A C-terminal skeletal muscle sodium channel mutation associated with myotonia disrupts fast inactivation - Wikidata - awgldk - TriplyDB

A C-terminal skeletal muscle sodium channel mutation associated with myotonia disrupts fast inactivation

A C-terminal skeletal muscle sodium channel mutation associated with myotonia disrupts fast inactivation

http://www.wikidata.org/entity/Q24544300

about

Voltage-gated sodium channel-associated proteins and alternative mechanisms of inactivation and block Towards a Unified Theory of Calmodulin Regulation (Calmodulation) of Voltage-Gated Calcium and Sodium Channels Channelopathies of skeletal muscle excitability Mechanisms of a human skeletal myotonia produced by mutation in the C-terminus of NaV1.4: is Ca2+ regulation defective?The Na conductance in the sarcolemma and the transverse tubular system membranes of mammalian skeletal muscle fibers.Defective fast inactivation recovery of Nav 1.4 in congenital myasthenic syndrome.Calmodulin regulation of Nav1.4 current: role of binding to the carboxyl terminus.The dominant cold-sensitive Out-cold mutants of Drosophila melanogaster have novel missense mutations in the voltage-gated sodium channel gene paralytic Sodium channelopathies of skeletal muscle result from gain or loss of function.A rendezvous with the queen of ion channels: Three decades of ion channel research by David T Yue and his Calcium Signals Laboratory.Calmodulin and Ca(2+) control of voltage gated Na(+) channels.Skeletal muscle na channel disorders.Mechanisms underlying a life-threatening skeletal muscle Na+ channel disorder.Regulation of persistent Na current by interactions between beta subunits of voltage-gated Na channels.Open- and closed-state fast inactivation in sodium channels: differential effects of a site-3 anemone toxin.Conservation of Ca2+/calmodulin regulation across Na and Ca2+ channels.Gating behaviour of sodium currents in adult mouse muscle recorded with an improved two-electrode voltage clamp.An algorithm for candidate sequencing in non-dystrophic skeletal muscle channelopathies.Sodium Channelopathies of Skeletal Muscle.Dysfunction of NaV1.4, a skeletal muscle voltage-gated sodium channel, in sudden infant death syndrome: a case-control study.

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P2860

A C-terminal skeletal muscle sodium channel mutation associated with myotonia disrupts fast inactivation

http://www.wikidata.org/entity/Q24544300

description

2005 nî lūn-bûn

@nan

2005 թուականի Յունիսին հրատարակուած գիտական յօդուած

@hyw

2005 թվականի հունիսին հրատարակված գիտական հոդված

@hy

2005年の論文

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2005年論文

@yue

2005年論文

@zh-hant

2005年論文

@zh-hk

2005年論文

@zh-mo

2005年論文

@zh-tw

2005年论文

@wuu

name

A C-terminal skeletal muscle s ...... nia disrupts fast inactivation

@ast

A C-terminal skeletal muscle s ...... nia disrupts fast inactivation

@en

A C-terminal skeletal muscle s ...... nia disrupts fast inactivation

@nl

type

label

A C-terminal skeletal muscle s ...... nia disrupts fast inactivation

@ast

A C-terminal skeletal muscle s ...... nia disrupts fast inactivation

@en

A C-terminal skeletal muscle s ...... nia disrupts fast inactivation

@nl

prefLabel

A C-terminal skeletal muscle s ...... nia disrupts fast inactivation

@ast

A C-terminal skeletal muscle s ...... nia disrupts fast inactivation

@en

A C-terminal skeletal muscle s ...... nia disrupts fast inactivation

@nl

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P356

JPHYSIOL.2005.082909

P1433

The Journal of Physiology

P1476

A C-terminal skeletal muscle s ...... nia disrupts fast inactivation

@en

P2093

Eric P Hoffman

http://www.w3.org/2001/XMLSchema#string

Erynn Gordon

http://www.w3.org/2001/XMLSchema#string

Fen-fen Wu

http://www.w3.org/2001/XMLSchema#string

Stephen C Cannon

http://www.w3.org/2001/XMLSchema#string

P2860

A simple salting out procedure for extracting DNA from human nucleated cells

A novel epilepsy mutation in the sodium channel SCN1A identifies a cytoplasmic domain for beta subunit interaction

A common human SCN5A polymorphism modifies expression of an arrhythmia causing mutation.

Voltage-gated ion channels and hereditary disease.

Spectrum of sodium channel disturbances in the nondystrophic myotonias and periodic paralyses.

Role of the C-terminal domain in inactivation of brain and cardiac sodium channels

Enhanced slow inactivation by V445M: a sodium channel mutation associated with myotonia

The cloning and expression of a sodium channel beta 1-subunit cDNA from human brain.

Voltage-sensor sodium channel mutations cause hypokalemic periodic paralysis type 2 by enhanced inactivation and reduced current.

Sodium channel mutations in paramyotonia congenita exhibit similar biophysical phenotypes in vitro.

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371-80

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scholarly article

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10.1113/JPHYSIOL.2005.082909

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Pt 2

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565

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2005-06-01T00:00:00Z

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7959469

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15774523

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1464529

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