Add to ORKGHinge motions are important for molecular recognition, and knowledge of their location can guide the sampling of protein conformations for docking. Predicting domains and intervening hinges is also important for identifying structurally self-determinate units and anticipating the influence of mutations on protein flexibility and stability. Here we present StoneHinge, a novel approach for predicting hinges between domains using input from two complementary analyses of non-covalent bond networks: StoneHingeP, which identifies domain-hinge-domain signatures in ProFlex constraint counting results, and StoneHingeD, which does the same for DomDecomp Gaussian network analyses. Predictions for the two methods are compared to hinges defined in the l...
<p><b>Copyright information:</b></p><p>Taken from "Hinge Atlas: relating protein sequence to sites o...
Guessing the boundaries of structural domains has been an important and challenging problem in exper...
The occurrence of large domain motions associated with the mechanism of action of many proteins is w...
The functioning of proteins requires highly specific dynamics, which depend critically on the detail...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
Abstract Background Protein motions play an essential role in catalysis and protein-ligand interacti...
. Despite the biomedical relevance, very little is known about understanding this mechanism. The que...
Hinge motions are essential for many protein functions, and their dynamics are important to understa...
Background: Hinge-bending movements in proteins comprising two or more domains form a large class of...
BACKGROUND: 3D domain swapping is an oligomerization process in which structural elements get exchan...
AbstractBackground: The mechanisms that allow or constrain protein movement have not been understood...
With the use of a recently developed method, twenty-four proteins for which two or more X-ray confor...
Motivation: The precise prediction of protein domains, which are the structural, functional and evol...
The precise prediction of protein domains, which are the structural, functional and evolutionary uni...
AbstractWe performed a detailed analysis of conformational transition pathways for a set of 10 prote...
<p><b>Copyright information:</b></p><p>Taken from "Hinge Atlas: relating protein sequence to sites o...
Guessing the boundaries of structural domains has been an important and challenging problem in exper...
The occurrence of large domain motions associated with the mechanism of action of many proteins is w...
The functioning of proteins requires highly specific dynamics, which depend critically on the detail...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
Abstract Background Protein motions play an essential role in catalysis and protein-ligand interacti...
. Despite the biomedical relevance, very little is known about understanding this mechanism. The que...
Hinge motions are essential for many protein functions, and their dynamics are important to understa...
Background: Hinge-bending movements in proteins comprising two or more domains form a large class of...
BACKGROUND: 3D domain swapping is an oligomerization process in which structural elements get exchan...
AbstractBackground: The mechanisms that allow or constrain protein movement have not been understood...
With the use of a recently developed method, twenty-four proteins for which two or more X-ray confor...
Motivation: The precise prediction of protein domains, which are the structural, functional and evol...
The precise prediction of protein domains, which are the structural, functional and evolutionary uni...
AbstractWe performed a detailed analysis of conformational transition pathways for a set of 10 prote...
<p><b>Copyright information:</b></p><p>Taken from "Hinge Atlas: relating protein sequence to sites o...
Guessing the boundaries of structural domains has been an important and challenging problem in exper...
The occurrence of large domain motions associated with the mechanism of action of many proteins is w...