Add to ORKGABSTRACT: Patch clamping depends on a tight seal between the cell membrane and the glass of the pipet. Why does the seal have such high electric resistance? Why does the patch adhere so strongly to the glass? Even under the action of strong hydrostatic, adhesion, and electrical forces, it creeps at a very low velocity. To explore possible explanations, we examined two physical models for the structure of the seal zone and the adhesion forces and two respective mechanisms of patch creep and electric conductivity. There is saline between the membrane and glass in the seal, and the flow of this solution under hydrostatic pressure or electroosmosis should drag a patch. There is a second possibility: the lipid core of the membrane is liquid and ...
AbstractWe attempted to determine whether mechanical tension and electrical stress couple to cause m...
Mechanosensitive (MS) channels are ubiquitous molecular force sensors that respond to a number of di...
AbstractA new theory, to our knowledge, is developed that describes the dynamics of a lipidic pore i...
AbstractInterpreting channel behavior in patches requires an understanding of patch structure and dy...
Electrophysiology is a central tool for measuring how different driving forces (e.g., ligand concent...
AbstractThe ability to form gigaseals is essential for patch-clamp electrophysiology; however, ion c...
The formation of the gigaseal in the patch clamp technique is dependent on the adhesion between the ...
AbstractPatch-clamp recording has revolutionized the study of ion channels, transporters, and the el...
The formation of the gigaseal in the patch clamp technique is dependent on the adhesion between the ...
When exposed to a DC electric pulse, giant vesicles made of bilayer membranes adopt peculiar drum-li...
<p>A\ RICM visualization of membrane deformation as response of applied pressure on membrane and cor...
We highlight mechanical stretching and bending of membranes and the importance of membrane deformati...
AbstractHigh hydrostatic pressure (HHP) present in natural environments impacts on cell membrane bio...
The formation of the gigaseal in the patch clamp technique is dependent on the adhesion between the ...
Lipid bilayers of cellular membranes play a key role in modulation of membrane proteins, particularl...
AbstractWe attempted to determine whether mechanical tension and electrical stress couple to cause m...
Mechanosensitive (MS) channels are ubiquitous molecular force sensors that respond to a number of di...
AbstractA new theory, to our knowledge, is developed that describes the dynamics of a lipidic pore i...
AbstractInterpreting channel behavior in patches requires an understanding of patch structure and dy...
Electrophysiology is a central tool for measuring how different driving forces (e.g., ligand concent...
AbstractThe ability to form gigaseals is essential for patch-clamp electrophysiology; however, ion c...
The formation of the gigaseal in the patch clamp technique is dependent on the adhesion between the ...
AbstractPatch-clamp recording has revolutionized the study of ion channels, transporters, and the el...
The formation of the gigaseal in the patch clamp technique is dependent on the adhesion between the ...
When exposed to a DC electric pulse, giant vesicles made of bilayer membranes adopt peculiar drum-li...
<p>A\ RICM visualization of membrane deformation as response of applied pressure on membrane and cor...
We highlight mechanical stretching and bending of membranes and the importance of membrane deformati...
AbstractHigh hydrostatic pressure (HHP) present in natural environments impacts on cell membrane bio...
The formation of the gigaseal in the patch clamp technique is dependent on the adhesion between the ...
Lipid bilayers of cellular membranes play a key role in modulation of membrane proteins, particularl...
AbstractWe attempted to determine whether mechanical tension and electrical stress couple to cause m...
Mechanosensitive (MS) channels are ubiquitous molecular force sensors that respond to a number of di...
AbstractA new theory, to our knowledge, is developed that describes the dynamics of a lipidic pore i...