The rate of action of tetrodotoxin on myelinated nerve fibres of Xenopus laevis and Rana esculenta.
about
Prolonged sensory-selective nerve blockade.Selective blockage of voltage-dependent K+ channels by a novel scorpion toxin.The receptor for tetrodotoxin and saxitoxin. A structural hypothesis.Voltage-dependent block by saxitoxin of sodium channels incorporated into planar lipid bilayersEvidence that tetrodotoxin and saxitoxin act at a metal cation binding site in the sodium channels of nerve membrane.Density and distribution of tetrodotoxin receptors in normal and detubulated frog sartorius muscleSingle ion occupancy and steady-state gating of Na channels in squid giant axon.Nonselective suppression of voltage-gated currents by odorants in the newt olfactory receptor cellsThe periaxonal space of crayfish giant axonsEffect of chemical permeation enhancers on nerve blockade.Purification of the tetrodotoxin-binding component associated with the voltage-sensitive sodium channel from Electrophorus electricus electroplax membranes.Drug blockade of open end-plate channels.Structural characteristics of the saxitoxin receptor on nerve.Rates of block by procaine and benzocaine and the procaine-benzocaine interaction at the node of Ranvier.Ionic channels through the axon membrane (a review).Electrophysiology and morphology of myelinated nerve fibers. III. Rates of drug action at the node of Ranvier.Electrophysiological membrane properties of the frog muscle fibre: effects of detergents in the triton series.Electrophysiological characterization of voltage-gated Na+ current expressed in the highly metastatic Mat-LyLu cell line of rat prostate cancer.Voltage-dependent block by tetrodotoxin of the sodium channel in rabbit cardiac Purkinje fibersBinding of tetrodotoxin to squid nerve fibers. Two kinds of receptors?The action of amlodipine on voltage-operated calcium channels in vascular smooth muscle.The effects of Triton-detergents on the stretch receptor of the crayfish.Ultrasensitive Phototriggered Local Anesthesia.Saxitoxin binding in nerves from walking legs of the lobster Homarus americanus. Two classes of receptorsOmega-conotoxin blockade distinguishes Ca from Na permeable states in neuronal calcium channels.Failure of chronic denervation to alter the sensitivity of the rat diaphragm to local anaesthetics of quinidine.Acetylcholine receptors.Do neurons have a reserve of sodium channels for the generation of action potentials? A study on acutely isolated CA1 neurons from the guinea-pig hippocampus.Electrophysiological and neurobiochemical evidence for the blockade of a potassium channel by dendrotoxin.Effects of reagents modifying carboxyl groups on the gating current of the myelinated nerve fiber.Kinetics of TTX-STX block of sodium channels.Effect of various cations and anions on the action of tetrodotoxin and saxitoxin on frog myelinated nerve fibers.Temperature dependence of tetrodotoxin effect in squid giant axons.Sodium current depression by lidocaine and quinidine in isolated ventricular cells.Synthesis of new, highly radioactive tetrodotoxin derivatives and their binding properties to the sodium channel.Voltage-dependent action of tetrodotoxin in mammalian cardiac muscle.Tetrodotoxin binding to normal depolarized frog muscle and the conductance of a single sodium channel.The binding of tetrodotoxin and alpha-bungarotoxin to normal and denervated mammalian muscle.
P2860
Q33734615-7032F49F-AFB1-42E8-82AB-0B9CC817812AQ34253169-8E1DCAD6-2543-450E-914E-2A9B150E17A7Q34271169-17F55A97-2A08-40E9-AC67-AF80F52916B2Q34536106-39FFD2EA-A9C7-413C-93D0-073E608E2169Q35128504-343E3D5D-D88A-414F-8D06-21BB512383EAQ36407540-90892A2F-8458-4949-8A8E-42DFB233E6A7Q36412320-A6F732F4-6E28-4A25-8656-9AD5BEBC0C61Q36417618-575AAC8D-1EC3-44C4-BB34-DF7A18B42EE8Q36433338-BF772D43-BD62-4174-8E93-B68392EFEAE3Q37107232-26692919-60E5-419C-A5E1-C4E6D43CC68DQ37587823-5E852889-F909-444B-8DBF-355605BF362EQ39118447-84851226-5DA8-4A4C-BDCA-F15DB84B28D5Q39123014-4FC393E2-11DC-4387-B922-DF184ABF9D6EQ39219867-B4D40544-DC23-489B-A458-B63A88E843A1Q39954596-7AB77617-C543-453D-BAF6-6863D12AFDF7Q40091036-91D257AB-EFE4-4B3D-8DBF-332D2BF4D11FQ40665624-3ADEE009-D539-458E-82C8-CE6088C8795BQ41061204-E41DAA65-C120-415B-8C8B-B85A7E90BCACQ41160171-B881E655-8C5E-4ED1-9BC7-BB4492BECE22Q41933112-994D8B96-9BDC-41DA-9939-91B40E61D0A3Q42033953-141F76DA-6E91-4A8E-9454-173EE25F2B49Q42059174-B7BF9E50-14F6-4A47-AB00-1865BB3B8351Q42115101-122C5199-E6D5-44D3-AF4E-72F183786130Q42139036-4762AB67-71E4-4FC4-BC56-951A10815826Q42649628-3D0C5F22-33E3-4519-B7C3-AC015530725AQ43000663-73AF7704-0D9F-4B2E-BA14-5B83B6C5BE00Q43654935-763CC2D8-F562-42EF-8721-D5F8D972E325Q46526927-92AA8156-EEBC-4C48-9217-DBA317F6C2A7Q48468522-EE584B7C-E16F-4C51-A8CC-A0E6806846C3Q51799081-CEA50BD7-37F1-435F-874F-5C2340F4F1D9Q51817972-C3CF43BA-8FCE-4732-91C7-DBFF5CC0011FQ51836357-CC18AEF2-EFB6-4A30-8AA0-E75316733381Q51861812-61D556D2-7E3E-4CAA-B58E-D9493AA21A3FQ51867596-7E4B978B-EFB5-4938-B8D4-F45E1DE7C2FFQ51877546-BDEFE1D4-F24C-4196-92EA-5AD232D08DCBQ52711728-5D5A8C2F-5EFD-4888-97F7-3EECFAD5C0E2Q52717713-BC228D08-BF03-4FAE-8DF1-91FBCFBA6710Q52722835-898D546F-9B0A-4E10-986A-279955A69960
P2860
The rate of action of tetrodotoxin on myelinated nerve fibres of Xenopus laevis and Rana esculenta.
description
1973 nî lūn-bûn
@nan
1973年の論文
@ja
1973年学术文章
@wuu
1973年学术文章
@zh
1973年学术文章
@zh-cn
1973年学术文章
@zh-hans
1973年学术文章
@zh-my
1973年学术文章
@zh-sg
1973年學術文章
@yue
1973年學術文章
@zh-hant
name
The rate of action of tetrodot ...... pus laevis and Rana esculenta.
@en
The rate of action of tetrodot ...... pus laevis and Rana esculenta.
@nl
type
label
The rate of action of tetrodot ...... pus laevis and Rana esculenta.
@en
The rate of action of tetrodot ...... pus laevis and Rana esculenta.
@nl
prefLabel
The rate of action of tetrodot ...... pus laevis and Rana esculenta.
@en
The rate of action of tetrodot ...... pus laevis and Rana esculenta.
@nl
P2093
P1476
The rate of action of tetrodot ...... pus laevis and Rana esculenta.
@en
P2093
P304
P356
10.1113/JPHYSIOL.1973.SP010304
P407
P577
1973-08-01T00:00:00Z