about
Active transport of cations in giant axons from Sepia and LoligoSpontaneous subthreshold activity at motor nerve endingsDirect determination of membrane resting potential and action potential in single myelinated nerve fibersThe resting membrane potential of frog sartorius muscleImpedance of a Small Electrically Isolated Area of the Muscle Cell SurfaceSTUDIES ON AN EPITHELIAL (GLAND) CELL JUNCTION. I. MODIFICATIONS OF SURFACE MEMBRANE PERMEABILITY512-Channel and 13-Region Simultaneous Recordings Coupled with Optogenetic Manipulation in Freely Behaving MiceRole of physiological ClC-1 Cl- ion channel regulation for the excitability and function of working skeletal muscleER Stress-Mediated Signaling: Action Potential and Ca(2+) as Key PlayersGlutamate Release.Development and characterization of a microfluidic chamber incorporating fluid ports with active suction for localized chemical stimulation of brain slices.MICROPUNCTURE STUDY OF POTASSIUM CONCENTRATION IN PROXIMAL TUBULE OF DOG, RAT, AND NECTURUS.Measurement of intracellular pH of skeletal muscle with pH-sensitive glass microelectrodes.Some observations on biological noise.Studies on the ionic permeability of muscle cells and their models.Neuronal recordings with solid-conductor intracellular nanoelectrodes (SCINEs).Spatial characterization of a multifunctional pipette for drug delivery in hippocampal brain slicesDonnan potential of rabbit skeletal muscle myofibrils I: electrofluorochromometric detection of potentialOptical recording of calcium currents during impulse conduction in cardiac tissue.Class 3 antiarrhythmic action in man. Observations from monophasic action potential recordings and amiodarone treatmentThe effect of harmine on the action potential of the guinea-pig atrial muscle depends on the external calcium concentrationSOME OBSERVATIONS ON THE FINE STRUCTURE AND METABOLIC ACTIVITY OF NORMAL AND GLYCERINATED VENTRICULAR MUSCLE OF TOADPolarized intercellular bridges in ovarian follicles of the cecropia mothThe electrophysiological mapping of compartments within a mammalian cellBioelectric effects of ions microinjected into the giant axon of Loligo.Changing electrical constants of the Fundulus egg plasma membraneThe non-correlation of bioelectric potentials with ionic gradients.The effect of changes of environment on the electrical and ionic pattern of muscle.Electrophysiology of supramedullary neurons in Spheroides maculatus. I. Orthodromic and antidromic responses.The mechanism of dual responsiveness in muscle fibers of the grasshopper Romalea microptera.Resting and action potentials of the squid giant axon in vivoLiquid junction and membrane potentials of the squid giant axon.Ionic current measurements in the squid giant axon membrane.Electrical potential difference measurements in perfused single proximal tubules of Necturus kidneyThe electrical potential profile of the isolated toad bladderCHANGES IN THE MEMBRANE PERMEABILITY OF FROG'S SARTORIUS MUSCLE FIBERS IN CA-FREE EDTA SOLUTION.The site of the stimulatory action of vasopressin on sodium transport in toad bladderThe electrical and mechanical activity of the esophageal cell of Ascaris lumbricoidesSOME RECENT ASPECTS OF ELECTROCARDIOGRAPHY.The beginning of intracellular recording in spinal neurons: facts, reflections, and speculations.
P2860
Q22337071-84C198A5-D790-426F-999C-E823526055D1Q24544018-D5E3AA32-44B7-4789-8632-D814ADD2BEFCQ24544078-2526110A-A8F7-4938-96AF-59630AD8518EQ24546340-3439791F-B676-493D-B51C-E9242DB7148CQ24672081-9932E807-3647-4C5D-A22D-DCD40BD6FC8CQ24682980-72AC4A2F-E9D4-47C5-97C0-11D723015F7BQ27308615-EF54F994-87FB-456B-93F1-EB741370E7C9Q28069661-39F5DAB3-6A93-4720-AA1B-5D2A6902FCE1Q28078536-022D3CB0-E679-4E03-B45A-10F9D3CC6AA3Q30279297-9391C1EC-E423-47C8-9E2D-287921AC17C2Q33871765-D8293B1C-4A75-489F-9361-BE8B5ADBCD3AQ33954222-1E0F547B-3BF3-48EC-92A1-5645720B1B9EQ34269484-E29A8D9D-834A-49A2-B350-08A15DD6A48BQ34295734-1DC44278-A0E0-424C-A483-7746AFDFF76CQ34356392-169AEFB6-94C3-4555-8A2A-0F19570311F5Q34384856-E2590EBF-9701-4611-BF74-44F066255EF5Q35072493-6A81434F-C9B6-454F-8424-FAC9BA215C75Q35075410-9054E847-56B5-4464-A186-970B1B039294Q35774651-947972E7-F871-4EC9-99B2-DAB7589D2243Q36105245-79D5AD74-60BF-4567-8439-8C168F155149Q36128296-CFCA6619-91FF-403B-A295-2FD50E80CCCCQ36186224-1CF4475D-E5D0-4655-8F00-9A0876D5BC3BQ36195355-E2DAE5B2-D33F-4FDE-AFF4-E4730B52EBCEQ36202569-AB3CF8F4-9B58-4E00-B5A4-415FACCFBC91Q36286720-3CAF2A38-9925-49C3-A79A-A406BBA5BC57Q36287144-C03DF03F-EF15-4081-9ECF-EBEFD00EBAE0Q36287159-08C05E78-4CA3-447F-8821-D45EC198E44EQ36287177-F0BACB17-1A1E-4EE2-A8BC-165096C89C9DQ36373437-6142CEC0-80FE-4D63-8749-B3041CFAFC2EQ36373475-51F164B3-01B8-4634-874F-65CAA4983FE6Q36373678-9E9FFAD1-3D20-4EA6-9B1C-C20AAC2486CEQ36373686-122072F4-603A-462C-BF0A-7B5F5E15D464Q36373779-A16CE959-B9C9-4B33-AF95-CE8A955746B2Q36373914-5A7366E9-406C-474F-9D6F-159F47CBE44CQ36374094-02429BED-1BCB-4D58-A73D-97017AC0E981Q36374489-3417AD10-D04F-43B9-B231-79010E827C8BQ36385109-0CD9CC9D-F9C1-4B5F-A879-7A0758DEEF75Q36427415-E26F07FD-0FB5-4EC2-BBC2-5414EB2431D4Q36788938-7E9842E9-CCEB-43E8-9DBB-7B19F72F5AEBQ37334633-7AC7D3B1-5988-416E-A1BB-B2A55A052B73
P2860
description
1949 nî lūn-bûn
@nan
1949 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1949 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1949年の論文
@ja
1949年論文
@yue
1949年論文
@zh-hant
1949年論文
@zh-hk
1949年論文
@zh-mo
1949年論文
@zh-tw
1949年论文
@wuu
name
The normal membrane potential of frog sartorius fibers
@ast
The normal membrane potential of frog sartorius fibers
@en
The normal membrane potential of frog sartorius fibers
@en-gb
type
label
The normal membrane potential of frog sartorius fibers
@ast
The normal membrane potential of frog sartorius fibers
@en
The normal membrane potential of frog sartorius fibers
@en-gb
prefLabel
The normal membrane potential of frog sartorius fibers
@ast
The normal membrane potential of frog sartorius fibers
@en
The normal membrane potential of frog sartorius fibers
@en-gb
P3181
P356
P1476
The normal membrane potential of frog sartorius fibers
@en
P2093
P304
P3181
P356
10.1002/JCP.1030340304
P577
1949-12-01T00:00:00Z