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Dual mechanism of synaptic transmission through a sympathetic ganglion

1950; Wiley; Volume: 35; Issue: S2 Linguagem: Inglês

10.1002/jcp.1030350506

1553-0809

Y Laporte, R. Lorente de N�,

Neural dynamics and brain function

Journal of Cellular and Comparative PhysiologyVolume 35, Issue S2 p. 107-153 Article Dual mechanism of synaptic transmission through a sympathetic ganglion Y. Laporte, Y. Laporte The Laboratories of The Rockefeller Institute for Medical Research, New York Fellow of The Rockefeller Foundation.Search for more papers by this authorR. Lorente de Nó, R. Lorente de Nó The Laboratories of The Rockefeller Institute for Medical Research, New YorkSearch for more papers by this author Y. Laporte, Y. Laporte The Laboratories of The Rockefeller Institute for Medical Research, New York Fellow of The Rockefeller Foundation.Search for more papers by this authorR. Lorente de Nó, R. Lorente de Nó The Laboratories of The Rockefeller Institute for Medical Research, New YorkSearch for more papers by this author First published: July 1950 https://doi.org/10.1002/jcp.1030350506Citations: 10 AboutPDF 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 Literature Cited 1 Bremer, F., V. Bonnet and J. Moldaver Contributions à l'étude de la physiologie générale des centres nerveux. I. La sommation centrale. Arch. internat. Physiol., 1942, 52: 1–56. 2 Bronk, D. W. Synaptic mechanisms in sympathetic ganglia. J. Neurophysiol., 1939, 10: 139–154. 3 Bronk, D. W., M. G. Larrabee and J. B. Gaylor The effects of circulatory arrest and oxygen lack on synaptic transmission in a sympathetic ganglion. J. Cell. and Comp. Physiol., 1948, 31: 193–212. 4 Bronk, D. W., M. G. Larrabee, J. B. Gaylor and F. Brink, JR. The influence of altered chemical environment on the activity of ganglion cells. Am. J. Physiol., 1938, 123: 24–25. 5 Brooks, C. McC. and J. C. Eccles Electrical investigation of the monosynaptic pathway through the spinal cord. J. Neurophysiol., 1947, 10: 251–274. 6 Brooks, C. McC. and J. C. Eccles An analysis of synaptic excitatory action. J. Neurophysiol., 1948, 11: 365–376. 7 Brooks, C. McC. and J. C. Eccles Inhibition of antidromic responses of motoneurons. J. Neurophysiol., 1948, 11: 431–444. 8 Brown, G. L., and A. M. Harvey Effect of changes in dietary calcium on neuromuscular transmission. J. Physiol., 1940, 97: 330–337. 9 Buchthal, F., and J. Lindhard Direct application of acetylcholine to motor end-plates of voluntary muscle fibers. J. Physiol., 1937, 90: 82–83 P. 10 CoppéE, G. Des mécanismes de la décurarisation. Bull. de l'Acad. des Sciences de Belgique, 1941, 27: 452–467. 11 Eccles, J. C. After discharge from the superior cervical ganglion. J. Physiol., 1935, 84: 50–52 P. 12 Eccles, J. C. The actions of antidromic impulses on ganglion cells. J. Physiol., 1936, 88: 1–39. 13 Eccles, J. C. Synaptic and neuromuscular transmission. Ergeb. Physiol., 1936, 38: 339–444. 14 Eccles, J. C. The discharge of impulses from ganglion cells. J. Physiol., 1937, 91: 1–22. 15 Eccles, J. C. The spinal cord and reflex action. Ann. Rev. Physiol., 1939, 1: 363–383. 16 Eccles, J. C. Synaptic potentials and transmission in sympathetic ganglion. J. Physiol., 1943, 101: 465–483. 17 Eccles, J. C. The nature of synaptic transmission in a sympathetic ganglion. J. Physiol., 1944, 103: 27–54. 18 Eccles, J. C. Synaptic potentials of motoneurons. J. Neurophysiol., 1946, 9: 87–120. 19 Eccles, J. C. An electrical hypothesis of synaptic and neuromuscular transmission. Ann. N. Y. Acad. Sciences, 1946, 47: 429–455. 20 Eccles, J. C. B. Katz and S. W. Kuffler Effect of eserine on neuromuscular transmission. J. Neurophysiol., 1942, 5: 211–230. 21 Gasser, H. S. Changes in nerve-potentials produced by rapidly repeated stimuli and their relation to responsiveness of nerve to stimulation. Am. J. Physiol., 1935, 111: 35–50. 22 Harvey, A. M., and F. C. Macintosh Calcium and synaptic transmission in a sympathetic ganglion. J. Physiol., 1940, 97: 408–416. 23 Heinbecker, P. The functional analysis of a sympathetic ganglion of the turtle by the cathode ray oscillograph. Am. J. Physiol., 1930, 93: 384–397. 24 Huber, G. C. A contribution to the minute anatomy of the sympathetic ganglia of the different classes of vertebrates. J. Morph., 1900, 16: 27–86. 25 Kuffler, S. W. Further study on transmission in an isolated nerve-muscle fibre praparation. J. Neurophysiol., 1942, 5: 309–322. 26 Kuffler, S. W. Specific excitability of the end-plate region in normal and in denervated muscle. J. Neurophysiol., 1943, 6: 99–110. 27 Kuffler, S. W. The effect of calcium on the neuromuscular junction. J. Neurophysiol., 1944, 7: 17–26. 28 Laporte, Y., and R. Lorente de Nó Properties of sympathetic B ganglion cells. J. Cell. and Comp. Physiolb., 1950, 35: Suppl. 41–60. 29 Laporte, Y., and R. Lorente de Nó Potential changes evoked in a curarized sympathetic ganglion by presynaptic volleys of impulses. J. Cell. and Comp. Physiol., 1950, 35: Suppl. 61–106. 30 Larrabee, M. G., and D. W. Bronk Persistent discharge from sympathetic ganglion cells following preganglionic stimulation. Proc. Soc. Exp. Biol., N. Y., 1938, 38: 921–922. 31 Larrabee, M. G., and D. W. Bronk Prolonged facilitation of synaptic excitation in sympathetic ganglia. J. Neurophysiol., 1947, 10: 139–154. 32 Lloyd, D. C. P. The interaction of antidromic and orthodromic volleys in a segmental motor nucleus. J. Neurophysiol., 1943, 6: 143–151. 33 Lloyd, D. C. P. Functional organization of the spinal cord. Physiol. Rev., 1944, 24: 1–17. 34 Lloyd, D. C. P. Facilitation and inhibition of spinal motoneurons. J. Neurophysiol., 1946, 9: 421–444. 35 Lorentee de Nó, R. The summation of impulses transmitted to the motoneurons through different synapses. Am. J. Physiol., 1935, 113: 524–528. 36 Lorente de Nó, R. Transmission of impulses through cranial motor nuclei. J. Neurophysiol., 1939, 2: 402–464. 37 Lorente de Nó, R. A Study of Nerve Physiology. The Studies from the Rockefeller Institute for Medical Research, 1947, 131 and A Study of Nerve Physiology. The Studies from the Rockefeller Institute for Medical Research 132. 38 Lorente de Nó, R. Action potential of the motoneurons of the hypoglossus nucleus. J. Cell. and Comp. Physiol., 1947, 29: 207–288. 39 Lorente de Nó, R., and T. P. Feng Analysis of the effect of barium upon nerve with particular reference to rhythmic activity. J. Cell. and Comp. Physiol., 1946, 28: 397–464. 40 Lorente de Nó, R., and Y. Laporte Properties of postganglionic B fibers. J. Cell. and Comp. Physiol., 1950, 35: 9–40. 41 Lorente de Nó, R., and Y. Laporte Refractoriness, facilitation and inhibition in a sympathetic ganglion. J. Cell. and Comp. Physiol., 1950, 35: Suppl. 155–192. 42 Renshaw, B. Activity in simplest spinal reflex pathways. J. Neurophysiol., 1940, 3: 373–387. 43 Renshaw, B. Effects of presynaptic volleys on spread of impulses over the soma of the motoneuron. J. Neurophysiol., 1942, 5: 235–243. 44 Renshaw, B. Observations on interaction of nerve impulses in the gray matter and on the nature of central inhibition. Am. J. Physiol., 1946, 146: 443–448. 45 Rosenblueth, A., and F. A. Simeone The responses of the superior cervical ganglion to single and repetitive activation. Am. J. Physiol., 1938, 122: 688–707. 46 Rosenblueth, A., and F. A. Simeone The action of eserine or prostigimin on the superior cervical ganglion. Am. J. Physiol., 1938, 122: 708–721. 47 Therman, P. O., A. Forbes and R. Galambos Electric responses derived from the superior cervical ganglion with micro-electrodes. J. Neurophysiol., 1940, 3: 191–200. Citing Literature Volume35, IssueS2Supplement: Synaptic Transmission in a Sympathetic GanglionJuly 1950Pages 107-153 ReferencesRelatedInformation