Add to ORKGThe opening and closing of chloride (Cl-) channels in the ClC family are thought to tightly couple to ion permeation through the channel pore. In the prototype channel of the family, the ClC-0 channel from the Torpedo electric organ, the opening-closing of the pore in the millisecond time range known as "fast gating" is regulated by both external and internal Cl- ions. Although the external Cl- effect on the fast-gate opening has been extensively studied at a quantitative level, the internal Cl- regulation remains to be characterized. In this study, we examine the internal Cl- effects and the electrostatic controls of the fast-gating mechanism. While having little effect on the opening rate, raising [Cl-]i reduces the closing rate (or incre...
AbstractWe investigate and then modify the hypothesis that a glutamate side chain acts as the fast g...
The chloride channel from the Torpedo electric organ, ClC-0, is the best studied member of a large g...
Recent crystal structures of ClC chloride channels have led to a proposed fast-gating mechanism that...
The opening and closing of chloride (Cl-) channels in the ClC family are thought to tightly couple t...
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...
The fast gate of the muscle-type ClC channels (ClC-0 and ClC-1) opens in response to the change of m...
CLC-0, a prototype Cl- channel in the CLC family, employs two gating mechanisms that control its ion...
1. ClC proteins are a class of voltage-dependent Cl- channels with several members mutated in human ...
ABSTRACT We investigate and then modify the hypothesis that a glutamate side chain acts as the fast ...
The Cl- channel from the Torpedo electric organ, CLC-0, is the prototype of a large gene family of C...
The Cl- channel from the Torpedo electric organ, CLC-0, is the prototype of a large gene family of C...
Chloride channels of the ClC family are important for the control of membrane excitability, cell vol...
Chloride channels of the ClC family are important for the control of membrane excitability, cell vol...
The Torpedo chloride channel ClC-0 is the prototype of a large family of chloride channels that have...
AbstractWe investigate and then modify the hypothesis that a glutamate side chain acts as the fast g...
The chloride channel from the Torpedo electric organ, ClC-0, is the best studied member of a large g...
Recent crystal structures of ClC chloride channels have led to a proposed fast-gating mechanism that...
The opening and closing of chloride (Cl-) channels in the ClC family are thought to tightly couple t...
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...
The fast gate of the muscle-type ClC channels (ClC-0 and ClC-1) opens in response to the change of m...
CLC-0, a prototype Cl- channel in the CLC family, employs two gating mechanisms that control its ion...
1. ClC proteins are a class of voltage-dependent Cl- channels with several members mutated in human ...
ABSTRACT We investigate and then modify the hypothesis that a glutamate side chain acts as the fast ...
The Cl- channel from the Torpedo electric organ, CLC-0, is the prototype of a large gene family of C...
The Cl- channel from the Torpedo electric organ, CLC-0, is the prototype of a large gene family of C...
Chloride channels of the ClC family are important for the control of membrane excitability, cell vol...
Chloride channels of the ClC family are important for the control of membrane excitability, cell vol...
The Torpedo chloride channel ClC-0 is the prototype of a large family of chloride channels that have...
AbstractWe investigate and then modify the hypothesis that a glutamate side chain acts as the fast g...
The chloride channel from the Torpedo electric organ, ClC-0, is the best studied member of a large g...
Recent crystal structures of ClC chloride channels have led to a proposed fast-gating mechanism that...