Add to ORKGWe examine here the properties of lipid bilayers coupled to deformable substrates. We show that by changing the extent of the substrate hydrophilicity, we can control the membrane–substrate coupling and the response of the bilayer to strain deformation. Our results demonstrate that lipid bilayers coupled to flexible substrates can easily accommodate large strains, form stable protrusions and open reversibly pores. These properties, which differ significantly from those of free standing membranes, can extend the applications of the current lipid technologies. Moreover, such systems better capture the mechanical architecture of the cell interface and can provide insights into the capacity of cells to reshape and respond to mechanical pe...
Lipid membranes in nature adapt and reconfigure to changes in composition, temperature, humidity, an...
The Central Dogma forms the foundation of molecular biology couched in polymer language; all the key...
AbstractThe mechanical properties of biological membranes have become increasingly important not onl...
We examine here the properties of lipid bilayers coupled to deformable substrates. We show that by c...
We examine here the properties of lipid bilayers coupled to deformable substrates. We show that by c...
In this thesis an experimental model for the interface between the cell membrane and the supporting ...
Lipid membranes are commonly confined to adjacent subcellular structures or to artificial substrates...
Lipid membranes are commonly confined to adjacent subcellular structures or to artificial substrates...
Cell processes like endocytosis, membrane resealing, signaling and transcription involve conformatio...
AbstractOne of the fundamental properties of biological membranes is the high lateral integrity prov...
In living cells, mechanochemical coupling represents a dynamic means by which membrane components ar...
In living cells, mechanochemical coupling represents a dynamic means by which membrane components ar...
Biological membranes rarely exist as free-floating structures but are often confined and supported b...
Cell membranes exhibit multiple layers of complexity, ranging from their specific molecular content ...
Lipid membranes in nature adapt and reconfigure to changes in composition, temperature, humidity, an...
Lipid membranes in nature adapt and reconfigure to changes in composition, temperature, humidity, an...
The Central Dogma forms the foundation of molecular biology couched in polymer language; all the key...
AbstractThe mechanical properties of biological membranes have become increasingly important not onl...
We examine here the properties of lipid bilayers coupled to deformable substrates. We show that by c...
We examine here the properties of lipid bilayers coupled to deformable substrates. We show that by c...
In this thesis an experimental model for the interface between the cell membrane and the supporting ...
Lipid membranes are commonly confined to adjacent subcellular structures or to artificial substrates...
Lipid membranes are commonly confined to adjacent subcellular structures or to artificial substrates...
Cell processes like endocytosis, membrane resealing, signaling and transcription involve conformatio...
AbstractOne of the fundamental properties of biological membranes is the high lateral integrity prov...
In living cells, mechanochemical coupling represents a dynamic means by which membrane components ar...
In living cells, mechanochemical coupling represents a dynamic means by which membrane components ar...
Biological membranes rarely exist as free-floating structures but are often confined and supported b...
Cell membranes exhibit multiple layers of complexity, ranging from their specific molecular content ...
Lipid membranes in nature adapt and reconfigure to changes in composition, temperature, humidity, an...
Lipid membranes in nature adapt and reconfigure to changes in composition, temperature, humidity, an...
The Central Dogma forms the foundation of molecular biology couched in polymer language; all the key...
AbstractThe mechanical properties of biological membranes have become increasingly important not onl...