We employ a mesoscopic model for studying aggregation processes of proteinlike hydrophobic-polar heteropolymers. By means of multicanonical Monte Carlo computer simulations, we find strong indications that peptide aggregation is a phase separation process, in which the microcanonical entropy exhibits a convex intruder due to non-negligible surface effects of the small systems. We analyze thermodynamic properties of the conformational transitions accompanying the aggregation process from the multicanonical, canonical, and microcanonical perspective. It turns out that the microcanonical description is particularly advantageous as it allows for unraveling details of the phase-separation transition in the thermodynamic region, where the tempera...
AbstractUniversal features of the peptide aggregation process suggest a common mechanism, with a fir...
We discuss the hierarchy of subphase transitions in first-order-like nucleation processes for an exe...
AbstractApplying parallel multicanonical simulations, we study the aggregation transition of finite ...
By means of multicanonical computer simulations, we investigate thermodynamic properties of the aggr...
By means of multicanonical computer simulations, we investigate thermodynamic properties of the aggr...
AbstractBy means of extensive replica-exchange Monte Carlo simulations of a generic coarse-grained m...
We study the thermodynamic and kinetic consequences of the competition between single-protein foldin...
AbstractThe early stages of peptide aggregation are currently not accessible by experimental techniq...
Thermodynamics and kinetics of the peptide was analyzed using a combination of generalized-ensemble ...
AbstractWe discuss general thermodynamic properties of molecular structure formation processes like ...
In this study, we address the questions of how important is the kinetics in protein aggregation, and...
Liquid–liquid phase separation of proteins preferentially involves intrinsically disordered proteins...
In detailed microcanonical analyses of densities of states obtained by extensive multicanonical Mont...
The early stages of peptide aggregation are currently not accessible by experimental techniques at ...
A quantitative understanding of the complex relationship between microscopic structure and the therm...
AbstractUniversal features of the peptide aggregation process suggest a common mechanism, with a fir...
We discuss the hierarchy of subphase transitions in first-order-like nucleation processes for an exe...
AbstractApplying parallel multicanonical simulations, we study the aggregation transition of finite ...
By means of multicanonical computer simulations, we investigate thermodynamic properties of the aggr...
By means of multicanonical computer simulations, we investigate thermodynamic properties of the aggr...
AbstractBy means of extensive replica-exchange Monte Carlo simulations of a generic coarse-grained m...
We study the thermodynamic and kinetic consequences of the competition between single-protein foldin...
AbstractThe early stages of peptide aggregation are currently not accessible by experimental techniq...
Thermodynamics and kinetics of the peptide was analyzed using a combination of generalized-ensemble ...
AbstractWe discuss general thermodynamic properties of molecular structure formation processes like ...
In this study, we address the questions of how important is the kinetics in protein aggregation, and...
Liquid–liquid phase separation of proteins preferentially involves intrinsically disordered proteins...
In detailed microcanonical analyses of densities of states obtained by extensive multicanonical Mont...
The early stages of peptide aggregation are currently not accessible by experimental techniques at ...
A quantitative understanding of the complex relationship between microscopic structure and the therm...
AbstractUniversal features of the peptide aggregation process suggest a common mechanism, with a fir...
We discuss the hierarchy of subphase transitions in first-order-like nucleation processes for an exe...
AbstractApplying parallel multicanonical simulations, we study the aggregation transition of finite ...