The viral channel KcvNTS belongs to the smallest K(+) channels known so far. A monomer of a functional homotetramer contains only 82 amino acids. As a consequence of the small size the protein is almost fully submerged into the membrane. This suggests that the channel is presumably sensitive to its lipid environment. Here we perform a comparative analysis for the function of the channel protein embedded in three different membrane environments. 1. Single-channel currents of KcvNTS were recorded with the patch clamp method on the plasma membrane of HEK293 cells. 2. They were also measured after reconstitution of recombinant channel protein into classical planar lipid bilayers and 3. into horizontal bilayers derived from giant unilamellar ves...
Voltage-gated ion channels are key players in cellular excitability. Recent studies suggest that the...
The present study describes the electrophysiological characterisation of different primitive channel...
Potassium channels are transmembrane proteins that facilitate the passive and selective flux of K+ i...
AbstractThe viral channel KcvNTS belongs to the smallest K+ channels known so far. A monomer of a fu...
The viral channel KcvNTS belongs to the smallest K+ channels known so far. A monomer of a functional...
Ion channels are present in every domain of life. They catalyze the rapid and selective flux of ions...
Potassium (K+) channels are an important class of ion channels, which serve crucial physiological fu...
The channel proteins from Chlorella viruses are miniature versions of K+ channels; in essence they ...
It has become increasingly apparent that the lipid composition of cell membranes affects the functio...
Many viruses, which infect algae, code for small membrane proteins with the characteristics of potas...
The miniature viral K+ channel Kcv represents the pore module of all K+ channels. A synthetic gene o...
The viral potassium channel Kcv from Paramecium bursaria chlorella virus 1 (PBCV-1) is with only 94 ...
Voltage-gated ion channels are key players in cellular excitability. Recent studies suggest that the...
Voltage-gated ion channels are key players in cellular excitability. Recent studies suggest that the...
Potassium channels enable the selective and passive transport of potassium ions through membranes. T...
Voltage-gated ion channels are key players in cellular excitability. Recent studies suggest that the...
The present study describes the electrophysiological characterisation of different primitive channel...
Potassium channels are transmembrane proteins that facilitate the passive and selective flux of K+ i...
AbstractThe viral channel KcvNTS belongs to the smallest K+ channels known so far. A monomer of a fu...
The viral channel KcvNTS belongs to the smallest K+ channels known so far. A monomer of a functional...
Ion channels are present in every domain of life. They catalyze the rapid and selective flux of ions...
Potassium (K+) channels are an important class of ion channels, which serve crucial physiological fu...
The channel proteins from Chlorella viruses are miniature versions of K+ channels; in essence they ...
It has become increasingly apparent that the lipid composition of cell membranes affects the functio...
Many viruses, which infect algae, code for small membrane proteins with the characteristics of potas...
The miniature viral K+ channel Kcv represents the pore module of all K+ channels. A synthetic gene o...
The viral potassium channel Kcv from Paramecium bursaria chlorella virus 1 (PBCV-1) is with only 94 ...
Voltage-gated ion channels are key players in cellular excitability. Recent studies suggest that the...
Voltage-gated ion channels are key players in cellular excitability. Recent studies suggest that the...
Potassium channels enable the selective and passive transport of potassium ions through membranes. T...
Voltage-gated ion channels are key players in cellular excitability. Recent studies suggest that the...
The present study describes the electrophysiological characterisation of different primitive channel...
Potassium channels are transmembrane proteins that facilitate the passive and selective flux of K+ i...