Add to ORKGMemory in physical systems is often viewed as a property of electronic components and computers. However, any system dependent on past events can display memory, whether electronic or biophysical. One such system is that formed by lysenin, a pore-forming toxin with many unusual properties. Lysenin typically displays hysteresis at positive voltages; however, when exposed to copper, this effect becomes significantly more prominent. In this situation, the conductance of lysenin channels at zero applied voltage is dependent not only on outside stimuli, but also on their recent history. We measured this effect within an artificial planar bilayer lipid membrane by applying small AC voltages to channels at various voltage levels and states. Furthe...
Lysenin, a Pore Forming Toxin extracted from the earthworm E. foetida, inserts uniform and large con...
Membrane transporters are a class of membrane proteins that function to provide a pathway across a c...
The electrochemical gradients established across cell membranes are paramount for the execution of b...
Lysenin, a 297 amino acid pore-forming protein extracted from the coelomic fluid of the earthworm E....
AbstractLysenin, a 297 amino acid pore-forming protein extracted from the coelomic fluid of the eart...
Lysenin is a pore-forming protein extracted from the red earthworm E. fetida, which forms voltage-ga...
Lysenin, a pore forming toxin (PFT) extracted from Eisenia fetida, inserts voltage-regulated channel...
The intricate voltage regulation presented by lysenin channels reconstituted in artificial lipid mem...
Lysenin is a pore-forming toxin extracted from earthworms, which inserts large conducting channels i...
The pore-forming toxin lysenin self-inserts to form conductance channels in natural and artificial l...
Memory is traditionally thought of as a biological function of the brain. In recent years, however, ...
Lysenin is a pore-forming toxin, which self-inserts open channels into sphingomyelin containing memb...
Non-specific ion conductance channels can be formed in lipid membranes by the poreforming toxin lyse...
All cell membranes are packed with proteins. The ability to investigate the regulatory mechanisms of...
This research work was undertaken to demonstrate that the composition of the lipid environment, modu...
Lysenin, a Pore Forming Toxin extracted from the earthworm E. foetida, inserts uniform and large con...
Membrane transporters are a class of membrane proteins that function to provide a pathway across a c...
The electrochemical gradients established across cell membranes are paramount for the execution of b...
Lysenin, a 297 amino acid pore-forming protein extracted from the coelomic fluid of the earthworm E....
AbstractLysenin, a 297 amino acid pore-forming protein extracted from the coelomic fluid of the eart...
Lysenin is a pore-forming protein extracted from the red earthworm E. fetida, which forms voltage-ga...
Lysenin, a pore forming toxin (PFT) extracted from Eisenia fetida, inserts voltage-regulated channel...
The intricate voltage regulation presented by lysenin channels reconstituted in artificial lipid mem...
Lysenin is a pore-forming toxin extracted from earthworms, which inserts large conducting channels i...
The pore-forming toxin lysenin self-inserts to form conductance channels in natural and artificial l...
Memory is traditionally thought of as a biological function of the brain. In recent years, however, ...
Lysenin is a pore-forming toxin, which self-inserts open channels into sphingomyelin containing memb...
Non-specific ion conductance channels can be formed in lipid membranes by the poreforming toxin lyse...
All cell membranes are packed with proteins. The ability to investigate the regulatory mechanisms of...
This research work was undertaken to demonstrate that the composition of the lipid environment, modu...
Lysenin, a Pore Forming Toxin extracted from the earthworm E. foetida, inserts uniform and large con...
Membrane transporters are a class of membrane proteins that function to provide a pathway across a c...
The electrochemical gradients established across cell membranes are paramount for the execution of b...