Most large proteins are built of several domains, compact units which enable functional protein motions. Different domain assignment approaches exist, which mostly rely on concepts of stability, folding, and evolution. We describe the automatic assignment method CoMoDo, which identifies domains based on protein dynamics. Covariances of atomic fluctuations, here calculated by an Elastic Network Model, are used to group residues into domains of different hierarchical levels. The so-called dynamic domains facilitate the study of functional protein motions involved in biological processes like ligand binding and signal transduction. By applying CoMoDo to a large number of proteins, we demonstrate that dynamic domains exhibit features absent in ...
The characterization of proteins and enzymes is traditionally organised according to the sequence-st...
Identifying dynamical, quasi-rigid domains in proteins provides a powerful means for characterizing ...
CONSPECTUS: Many multidomain proteins and ribonucleic acids consist of domains that autonomously fol...
ABSTRACT: Most large proteins are built of several domains, compact units which enable functional pr...
Proteins with a modular architecture of multiple domains connected by linkers often exhibit diversit...
A novel theoretical methodology is described that allows the identification of dynamic structural do...
AbstractAnalysis of changes in the dynamics of protein domains on ligand binding is important in sev...
International audienceProteins fulfill complex and diverse biological functions through the controll...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
Motivation: The current DynDom database of protein domain motions is a user-created database that su...
Methods developed originally to analyze domain motions from simulation [Proteins 27:425–437, 1997] a...
At the time of writing this thesis, the complete genomes of more than 180 organisms have been sequen...
Time-correlated atomic motions were used to characterize protein domain boundaries from atomic coord...
Structure and dynamics are essential elements of protein function. Protein structure is constantly f...
We present a new approach for determining dynamical domains in large pro-teins, either based on a co...
The characterization of proteins and enzymes is traditionally organised according to the sequence-st...
Identifying dynamical, quasi-rigid domains in proteins provides a powerful means for characterizing ...
CONSPECTUS: Many multidomain proteins and ribonucleic acids consist of domains that autonomously fol...
ABSTRACT: Most large proteins are built of several domains, compact units which enable functional pr...
Proteins with a modular architecture of multiple domains connected by linkers often exhibit diversit...
A novel theoretical methodology is described that allows the identification of dynamic structural do...
AbstractAnalysis of changes in the dynamics of protein domains on ligand binding is important in sev...
International audienceProteins fulfill complex and diverse biological functions through the controll...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
Motivation: The current DynDom database of protein domain motions is a user-created database that su...
Methods developed originally to analyze domain motions from simulation [Proteins 27:425–437, 1997] a...
At the time of writing this thesis, the complete genomes of more than 180 organisms have been sequen...
Time-correlated atomic motions were used to characterize protein domain boundaries from atomic coord...
Structure and dynamics are essential elements of protein function. Protein structure is constantly f...
We present a new approach for determining dynamical domains in large pro-teins, either based on a co...
The characterization of proteins and enzymes is traditionally organised according to the sequence-st...
Identifying dynamical, quasi-rigid domains in proteins provides a powerful means for characterizing ...
CONSPECTUS: Many multidomain proteins and ribonucleic acids consist of domains that autonomously fol...