Add to ORKGThe lateral organization of cellular membranes is formed by the clustering of specific lipids, such as cholesterol and sphingolipids, into highly condensed domains (termed lipid rafts). Hence such domains are distinct from the remaining membrane by their lipid structure (liquid-ordered vs. -disordered domains). Here, we directly visualize membrane lipid structure of living cells by using two-photon microscopy. In macrophages, liquid-ordered domains are particularly enriched on membrane protrusions (filopodia), adhesion points and cell-cell contacts and cover 10-15% of the cell surface at 37 degrees C. By deconvoluting the images, we demonstrate the existence of phase separation in vivo. We compare the properties of microscopically visible d...
The concept of transient nanometric domains known as lipid rafts has brought interest to reassess th...
AbstractWe report the first imaging of membrane lipid order in a whole, living vertebrate organism. ...
Nonrandom mixing of lipids and proteins in the plasma membrane plays an important role in many cellu...
The lateral organization of cellular membranes is formed by the clustering of specific lipids, such ...
Lipid rafts are nanoscopic assemblies of sphingolipids, cholesterol, and specific membrane proteins ...
Lipid rafts are nanoscopic assemblies of sphingolipids, cholesterol, and specific membrane proteins ...
The formation of domains in supported lipid membranes has been studied extensively as a model for th...
AbstractSphingolipid and cholesterol-rich liquid ordered lipid domains (lipid rafts) have been studi...
AbstractSterols play a crucial regulatory and structural role in the lateral organization of eukaryo...
Cellular membranes are a heterogeneous mix of lipids, proteins and small molecules. Special grouping...
AbstractWithin the lateral organisation of plasma membranes of polarized cell types there exist hete...
Within the lateral organisation of plasma membranes of polarized cell types there exist heterogenous...
This chapter describes giant vesicles, Laurdan, and two-photon fluorescence microscopy. The combinat...
Cell membranes are composed of a lipid bilayer, containing proteins that span the bilayer and/or int...
Cell membranes are composed of a lipid bilayer, containing proteins that span the bilayer and/or int...
The concept of transient nanometric domains known as lipid rafts has brought interest to reassess th...
AbstractWe report the first imaging of membrane lipid order in a whole, living vertebrate organism. ...
Nonrandom mixing of lipids and proteins in the plasma membrane plays an important role in many cellu...
The lateral organization of cellular membranes is formed by the clustering of specific lipids, such ...
Lipid rafts are nanoscopic assemblies of sphingolipids, cholesterol, and specific membrane proteins ...
Lipid rafts are nanoscopic assemblies of sphingolipids, cholesterol, and specific membrane proteins ...
The formation of domains in supported lipid membranes has been studied extensively as a model for th...
AbstractSphingolipid and cholesterol-rich liquid ordered lipid domains (lipid rafts) have been studi...
AbstractSterols play a crucial regulatory and structural role in the lateral organization of eukaryo...
Cellular membranes are a heterogeneous mix of lipids, proteins and small molecules. Special grouping...
AbstractWithin the lateral organisation of plasma membranes of polarized cell types there exist hete...
Within the lateral organisation of plasma membranes of polarized cell types there exist heterogenous...
This chapter describes giant vesicles, Laurdan, and two-photon fluorescence microscopy. The combinat...
Cell membranes are composed of a lipid bilayer, containing proteins that span the bilayer and/or int...
Cell membranes are composed of a lipid bilayer, containing proteins that span the bilayer and/or int...
The concept of transient nanometric domains known as lipid rafts has brought interest to reassess th...
AbstractWe report the first imaging of membrane lipid order in a whole, living vertebrate organism. ...
Nonrandom mixing of lipids and proteins in the plasma membrane plays an important role in many cellu...