An outstanding challenge in the field of molecular biology has been to understand the process by which proteins fold into their characteristic three-dimensional structures. Here, we report the results of atomic-level molecular dynamics simulations, over periods ranging between 100 ms and 1 ms, that reveal a set of common principles underlying the folding of 12 structurally diverse proteins. In simulations conducted with a single physics-based energy function, the proteins, representing all three major structural classes, spontaneously and repeatedly fold to their experimentally determined native structures. Early in the folding process, the protein backbone adopts a nativelike topology while certain secondary structure elements and a small ...
For many decades, protein folding experimentalists have worked with no information about the timesca...
The investigation of protein folding and its ramifications in biological contexts is at the heart of...
The millisecond time scale needed for molecular dynamics simulations to approach the quantitative st...
Although protein folding has been studied for decades many open issues still resist, and we yet lack...
Abstractβαβ structural motifs are commonly used building blocks in protein structures containing par...
Proteins do not fold by randomly searching a large number of nearly degenerate configurations; inst...
The investigation of protein folding and its ramifications in biological contexts is at the heart o...
Protein folding, the process through which proteins gain their functional structure, can be approach...
All currently known structures of proteins together define ‘protein fold space’. To increase the gen...
Recent progress in understanding the principals of protein folding by a study of a simple lattice mo...
Taking protein G with 56 residues for a case study, we investigate the mechanism of protein folding....
The existing experimental data on protein folding is briefly reviewed. It is argued that the optima...
Interest in computational problems in Biology has intensified over the last few years, partly due to...
How fast can a protein possibly fold? This question has stimulated experimentalists to seek fast fol...
Proteins are complex physical systems of great biological and pharmaceutical interest. Computer sim...
For many decades, protein folding experimentalists have worked with no information about the timesca...
The investigation of protein folding and its ramifications in biological contexts is at the heart of...
The millisecond time scale needed for molecular dynamics simulations to approach the quantitative st...
Although protein folding has been studied for decades many open issues still resist, and we yet lack...
Abstractβαβ structural motifs are commonly used building blocks in protein structures containing par...
Proteins do not fold by randomly searching a large number of nearly degenerate configurations; inst...
The investigation of protein folding and its ramifications in biological contexts is at the heart o...
Protein folding, the process through which proteins gain their functional structure, can be approach...
All currently known structures of proteins together define ‘protein fold space’. To increase the gen...
Recent progress in understanding the principals of protein folding by a study of a simple lattice mo...
Taking protein G with 56 residues for a case study, we investigate the mechanism of protein folding....
The existing experimental data on protein folding is briefly reviewed. It is argued that the optima...
Interest in computational problems in Biology has intensified over the last few years, partly due to...
How fast can a protein possibly fold? This question has stimulated experimentalists to seek fast fol...
Proteins are complex physical systems of great biological and pharmaceutical interest. Computer sim...
For many decades, protein folding experimentalists have worked with no information about the timesca...
The investigation of protein folding and its ramifications in biological contexts is at the heart of...
The millisecond time scale needed for molecular dynamics simulations to approach the quantitative st...