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ION MOVEMENTS DURING NERVE ACTIVITY

1959; Wiley; Volume: 81; Issue: 2 Linguagem: Inglês

10.1111/j.1749-6632.1959.tb49311.x

1749-6632

Andrew Huxley,

Neural dynamics and brain function

Annals of the New York Academy of SciencesVolume 81, Issue 2 p. 221-246 ION MOVEMENTS DURING NERVE ACTIVITY Andrew F. Huxley, Andrew F. Huxley Physiological Laboratory, Cambridge University, Cambridge, EnglandSearch for more papers by this author Andrew F. Huxley, Andrew F. Huxley Physiological Laboratory, Cambridge University, Cambridge, EnglandSearch for more papers by this author First published: August 1959 https://doi.org/10.1111/j.1749-6632.1959.tb49311.xCitations: 220AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References ARVANITAKI, A. 1943a. Variations de l'excitabilité locale et activité autorythmique sousliminaire et liminaire. I. Arch. intern. physiol. 53: 508–532. ARVANITAKI, A. 1943b. Variations de l'excitabilité locale et activité autorythmique sousliminaire et liminaire. II. Arch. intern. physiol. 53: 533–559. BERNSTEIN, J. 1902. Untersuchungen zur Thermodynamik der bioelektrischen Ströme. Arch. ges. Physiol. Pflüger's. 92: 521–562. BERNSTEIN, J. 1912. Elektrobiologie. Vieweg. Brunswick , Germany . BOYLE, P. J. & E. J. CONWAY. 1941. Potassium accumulation in muscle and associated changes. J. Physiol. (London). 100: 1–63. BRINK, F., D. W. BRONK & M. G. LARRABEE. 1946. Chemical excitation of nerve. Ann. N. Y. Acad. Sci. 47(4): 457–485. COLE, K. S. 1949. Dynamic electrical characteristics of the squid axon membrane. Arch. sci. physiol. 3: 253–258. COLE, K. S. 1958. Membrane excitation of the Hodgkin-Huxley axon. Preliminary corrections. J. Appl. Physiol. 12: 129–130. COLE, K. S., H. A. ANTOSIEWICZ & P. RABINOWITZ. 1955. Automatic computation of nerve excitation. J. Soc. Indust. Appl. Math. 3: 153. COLE, K. S. & H. J. CURTIS. 1939. Electric impedance of the squid giant axon during activity. J. Gen. Physiol. 22: 649–670. CURTIS, H. J. & K. S. COLE. 1940. Membrane action potentials from the squid giant axon. J. Cellular Comp. Physiol. 15: 147–157. CURTIS, H. J. & K. S. COLE. 1942. Membrane resting and action potentials from the squid giant axon. J. Cellular Comp. Physiol. 19: 135–144. DODGE, F. A. & B. FRANKENHAEUSER. 1958. Membrane currents in isolated frog nerve fibre under voltage clamp conditions. J. Physiol. (London). 143: 76–90. DRAPER, M. H. & S. WEIDMANN. 1951. Cardiac resting and action potentials recorded with an intracellular electrode. J. Physiol. (London). 115: 74–94. FATT, P. & B. L. GINSBORG. 1958. The ionic requirements for the production of action potentials in crustacean muscle fibres. J. Physiol. (London). 142: 516–543. FATT, P. & B. KATZ. 1953. The electrical properties of crustacean muscle fibres. J. Physiol. (London). 120: 171–204. FRANKENHAEUSER, B. & A. L. HODGKIN. 1957. The action of calcium on the electrical properties of squid axons. J. Physiol. (London). 137: 218–244. HODGKIN, A. L. & A. F. HUXLEY. 1939. Action potentials recorded from inside a nerve fibre. Nature. 144: 710. HODGKIN, A. L. & A. F. HUXLEY. 1945. Resting and action potentials in single nerve fibres. J. Physiol. (London). 104: 176–195. HODGKIN, A. L. & A. F. HUXLEY. 1952a. Currents carried by sodium and potassium ions through the membrane of the giant axon of Loligo. J. Physiol. (London). 116: 449–472. HODGKIN, A. L. & A. F. HUXLEY. 1952b. The components of membrane conductance in the giant axon of Loligo. J. Physiol. (London). 116: 473–496. HODGKIN, A. L. & A. F. HUXLEY. 1952c. The dual effect of membrane potential on sodium conductance in the giant axon of Loligo. J. Physiol. (London). 116: 497–506. HODGKIN, A. L. & A. F. HUXLEY. 1952d. A quantitative description of membrane current and its application to conduction and excitation in nerve. J. Physiol. (London). 117: 500–544. HODGKIN, A. L., A. F. HUXLEY & B. KATZ. 1949. Ionic currents underlying activity in the giant axon of the squid. Arch. sci. physiol. 3: 129–150. HODGKIN, A. L., A. F. HUXLEY & B. KATZ. 1952. Measurement of current-voltage relations in the membrane of the giant axon of Loligo. J. Physiol. (London). 116: 424–448. HODGKIN, A. L. & B. KATZ. 1949a. The effect of sodium ions on the electrical activity of the giant axon of the squid. J. Physiol. (London). 108: 37–77. HODGKIN, A. L. & B. KATZ. 1949b. The effect of temperature on the electrical activity of the giant axon of the squid. J. Physiol. (London). 109: 240–249. HODGKIN, A. L. & R. D. KEYNES. 1955. Active transport of cations in giant axons from Sepia and Loligo. J. Physiol. (London). 128: 28–60. HODGKIN, A. L. & R. D. KEYNES. 1953. The mobility and diffusion coefficient of potassium in giant axons from Sepia. J. Physiol. (London). 119: 513–528. HODGKIN, A. L. & W. A. H. RUSHTON. 1946. The electrical constants of a crustacean nerve fibre. Proc. Roy. Soc. London. B133: 444–479. HUXLEY, A. F. & R. STÄMPLI. 1951. Effect of potassium and sodium on resting and action potentials of single myelinated nerve fibres. J. Physiol. (London). 112: 496–508. KEYNES, R. D. 1951. The ionic movements during nerve activity. J. Physiol. (London). 114: 119–150. KEYNES, R. D. & P. R. LEWIS. 1951a. The resting exchange of radioactive potassium in crab nerve. J. Physiol. (London). 113: 73–98. KEYNES, R. D. & P. R. LEWIS. 1951b. The sodium and potassium content of cephalopod nerve fibres. J. Physiol. (London). 114: 151–182. KOECHLIN, B. A. 1955. On the chemical composition of the axoplasm of squid giant nerve fibres with particular reference to its ion pattern. J. Biophys. Biochem. Cytol. 1: 511–529. KROGH, A. 1946. The active and passive exchanges of inorganic ions through the surfaces of living cells and through living membranes generally. Proc. Roy. Soc. London. B133: 140–200. LEWIS, P. R. 1952. The free amino-acids of invertebrate nerve. Biochem. J. 52: 330–338. LORENTE DE NÓ, R. 1947. A Study of Nerve Physiology. Part II, Chap. XIII. Studies Rockefeller Inst. Med. Research. 132: 145–189. LÜTTGAU, H. C. 1956. Das Na-Transportsystem während der Erregungsprozesse am Ranvier-Knoten isolierter markhaltiger Nervenfasern. Experientia. 12: 482–486. MARMONT, G. 1949. Studies on the axon membrane. J. Cellular Comp. Physiol. 34: 351–382. MOORE, J. W. 1958. Temperature and drug effects on squid axon membrane ion conductances. Federation Proc. 17: 113. NASTUK, W. L. & A. L. HODGKIN. 1950. The electrical activity of single muscle fibers. J. Cellular Comp. Physiol. 35: 39–74. RASHBASS, C. & W. A. H. RUSHTON. 1949. The relation of structure to the spread of excitation in the frog's sciatic trunk. J. Physiol. (London). 110: 110–135. SILBER, R. H. 1941. The free amino acids of lobster nerve. J. Cellular Comp. Physiol. 18: 21–30. TASAKI, I. 1956. Initiation and abolition of the action potential of a single node of Ranvier. J. Gen. Physiol. 39: 377–395. WEIDMANN, S. 1951. Effect of current flow on the membrane potential of cardiac muscle. J. Physiol. (London). 115: 227–236. Citing Literature Volume81, Issue2Second Conference on Physicochemical Mechanism of Nerve Activity and Second Conference on Muscular ContractionAugust 1959Pages 221-246 ReferencesRelatedInformation