Diffusion is a phenomenon of very widespread importance in molecular biophysics. Diffusion can determine the rates and character of the assembly of multisubunit structures, the binding of ligands to receptors, and the internal motions of molecules and assemblies that involve solvent surface displacements. Current computer simulation techniques provide much more detailed descriptions of diffusional processes than have been available in the past. Models can be constructed to include such realistic features as structural subunits at the submolecular level (domains, monomers, or atoms); detailed electrostatic charge distributions and corresponding solvent-screened inter- and intramolecular interactions; and hydrodynamic interactions. The trajec...
The interiors of all living cells are highly crowded with macromolecules, which differs considerably...
Abstract Macromolecular diffusion plays a fundamental role in biological processes. Here, we give an...
AbstractSingle molecule tracking of membrane proteins by fluorescence microscopy is a promising meth...
Diffusion is a phenomenon of very widespread importance in molecular biophysics. Diffusion can deter...
This dissertation presents three research projects on novel methods in computational bio- physics. E...
We have developed a Brownian dynamics algorithm for simulating probe and self-diffusion in concentra...
AbstractEffects of the macromolecular solute on the translational mobility of surrounding solvent wa...
AbstractManipulation of individual DNA molecules by optical tweezers has made it possible to tie the...
Macromolecular crowding are innate to cellular environment. Understanding their effect on cellular c...
AbstractWe present a general-purpose model for biomolecular simulations at the molecular level that ...
The idea that non-specific DNA-binding proteins are capable of finding their cognate sites on DNA mu...
Computational methods are becoming increasingly important for studying complex biochemical systems. ...
We present a general-purpose model for biomolecular simulations at the molecular level that incorpor...
The diffusive behavior of macromolecules in solution is a key factor in the kinetics of macromolecul...
Molecular dynamics (MD) simulations can model the interactions between macromolecules with high spat...
The interiors of all living cells are highly crowded with macromolecules, which differs considerably...
Abstract Macromolecular diffusion plays a fundamental role in biological processes. Here, we give an...
AbstractSingle molecule tracking of membrane proteins by fluorescence microscopy is a promising meth...
Diffusion is a phenomenon of very widespread importance in molecular biophysics. Diffusion can deter...
This dissertation presents three research projects on novel methods in computational bio- physics. E...
We have developed a Brownian dynamics algorithm for simulating probe and self-diffusion in concentra...
AbstractEffects of the macromolecular solute on the translational mobility of surrounding solvent wa...
AbstractManipulation of individual DNA molecules by optical tweezers has made it possible to tie the...
Macromolecular crowding are innate to cellular environment. Understanding their effect on cellular c...
AbstractWe present a general-purpose model for biomolecular simulations at the molecular level that ...
The idea that non-specific DNA-binding proteins are capable of finding their cognate sites on DNA mu...
Computational methods are becoming increasingly important for studying complex biochemical systems. ...
We present a general-purpose model for biomolecular simulations at the molecular level that incorpor...
The diffusive behavior of macromolecules in solution is a key factor in the kinetics of macromolecul...
Molecular dynamics (MD) simulations can model the interactions between macromolecules with high spat...
The interiors of all living cells are highly crowded with macromolecules, which differs considerably...
Abstract Macromolecular diffusion plays a fundamental role in biological processes. Here, we give an...
AbstractSingle molecule tracking of membrane proteins by fluorescence microscopy is a promising meth...