Add to ORKGThe conduction properties of ClC-0 and ClC-1 chloride channels are examined using electrostatic calculations and three-dimensional Brownian dynamics simulations. We create an open-state configuration of the prokaryotic ClC Cl- channel using its known crystallographic structure as a basis. Two residues that are occluding the channel are slowly pushed outward with molecular dynamics to create a continuous ion-conducting path with the minimum radius of 2.5 Å. Then, retaining the same pore shape, the prokaryotic ClC channel is converted to either ClC-0 or ClC-1 by replacing all the nonconserved dipole-containing and charged amino acid residues. Employing open-state ClC-0 and ClC-1 channel models, current-voltage curves consistent with experimen...
Ion transport in CLC proteins depends on extra- and intracellular vestibules and a connecting pore. ...
Computer simulations have been used to probe the gating mechanism in the Salmonella serovar typhimur...
The ClC family of Cl(-) channels and transporters comprises membrane proteins ubiquitously present i...
The conduction properties of ClC-0 and ClC-1 chloride channels are examined using electrostatic calc...
ABSTRACT The conduction properties of ClC-0 and ClC-1 chloride channels are examined using electrost...
AbstractThe conduction properties of ClC-0 and ClC-1 chloride channels are examined using electrosta...
We examine the mechanisms underlying the transport of ions across ClC-0 and ClC-1, the two best char...
We examine the mechanisms underlying the transport of ions across ClC-0 and ClC-1, the two best char...
AbstractA three-state, multiion kinetic model was proposed to enable the conduction properties of th...
AbstractClC chloride channels are voltage-gated transmembrane proteins that have been associated wit...
AbstractMembers of the ClC family of voltage-gated chloride channels are found from bacteria to mamm...
We investigate and then modify the hypothesis that a glutamate side chain acts as the fast gate in C...
AbstractWe investigate and then modify the hypothesis that a glutamate side chain acts as the fast g...
ClC proteins are chloride channels and transporters that are found in a wide variety of prokaryotic ...
AbstractThe ClC family of anion channels mediates the efficient, selective permeation of Cl− across ...
Ion transport in CLC proteins depends on extra- and intracellular vestibules and a connecting pore. ...
Computer simulations have been used to probe the gating mechanism in the Salmonella serovar typhimur...
The ClC family of Cl(-) channels and transporters comprises membrane proteins ubiquitously present i...
The conduction properties of ClC-0 and ClC-1 chloride channels are examined using electrostatic calc...
ABSTRACT The conduction properties of ClC-0 and ClC-1 chloride channels are examined using electrost...
AbstractThe conduction properties of ClC-0 and ClC-1 chloride channels are examined using electrosta...
We examine the mechanisms underlying the transport of ions across ClC-0 and ClC-1, the two best char...
We examine the mechanisms underlying the transport of ions across ClC-0 and ClC-1, the two best char...
AbstractA three-state, multiion kinetic model was proposed to enable the conduction properties of th...
AbstractClC chloride channels are voltage-gated transmembrane proteins that have been associated wit...
AbstractMembers of the ClC family of voltage-gated chloride channels are found from bacteria to mamm...
We investigate and then modify the hypothesis that a glutamate side chain acts as the fast gate in C...
AbstractWe investigate and then modify the hypothesis that a glutamate side chain acts as the fast g...
ClC proteins are chloride channels and transporters that are found in a wide variety of prokaryotic ...
AbstractThe ClC family of anion channels mediates the efficient, selective permeation of Cl− across ...
Ion transport in CLC proteins depends on extra- and intracellular vestibules and a connecting pore. ...
Computer simulations have been used to probe the gating mechanism in the Salmonella serovar typhimur...
The ClC family of Cl(-) channels and transporters comprises membrane proteins ubiquitously present i...