Molecular basis for different rates of recovery from inactivation in the Shaker potassium channel family

The relation between ion permeation and recovery from inactivation of ShakerB K+ channels

Gómez-Lagunas, F.
Armstrong, C.M.

November 1994

We have studied the relation between permeation and recovery from N-type or ball-and-chain inactivat...

N-type Inactivation of the Potassium Channel KcsA by the Shaker B “Ball ” Peptide

Jose ́ M. González-ros

December 2014

The effects of the inactivating peptide from the eukaryotic ShakerBK channel (the ShB peptide) on t...

Dynamic Rearrangement of the Outer Mouth of a K+ Channel during Gating

Liu, Yi
Jurman, Mark E
Yellen, Gary

April 1996

AbstractWith prolonged stimulation, voltage-activated K+ channels close by a gating process called i...

pes of Inactivation in Shaker l6 ’ Channels: Effects of Alterations in the Carboxy-Terminal Region

Toshinori Hoshi
William N. Zagotta
Richard W. Aldrich
Howard Hughes

December 2014

Shaker potassium channels inactivate and recover from inactivation with multiple exponential compone...

Molecular basis for different rates of recovery from inactivation in the Shaker potassium channel family

Wittka, Reilinde
Stocker, Martin
Boheim, Günther
Pongs, Olaf

July 1991

AbstractThe two alternative carboxyl-termini of Shaker K+ channels strongly influence the rates of i...

Potassium ion channel inactivation peptides

Murrell-Lagnado, Ruth D

January 1999

Voltage-gated K+ channels activate with depolarization of the membrane potential and subsequently in...

Pore accessibility during C-type inactivation in Shaker K+ channels

Basso, Claudia
Labarca, Pedro
Stefani, Enrico
Alvarez, Osvaldo
Latorre, Ramon

June 1998

AbstractShaker K+ channels inactivate through two distinct molecular mechanisms: N-type, which invol...

Pore accessibility during C-type inactivation in Shaker K+ channels

Basso, Claudia
Labarca, Pedro
Stefani, Enrico
Alvarez, Osvaldo
Latorre, Ramón

January 1998

Shaker K+ channels inactivate through two distinct molecular mechanisms: N-type, which involves the ...

A Tyrosine Substitution in the Cavity Wall of a K Channel Induces an Inverted Inactivation

Klement, Göran
Nilsson, Johanna
Århem, Peter
Elinder, Fredrik

April 2008

AbstractIon permeation and gating kinetics of voltage-gated K channels critically depend on the amin...

Gating currents in Shaker K+ channels. Implications for activation and inactivation models

Perozo, E.
Papazian, D.M.
Stefani, E.
Bezanilla, F.

April 1992

We have studied ionic and gating currents in mutant and wild-type Shaker K+ channels to investigate ...

U-Type Inactivation of Kv3.1 and Shaker Potassium Channels

Klemic, Kathryn G.
Kirsch, Glenn E.
Jones, Stephen W.

August 2001

AbstractWe previously concluded that the Kv2.1K+ channel inactivates preferentially from partially a...

Tyrosine Phosphorylation of the Inactivating Peptide of the Shaker B Potassium Channel: A Structural-Functional Correlate†

F. Gavilanes
A. V. Ferrer-montiel
J. M. González-ros

January 2002

ABSTRACT: A synthetic peptide patterned after the sequence of the inactivating “ball ” domain of the...

Inactivation in ShakerB K+ channels: a test for the number of inactivating particles on each channel

Gomez-Lagunas, F.
Armstrong, C.M.

January 1995

Fast inactivation in ShakerB K channels results from pore-block caused by "ball peptides" attached t...

Summary

Peter Drain
Adrienne E. Dubin
Richard W. Aldrich

June 2015

In response to depolarization of the membrane poten-tial, Shaker K+ channels undergo a series of vol...

K+ channel inactivation mediated by the concerted action of the cytoplasmic N- and C-terminal domains

Jerng, H.H.
Covarrubias, M.

January 1997

We have examined the molecular mechanism of rapid inactivation gating in a mouse Shal K+ channel (mK...

The relation between ion permeation and recovery from inactivation of ShakerB K+ channels

Gómez-Lagunas, F.
Armstrong, C.M.

November 1994

We have studied the relation between permeation and recovery from N-type or ball-and-chain inactivat...

N-type Inactivation of the Potassium Channel KcsA by the Shaker B “Ball ” Peptide

Jose ́ M. González-ros

December 2014

The effects of the inactivating peptide from the eukaryotic ShakerBK channel (the ShB peptide) on t...

Dynamic Rearrangement of the Outer Mouth of a K+ Channel during Gating

Liu, Yi
Jurman, Mark E
Yellen, Gary

April 1996

AbstractWith prolonged stimulation, voltage-activated K+ channels close by a gating process called i...

pes of Inactivation in Shaker l6 ’ Channels: Effects of Alterations in the Carboxy-Terminal Region

Toshinori Hoshi
William N. Zagotta
Richard W. Aldrich
Howard Hughes

December 2014

Shaker potassium channels inactivate and recover from inactivation with multiple exponential compone...

Molecular basis for different rates of recovery from inactivation in the Shaker potassium channel family

Wittka, Reilinde
Stocker, Martin
Boheim, Günther
Pongs, Olaf

July 1991

AbstractThe two alternative carboxyl-termini of Shaker K+ channels strongly influence the rates of i...

Potassium ion channel inactivation peptides

Murrell-Lagnado, Ruth D

January 1999

Voltage-gated K+ channels activate with depolarization of the membrane potential and subsequently in...

Pore accessibility during C-type inactivation in Shaker K+ channels

Basso, Claudia
Labarca, Pedro
Stefani, Enrico
Alvarez, Osvaldo
Latorre, Ramon

June 1998

AbstractShaker K+ channels inactivate through two distinct molecular mechanisms: N-type, which invol...

Pore accessibility during C-type inactivation in Shaker K+ channels

Basso, Claudia
Labarca, Pedro
Stefani, Enrico
Alvarez, Osvaldo
Latorre, Ramón

January 1998

Shaker K+ channels inactivate through two distinct molecular mechanisms: N-type, which involves the ...

A Tyrosine Substitution in the Cavity Wall of a K Channel Induces an Inverted Inactivation

Klement, Göran
Nilsson, Johanna
Århem, Peter
Elinder, Fredrik

April 2008

AbstractIon permeation and gating kinetics of voltage-gated K channels critically depend on the amin...

Gating currents in Shaker K+ channels. Implications for activation and inactivation models

Perozo, E.
Papazian, D.M.
Stefani, E.
Bezanilla, F.

April 1992

We have studied ionic and gating currents in mutant and wild-type Shaker K+ channels to investigate ...

U-Type Inactivation of Kv3.1 and Shaker Potassium Channels

Klemic, Kathryn G.
Kirsch, Glenn E.
Jones, Stephen W.

August 2001

AbstractWe previously concluded that the Kv2.1K+ channel inactivates preferentially from partially a...

Tyrosine Phosphorylation of the Inactivating Peptide of the Shaker B Potassium Channel: A Structural-Functional Correlate†

F. Gavilanes
A. V. Ferrer-montiel
J. M. González-ros

January 2002

ABSTRACT: A synthetic peptide patterned after the sequence of the inactivating “ball ” domain of the...

Inactivation in ShakerB K+ channels: a test for the number of inactivating particles on each channel

Gomez-Lagunas, F.
Armstrong, C.M.

January 1995

Fast inactivation in ShakerB K channels results from pore-block caused by "ball peptides" attached t...

Summary

Peter Drain
Adrienne E. Dubin
Richard W. Aldrich

June 2015

In response to depolarization of the membrane poten-tial, Shaker K+ channels undergo a series of vol...

K+ channel inactivation mediated by the concerted action of the cytoplasmic N- and C-terminal domains

Jerng, H.H.
Covarrubias, M.

January 1997

We have examined the molecular mechanism of rapid inactivation gating in a mouse Shal K+ channel (mK...

The relation between ion permeation and recovery from inactivation of ShakerB K+ channels

Gómez-Lagunas, F.
Armstrong, C.M.

November 1994

We have studied the relation between permeation and recovery from N-type or ball-and-chain inactivat...

N-type Inactivation of the Potassium Channel KcsA by the Shaker B “Ball ” Peptide

Jose ́ M. González-ros

December 2014

The effects of the inactivating peptide from the eukaryotic ShakerBK channel (the ShB peptide) on t...

Dynamic Rearrangement of the Outer Mouth of a K+ Channel during Gating

Liu, Yi
Jurman, Mark E
Yellen, Gary

April 1996

AbstractWith prolonged stimulation, voltage-activated K+ channels close by a gating process called i...

Molecular basis for different rates of recovery from inactivation in the Shaker potassium channel family

Abstract

Extracted data

Molecular basis for different rates of recovery from inactivation in the Shaker potassium channel family

Abstract

Extracted data

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