Using the model of a cell membrane of a spherical surface in which membrane components may diffuse, the rate of localization due to trapping under diffusion control has been estimated by computing an analytical expression for the mean trapping time including the possibilities of a trapping probability less than 1 and/or the establishment of an equilibrium at the trap boundary
We consider the problem of determining the time dependence of the bound ligand concentration for the...
The method of volume averaging is used to analyze the process of diffusion in concentrated cell ense...
We analyze a stochastic model that describes receptor-mediated ligand trapping in epithelial layers ...
Using the model of a cell membrane of a spherical surface in which membrane components may diffuse, ...
Randomly distributed cell membrane components may become localized toward a specific region of the s...
There exist many examples of membrane components (e.g. receptors) accumulating in special domains of...
A variety of receptors are known to aggregate in specialized cell surface structures called coated p...
Cell surfaces are often heterogeneous with respect to the lateral distribution and mobility of membr...
A common signaling mechanism used by cells involves producing soluble extracellular ligands, which d...
A new approach is described for the analysis of lateral diffusion in biological membranes. It is sho...
In this note, the profile concentration of diffusing particles inside a membrane has been calculated...
A common scenario in cellular signal transduction is that a diusing surface-bound molecule must arri...
Following the presentation of historical concepts associated with diffusion, the recent experiments ...
We have formulated a kinetic model for the primary steps that occur at the cell membrane during rece...
AbstractThe diffusion of receptors within the two-dimensional environment of the plasma membrane is ...
We consider the problem of determining the time dependence of the bound ligand concentration for the...
The method of volume averaging is used to analyze the process of diffusion in concentrated cell ense...
We analyze a stochastic model that describes receptor-mediated ligand trapping in epithelial layers ...
Using the model of a cell membrane of a spherical surface in which membrane components may diffuse, ...
Randomly distributed cell membrane components may become localized toward a specific region of the s...
There exist many examples of membrane components (e.g. receptors) accumulating in special domains of...
A variety of receptors are known to aggregate in specialized cell surface structures called coated p...
Cell surfaces are often heterogeneous with respect to the lateral distribution and mobility of membr...
A common signaling mechanism used by cells involves producing soluble extracellular ligands, which d...
A new approach is described for the analysis of lateral diffusion in biological membranes. It is sho...
In this note, the profile concentration of diffusing particles inside a membrane has been calculated...
A common scenario in cellular signal transduction is that a diusing surface-bound molecule must arri...
Following the presentation of historical concepts associated with diffusion, the recent experiments ...
We have formulated a kinetic model for the primary steps that occur at the cell membrane during rece...
AbstractThe diffusion of receptors within the two-dimensional environment of the plasma membrane is ...
We consider the problem of determining the time dependence of the bound ligand concentration for the...
The method of volume averaging is used to analyze the process of diffusion in concentrated cell ense...
We analyze a stochastic model that describes receptor-mediated ligand trapping in epithelial layers ...