for classical molecular dynamics simulations of protein folding/unfolding. The scheme starts from the analysis of the energy-networks responsible for the stabilization of the folded conformation, by means of the energy-decomposition approach. In this framework, the compact energetic map of the native state is generated by a preliminary short molecular dynamics (MD) simulation of the protein in explicit solvent. This map is simplified by means of an eigenvalue decomposition. The highest components of the eigenvector associated with the lowest eigenvalue indicate which sites, named “hot spots”, are likely to be responsible for the stability and correct folding of the protein. In...
Proteins in solution fold in time scales ranging from microseconds to seconds. A computational appro...
We describe a combination of all-atom simulations with CABS, a well-established coarse-grained prote...
We compare the efficiency of multicanonical and replica exchange molecular dynamics for the sampling...
Herein, we present a novel Hamiltonian replica exchange protocol for classical molecular dynamics si...
Herein, we present a novel Hamiltonian replica exchange protocol for classical molecular dynamics s...
Limited searching in the conformational space is one of the major obstacles for investigating protei...
The efficiency of using a variant of Hamiltonian replica-exchange molecular dynamics (Chaperone H-re...
The efficiency of using a variant of Hamiltonian replica-exchange molecular dynamics (Chaperone H-re...
SummaryDiscrete molecular dynamics (DMD) is a rapid sampling method used in protein folding and aggr...
The folding of large proteins can be examined in part through the simulation of smaller proteins or ...
The folding of large proteins can be examined in part through the simulation of smaller proteins or ...
Hydrogen bonds play an important role in stabilizing (meta-)stable states in protein folding. Hence,...
Ab initio protein folding via physical-based all-atom simulation is still quite challenging. Using a...
Ab initio protein folding via physical-based all-atom simulation is still quite challenging. Using a...
AbstractSimulating protein folding thermodynamics starting purely from a protein sequence is a grand...
Proteins in solution fold in time scales ranging from microseconds to seconds. A computational appro...
We describe a combination of all-atom simulations with CABS, a well-established coarse-grained prote...
We compare the efficiency of multicanonical and replica exchange molecular dynamics for the sampling...
Herein, we present a novel Hamiltonian replica exchange protocol for classical molecular dynamics si...
Herein, we present a novel Hamiltonian replica exchange protocol for classical molecular dynamics s...
Limited searching in the conformational space is one of the major obstacles for investigating protei...
The efficiency of using a variant of Hamiltonian replica-exchange molecular dynamics (Chaperone H-re...
The efficiency of using a variant of Hamiltonian replica-exchange molecular dynamics (Chaperone H-re...
SummaryDiscrete molecular dynamics (DMD) is a rapid sampling method used in protein folding and aggr...
The folding of large proteins can be examined in part through the simulation of smaller proteins or ...
The folding of large proteins can be examined in part through the simulation of smaller proteins or ...
Hydrogen bonds play an important role in stabilizing (meta-)stable states in protein folding. Hence,...
Ab initio protein folding via physical-based all-atom simulation is still quite challenging. Using a...
Ab initio protein folding via physical-based all-atom simulation is still quite challenging. Using a...
AbstractSimulating protein folding thermodynamics starting purely from a protein sequence is a grand...
Proteins in solution fold in time scales ranging from microseconds to seconds. A computational appro...
We describe a combination of all-atom simulations with CABS, a well-established coarse-grained prote...
We compare the efficiency of multicanonical and replica exchange molecular dynamics for the sampling...