Existing methods for predicting translational friction properties of complex molecules start by explicitly building up their three-dimensional shape with spherical subunits. This treatment has been used especially for two types of systems: rigid assemblies and flexible chain molecules. However, many protein/DNA complexes such as chromatin consist of a small number of globular, relatively rigid, bound protein interspersed by long stretches of flexible DNA chain. I present a higher level of treatment of such macromolecules that avoids explicit subunit modeling as much as possible. An existing analytical formulation of the hydrodynamics equations is shown to be accurate when used with the present treatment. Thus the approach is fast and can be...
We address the general question of the extent to which the hydrodynamic behaviour of microscopic fre...
Polymer models have long been used to study the properties and behaviour of DNA, however the princip...
Inclusion of hydrodynamic interactions (HIs) is essential in simulations of biological macromolecule...
SummaryReduced numbers of frictional/scattering centers are essential for tractable hydrodynamic and...
Diffusion is a phenomenon of very widespread importance in molecular biophysics. Diffusion can deter...
Time is of the essence: The rotational motion of biomolecules depends on intra- and intermolecular i...
AbstractWe propose a new, automated method of converting crystallographic data into a bead model use...
AbstractHere we extend the ability to predict hydrodynamic coefficients and other solution propertie...
The three-dimensional spatiotemporal organization of genetic material inside the cell nucleus remain...
The transport of flexible biological macromolecules in confined geometries is found in a variety of ...
Mathematica notebooks for calculating (and re-calculating) hydrodynamic properties of mixed globular...
ABSTRACT Here we extend the ability to predict hydrodynamic coefficients and other solution properti...
A brief review is given of some of the advances in hydrodynamic methodologies for studying the confo...
We address the general question of the extent to which the hydrodynamic behaviour of microscopic fre...
Coiled-coils are filamentous proteins that form the basic building block of important force-bearing ...
We address the general question of the extent to which the hydrodynamic behaviour of microscopic fre...
Polymer models have long been used to study the properties and behaviour of DNA, however the princip...
Inclusion of hydrodynamic interactions (HIs) is essential in simulations of biological macromolecule...
SummaryReduced numbers of frictional/scattering centers are essential for tractable hydrodynamic and...
Diffusion is a phenomenon of very widespread importance in molecular biophysics. Diffusion can deter...
Time is of the essence: The rotational motion of biomolecules depends on intra- and intermolecular i...
AbstractWe propose a new, automated method of converting crystallographic data into a bead model use...
AbstractHere we extend the ability to predict hydrodynamic coefficients and other solution propertie...
The three-dimensional spatiotemporal organization of genetic material inside the cell nucleus remain...
The transport of flexible biological macromolecules in confined geometries is found in a variety of ...
Mathematica notebooks for calculating (and re-calculating) hydrodynamic properties of mixed globular...
ABSTRACT Here we extend the ability to predict hydrodynamic coefficients and other solution properti...
A brief review is given of some of the advances in hydrodynamic methodologies for studying the confo...
We address the general question of the extent to which the hydrodynamic behaviour of microscopic fre...
Coiled-coils are filamentous proteins that form the basic building block of important force-bearing ...
We address the general question of the extent to which the hydrodynamic behaviour of microscopic fre...
Polymer models have long been used to study the properties and behaviour of DNA, however the princip...
Inclusion of hydrodynamic interactions (HIs) is essential in simulations of biological macromolecule...