With the use of a recently developed method, twenty-four proteins for which two or more X-ray conformers are known have been analyzed to reveal structural principles that govern domain motions in proteins. In all 24 cases, the domain motion is a rotation about a physical axis created through local interactions both covalent and noncovalent, In many cases, two or more mechanical hinges separated in space create a stable hinge axis for precise control of the domain closure. The terminal regions of alpha-helices and beta-sheets have been found to act as mechanical hinges in a significant number of cases. In some cases, the two terminal regions of neighboring strands of a single beta-sheet can create a hinge axis, as can the two termini of a si...
The alpha-helix to beta-sheet transition (α-β transition) is a universal deformation mechanism in a...
textProtein mechanical responses play a critical role in a wide variety of biological phenomena, imp...
Recent studies suggest that protein folding should be revisited as the emergent property of a comple...
With the use of a recently developed method, twenty-four proteins for which two or more X-ray confor...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
Abstract: Control of structural flexibility is essential for the proper functioning of a large numbe...
Hinge motions are essential for many protein functions, and their dynamics are important to understa...
AbstractBackground: The mechanisms that allow or constrain protein movement have not been understood...
Methods developed originally to analyze domain motions from simulation [Proteins 27:425–437, 1997] a...
Abstract Background Protein motions play an essential role in catalysis and protein-ligand interacti...
β-sheet proteins are generally more able to resist mechanical deformation than β-helical proteins. E...
The occurrence of large domain motions associated with the mechanism of action of many proteins is w...
ABSTRACT b-sheet proteins are generally more able to resist mechanical deformation than a-helical pr...
The size and origin of the protein fold universe is of fundamental and practical importance. Analyzi...
alpha-Helical coiled coils are versatile protein domains, supporting a wide range of biological func...
The alpha-helix to beta-sheet transition (α-β transition) is a universal deformation mechanism in a...
textProtein mechanical responses play a critical role in a wide variety of biological phenomena, imp...
Recent studies suggest that protein folding should be revisited as the emergent property of a comple...
With the use of a recently developed method, twenty-four proteins for which two or more X-ray confor...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
Abstract: Control of structural flexibility is essential for the proper functioning of a large numbe...
Hinge motions are essential for many protein functions, and their dynamics are important to understa...
AbstractBackground: The mechanisms that allow or constrain protein movement have not been understood...
Methods developed originally to analyze domain motions from simulation [Proteins 27:425–437, 1997] a...
Abstract Background Protein motions play an essential role in catalysis and protein-ligand interacti...
β-sheet proteins are generally more able to resist mechanical deformation than β-helical proteins. E...
The occurrence of large domain motions associated with the mechanism of action of many proteins is w...
ABSTRACT b-sheet proteins are generally more able to resist mechanical deformation than a-helical pr...
The size and origin of the protein fold universe is of fundamental and practical importance. Analyzi...
alpha-Helical coiled coils are versatile protein domains, supporting a wide range of biological func...
The alpha-helix to beta-sheet transition (α-β transition) is a universal deformation mechanism in a...
textProtein mechanical responses play a critical role in a wide variety of biological phenomena, imp...
Recent studies suggest that protein folding should be revisited as the emergent property of a comple...