Protein rigidity and flexibility can be analyzed accurately and efficiently using the program FIRST. Previous studies using FIRST were designed to analyze the rigidity and flexibility of proteins using a single static (snapshot) structure. It is however well known that proteins can undergo spontaneous sub-molecular unfolding and refolding, or conformational dynamics, even under conditions that strongly favour a well-defined native structure. These (local) unfolding events result in a large number of conformers that differ from each other very slightly. In this context, proteins are better represented as a thermodynamic ensemble of ‘native-like ’ structures, and not just as a single static low-energy structure. Working with this notion, we i...
SummaryDiscrete molecular dynamics (DMD) is a rapid sampling method used in protein folding and aggr...
We demonstrate measurement of non-equilibrium backbone amide hydrogen-deuterium exchange rates (HDX)...
The mechanical heterogeneity of biomolecular structures is intimately linked to their diverse biolog...
Through their motion, proteins perform essential functions in the living cell. Although we cannot ob...
Proteins are dynamic molecules involved in virtually every chemical process in our bodies. Understan...
Background: Protein rigidity analysis is an efficient computational method for extracting flexibilit...
The dynamic nature of proteins is often an underappreciated aspect of biology necessary for understa...
Biological functions of proteins are facilitated by their three dimensional structures and their abi...
International audienceProtein structures are highly dynamic macromolecules. This dynamics is often a...
Through their motion, proteins perform essential functions in the living cell. Although we cannot ob...
Taking protein G with 56 residues for a case study, we investigate the mechanism of protein folding....
A new approach is presented for determining the rigid regions in proteins and the flexible joints be...
Growing databases of protein sequences in the post-genomic era call for computational methods to ext...
ABSTRACT Describing and understanding the biological function of a protein requires a detailed struc...
Monitoring hydrogen-deuterium exchange of proteins can yield a wealth of information about not only ...
SummaryDiscrete molecular dynamics (DMD) is a rapid sampling method used in protein folding and aggr...
We demonstrate measurement of non-equilibrium backbone amide hydrogen-deuterium exchange rates (HDX)...
The mechanical heterogeneity of biomolecular structures is intimately linked to their diverse biolog...
Through their motion, proteins perform essential functions in the living cell. Although we cannot ob...
Proteins are dynamic molecules involved in virtually every chemical process in our bodies. Understan...
Background: Protein rigidity analysis is an efficient computational method for extracting flexibilit...
The dynamic nature of proteins is often an underappreciated aspect of biology necessary for understa...
Biological functions of proteins are facilitated by their three dimensional structures and their abi...
International audienceProtein structures are highly dynamic macromolecules. This dynamics is often a...
Through their motion, proteins perform essential functions in the living cell. Although we cannot ob...
Taking protein G with 56 residues for a case study, we investigate the mechanism of protein folding....
A new approach is presented for determining the rigid regions in proteins and the flexible joints be...
Growing databases of protein sequences in the post-genomic era call for computational methods to ext...
ABSTRACT Describing and understanding the biological function of a protein requires a detailed struc...
Monitoring hydrogen-deuterium exchange of proteins can yield a wealth of information about not only ...
SummaryDiscrete molecular dynamics (DMD) is a rapid sampling method used in protein folding and aggr...
We demonstrate measurement of non-equilibrium backbone amide hydrogen-deuterium exchange rates (HDX)...
The mechanical heterogeneity of biomolecular structures is intimately linked to their diverse biolog...