Accessibility of mid-segment domain IV S6 residues of the voltage-gated Na+ channel to methanethiosulfonate reagents. - Wikidata - wikimedia - TriplyDB

Accessibility of mid-segment domain IV S6 residues of the voltage-gated Na+ channel to methanethiosulfonate reagents.

Accessibility of mid-segment domain IV S6 residues of the voltage-gated Na+ channel to methanethiosulfonate reagents.

http://www.wikidata.org/entity/Q40484843

about

Voltage-gated sodium channel-associated proteins and alternative mechanisms of inactivation and block A homology model of the pore domain of a voltage-gated calcium channel is consistent with available SCAM data.Tryptophan substitution of a putative D4S6 gating hinge alters slow inactivation in cardiac sodium channels.Molecular determinants of state-dependent block of voltage-gated sodium channels by pilsicainide.Important Role of Asparagines in Coupling the Pore and Votage-Sensor Domain in Voltage-Gated Sodium Channels.Multiple pore conformations driven by asynchronous movements of voltage sensors in a eukaryotic sodium channel The external pore loop interacts with S6 and S3-S4 linker in domain 4 to assume an essential role in gating control and anticonvulsant action in the Na(+) channel Using lidocaine and benzocaine to link sodium channel molecular conformations to state-dependent antiarrhythmic drug affinity.Evolutionarily conserved intracellular gate of voltage-dependent sodium channels.Charge at the lidocaine binding site residue Phe-1759 affects permeation in human cardiac voltage-gated sodium channels.Isoform-dependent interaction of voltage-gated sodium channels with protons.A molecular model of the inner pore of the Ca channel in its open state.Physiological and pharmacologic aspects of peripheral nerve blocks Inhibition of Sodium Ion Channel Function with Truncated Forms of Batrachotoxin.Congruent pattern of accessibility identifies minimal pore gate in a non-symmetric voltage-gated sodium channel Molecular basis for class Ib anti-arrhythmic inhibition of cardiac sodium channels.A point mutation at F1737 of the human Nav1.7 sodium channel decreases inhibition by local anesthetics.Gating of the kir2.1 channel at the bundle crossing region by intracellular spermine and other cations.

P2860

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P2860

Accessibility of mid-segment domain IV S6 residues of the voltage-gated Na+ channel to methanethiosulfonate reagents.

http://www.wikidata.org/entity/Q40484843

description

2004 nî lūn-bûn

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2004年の論文

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2004年学术文章

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2004年学术文章

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2004年学术文章

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2004年学术文章

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2004年学术文章

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2004年學術文章

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2004年學術文章

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2004年學術文章

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name

Accessibility of mid-segment d ...... methanethiosulfonate reagents.

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type

label

Accessibility of mid-segment d ...... methanethiosulfonate reagents.

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prefLabel

Accessibility of mid-segment d ...... methanethiosulfonate reagents.

@en

P1433

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P356

JPHYSIOL.2004.067579

P1433

The Journal of Physiology

P1476

Accessibility of mid-segment d ...... methanethiosulfonate reagents.

@en

P2093

Akihiko Sunami

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

Arlene Tracey

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Dorothy A Hanck

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Gregory M Lipkind

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Harry A Fozzard

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Ian W Glaaser

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P2860

The Structure of the Potassium Channel: Molecular Basis of K+ Conduction and Selectivity

X-ray structure of a voltage-dependent K+ channel

From ionic currents to molecular mechanisms: the structure and function of voltage-gated sodium channels

Empirical predictions of protein conformation

Interaction of batrachotoxin with the local anesthetic receptor site in transmembrane segment IVS6 of the voltage-gated sodium channel

Molecular determinants of drug access to the receptor site for antiarrhythmic drugs in the cardiac Na+ channel.

Batrachotoxin-resistant Na+ channels derived from point mutations in transmembrane segment D4-S6

Rapid and slow voltage-dependent conformational changes in segment IVS6 of voltage-gated Na(+) channels

Acetylcholine receptor channel structure probed in cysteine-substitution mutants.

Molecular determinants of high affinity binding of alpha-scorpion toxin and sea anemone toxin in the S3-S4 extracellular loop in domain IV of the Na+ channel alpha subunit.

P304

403-413

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scholarly article

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10.1113/JPHYSIOL.2004.067579

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Pt 2

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561

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2004-10-07T00:00:00Z

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