Single-channel characteristics of wild-type IKs channels and channels formed with two minK mutants that cause long QT syndrome. - Wikidata - wikimedia - TriplyDB

Single-channel characteristics of wild-type IKs channels and channels formed with two minK mutants that cause long QT syndrome.

Single-channel characteristics of wild-type IKs channels and channels formed with two minK mutants that cause long QT syndrome.

http://www.wikidata.org/entity/Q36436190

about

KCNE5 induces time- and voltage-dependent modulation of the KCNQ1 current.Regulation of the Kv2.1 potassium channel by MinK and MiRP1 Intracellular domains interactions and gated motions of I(KS) potassium channel subunits A carboxy-terminal domain determines the subunit specificity of KCNQ K+ channel assembly.Interaction of KCNE subunits with the KCNQ1 K+ channel pore Dynamic partnership between KCNQ1 and KCNE1 and influence on cardiac IKs current amplitude by KCNE2 The KCNQ1 channel - remarkable flexibility in gating allows for functional versatility Driving with no brakes: molecular pathophysiology of Kv7 potassium channels KCNQ1 channel modulation by KCNE proteins via the voltage-sensing domain Individual IKs channels at the surface of mammalian cells contain two KCNE1 accessory subunits.KCNE1 and KCNE3 stabilize and/or slow voltage sensing S4 segment of KCNQ1 channel KCNE2 and the K (+) channel: the tail wagging the dog IKs channels open slowly because KCNE1 accessory subunits slow the movement of S4 voltage sensors in KCNQ1 pore-forming subunits KCNE1 alters the voltage sensor movements necessary to open the KCNQ1 channel gate Two open states and rate-limiting gating steps revealed by intracellular Na+ block of human KCNQ1 and KCNQ1/KCNE1 K+ channels Evidence for KCNQ1 K+ channel expression in rat zymogen granule membranes and involvement in cholecystokinin-induced pancreatic acinar secretion Conformational changes of an ion-channel during gating and emerging electrophysiologic properties: Application of a computational approach to cardiac Kv7.1.Characterization of KCNQ1 atrial fibrillation mutations reveals distinct dependence on KCNE1.Alternative translation initiation in rat brain yields K2P2.1 potassium channels permeable to sodium Discovery of a novel activator of KCNQ1-KCNE1 K channel complexes.Functional interactions between KCNE1 C-terminus and the KCNQ1 channel.KCNE1 divides the voltage sensor movement in KCNQ1/KCNE1 channels into two steps N-terminal arginines modulate plasma-membrane localization of Kv7.1/KCNE1 channel complexes.The membrane protein MiRP3 regulates Kv4.2 channels in a KChIP-dependent manner.MinK endows the I(Ks) potassium channel pore with sensitivity to internal tetraethylammonium Pore- and state-dependent cadmium block of I(Ks) channels formed with MinK-55C and wild-type KCNQ1 subunits Voltage-gated proton channels.The KCNQ1 potassium channel: from gene to physiological function.Monogenic atrial fibrillation as pathophysiological paradigms.Genetic disorders of neuromuscular ion channels.Probing binding sites and mechanisms of action of an I(Ks) activator by computations and experiments.LQT1 mutations in KCNQ1 C-terminus assembly domain suppress IKs using different mechanisms.KCNE1 enhances phosphatidylinositol 4,5-bisphosphate (PIP2) sensitivity of IKs to modulate channel activity.The fast and slow ups and downs of HCN channel regulation.Domain-domain interactions determine the gating, permeation, pharmacology, and subunit modulation of the IKs ion channel Partial restoration of the long QT syndrome associated KCNQ1 A341V mutant by the KCNE1 β-subunit A multiscale investigation of repolarization variability and its role in cardiac arrhythmogenesis.Human CLC-K Channels Require Palmitoylation of Their Accessory Subunit Barttin to Be Functional Tryptophan Scanning Mutagenesis Identifies the Molecular Determinants of Distinct Barttin Functions.Regulation of Voltage-Activated K(+) Channel Gating by Transmembrane β Subunits.

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Single-channel characteristics of wild-type IKs channels and channels formed with two minK mutants that cause long QT syndrome.

http://www.wikidata.org/entity/Q36436190

description

1998 nî lūn-bûn

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1998年の論文

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1998年学术文章

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1998年学术文章

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1998年学术文章

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1998年学术文章

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1998年学术文章

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1998年學術文章

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1998年學術文章

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1998年學術文章

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name

Single-channel characteristics ...... s that cause long QT syndrome.

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Single-channel characteristics ...... s that cause long QT syndrome.

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type

label

Single-channel characteristics ...... s that cause long QT syndrome.

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Single-channel characteristics ...... s that cause long QT syndrome.

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prefLabel

Single-channel characteristics ...... s that cause long QT syndrome.

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Single-channel characteristics ...... s that cause long QT syndrome.

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The Journal of General Physiology

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Single-channel characteristics ...... s that cause long QT syndrome.

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F Sesti

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S A Goldstein

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P2860

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

Positional cloning of a novel potassium channel gene: KVLQT1 mutations cause cardiac arrhythmias

A mechanistic link between an inherited and an acquired cardiac arrhythmia: HERG encodes the IKr potassium channel

Coassembly of K(V)LQT1 and minK (IsK) proteins to form cardiac I(Ks) potassium channel

Mutations in the hminK gene cause long QT syndrome and suppress IKs function

KCNE1 mutations cause jervell and Lange-Nielsen syndrome

Mutation of the gene for IsK associated with both Jervell and Lange-Nielsen and Romano-Ward forms of Long-QT syndrome

The conduction pore of a cardiac potassium channel

Determination of the subunit stoichiometry of a voltage-activated potassium channel

Cloning of a membrane protein that induces a slow voltage-gated potassium current

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651-663

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scholarly article

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10.1085/JGP.112.6.651

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6

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112

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9834138

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