International audienceWe present a new approach for determining dynamical domains in large proteins, either based on a comparison of different experimental structures, or on a simplified normal mode calculation for a single conformation. In a first step, a deformation measure is evaluated for all residues in the protein; a high deformation indicates highly flexible interdomain regions. The sufficiently rigid parts of the protein are then classified into rigid domains and low-deformation interdomain regions on the basis of their global motion. We demonstrate the techniques on three proteins: citrate synthase, which has been the subject of earlier domain analyses, HIV-1 reverse transcriptase, which has a rather complex domain structure, and a...
CONSPECTUS: Many multidomain proteins and ribonucleic acids consist of domains that autonomously fol...
International audienceProtein structures are highly dynamic macromolecules. This dynamics is often a...
Time-correlated atomic motions were used to characterize protein domain boundaries from atomic coord...
International audienceWe present a new approach for determining dynamical domains in large proteins,...
We present a new approach for determining dynamical domains in large pro-teins, either based on a co...
Methods developed originally to analyze domain motions from simulation [Proteins 27:425–437, 1997] a...
A new method for the analysis of domain movements in large, multichain, biomolecular complexes is pr...
International audienceThe identification of dynamical domains in proteins and the description of the...
Model-free methods are introduced to determine quantities pertaining to protein domain motions from ...
SummaryIdentifying dynamical, quasi-rigid domains in proteins provides a powerful means for characte...
Model-free methods are introduced to determine quantities pertaining to protein domain motions from ...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
International audienceIntrinsically disordered linkers provide multi-domain proteins with degrees of...
Intrinsically disordered linkers provide multi-domain proteins with degrees of conformational freedo...
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...
International audienceProtein structures are highly dynamic macromolecules. This dynamics is often a...
Time-correlated atomic motions were used to characterize protein domain boundaries from atomic coord...
International audienceWe present a new approach for determining dynamical domains in large proteins,...
We present a new approach for determining dynamical domains in large pro-teins, either based on a co...
Methods developed originally to analyze domain motions from simulation [Proteins 27:425–437, 1997] a...
A new method for the analysis of domain movements in large, multichain, biomolecular complexes is pr...
International audienceThe identification of dynamical domains in proteins and the description of the...
Model-free methods are introduced to determine quantities pertaining to protein domain motions from ...
SummaryIdentifying dynamical, quasi-rigid domains in proteins provides a powerful means for characte...
Model-free methods are introduced to determine quantities pertaining to protein domain motions from ...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
International audienceIntrinsically disordered linkers provide multi-domain proteins with degrees of...
Intrinsically disordered linkers provide multi-domain proteins with degrees of conformational freedo...
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...
International audienceProtein structures are highly dynamic macromolecules. This dynamics is often a...
Time-correlated atomic motions were used to characterize protein domain boundaries from atomic coord...