Add to ORKGWe review the properties of ClC chloride channels, members of an expanding gene family originally discovered by the cloning of the ClC-0 chloride channel from Torpedo electric organ. There are at least nine different ClC genes in mammals, several of which seem to be expressed ubiquitously, while others are expressed in a highly specific manner (e.g. the muscle-specific ClC-1 channel and the kidney-specific ClC-K channels). The newly cloned rat ClC-4 is strongly expressed in liver and brain, but also in heart, muscle, kidney and spleen. ClC chloride channels are structurally unrelated to other channel proteins and have twelve putative transmembrane domains. They function as multimers with probably four subunits. Functional characterization i...
The voltage-dependent ClC-1 chloride channel belongs to the CLC channel/transporter family. It is a ...
Voltage-gated ClC chloride channels play important roles in cell volume regulation, control of muscl...
After a personal description of the convoluted path leading 25 years ago to the molecular identifica...
Chloride channels have several functions, including the regulation of cell volume, stabilizing membr...
Chloride channels (ClCs) have gained worldwide interest because of their molecular diversity, widesp...
Molecular mechanisms of ion conduction in ClC-type chloride channels: Lessons from disease-causing m...
The skeletal muscle chloride channel CLC-1 and the ubiquitous volume-activated chloride channel CLC-...
Chloride channels are involved in a multitude of physiologic processes ranging from basal cellular f...
Cl- channels have various functions such as regulation of cell volume, transepithelial transport, an...
AbstractWe cloned two novel members of the CLC chloride channel family from rat and human brain. ClC...
The CLC gene family encodes nine different Cl() channels in mammals. These channels perform their fu...
CLC voltage-gated chloride ion channels (and transporters) family is widely present in bacteria to h...
CLC genes are expressed in species from bacteria to human and encode Cl(-)-channels or Cl(-)/H(+)-ex...
Cl- channels reside both in the plasma membrane and in intracellular organelles. Their functions ran...
Proteins of the CLC gene family assemble to homo- or sometimes heterodimers and either function as C...
The voltage-dependent ClC-1 chloride channel belongs to the CLC channel/transporter family. It is a ...
Voltage-gated ClC chloride channels play important roles in cell volume regulation, control of muscl...
After a personal description of the convoluted path leading 25 years ago to the molecular identifica...
Chloride channels have several functions, including the regulation of cell volume, stabilizing membr...
Chloride channels (ClCs) have gained worldwide interest because of their molecular diversity, widesp...
Molecular mechanisms of ion conduction in ClC-type chloride channels: Lessons from disease-causing m...
The skeletal muscle chloride channel CLC-1 and the ubiquitous volume-activated chloride channel CLC-...
Chloride channels are involved in a multitude of physiologic processes ranging from basal cellular f...
Cl- channels have various functions such as regulation of cell volume, transepithelial transport, an...
AbstractWe cloned two novel members of the CLC chloride channel family from rat and human brain. ClC...
The CLC gene family encodes nine different Cl() channels in mammals. These channels perform their fu...
CLC voltage-gated chloride ion channels (and transporters) family is widely present in bacteria to h...
CLC genes are expressed in species from bacteria to human and encode Cl(-)-channels or Cl(-)/H(+)-ex...
Cl- channels reside both in the plasma membrane and in intracellular organelles. Their functions ran...
Proteins of the CLC gene family assemble to homo- or sometimes heterodimers and either function as C...
The voltage-dependent ClC-1 chloride channel belongs to the CLC channel/transporter family. It is a ...
Voltage-gated ClC chloride channels play important roles in cell volume regulation, control of muscl...
After a personal description of the convoluted path leading 25 years ago to the molecular identifica...