Cell surfaces are often heterogeneous with respect to the lateral distribution and mobility of membrane components. Because lateral mobility is related to membrane structure, measurement of a particular component's local diffusion coefficient within a distinct surface region provides useful information about the formation and maintenance of that region. Many structurally interesting cell surface features can be described as narrow tubular projections from the body of the cell. In a companion paper, we consider the thin "tethers" that can be mechanically drawn from the red blood cell membrane, and we measure the transport of fluorescent integral proteins from the surface of the cell body onto the tether. In this paper we present an analysis ...
The red blood cell membrane is a complex material that exhibits both solid- and liquidlike behavior....
The evaluation of lateral diffusion coefficients of membrane components by the technique of fluoresc...
There exist many examples of membrane components (e.g. receptors) accumulating in special domains of...
Cell surfaces are often heterogeneous with respect to the lateral distribution and mobility of membr...
A new approach is described for the analysis of lateral diffusion in biological membranes. It is sho...
The normal-mode analysis of fluorescence redistribution after photobleaching, introduced for the cha...
The problem of lateral diffusion in inhomogeneous membranes is illustrated by a theoretical calculat...
Lateral mobility of molecules on cell membranes has been recently studied by fluorescence photobleac...
Single Particle Tracking (SPT) is a powerful technique for the analysis of the lateral diffusion of ...
A new model for lateral diffusion, the milling crowd model (MC), is proposed and is used to derive t...
Protein lateral mobility in cell membranes is generally measured using fluorescence photobleaching r...
Fluorescence recovery after photobleaching has been a popular technique to quantify the lateral mobi...
AbstractPatches (lateral heterogeneities) of cell surface membrane proteins and lipids have been ima...
Fluorescence photobleaching methods have been widely used to study diffusion processes in the plasma...
Fluorescence microphotolysis is a versatile method for diffusion measurements in single cells and ot...
The red blood cell membrane is a complex material that exhibits both solid- and liquidlike behavior....
The evaluation of lateral diffusion coefficients of membrane components by the technique of fluoresc...
There exist many examples of membrane components (e.g. receptors) accumulating in special domains of...
Cell surfaces are often heterogeneous with respect to the lateral distribution and mobility of membr...
A new approach is described for the analysis of lateral diffusion in biological membranes. It is sho...
The normal-mode analysis of fluorescence redistribution after photobleaching, introduced for the cha...
The problem of lateral diffusion in inhomogeneous membranes is illustrated by a theoretical calculat...
Lateral mobility of molecules on cell membranes has been recently studied by fluorescence photobleac...
Single Particle Tracking (SPT) is a powerful technique for the analysis of the lateral diffusion of ...
A new model for lateral diffusion, the milling crowd model (MC), is proposed and is used to derive t...
Protein lateral mobility in cell membranes is generally measured using fluorescence photobleaching r...
Fluorescence recovery after photobleaching has been a popular technique to quantify the lateral mobi...
AbstractPatches (lateral heterogeneities) of cell surface membrane proteins and lipids have been ima...
Fluorescence photobleaching methods have been widely used to study diffusion processes in the plasma...
Fluorescence microphotolysis is a versatile method for diffusion measurements in single cells and ot...
The red blood cell membrane is a complex material that exhibits both solid- and liquidlike behavior....
The evaluation of lateral diffusion coefficients of membrane components by the technique of fluoresc...
There exist many examples of membrane components (e.g. receptors) accumulating in special domains of...