Add to ORKGSeveral cloned ClC-type Cl- channels open and close in a voltage-dependent manner. The Torpedo electric organ Cl- channel, ClC-0, is the best studied member of this gene family. ClC-0 is gated by a fast and a slow gating mechanism of opposite voltage direction. Fast gating is dependent on voltage and on the external and internal Cl- concentration, and it has been proposed that the permeant anion serves as the gating charge in ClC-0 (Pusch, M., U. Ludewig, A. Rehfeldt, and T.J. Jentsch. 1995. Nature (Lond.). 373:527-531). The deactivation at negative voltages of the muscular ClC-1 channel is similar but not identical to ClC-0. Different from the extrinsic voltage dependence suggested for ClC-0, an intrinsic voltage sensor had been proposed t...
The CLC-1 chloride channel, a member of the CLC-channel/transporter family, plays important roles fo...
Myotonia congenita is a hereditary muscle disorder caused by mutations in the human voltage-gated ch...
Copyright © 2001 by The American Society for Pharmacology and Experimental TherapeuticsOur knowledge...
Several cloned ClC-type Cl- channels open and close in a voltage-dependent manner. The Torpedo elect...
1. ClC proteins are a class of voltage-dependent Cl- channels with several members mutated in human ...
Molecular mechanisms of ion conduction in ClC-type chloride channels: Lessons from disease-causing m...
The gating of ClC-0, the voltage-dependent Cl- channel from Torpedo electric organ, is strongly infl...
1. The chloride channel from the Torpedo electric organ, ClC-0, is controlled by two distinct ('fast...
1. The influence of Cl- concentration and pH on gating of the skeletal muscle Cl- channel, ClC-1, ha...
Myotonia congenita is a genetic condition that is caused by mutations in the muscle chloride channel...
Voltage-gated ClC chloride channels play important roles in cell volume regulation, control of muscl...
The CLC-1 chloride channel, a member of the CLC-channel/transporter family, plays important roles fo...
Myotonia congenita is a hereditary muscle disorder caused by mutations in the human voltage-gated ch...
ClC-1 protein channels facilitate rapid passage of chloride ions across cellular membranes, thereby ...
Myotonia (muscle stiffness) is a symptom of several inherited diseases in humans and also in animals...
The CLC-1 chloride channel, a member of the CLC-channel/transporter family, plays important roles fo...
Myotonia congenita is a hereditary muscle disorder caused by mutations in the human voltage-gated ch...
Copyright © 2001 by The American Society for Pharmacology and Experimental TherapeuticsOur knowledge...
Several cloned ClC-type Cl- channels open and close in a voltage-dependent manner. The Torpedo elect...
1. ClC proteins are a class of voltage-dependent Cl- channels with several members mutated in human ...
Molecular mechanisms of ion conduction in ClC-type chloride channels: Lessons from disease-causing m...
The gating of ClC-0, the voltage-dependent Cl- channel from Torpedo electric organ, is strongly infl...
1. The chloride channel from the Torpedo electric organ, ClC-0, is controlled by two distinct ('fast...
1. The influence of Cl- concentration and pH on gating of the skeletal muscle Cl- channel, ClC-1, ha...
Myotonia congenita is a genetic condition that is caused by mutations in the muscle chloride channel...
Voltage-gated ClC chloride channels play important roles in cell volume regulation, control of muscl...
The CLC-1 chloride channel, a member of the CLC-channel/transporter family, plays important roles fo...
Myotonia congenita is a hereditary muscle disorder caused by mutations in the human voltage-gated ch...
ClC-1 protein channels facilitate rapid passage of chloride ions across cellular membranes, thereby ...
Myotonia (muscle stiffness) is a symptom of several inherited diseases in humans and also in animals...
The CLC-1 chloride channel, a member of the CLC-channel/transporter family, plays important roles fo...
Myotonia congenita is a hereditary muscle disorder caused by mutations in the human voltage-gated ch...
Copyright © 2001 by The American Society for Pharmacology and Experimental TherapeuticsOur knowledge...