Biological function relies on the fact that biomolecules can switch between different conformations and aggregation states. Such transitions involve a rearrangement of parts of the biomolecules involved that act as dynamic domains. The reliable identification of such domains is thus a key problem in biophysics. In this work we present a method to identify semi-rigid domains based on dynamical data that can be obtained from molecular dynamics simulations or experiments. To this end the average inter-atomic distance-deviations are computed. The resulting matrix is then clustered by a constrained quadratic optimization problem. The reliability and performance of the method are demonstrated for two artificial peptides. Furthermore we correlate ...
The study of intrinsically disordered proteins has rapidly advanced since the identification of the ...
Molecular dynamics (MD) simulations are a powerful tool for describing the structure, dynamics, and ...
The mechanical heterogeneity of biomolecular structures is intimately linked to their diverse biolog...
Biological function relies on the fact that biomolecules can switch between different conformations ...
Biological function relies on the fact that biomolecules can switch between different conformations ...
Atomistic simulations can not achieve the time and length scales of many important biological proble...
Motivation: Large-scale conformational changes in proteins are implicated in many important biologic...
AbstractWe present a rigid-body-based technique (called rigid-cluster elastic network interpolation)...
Growing databases of protein sequences in the post-genomic era call for computational methods to ext...
Proteins are an important class of biomolecules essential for life. They are involved in many biolog...
A novel theoretical methodology is described that allows the identification of dynamic structural do...
Proteins form complexes when they bind to other molecules, which is often accompanied by a conformat...
Through their motion, proteins perform essential functions in the living cell. Although we cannot ob...
Proteins are essential molecules in living organisms that perform a broad scope of functionalities, ...
SummaryIdentifying dynamical, quasi-rigid domains in proteins provides a powerful means for characte...
The study of intrinsically disordered proteins has rapidly advanced since the identification of the ...
Molecular dynamics (MD) simulations are a powerful tool for describing the structure, dynamics, and ...
The mechanical heterogeneity of biomolecular structures is intimately linked to their diverse biolog...
Biological function relies on the fact that biomolecules can switch between different conformations ...
Biological function relies on the fact that biomolecules can switch between different conformations ...
Atomistic simulations can not achieve the time and length scales of many important biological proble...
Motivation: Large-scale conformational changes in proteins are implicated in many important biologic...
AbstractWe present a rigid-body-based technique (called rigid-cluster elastic network interpolation)...
Growing databases of protein sequences in the post-genomic era call for computational methods to ext...
Proteins are an important class of biomolecules essential for life. They are involved in many biolog...
A novel theoretical methodology is described that allows the identification of dynamic structural do...
Proteins form complexes when they bind to other molecules, which is often accompanied by a conformat...
Through their motion, proteins perform essential functions in the living cell. Although we cannot ob...
Proteins are essential molecules in living organisms that perform a broad scope of functionalities, ...
SummaryIdentifying dynamical, quasi-rigid domains in proteins provides a powerful means for characte...
The study of intrinsically disordered proteins has rapidly advanced since the identification of the ...
Molecular dynamics (MD) simulations are a powerful tool for describing the structure, dynamics, and ...
The mechanical heterogeneity of biomolecular structures is intimately linked to their diverse biolog...