Energy landscape theory suggests that native interactions are a major determinant of the folding mechanism of a protein. Thus, structure-based (Go̅) models have, aided by coarse-graining techniques, shown great success in capturing the mechanisms of protein folding and conformational changes. In certain cases, however, non-native interactions and atomic details are also essential to describe the protein dynamics, prompting the development of a variety of structure-based models that include non-native interactions, and differentiate between different types of attractive potentials. Here, we describe an all-protein-atom hybrid model, termed ProfasiGo, that integrates an implicit solvent all-atom physics-based model (called Profasi) and a stru...
SummaryNatural proteins fold to a unique, thermodynamically dominant state. Modeling of the folding ...
AbstractDo Gō-type model potentials provide a valid approach for studying protein folding? They have...
The ability of proteins to fold into well-defined structures forms the basis of a wide variety of bi...
AbstractAn implicit water all-atom model is used to study folding, aggregation and mechanical unfold...
Protein dynamics takes place on a rugged funnel-like energy landscape that is biased towards the nat...
SummaryDiscrete molecular dynamics (DMD) is a rapid sampling method used in protein folding and aggr...
The investigation of protein folding and its ramifications in biological contexts is at the heart o...
The investigation of protein folding and its ramifications in biological contexts is at the heart of...
Computer simulation provides an increasingly realistic picture of large-scale conformational change ...
The millisecond time scale needed for molecular dynamics simulations to approach the quantitative st...
Discrete molecular dynamics (DMD) is a rapid sampling method used in protein folding and aggregation...
Sequence-based models for protein folding are developed and tested on peptides with both alpha- and ...
A high resolution reduced model of proteins is used in Monte Carlo dynamics studies of the folding m...
We describe a combination of all-atom simulations with CABS, a well-established coarse-grained prote...
To understand how a protein folds is a problem which has important biological implications. In this ...
SummaryNatural proteins fold to a unique, thermodynamically dominant state. Modeling of the folding ...
AbstractDo Gō-type model potentials provide a valid approach for studying protein folding? They have...
The ability of proteins to fold into well-defined structures forms the basis of a wide variety of bi...
AbstractAn implicit water all-atom model is used to study folding, aggregation and mechanical unfold...
Protein dynamics takes place on a rugged funnel-like energy landscape that is biased towards the nat...
SummaryDiscrete molecular dynamics (DMD) is a rapid sampling method used in protein folding and aggr...
The investigation of protein folding and its ramifications in biological contexts is at the heart o...
The investigation of protein folding and its ramifications in biological contexts is at the heart of...
Computer simulation provides an increasingly realistic picture of large-scale conformational change ...
The millisecond time scale needed for molecular dynamics simulations to approach the quantitative st...
Discrete molecular dynamics (DMD) is a rapid sampling method used in protein folding and aggregation...
Sequence-based models for protein folding are developed and tested on peptides with both alpha- and ...
A high resolution reduced model of proteins is used in Monte Carlo dynamics studies of the folding m...
We describe a combination of all-atom simulations with CABS, a well-established coarse-grained prote...
To understand how a protein folds is a problem which has important biological implications. In this ...
SummaryNatural proteins fold to a unique, thermodynamically dominant state. Modeling of the folding ...
AbstractDo Gō-type model potentials provide a valid approach for studying protein folding? They have...
The ability of proteins to fold into well-defined structures forms the basis of a wide variety of bi...