Add to ORKGThe structure of the Shaker potassium channel has been modeled as passing through the cellular membrane eight times with both the NH2 and COOH termini on the cytoplasmic side (Durrell, S.R., and H.R. Guy. 1992. Biophys. J. 62:238-250). To test the validity of this model, we have inserted an epitope consisting of eight hydrophilic amino acids (DYKDDDDK) in predicted extracellular and intracellular loops throughout the channel. The channels containing the synthetic epitope were expressed in Xenopus oocytes, and function was examined by two-electrode voltage clamping. All of the mutants containing insertions in putative extracellular regions and the NH2 and COOH termini expressed functional channels, and most of their electrophysiological prop...
AbstractIn the preceding, accompanying article, we present models of the structure and voltage-depen...
Heterologous expression has been an important tool for structural and functionalcharacterization of ...
Sequence similarity among and electrophysiological studies of known potassium channels, along with t...
In voltage-dependent channels, positive charges contained within the S4 domain are the voltage-sensi...
Characterization and investigation of the physiological properties of a novel tandem pore domain pot...
Voltage-dependent ion channels mediate electrical signals in the nervous system; many sodium (Na+), ...
Although there is a large body of site-directed mutagenesis data that identify the pore-lining seque...
AbstractExpression of the rat kidney IsK protein in Xenopus oocytes produces slowly-activating potas...
Although there is a large body of site-directed mutagenesis data that identify the pore-lining seque...
Recent mutagenesis experiments have confirmed our hypothesis that a segment between S5 and S6 forms ...
AbstractThe propagation of action potentials during neuronal signal transduction in phospholipid mem...
AbstractThe high permeability of K+ channels to monovalent thallium (Tl+) ions and the low solubilit...
Potassium channels catalyse the permeation of K+ ions across cellular membranes and are identified b...
AbstractVoltage-gated K channels are regulated by extracellular divalent cations such as Mg2+ and Sr...
A homology model of the pore domain of the Shaker K+ channel has been constructed using a bacterial ...
AbstractIn the preceding, accompanying article, we present models of the structure and voltage-depen...
Heterologous expression has been an important tool for structural and functionalcharacterization of ...
Sequence similarity among and electrophysiological studies of known potassium channels, along with t...
In voltage-dependent channels, positive charges contained within the S4 domain are the voltage-sensi...
Characterization and investigation of the physiological properties of a novel tandem pore domain pot...
Voltage-dependent ion channels mediate electrical signals in the nervous system; many sodium (Na+), ...
Although there is a large body of site-directed mutagenesis data that identify the pore-lining seque...
AbstractExpression of the rat kidney IsK protein in Xenopus oocytes produces slowly-activating potas...
Although there is a large body of site-directed mutagenesis data that identify the pore-lining seque...
Recent mutagenesis experiments have confirmed our hypothesis that a segment between S5 and S6 forms ...
AbstractThe propagation of action potentials during neuronal signal transduction in phospholipid mem...
AbstractThe high permeability of K+ channels to monovalent thallium (Tl+) ions and the low solubilit...
Potassium channels catalyse the permeation of K+ ions across cellular membranes and are identified b...
AbstractVoltage-gated K channels are regulated by extracellular divalent cations such as Mg2+ and Sr...
A homology model of the pore domain of the Shaker K+ channel has been constructed using a bacterial ...
AbstractIn the preceding, accompanying article, we present models of the structure and voltage-depen...
Heterologous expression has been an important tool for structural and functionalcharacterization of ...
Sequence similarity among and electrophysiological studies of known potassium channels, along with t...