Contributions of charged residues in a cytoplasmic linking region to Na channel gating

A Single Residue Differentiates between Human Cardiac and Skeletal Muscle Na+ Channel Slow Inactivation

Vilin, Yuriy Y.
Fujimoto, Esther
Ruben, Peter C.

May 2001

AbstractSlow inactivation determines the availability of voltage-gated sodium channels during prolon...

Voltage-Dependent Sodium Channel Function Is Regulated Through Membrane Mechanics

Shcherbatko, Anatoly
Ono, Fumihito
Mandel, Gail
Brehm, Paul

October 1999

AbstractCut-open recordings from Xenopus oocytes expressing either nerve (PN1) or skeletal muscle (S...

Molecular motions of the outer ring of charge of the sodium channel: Do they couple to slow inactivation?

Li, RA
Tian, Y
Xiong, W
Tomaselli, GF

January 2003

In contrast to fast inactivation, the molecular basis of sodium (Na) channel slow inactivation is po...

Contributions of charged residues in a cytoplasmic linking region to Na channel gating

Miller, James R
Patel, Manoj K
John, James E
Mounsey, J.Paul
Moorman, J.Randall

December 2000

AbstractNa channels inactivate quickly after opening, and the very highly positively charged cytopla...

Charge Immobilization of Skeletal Muscle Na+ Channels: Role of Residues in the Inactivation Linker

Groome, James R.
Dice, Margaret C.
Fujimoto, Esther
Ruben, Peter C.

September 2007

AbstractWe investigated structural determinants of fast inactivation and deactivation in sodium chan...

Single-channel analysis of inactivation-defective rat skeletal muscle sodium channels containing the F1304Q mutation

Lawrence, J.H.
Orias, D.W.
Balser, J.R.
Nuss, H.B.
Tomaselli, G.F.
O'Rourke, B.
Marban, E.

September 1996

The intracellular linker between domains III and IV of the voltage-gated Na channel mediates fast in...

Interaction between the sodium channel inactivation linker and domain III S4-S5

Smith, M.R.
Goldin, A.L.

October 1997

The III-IV linker (L(III-IV)) of the rat brain sodium channel is critical for fast inactivation, pos...

Voltage-Dependent Sodium Channel Function Is Regulated Through Membrane Mechanics

Shcherbatko, Anatoly
Ono, Fumihito
Mandel, Gail
Brehm, Paul

October 1999

AbstractCut-open recordings from Xenopus oocytes expressing either nerve (PN1) or skeletal muscle (S...

A mutation in the pore of the sodium channel alters gating

Tomaselli, G.F.
Chiamvimonvat, N.
Nuss, H.B.
Balser, J.R.
Pérez-García, M.T.
Xu, R.H.
Orias, D.W.
Backx, P.H.
Marban, E.

May 1995

Ion permeation and channel gating are classically considered independent processes, but site-specifi...

Inactivation of cloned Na channels expressed in Xenopus oocytes

Krafte, Douglas S.
Goldin, Alan L.
Auld, Vanessa J.
Dunn, Robert J.
Davidson, Norman
Lester, Henry A.

October 1990

This study investigates the inactivation properties of Na channels expressed in Xenopus oocytes from...

Slow inactivation does not affect movement of the fast inactivation gate in voltage-gated Na+ channels.

Vedantham, V
Cannon, SC

January 1998

Voltage-gated Na+ channels exhibit two forms of inactivation, one form (fast inactivation) takes eff...

The Pore, not Cytoplasmic Domains, Underlies Inactivation in a Prokaryotic Sodium Channel

Pavlov, Evgeny
Bladen, Christopher
Winkfein, Robert
Diao, Catherine
Dhaliwal, Perry
French, Robert J.

July 2005

AbstractKinetics and voltage dependence of inactivation of a prokaryotic voltage-gated sodium channe...

A Point Mutation in Domain 4-Segment 6 of the Skeletal Muscle Sodium Channel Produces an Atypical Inactivation State

O’Reilly, John P.
Wang, Sho-Ya
Wang, Ging Kuo

February 2000

AbstractWe compared wild-type rat skeletal muscle NaChs (μ1) and a mutant NaCh (Y1586K) that has a s...

A Single Residue Differentiates between Human Cardiac and Skeletal Muscle Na+ Channel Slow Inactivation

Vilin, Yuriy Y.
Fujimoto, Esther
Ruben, Peter C.

May 2001

AbstractSlow inactivation determines the availability of voltage-gated sodium channels during prolon...

Modeling of Single Noninactivating Na+ Channels: Evidence for Two Open and Several Fast Inactivated States

The, Yu-Kai
Fernandes, Jacqueline
Popa, M. Oana
Alekov, Alexi K.
Timmer, Jens
Lerche, Holger

May 2006

AbstractVoltage-gated Na+ channels play a fundamental role in the excitability of nerve and muscle c...

A Single Residue Differentiates between Human Cardiac and Skeletal Muscle Na+ Channel Slow Inactivation

Vilin, Yuriy Y.
Fujimoto, Esther
Ruben, Peter C.

May 2001

AbstractSlow inactivation determines the availability of voltage-gated sodium channels during prolon...

Voltage-Dependent Sodium Channel Function Is Regulated Through Membrane Mechanics

Shcherbatko, Anatoly
Ono, Fumihito
Mandel, Gail
Brehm, Paul

October 1999

AbstractCut-open recordings from Xenopus oocytes expressing either nerve (PN1) or skeletal muscle (S...

Molecular motions of the outer ring of charge of the sodium channel: Do they couple to slow inactivation?

Li, RA
Tian, Y
Xiong, W
Tomaselli, GF

January 2003

In contrast to fast inactivation, the molecular basis of sodium (Na) channel slow inactivation is po...

Contributions of charged residues in a cytoplasmic linking region to Na channel gating

Miller, James R
Patel, Manoj K
John, James E
Mounsey, J.Paul
Moorman, J.Randall

December 2000

AbstractNa channels inactivate quickly after opening, and the very highly positively charged cytopla...

Charge Immobilization of Skeletal Muscle Na+ Channels: Role of Residues in the Inactivation Linker

Groome, James R.
Dice, Margaret C.
Fujimoto, Esther
Ruben, Peter C.

September 2007

AbstractWe investigated structural determinants of fast inactivation and deactivation in sodium chan...

Single-channel analysis of inactivation-defective rat skeletal muscle sodium channels containing the F1304Q mutation

Lawrence, J.H.
Orias, D.W.
Balser, J.R.
Nuss, H.B.
Tomaselli, G.F.
O'Rourke, B.
Marban, E.

September 1996

The intracellular linker between domains III and IV of the voltage-gated Na channel mediates fast in...

Interaction between the sodium channel inactivation linker and domain III S4-S5

Smith, M.R.
Goldin, A.L.

October 1997

The III-IV linker (L(III-IV)) of the rat brain sodium channel is critical for fast inactivation, pos...

Voltage-Dependent Sodium Channel Function Is Regulated Through Membrane Mechanics

Shcherbatko, Anatoly
Ono, Fumihito
Mandel, Gail
Brehm, Paul

October 1999

AbstractCut-open recordings from Xenopus oocytes expressing either nerve (PN1) or skeletal muscle (S...

A mutation in the pore of the sodium channel alters gating

Tomaselli, G.F.
Chiamvimonvat, N.
Nuss, H.B.
Balser, J.R.
Pérez-García, M.T.
Xu, R.H.
Orias, D.W.
Backx, P.H.
Marban, E.

May 1995

Ion permeation and channel gating are classically considered independent processes, but site-specifi...

Inactivation of cloned Na channels expressed in Xenopus oocytes

Krafte, Douglas S.
Goldin, Alan L.
Auld, Vanessa J.
Dunn, Robert J.
Davidson, Norman
Lester, Henry A.

October 1990

This study investigates the inactivation properties of Na channels expressed in Xenopus oocytes from...

Slow inactivation does not affect movement of the fast inactivation gate in voltage-gated Na+ channels.

Vedantham, V
Cannon, SC

January 1998

Voltage-gated Na+ channels exhibit two forms of inactivation, one form (fast inactivation) takes eff...

The Pore, not Cytoplasmic Domains, Underlies Inactivation in a Prokaryotic Sodium Channel

Pavlov, Evgeny
Bladen, Christopher
Winkfein, Robert
Diao, Catherine
Dhaliwal, Perry
French, Robert J.

July 2005

AbstractKinetics and voltage dependence of inactivation of a prokaryotic voltage-gated sodium channe...

A Point Mutation in Domain 4-Segment 6 of the Skeletal Muscle Sodium Channel Produces an Atypical Inactivation State

O’Reilly, John P.
Wang, Sho-Ya
Wang, Ging Kuo

February 2000

AbstractWe compared wild-type rat skeletal muscle NaChs (μ1) and a mutant NaCh (Y1586K) that has a s...

A Single Residue Differentiates between Human Cardiac and Skeletal Muscle Na+ Channel Slow Inactivation

Vilin, Yuriy Y.
Fujimoto, Esther
Ruben, Peter C.

May 2001

AbstractSlow inactivation determines the availability of voltage-gated sodium channels during prolon...

Modeling of Single Noninactivating Na+ Channels: Evidence for Two Open and Several Fast Inactivated States

The, Yu-Kai
Fernandes, Jacqueline
Popa, M. Oana
Alekov, Alexi K.
Timmer, Jens
Lerche, Holger

May 2006

AbstractVoltage-gated Na+ channels play a fundamental role in the excitability of nerve and muscle c...

A Single Residue Differentiates between Human Cardiac and Skeletal Muscle Na+ Channel Slow Inactivation

Vilin, Yuriy Y.
Fujimoto, Esther
Ruben, Peter C.

May 2001

AbstractSlow inactivation determines the availability of voltage-gated sodium channels during prolon...

Voltage-Dependent Sodium Channel Function Is Regulated Through Membrane Mechanics

Shcherbatko, Anatoly
Ono, Fumihito
Mandel, Gail
Brehm, Paul

October 1999

AbstractCut-open recordings from Xenopus oocytes expressing either nerve (PN1) or skeletal muscle (S...

Molecular motions of the outer ring of charge of the sodium channel: Do they couple to slow inactivation?

Li, RA
Tian, Y
Xiong, W
Tomaselli, GF

January 2003

In contrast to fast inactivation, the molecular basis of sodium (Na) channel slow inactivation is po...

Contributions of charged residues in a cytoplasmic linking region to Na channel gating

Abstract

Extracted data

Contributions of charged residues in a cytoplasmic linking region to Na channel gating

Abstract

Extracted data

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