Add to ORKGThe functional properties of proteins are decided not only by their relatively rigid overall structures, but even more importantly, by their dynamic properties. In a protein, some regions of structure exhibit highly correlated or anti-correlated motions with others, some are highly dynamic but uncorrelated, while other regions are relatively static. The residues with correlated or anti-correlated motions can form a so-called dynamic cross-correlation network, through which information can be transmitted. Such networks have been shown to be critical to allosteric transitions, and ligand binding, and have also been shown to be able to mediate epistatic interactions between mutations. As a result, they are likely to play a significant role in ...
International audienceElucidation of the allosteric pathways in proteins is a computational challeng...
<div><p>Dynamic communities in proteins comprise the cohesive structural units that individually exh...
International audienceAllostery is a universal phenomenon that couples the information induced by a ...
Time-correlated atomic motions were used to characterize protein domain boundaries from atomic coord...
The dynamic cross correlation (DCC) analysis is a popular method for analyzing the trajectories of m...
Investigating correlations is the key to understanding the nature of biological systems. In general,...
ABSTRACT Correlated motions in biomol-ecules are often essential for their function, e.g., allosteri...
Identification of correlated residues in proteins is very important for many areas of protein resear...
Molecular dynamics simulations can be used to probe a wide range of biologically relevant problems. ...
At the time of writing this thesis, the complete genomes of more than 180 organisms have been sequen...
Methods developed toward computational exploration of protein landscapes have become standardized to...
Network theory applied to protein structures provides insights into numerous problems of biological ...
International audienceElucidation of the allosteric pathways in proteins is a computational challeng...
<div><p>Dynamic communities in proteins comprise the cohesive structural units that individually exh...
International audienceAllostery is a universal phenomenon that couples the information induced by a ...
Time-correlated atomic motions were used to characterize protein domain boundaries from atomic coord...
The dynamic cross correlation (DCC) analysis is a popular method for analyzing the trajectories of m...
Investigating correlations is the key to understanding the nature of biological systems. In general,...
ABSTRACT Correlated motions in biomol-ecules are often essential for their function, e.g., allosteri...
Identification of correlated residues in proteins is very important for many areas of protein resear...
Molecular dynamics simulations can be used to probe a wide range of biologically relevant problems. ...
At the time of writing this thesis, the complete genomes of more than 180 organisms have been sequen...
Methods developed toward computational exploration of protein landscapes have become standardized to...
Network theory applied to protein structures provides insights into numerous problems of biological ...
International audienceElucidation of the allosteric pathways in proteins is a computational challeng...
<div><p>Dynamic communities in proteins comprise the cohesive structural units that individually exh...
International audienceAllostery is a universal phenomenon that couples the information induced by a ...