The multi-ion nature of the pore in Shaker K+ channels. - Wikidata - wikimedia - TriplyDB

The multi-ion nature of the pore in Shaker K+ channels.

The multi-ion nature of the pore in Shaker K+ channels.

http://www.wikidata.org/entity/Q34115437

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The pore-lining region of shaker voltage-gated potassium channels: comparison of beta-barrel and alpha-helix bundle models Contributions of a negatively charged residue in the hydrophobic domain of the IRK1 inwardly rectifying K+ channel to K(+)-selective permeation.Anomalous mole fraction effect induced by mutation of the H5 pore region in the Shaker K+ channel Orientation independence of single-vacancy and single-ion permeability ratios.Functional role of a conserved aspartate in the external mouth of voltage-gated potassium channels Anion competition for a volume-regulated current.Sticky ions in biological systems Unidirectional K+ fluxes through recombinant Shaker potassium channels expressed in single Xenopus oocytes.Adenosine triphosphate-dependent asymmetry of anion permeation in the cystic fibrosis transmembrane conductance regulator chloride channel.The interaction of Na+ and K+ in voltage-gated potassium channels. Evidence for cation binding sites of different affinity.Nonindependent K+ movement through the pore in IRK1 potassium channels.A marine snail neurotoxin shares with scorpion toxins a convergent mechanism of blockade on the pore of voltage-gated K channels.Affinity and location of an internal K+ ion binding site in shaker K channels Permeation properties of inward-rectifier potassium channels and their molecular determinants Selectivity changes during activation of mutant Shaker potassium channels.Tail end of the s6 segment: role in permeation in shaker potassium channels.A mutation in S6 of Shaker potassium channels decreases the K+ affinity of an ion binding site revealing ion-ion interactions in the pore.Mechanisms of cation permeation in cardiac sodium channel: description by dynamic pore model.Physical origin of selectivity in ionic channels of biological membranes.Ionic permeation and conduction properties of neuronal KCNQ2/KCNQ3 potassium channels.Regulation of transient Na+ conductance by intra- and extracellular K+ in the human delayed rectifier K+ channel Kv1.5.Functional expression of TrpC1: a human homologue of the Drosophila Trp channel.Voltage-dependent gating and gating charge measurements in the Kv1.2 potassium channel.Ion selectivity predictions from a two-site permeation model for the cyclic nucleotide-gated channel of retinal rod cells.Ion permeation and block of M-type and delayed rectifier potassium channels. Whole-cell recordings from bullfrog sympathetic neurons Role of the S6 C-terminus in KCNQ1 channel gating.

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P2860

The multi-ion nature of the pore in Shaker K+ channels.

http://www.wikidata.org/entity/Q34115437

description

1994 nî lūn-bûn

@nan

1994 թուականի Յունիսին հրատարակուած գիտական յօդուած

@hyw

1994 թվականի հունիսին հրատարակված գիտական հոդված

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1994年の論文

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1994年論文

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1994年論文

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1994年論文

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1994年論文

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1994年論文

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1994年论文

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name

The multi-ion nature of the pore in Shaker K+ channels.

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The multi-ion nature of the pore in Shaker K+ channels.

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The multi-ion nature of the pore in Shaker K+ channels.

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The multi-ion nature of the pore in Shaker K+ channels.

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The multi-ion nature of the pore in Shaker K+ channels.

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The multi-ion nature of the pore in Shaker K+ channels.

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The multi-ion nature of the pore in Shaker K+ channels.

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The multi-ion nature of the pore in Shaker K+ channels.

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The multi-ion nature of the pore in Shaker K+ channels.

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S0006-3495(94)80986-5

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Biophysical Journal

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The multi-ion nature of the pore in Shaker K+ channels.

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P2860

The effect of sodium ions on the electrical activity of the giant axon of the squid

POTENTIAL, IMPEDANCE, AND RECTIFICATION IN MEMBRANES

An SS1-SS2 beta-barrel structure for the voltage-activated potassium channel.

Atomic scale structure and functional models of voltage-gated potassium channels.

Is a beta-barrel model of the K+ channel energetically feasible?

Interpretation of biological ion channel flux data--reaction-rate versus continuum theory.

Conduction properties of the cloned Shaker K+ channel.

Constant fields and constant gradients in open ionic channels.

A single nonpolar residue in the deep pore of related K+ channels acts as a K+:Rb+ conductance switch

The internal quaternary ammonium receptor site of Shaker potassium channels.

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1929-1938

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10.1016/S0006-3495(94)80986-5

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