KCNQ4, a Novel Potassium Channel Expressed in Sensory Outer Hair Cells, Is Mutated in Dominant Deafness

Vestibular Role of KCNQ4 and KCNQ5 K+ Channels Revealed by Mouse Models

Spitzmaul, Guillermo
Tolosa, Leonardo
Winkelman, Beerend H. J.
Heidenreich, Matthias
Frens, Maarten A.
Chabbert, Christian
de Zeeuw, Chris I.
Jentsch, Thomas

January 2013

The function of sensory hair cells of the cochlea and vestibular organs depends on an influx of K+ t...

Inner Hair Cell and Neuron Degeneration Contribute to Hearing Loss in a DFNA2-Like Mouse Model

Carignano, Camila
Barila, Esteban Pablo
Rías, Ezequiel Ignacio
Dionisio, Leonardo Raul
Aztiria, Eugenio Manuel
Spitzmaul, Guillermo Federico

July 2019

DFNA2 is a progressive deafness caused by mutations in the voltage-activated potassium channel KCNQ4...

Novel KCNQ4 variants in different functional domains confer genotype- and mechanism-based therapeutics in patients with nonsyndromic hearing loss

지헌영

July 2021

Loss-of-function variant in the gene encoding the KCNQ4 potassium channel causes autosomal dominant ...

KCNQ4, a novel potassium channel expressed in sensory outer hair cells, is mutated in dominant deafness

Kubisch, C.
Schroeder, B.C.
Friedrich, T.
Luetjohann, B.
El-Amraoui, A.
Marlin, S.
Petit, C.
Jentsch, T.J.

February 1999

Potassium channels regulate electrical signaling and the ionic composition of biological fluids. Mut...

KCNQ4, a Novel Potassium Channel Expressed in Sensory Outer Hair Cells, Is Mutated in Dominant Deafness

Kubisch, Christian
Schroeder, Björn C
Friedrich, Thomas
Lütjohann, Björn
El-Amraoui, Aziz
Marlin, Sandrine
Petit, Christine
Jentsch, Thomas J

February 1999

AbstractPotassium channels regulate electrical signaling and the ionic composition of biological flu...

KCNQ4, a K+ channel mutated in a form of dominant deafness, is expressed in the inner ear and the central auditory pathway

Kharkovets, T.
Hardelin, J.P.
Safieddine, S.
Schweizer, M.
El-Amraoui, A.
Petit, C.
Jentsch, T.J.

April 2000

Mutations in the potassium channel gene KCNQ4 underlie DFNA2, an autosomal dominant form of progress...

Mice with altered KCNQ4 K+ channels implicate sensory outer hair cells in human progressive deafness

Kharkovets, T.
Dedek, K.
Maier, H.
Schweizer, M.
Khimich, D.
Nouvian, R.
Vardanyan, V.
Leuwer, R.
Moser, T.
Jentsch, T.J.

February 2006

KCNQ4 is an M-type K+ channel expressed in sensory hair cells of the inner ear and in the central au...

Impaired surface expression and conductance of the KCNQ4 channel lead to sensorineural hearing loss

Yanhong Gao A
Sergey Yechikov A
Ana E. Vazquez A
Dongyang Chen A
Liping Nie A

January 2013

KCNQ4, a voltage-gated potassium channel, plays an important role in maintaining cochlear ion homoeo...

Rare KCNQ4 variants found in public databases underlie impaired channel activity that may contribute to hearing impairment

이민구
정진세
지헌영
최재영
김혜연

January 2019

KCNQ4 is frequently mutated in autosomal dominant non-syndromic hearing loss (NSHL), a typically lat...

Whole-exome sequencing identifies two novel mutations in KCNQ4 in individuals with nonsyndromic hearing loss

Jinsei Jung
Hyun Been Choi
Young Ik Koh
John Hoon Rim
Hye Ji Choi
Sung Huhn Kim
Jae Hyun Lee
Jieun An
Ami Kim
Joon Suk Lee
Sun Young Joo
Seyoung Yu
Jae Young Choi
Tong Mook Kang
Heon Yung Gee

November 2018

Abstract Mutations in potassium voltage-gated channel subfamily Q member 4 (KCNQ4) are etiologically...

KCNQ4 K(+) channels tune mechanoreceptors for normal touch sensation in mouse and man

Heidenreich, M.
Lechner, S.G.
Vardanyan, V.
Wetzel, C.
Cremers, C.W.
De Leenheer, E.M.
Aranguez, G.
Moreno-Pelayo, M.A.
Jentsch, T.J.
Lewin, G.R.

January 2012

Mutations inactivating the potassium channel KCNQ4 (K(v)7.4) lead to deafness in humans and mice. In...

KCNQ4 K(+) channels tune mechanoreceptors for normal touch sensation in mouse and man.

Heidenreich, M.
Lechner, S.G.
Vardanyan, V.
Wetzel, C.
Cremers, C.W.R.J.
Leenheer, E. de
Aranguez, G.
Moreno-Pelayo, M.A.
Jentsch, T.J.
Lewin, G.R.

January 2011

Item does not contain fulltextMutations inactivating the potassium channel KCNQ4 (K(v)7.4) lead to d...

Vestibular role of KCNQ4 and KCNQ5 K+ channels revealed by mouse models

Spitzmaul, G. (Guillermo)
Tolosa, L. (Leonardo)
Winkelman, B.H.J. (Beerend)
Heidenreich, M. (Matthias)
Frens, M.A. (Maarten)
Chabbert, C. (Christian)
Zeeuw, C.I. (Chris) de
Jentsch, T.J. (Thomas)

March 2013

The function of sensory hair cells of the cochlea and vestibular organs depends on an influx of K+ t...

KCNQ4 K⁺ channels tune mechanoreceptors for normal touch sensation in mouse and man

Heidenreich, Matthias
Lechner, Stefan G
Vardanyan, Vitya
Wetzel, Christiane
Cremers, Cor W
De Leenheer, Els
Aránguez, Gracia
Moreno-Pelayo, Miguel Ángel
Jentsch, Thomas J
Lewin, Gary R

January 2011

Mutations inactivating the potassium channel KCNQ4 (K(v)7.4) lead to deafness in humans and mice. In...

A recurrent mutation in KCNQ4 in Korean families with nonsyndromic hearing loss and rescue of the channel activity by KCNQ activators

신동훈
이민구
정진세
지헌영
최재영

January 2019

Mutations in potassium voltage-gated channel subfamily Q member 4 (KCNQ4) are etiologically linked t...

Vestibular Role of KCNQ4 and KCNQ5 K+ Channels Revealed by Mouse Models

Spitzmaul, Guillermo
Tolosa, Leonardo
Winkelman, Beerend H. J.
Heidenreich, Matthias
Frens, Maarten A.
Chabbert, Christian
de Zeeuw, Chris I.
Jentsch, Thomas

January 2013

The function of sensory hair cells of the cochlea and vestibular organs depends on an influx of K+ t...

Inner Hair Cell and Neuron Degeneration Contribute to Hearing Loss in a DFNA2-Like Mouse Model

Carignano, Camila
Barila, Esteban Pablo
Rías, Ezequiel Ignacio
Dionisio, Leonardo Raul
Aztiria, Eugenio Manuel
Spitzmaul, Guillermo Federico

July 2019

DFNA2 is a progressive deafness caused by mutations in the voltage-activated potassium channel KCNQ4...

Novel KCNQ4 variants in different functional domains confer genotype- and mechanism-based therapeutics in patients with nonsyndromic hearing loss

지헌영

July 2021

Loss-of-function variant in the gene encoding the KCNQ4 potassium channel causes autosomal dominant ...

KCNQ4, a novel potassium channel expressed in sensory outer hair cells, is mutated in dominant deafness

Kubisch, C.
Schroeder, B.C.
Friedrich, T.
Luetjohann, B.
El-Amraoui, A.
Marlin, S.
Petit, C.
Jentsch, T.J.

February 1999

Potassium channels regulate electrical signaling and the ionic composition of biological fluids. Mut...

KCNQ4, a Novel Potassium Channel Expressed in Sensory Outer Hair Cells, Is Mutated in Dominant Deafness

Kubisch, Christian
Schroeder, Björn C
Friedrich, Thomas
Lütjohann, Björn
El-Amraoui, Aziz
Marlin, Sandrine
Petit, Christine
Jentsch, Thomas J

February 1999

AbstractPotassium channels regulate electrical signaling and the ionic composition of biological flu...

KCNQ4, a K+ channel mutated in a form of dominant deafness, is expressed in the inner ear and the central auditory pathway

Kharkovets, T.
Hardelin, J.P.
Safieddine, S.
Schweizer, M.
El-Amraoui, A.
Petit, C.
Jentsch, T.J.

April 2000

Mutations in the potassium channel gene KCNQ4 underlie DFNA2, an autosomal dominant form of progress...

Mice with altered KCNQ4 K+ channels implicate sensory outer hair cells in human progressive deafness

Kharkovets, T.
Dedek, K.
Maier, H.
Schweizer, M.
Khimich, D.
Nouvian, R.
Vardanyan, V.
Leuwer, R.
Moser, T.
Jentsch, T.J.

February 2006

KCNQ4 is an M-type K+ channel expressed in sensory hair cells of the inner ear and in the central au...

Impaired surface expression and conductance of the KCNQ4 channel lead to sensorineural hearing loss

Yanhong Gao A
Sergey Yechikov A
Ana E. Vazquez A
Dongyang Chen A
Liping Nie A

January 2013

KCNQ4, a voltage-gated potassium channel, plays an important role in maintaining cochlear ion homoeo...

Rare KCNQ4 variants found in public databases underlie impaired channel activity that may contribute to hearing impairment

이민구
정진세
지헌영
최재영
김혜연

January 2019

KCNQ4 is frequently mutated in autosomal dominant non-syndromic hearing loss (NSHL), a typically lat...

Whole-exome sequencing identifies two novel mutations in KCNQ4 in individuals with nonsyndromic hearing loss

Jinsei Jung
Hyun Been Choi
Young Ik Koh
John Hoon Rim
Hye Ji Choi
Sung Huhn Kim
Jae Hyun Lee
Jieun An
Ami Kim
Joon Suk Lee
Sun Young Joo
Seyoung Yu
Jae Young Choi
Tong Mook Kang
Heon Yung Gee

November 2018

Abstract Mutations in potassium voltage-gated channel subfamily Q member 4 (KCNQ4) are etiologically...

KCNQ4 K(+) channels tune mechanoreceptors for normal touch sensation in mouse and man

Heidenreich, M.
Lechner, S.G.
Vardanyan, V.
Wetzel, C.
Cremers, C.W.
De Leenheer, E.M.
Aranguez, G.
Moreno-Pelayo, M.A.
Jentsch, T.J.
Lewin, G.R.

January 2012

Mutations inactivating the potassium channel KCNQ4 (K(v)7.4) lead to deafness in humans and mice. In...

KCNQ4 K(+) channels tune mechanoreceptors for normal touch sensation in mouse and man.

Heidenreich, M.
Lechner, S.G.
Vardanyan, V.
Wetzel, C.
Cremers, C.W.R.J.
Leenheer, E. de
Aranguez, G.
Moreno-Pelayo, M.A.
Jentsch, T.J.
Lewin, G.R.

January 2011

Item does not contain fulltextMutations inactivating the potassium channel KCNQ4 (K(v)7.4) lead to d...

Vestibular role of KCNQ4 and KCNQ5 K+ channels revealed by mouse models

Spitzmaul, G. (Guillermo)
Tolosa, L. (Leonardo)
Winkelman, B.H.J. (Beerend)
Heidenreich, M. (Matthias)
Frens, M.A. (Maarten)
Chabbert, C. (Christian)
Zeeuw, C.I. (Chris) de
Jentsch, T.J. (Thomas)

March 2013

The function of sensory hair cells of the cochlea and vestibular organs depends on an influx of K+ t...

KCNQ4 K⁺ channels tune mechanoreceptors for normal touch sensation in mouse and man

Heidenreich, Matthias
Lechner, Stefan G
Vardanyan, Vitya
Wetzel, Christiane
Cremers, Cor W
De Leenheer, Els
Aránguez, Gracia
Moreno-Pelayo, Miguel Ángel
Jentsch, Thomas J
Lewin, Gary R

January 2011

Mutations inactivating the potassium channel KCNQ4 (K(v)7.4) lead to deafness in humans and mice. In...

A recurrent mutation in KCNQ4 in Korean families with nonsyndromic hearing loss and rescue of the channel activity by KCNQ activators

신동훈
이민구
정진세
지헌영
최재영

January 2019

Mutations in potassium voltage-gated channel subfamily Q member 4 (KCNQ4) are etiologically linked t...

Vestibular Role of KCNQ4 and KCNQ5 K+ Channels Revealed by Mouse Models

Spitzmaul, Guillermo
Tolosa, Leonardo
Winkelman, Beerend H. J.
Heidenreich, Matthias
Frens, Maarten A.
Chabbert, Christian
de Zeeuw, Chris I.
Jentsch, Thomas

January 2013

The function of sensory hair cells of the cochlea and vestibular organs depends on an influx of K+ t...

Inner Hair Cell and Neuron Degeneration Contribute to Hearing Loss in a DFNA2-Like Mouse Model

Carignano, Camila
Barila, Esteban Pablo
Rías, Ezequiel Ignacio
Dionisio, Leonardo Raul
Aztiria, Eugenio Manuel
Spitzmaul, Guillermo Federico

July 2019

DFNA2 is a progressive deafness caused by mutations in the voltage-activated potassium channel KCNQ4...

Novel KCNQ4 variants in different functional domains confer genotype- and mechanism-based therapeutics in patients with nonsyndromic hearing loss

지헌영

July 2021

Loss-of-function variant in the gene encoding the KCNQ4 potassium channel causes autosomal dominant ...

KCNQ4, a Novel Potassium Channel Expressed in Sensory Outer Hair Cells, Is Mutated in Dominant Deafness

Abstract

Extracted data

KCNQ4, a Novel Potassium Channel Expressed in Sensory Outer Hair Cells, Is Mutated in Dominant Deafness

Abstract

Extracted data

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