Novel mutations in human and mouse SCN4A implicate AMPK in myotonia and periodic paralysis

Enhanced Slow Inactivation by V445M: A Sodium Channel Mutation Associated with Myotonia

Takahashi, Masanori P.
Cannon, Stephen C.

February 1999

AbstractOver 20 different missense mutations in the α subunit of the adult skeletal muscle Na channe...

Functional consequences of a domain 1/S6 segment sodium channel mutation associated with painful congenital myotonia

Wang, Dao W
VanDeCarr, Dorothy
Ruben, Peter C
George, Alfred L
Bennett, Paul B

April 1999

AbstractAn unusual form of painful congenital myotonia is associated with a novel SCN4A mutation cau...

Human skeletal muscle sodium channelopathies

G. Meola
B. Fontaine
D. Sternberg
S. Vicart

January 2005

Ion channels are transmembrane proteins that allow ions to flow in or out of the cell. Sodium and po...

Novel mutations in human and mouse SCN4A implicate AMPK in myotonia and periodic paralysis

Corrochano S.
Mannikko R.
Joyce P. I.
McGoldrick P.
Wettstein J.
Lassi G.
Rayan D. L. R.
Blanco G.
Quinn C.
Liavas A.
Lionikas A.
Amior N.
Dick J.
Healy E. G.
Stewart M.
Carter S.
Hutchinson M.
Bentley L.
Fratta P.
Cortese A.
Cox R.
Steve D.
Tucci V.
Wackerhage H.
Amato A. A.
Greensmith L.
Koltzenburg M.
Hanna M. G.
Acevedo-Arozena A.

January 2014

Mutations in the skeletal muscle channel (SCN4A), encoding the Nav1.4 voltage-gated sodium channel, ...

MRC Mammalian Genetics Unit,

Harwell Oxfordshire

October 2015

Mutations in the skeletal muscle channel (SCN4A), encoding the Nav1.4 voltage-gated sodium channel, ...

A novel dominant mutation of the Nav1.4 alpha-subunit domain I leading to sodium channel myotonia.

Petitprez, S.
Tiab, L.
Chen, L.
Kappeler, L.
Rösler, K.M.
Schorderet, D.
Abriel, H.
Burgunder, J.M.

January 2008

BACKGROUND: Mutations in SCN4A may lead to myotonia. METHODS: Presentation of a large family with my...

Mice with an Na V 1.4 sodium channel null allele have latent myasthenia, without susceptibility to periodic paralysis

Wu, Fenfen
Mi, Wentao
Fu, Yu
Struyk, Arie
Cannon, Stephen C

June 2016

Over 60 mutations of SCN4A encoding the NaV1.4 sodium channel of skeletal muscle have been identifie...

Loss-of-function mutations in SCN4A cause severe foetal hypokinesia or 'classical' congenital myopathy

Zaharieva, Irina T.
Thor, Michael G.
Oates, Emily C.
van Karnebeek, Clara
Hendson, Glenda
Blom, Eveline
Witting, Nanna
Rasmussen, Magnhild
Gabbett, Michael T.
Ravenscroft, Gianina
Sframeli, Maria
Suetterlin, Karen
Sarkozy, Anna
D'Argenzio, Luigi
Hartley, Louise
Matthews, Emma
Pitt, Matthew
Vissing, John
Ballegaard, Martin
Krarup, Christian
Slørdahl, Andreas
Halvorsen, Hanne
Ye, Xin Cynthia
Zhang, Lin-Hua
Løkken, Nicoline
Werlauff, Ulla
Abdelsayed, Mena
Davis, Mark R.
Feng, Lucy
Phadke, Rahul
Sewry, Caroline A.
Morgan, Jennifer E.
Laing, Nigel G.
Vallance, Hilary
Ruben, Peter
Hanna, Michael G.
Lewis, Suzanne
Kamsteeg, Erik-Jan
Männikkö, Roope
Muntoni, Francesco

January 2016

Dominant gain-of-function mutations in SCN4A, which encodes the alpha-subunit of the voltage-gated s...

New Challenges Resulting From the Loss of Function of Nav1.4 in Neuromuscular Diseases

Sophie Nicole
Sophie Nicole
Philippe Lory
Philippe Lory

October 2021

The voltage-gated sodium channel Nav1.4 is a major actor in the excitability of skeletal myofibers, ...

Novel pathomechanisms and disease associations of the voltage-gated sodium channel NaV1.4

Thor, Michael Gunnar

April 2019

Voltage-gated sodium channels initiate and shape the upstroke of the action potential, allowing fast...

A Novel Mutation in the SCN4A Gene in a Japanese Family with Paramyotonia Congenita

高橋, 悟
タカハシ, サトル
Takahashi, Satoru
山本, 志保
ヤマモト, シホ
Yamamoto, Shiho
田中, 亮介
タナカ, リョウスケ
Tanaka, Ryosuke
岡山, 亜貴恵
オカヤマ, アキエ
Okayama, Akie
荒木, 章子
アラキ, アキコ
Araki, Akiko
梶野, 浩樹
カジノ, ヒロキ
Kajino, Hiroki
東, 寛
アズマ, ヒロシ
Azuma, Hiroshi

September 2014

Paramyotoniacongenita is an autosomal-dominant muscle disease caused by missense mutations in SCN4A,...

Myasthenic congenital myopathy from recessive mutations at a single residue in NaV1.4.

Elia, Nathaniel
Palmio, Johanna
Castañeda, Marisol Sampedro
Shieh, Perry B
Quinonez, Marbella
Suominen, Tiina
Hanna, Michael G
Männikkö, Roope
Udd, Bjarne
Cannon, Stephen C

March 2019

ObjectiveTo identify the genetic and physiologic basis for recessive myasthenic congenital myopathy ...

Myasthenic congenital myopathy from recessive mutations at a single residue in NaV1.4

Elia, N
Palmio, J
Castañeda, MS
Shieh, PB
Quinonez, M
Suominen, T
Hanna, MG
Männikkö, R
Udd, B
Cannon, SC

March 2019

OBJECTIVE: To identify the genetic and physiologic basis for recessive myasthenic congenital myopath...

Sodium Channel Myotonia Due to Novel Mutations in Domain I of Nav1.4

S. Pagliarani
S. Lucchiari
M. Scarlato
E. Redaelli
A. Modoni
F. Magri
B. Fossati
S.C. Previtali
V.A. Sansone
M. Lecchi
M. Lo Monaco
G. Meola
G.P. Comi

April 2020

Sodium channel myotonia is a form of muscle channelopathy due to mutations that affect the Nav1.4 ch...

Substitutions of the S4DIV R2 residue (R1451) in NaV1.4 lead to complex forms of paramyotonia congenita and periodic paralyses

Poulin, Hugo
Gosselin-Badaroudine, Pascal
Vicart, Savine
Habbout, Karima
Sternberg, Damien
Giuliano, Serena
Fontaine, Bertrand
Bendahhou, Saïd
Nicole, Sophie
Chahine, Mohamed

January 2018

International audienceMutations in Na V 1.4, the skeletal muscle voltage-gated Na + channel, underli...

Enhanced Slow Inactivation by V445M: A Sodium Channel Mutation Associated with Myotonia

Takahashi, Masanori P.
Cannon, Stephen C.

February 1999

AbstractOver 20 different missense mutations in the α subunit of the adult skeletal muscle Na channe...

Functional consequences of a domain 1/S6 segment sodium channel mutation associated with painful congenital myotonia

Wang, Dao W
VanDeCarr, Dorothy
Ruben, Peter C
George, Alfred L
Bennett, Paul B

April 1999

AbstractAn unusual form of painful congenital myotonia is associated with a novel SCN4A mutation cau...

Human skeletal muscle sodium channelopathies

G. Meola
B. Fontaine
D. Sternberg
S. Vicart

January 2005

Ion channels are transmembrane proteins that allow ions to flow in or out of the cell. Sodium and po...

Novel mutations in human and mouse SCN4A implicate AMPK in myotonia and periodic paralysis

Corrochano S.
Mannikko R.
Joyce P. I.
McGoldrick P.
Wettstein J.
Lassi G.
Rayan D. L. R.
Blanco G.
Quinn C.
Liavas A.
Lionikas A.
Amior N.
Dick J.
Healy E. G.
Stewart M.
Carter S.
Hutchinson M.
Bentley L.
Fratta P.
Cortese A.
Cox R.
Steve D.
Tucci V.
Wackerhage H.
Amato A. A.
Greensmith L.
Koltzenburg M.
Hanna M. G.
Acevedo-Arozena A.

January 2014

Mutations in the skeletal muscle channel (SCN4A), encoding the Nav1.4 voltage-gated sodium channel, ...

MRC Mammalian Genetics Unit,

Harwell Oxfordshire

October 2015

Mutations in the skeletal muscle channel (SCN4A), encoding the Nav1.4 voltage-gated sodium channel, ...

A novel dominant mutation of the Nav1.4 alpha-subunit domain I leading to sodium channel myotonia.

Petitprez, S.
Tiab, L.
Chen, L.
Kappeler, L.
Rösler, K.M.
Schorderet, D.
Abriel, H.
Burgunder, J.M.

January 2008

BACKGROUND: Mutations in SCN4A may lead to myotonia. METHODS: Presentation of a large family with my...

Mice with an Na V 1.4 sodium channel null allele have latent myasthenia, without susceptibility to periodic paralysis

Wu, Fenfen
Mi, Wentao
Fu, Yu
Struyk, Arie
Cannon, Stephen C

June 2016

Over 60 mutations of SCN4A encoding the NaV1.4 sodium channel of skeletal muscle have been identifie...

Loss-of-function mutations in SCN4A cause severe foetal hypokinesia or 'classical' congenital myopathy

Zaharieva, Irina T.
Thor, Michael G.
Oates, Emily C.
van Karnebeek, Clara
Hendson, Glenda
Blom, Eveline
Witting, Nanna
Rasmussen, Magnhild
Gabbett, Michael T.
Ravenscroft, Gianina
Sframeli, Maria
Suetterlin, Karen
Sarkozy, Anna
D'Argenzio, Luigi
Hartley, Louise
Matthews, Emma
Pitt, Matthew
Vissing, John
Ballegaard, Martin
Krarup, Christian
Slørdahl, Andreas
Halvorsen, Hanne
Ye, Xin Cynthia
Zhang, Lin-Hua
Løkken, Nicoline
Werlauff, Ulla
Abdelsayed, Mena
Davis, Mark R.
Feng, Lucy
Phadke, Rahul
Sewry, Caroline A.
Morgan, Jennifer E.
Laing, Nigel G.
Vallance, Hilary
Ruben, Peter
Hanna, Michael G.
Lewis, Suzanne
Kamsteeg, Erik-Jan
Männikkö, Roope
Muntoni, Francesco

January 2016

Dominant gain-of-function mutations in SCN4A, which encodes the alpha-subunit of the voltage-gated s...

New Challenges Resulting From the Loss of Function of Nav1.4 in Neuromuscular Diseases

Sophie Nicole
Sophie Nicole
Philippe Lory
Philippe Lory

October 2021

The voltage-gated sodium channel Nav1.4 is a major actor in the excitability of skeletal myofibers, ...

Novel pathomechanisms and disease associations of the voltage-gated sodium channel NaV1.4

Thor, Michael Gunnar

April 2019

Voltage-gated sodium channels initiate and shape the upstroke of the action potential, allowing fast...

A Novel Mutation in the SCN4A Gene in a Japanese Family with Paramyotonia Congenita

高橋, 悟
タカハシ, サトル
Takahashi, Satoru
山本, 志保
ヤマモト, シホ
Yamamoto, Shiho
田中, 亮介
タナカ, リョウスケ
Tanaka, Ryosuke
岡山, 亜貴恵
オカヤマ, アキエ
Okayama, Akie
荒木, 章子
アラキ, アキコ
Araki, Akiko
梶野, 浩樹
カジノ, ヒロキ
Kajino, Hiroki
東, 寛
アズマ, ヒロシ
Azuma, Hiroshi

September 2014

Paramyotoniacongenita is an autosomal-dominant muscle disease caused by missense mutations in SCN4A,...

Myasthenic congenital myopathy from recessive mutations at a single residue in NaV1.4.

Elia, Nathaniel
Palmio, Johanna
Castañeda, Marisol Sampedro
Shieh, Perry B
Quinonez, Marbella
Suominen, Tiina
Hanna, Michael G
Männikkö, Roope
Udd, Bjarne
Cannon, Stephen C

March 2019

ObjectiveTo identify the genetic and physiologic basis for recessive myasthenic congenital myopathy ...

Myasthenic congenital myopathy from recessive mutations at a single residue in NaV1.4

Elia, N
Palmio, J
Castañeda, MS
Shieh, PB
Quinonez, M
Suominen, T
Hanna, MG
Männikkö, R
Udd, B
Cannon, SC

March 2019

OBJECTIVE: To identify the genetic and physiologic basis for recessive myasthenic congenital myopath...

Sodium Channel Myotonia Due to Novel Mutations in Domain I of Nav1.4

S. Pagliarani
S. Lucchiari
M. Scarlato
E. Redaelli
A. Modoni
F. Magri
B. Fossati
S.C. Previtali
V.A. Sansone
M. Lecchi
M. Lo Monaco
G. Meola
G.P. Comi

April 2020

Sodium channel myotonia is a form of muscle channelopathy due to mutations that affect the Nav1.4 ch...

Substitutions of the S4DIV R2 residue (R1451) in NaV1.4 lead to complex forms of paramyotonia congenita and periodic paralyses

Poulin, Hugo
Gosselin-Badaroudine, Pascal
Vicart, Savine
Habbout, Karima
Sternberg, Damien
Giuliano, Serena
Fontaine, Bertrand
Bendahhou, Saïd
Nicole, Sophie
Chahine, Mohamed

January 2018

International audienceMutations in Na V 1.4, the skeletal muscle voltage-gated Na + channel, underli...

Enhanced Slow Inactivation by V445M: A Sodium Channel Mutation Associated with Myotonia

Takahashi, Masanori P.
Cannon, Stephen C.

February 1999

AbstractOver 20 different missense mutations in the α subunit of the adult skeletal muscle Na channe...

Functional consequences of a domain 1/S6 segment sodium channel mutation associated with painful congenital myotonia

Wang, Dao W
VanDeCarr, Dorothy
Ruben, Peter C
George, Alfred L
Bennett, Paul B

April 1999

AbstractAn unusual form of painful congenital myotonia is associated with a novel SCN4A mutation cau...

Human skeletal muscle sodium channelopathies

G. Meola
B. Fontaine
D. Sternberg
S. Vicart

January 2005

Ion channels are transmembrane proteins that allow ions to flow in or out of the cell. Sodium and po...

Novel mutations in human and mouse SCN4A implicate AMPK in myotonia and periodic paralysis

Abstract

Extracted data

Novel mutations in human and mouse SCN4A implicate AMPK in myotonia and periodic paralysis

Abstract

Extracted data

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