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Inward rectifiers and their regulation by endogenous polyaminesReconstruction of the electrical activity of cardiac Purkinje fibresA modification of the Hodgkin--Huxley equations applicable to Purkinje fibre action and pace-maker potentialsThe kinetics and rectifier properties of the slow potassium current in cardiac Purkinje fibresOutward membrane currents activated in the plateau range of potentials in cardiac Purkinje fibresThe surprising heart: a review of recent progress in cardiac electrophysiologyA theory of biological relativity: no privileged level of causationEffect of lidocaine hydrochloride on membrane conductance in mammalian cardiac Purkinje fibers.Inward rectifier K+-channel kinetics from analysis of the complex conductance of Aplysia neuronal membrane.Internal and external K+ help gate the inward rectifier.Cholesterol sensitivity of KIR2.1 is controlled by a belt of residues around the cytosolic pore.Steady state current noise from the intrinsic gating of inward rectifier channels.THE EFFECT OF ACETYLCHOLINE AND POTASSIUM ON REPOLARIZATION OF THE HEART.Regional variation of the inwardly rectifying potassium current in the canine heart and the contributions to differences in action potential repolarizationHydrogen Sulfide Targets the Cys320/Cys529 Motif in Kv4.2 to Inhibit the Ito Potassium Channels in Cardiomyocytes and Regularizes Fatal Arrhythmia in Myocardial Infarction.INFLUENCE OF LITHIUM IONS ON THE TRANSMEMBRANE POTENTIAL AND CATION CONTENT OF CARDIAC CELLSDistant cytosolic residues mediate a two-way molecular switch that controls the modulation of inwardly rectifying potassium (Kir) channels by cholesterol and phosphatidylinositol 4,5-bisphosphate (PI(4,5)P(2)).Two components of the cardiac action potential. I. Voltage-time course and the effect of acetylcholine on atrial and nodal cells of the rabbit heartIntelligently deciphering unintelligible designs: algorithmic algebraic model checking in systems biologyCardiac strong inward rectifier potassium channels.Serotonin increases an anomalously rectifying K+ current in the Aplysia neuron R15Modeling the urinary tract-computational, physical, and biological methods.Update on the implication of potassium channels in autism: K(+) channelautism spectrum disorder.Time-dependent outward currents through the inward rectifier potassium channel IRK1. The role of weak blocking molecules.A theoretical study on the sucrose gap technique as applied to multicellular muscle preparations. II. Methodical errors in the determination of outward currentsA theoretical study on the sucrose gap technique as applied to multicellular muscle preparations. III. Methodical errors in the determination of inward currents.EFFECT OF CURRENT ON TRANSMEMBRANE POTENTIALS IN CULTURED CHICK HEART CELLS.The voltage dependence of the cardiac membrane conductance.Influence of the sodium pump on intercellular communication in heart fibres: effect of intracellular injection of sodium ion on electrical coupling.IK1 and cardiac hypoxia: after the long and short QT syndromes, what else can go wrong with the inward rectifier K+ currents?Ionic mechanisms of electrophysiological properties and repolarization abnormalities in rabbit Purkinje fibers.Characterization of the slowly inactivating sodium current INa2 in canine cardiac single Purkinje cells.How the Hodgkin-Huxley equations inspired the Cardiac Physiome Project.From the Hodgkin-Huxley axon to the virtual heart.Mechanism of slow discharges of sheep carotid artery.Analyzing Gene Expression Imaging Data in Developmental Biology
P2860
Q26865121-31EB75B4-34B4-49E4-A78B-16F68BC65601Q28202575-8DF26614-A564-47D3-ACDC-43F5139F3968Q28203675-FDFD8FCE-02EE-499B-8DAC-EE1D97EC7472Q28254415-B2760B65-2EDF-4119-9A2D-D6032ED7F2FAQ28255648-A36D92BC-4025-4D10-B713-51998B0D8B74Q28259518-CA1F058A-D436-409F-88FF-B78E058321EEQ28285040-23D2497C-151A-4A2F-B25F-3692CC42E255Q34073997-DE72E038-68B5-4B1C-81A1-5BD0873D0B41Q34260276-42F1FF4B-5D65-4DD4-B51A-BCD0B9A32642Q34261156-38184608-92E3-4DDA-BEA5-2BDF49B0B17DQ34494367-46564591-B6E5-4A83-9F66-16B17BB1EE33Q34535036-CD52D2D0-3C91-46B4-A74E-CE61E5EB4AE0Q35569740-DB16D89B-4B70-4FF9-BCBF-CCBBC6029E0EQ35744240-D372CA33-C7F6-47BC-8883-E019D13C732FQ35821889-2B31A33E-6ED1-46BE-9AF1-52141D794377Q36374613-52281883-2C46-4F54-9BA9-5671C2614237Q36418792-12C73782-B4A1-42FE-B1AE-C3CB88A78B0AQ36428198-82F6F618-8399-4A97-8063-2271CEB1738FQ37226857-6EF11ED4-0D7C-4722-8193-0C88A7F18511Q37585689-62C24767-74A0-4B08-9FA2-CF6E61D9CCDDQ37614334-D32A8477-40EA-467C-A422-A3F2D478CA2AQ37887646-D6B1B477-F128-4849-A7CB-036E7C5DFF52Q38382507-112E3060-404F-44FC-94B1-5E9B3BBCF30DQ39458210-88438A44-6515-4FBE-B620-365865032E0FQ41066431-FC81E6CE-6100-4970-B403-B45FEA69877BQ41131526-1016AABB-E05D-4151-B25F-5863277EF01CQ41834194-B844CE1C-32F3-4EF6-86B7-65408B75D8ECQ41866628-F9238BE0-3D56-484E-9663-2447EE218EF5Q41897852-92FDE6DD-1E8B-4A3F-840B-D5A656EEADBBQ42557038-6978B6FE-900E-446A-9B21-4712F373F281Q43777125-159F0679-3FA2-458C-88E9-C3655552C83DQ46907212-DBBF4857-DAFF-4BC0-97AC-8F8A6DEEFFF8Q48459276-160C9C5E-ECCB-40CF-A1C5-4A242535038BQ51931952-F22C88FE-D74C-4C05-8010-C3F4D3A8E704Q52705678-65B1EE25-84B2-4881-A843-7C5287AD6F6BQ58054758-21168117-0089-45ED-8EC2-D674BEB557A5
P2860
description
1960 nî lūn-bûn
@nan
1960 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1960 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1960年の論文
@ja
1960年論文
@yue
1960年論文
@zh-hant
1960年論文
@zh-hk
1960年論文
@zh-mo
1960年論文
@zh-tw
1960年论文
@wuu
name
Rectifying Properties of Heart Muscle
@ast
Rectifying Properties of Heart Muscle
@en
Rectifying properties of heart muscle
@nl
type
label
Rectifying Properties of Heart Muscle
@ast
Rectifying Properties of Heart Muscle
@en
Rectifying properties of heart muscle
@nl
altLabel
Rectifying properties of heart muscle
@en
prefLabel
Rectifying Properties of Heart Muscle
@ast
Rectifying Properties of Heart Muscle
@en
Rectifying properties of heart muscle
@nl
P356
P1433
P1476
Rectifying Properties of Heart Muscle
@en
P2093
O. F. HUTTER
P2888
P356
10.1038/188495A0
P407
P577
1960-11-05T00:00:00Z
P6179
1017012211