Ion permeation in normal and batrachotoxin-modified Na+ channels in the squid giant axon.
about
A simple model for surface charge on ion channel proteinsIon conduction in substates of the batrachotoxin-modified Na+ channel from toad skeletal muscle.Barium modulates the gating of batrachotoxin-treated Na+ channels in high ionic strength solutions.Using large organic cations to probe the nature of ryanodine modification in the sheep cardiac sarcoplasmic reticulum calcium release channelDual actions of procainamide on batrachotoxin-activated sodium channels: open channel block and prevention of inactivationA sodium channel gating model based on single channel, macroscopic ionic, and gating currents in the squid giant axonModeling ion permeation through batrachotoxin-modified Na+ channels from rat skeletal muscle with a multi-ion pore.Dynamic ion-ion and water-ion interactions in ion channels.Gating kinetics of batrachotoxin-modified Na+ channels in the squid giant axon. Voltage and temperature effectsLipid surface charge does not influence conductance or calcium block of single sodium channels in planar bilayers.Permeation of Na+ through open and Zn(2+)-occupied conductance states of cardiac sodium channels modified by batrachotoxin: exploring ion-ion interactions in a multi-ion channelA multi-modal composition of the late Na+ current in human ventricular cardiomyocytesIdentification of new batrachotoxin-sensing residues in segment IIIS6 of the sodium channel.Alkaloid-modified sodium channels from lobster walking leg nerves in planar lipid bilayersIon permeation, divalent ion block, and chemical modification of single sodium channels. Description by single- and double-occupancy rate-theory models.Rectifying conductance substates in a large conductance Ca(2+)-activated K+ channel: evidence for a fluctuating barrier mechanism.Mechanisms of cation permeation in cardiac sodium channel: description by dynamic pore model.Proton block of rat brain sodium channels. Evidence for two proton binding sites and multiple occupancy.Nicotinic acetylcholine receptor channels are influenced by the physical state of their membrane environment.Inhibition of Sodium Ion Channel Function with Truncated Forms of Batrachotoxin.Amine blockers of the cytoplasmic mouth of sodium channels: a small structural change can abolish voltage dependence.Nicardipine-sensitive Na+-mediated single channel currents in guinea-pig sinoatrial node pacemaker cells.Ionic interactions in biological and physical systems: a variational treatment.delta-Atracotoxins from australian funnel-web spiders compete with scorpion alpha-toxin binding but differentially modulate alkaloid toxin activation of voltage-gated sodium channels.
P2860
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P2860
Ion permeation in normal and batrachotoxin-modified Na+ channels in the squid giant axon.
description
1991 nî lūn-bûn
@nan
1991年の論文
@ja
1991年学术文章
@wuu
1991年学术文章
@zh-cn
1991年学术文章
@zh-hans
1991年学术文章
@zh-my
1991年学术文章
@zh-sg
1991年學術文章
@yue
1991年學術文章
@zh
1991年學術文章
@zh-hant
name
Ion permeation in normal and batrachotoxin-modified Na+ channels in the squid giant axon.
@ast
Ion permeation in normal and batrachotoxin-modified Na+ channels in the squid giant axon.
@en
type
label
Ion permeation in normal and batrachotoxin-modified Na+ channels in the squid giant axon.
@ast
Ion permeation in normal and batrachotoxin-modified Na+ channels in the squid giant axon.
@en
prefLabel
Ion permeation in normal and batrachotoxin-modified Na+ channels in the squid giant axon.
@ast
Ion permeation in normal and batrachotoxin-modified Na+ channels in the squid giant axon.
@en
P2093
P2860
P356
P1476
Ion permeation in normal and batrachotoxin-modified Na+ channels in the squid giant axon.
@en
P2093
A M Correa
F Bezanilla
P2860
P304
P356
10.1085/JGP.97.3.605
P577
1991-03-01T00:00:00Z