about
Active transport of cations in giant axons from Sepia and LoligoMeasurement of current-voltage relations in the membrane of the giant axon of LoligoModelle der NervenerregungThe electrical activity of single muscle fibersThe role of giant axons in studies of the nerve impulseDirect determination of membrane resting potential and action potential in single myelinated nerve fibersThe resting membrane potential of frog sartorius muscleA brief historical perspective: Hodgkin and HuxleyQuantitative biology of single neuronsA modification of the Hodgkin--Huxley equations applicable to Purkinje fibre action and pace-maker potentialsThe effect of temperature on the electrical activity of the giant axon of the squidMembrane channel gene expression in human costal and articular chondrocytesPhilosophy of voltage-gated proton channelsGold Nanoparticles for Modulating Neuronal BehaviorCircuit models and experimental noise measurements of micropipette amplifiers for extracellular neural recordings from live animals.Analysis of the selectivity filter of the voltage-gated sodium channel Na(v)RhInput-dependent subcellular localization of spike initiation between soma and axon at cortical pyramidal neurons.How ion channels sense membrane potentialAquatic animals in biomedical research.The advance of electrical models for cells and axons.A perspective on the value of aquatic models in biomedical research.Spatial patterns of threadlike elements in the axoplasm of the giant nerve fiber of the squid (Loligo pealii L.) as disclosed by differential interference microscopy and by electron microscopy.Electrical phenomena in nerve; crab nerveBioelectric effects of ions microinjected into the giant axon of Loligo.Initiation and abolition of the action potential of a single node of RanvierThe effects of hydrostatic pressure upon the normal and narcotized nerve fiberThe effect of changes of environment on the electrical and ionic pattern of muscle.Resting and action potentials of the squid giant axon in vivoThe efflux of potassium from electroplaques of electric eels.The ionic mechanisms of hyperpolarizing responses in lobster muscle fibersRoles of specific Kv channel types in repolarization of the action potential in genetically identified subclasses of pyramidal neurons in mouse neocortexNeuroselective measure of the current perception threshold of A-delta and C-fiber afferents in the lower urinary tract.Balancing calcium signals through TRPC5 and TRPC6 in podocytes.Voltage-Gated Potassium Channels: A Structural Examination of Selectivity and Gating.Action potentials in primary osteoblasts and in the MG-63 osteoblast-like cell line.A symbolic/subsymbolic interface protocol for cognitive modelingKinetics of excitable membranes. Voltage amplification in a diffusion regime.The glass micropipette electrode: A history of its inventors and users to 1950.A gating model for the archeal voltage-dependent K(+) channel KvAP in DPhPC and POPE:POPG decane lipid bilayers.A generalized Leaky Integrate-and-Fire neuron model with fast implementation method.
P2860
Q22337071-0932CFB6-E671-4F91-B952-5E08014C3691Q22337076-1482EE76-D7D1-4184-9109-DDA81C6424DBQ22337379-B33D66A8-CAB6-42EF-B383-8785BD1D0F38Q22337407-9D589D5F-AC70-42CE-8589-BF8D86A57C3BQ22337410-47940BDA-30A0-4AE4-9241-D499DB710732Q24544078-05474B49-AFDF-4C9A-A69D-5D77D67EA18BQ24546340-D5A0A18F-DA5B-4A55-B1B2-9FA5D45CE6CBQ24614208-EF4B092E-4F2D-4286-8360-2F00DCEC71B9Q24623049-E6940999-81C4-41C7-B235-1827B2F8EA9FQ28203675-C0CAFEC2-85D5-4167-8DBD-FBFE40F2ECB3Q28284138-AB57FA6C-2524-483B-8D3F-5FC954F6C574Q28597973-44BC9183-004E-4E57-A036-56FDEEB75714Q28660353-AF1F2DC9-3BCD-41C7-A3D3-05CEDEC6CB61Q30357292-7514DF13-71AF-44E6-B379-9B23DCECE203Q30432885-27CD0B88-66A7-4DED-B83E-B52BD330D134Q30537167-9021574C-0CE4-4FF6-A1FC-67F9800C50D5Q33617303-CD1D270A-7548-425F-8645-2C9FABB07CE4Q33935995-5B85725A-BCC6-4C7B-A20C-B2F53122A4F8Q34063430-A0B4C5E1-0C43-4822-B93F-01F7437DC8BCQ34350201-04AB3B65-118C-4634-A0F5-D97B1503D937Q35993162-96A98BAA-B727-420C-8DFB-E7465B0C2613Q36191025-197046A3-3DB4-449C-AAED-F5225F125283Q36286211-15EC0867-84D7-4317-AEF6-C191A2BB29EBQ36286720-6B227707-EC71-4650-B858-2861E7B42D5CQ36287011-86F43A0B-8C3C-4D83-8794-0882397A0733Q36287091-20086543-F485-4788-AC6B-D7948BE63FFBQ36287177-07019FCC-48F9-4F2C-90F1-7C84DEE4B1EFQ36373678-9CD3897E-6B38-4232-BB59-1CA155CFB4B2Q36373739-63CD4143-F0BF-4A33-81FB-C766174E370EQ36374068-2AAE46D7-77E4-4A92-8DEC-CBEFB22ECDF7Q37041603-671515B7-BDED-401E-ADCA-C5925D23C186Q37858655-688237F8-80E8-4157-9A09-C533542E17C8Q37943290-F68326E7-B8BD-4460-B4A8-AFAE1B741359Q38824309-8151284B-58E1-4C82-A395-AEE6336934DEQ39552284-6C376EE5-1688-4A8A-A08C-AF40A66E2AC1Q39946117-D049A6A9-6DFE-4440-A86B-D4CCC5780EA0Q41919445-5CE6766E-CB49-4451-B790-F4325EB97015Q42292876-4752A323-E58E-4549-844A-01DE16701983Q42642275-AE5FB714-D63C-47CE-BA61-198C62CA7403Q47746735-F212664E-AA00-422A-A7F7-9BEE062AAA2C
P2860
description
1945 nî lūn-bûn
@nan
1945 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1945 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1945年の論文
@ja
1945年論文
@yue
1945年論文
@zh-hant
1945年論文
@zh-hk
1945年論文
@zh-mo
1945年論文
@zh-tw
1945年论文
@wuu
name
Resting and action potentials in single nerve fibres.
@ast
Resting and action potentials in single nerve fibres.
@en
Resting and action potentials in single nerve fibres.
@nl
type
label
Resting and action potentials in single nerve fibres.
@ast
Resting and action potentials in single nerve fibres.
@en
Resting and action potentials in single nerve fibres.
@nl
prefLabel
Resting and action potentials in single nerve fibres.
@ast
Resting and action potentials in single nerve fibres.
@en
Resting and action potentials in single nerve fibres.
@nl
P1476
Resting and action potentials in single nerve fibres.
@en
P2093
P304
P356
10.1113/JPHYSIOL.1945.SP004114
P407
P577
1945-10-01T00:00:00Z