3.5. Литература

Учебники и руководства

1. Cooke I., Lipkin Μ. Cellular neurophysiology, a source book, New York, Holt, Rinehart and Winston (1972) (Collection of important original papers).

2. Eccles J. C. The physiology of synapses, Berlin Göttingen-Heidelberg-New York, Springer, 1964.

3. Hille B. Ionic channels of excitable membranes, Sunderland, Mass., Sinauer Assoc, 1984.

4. Hoppe W., Lohmann W.. Markl H, Ziegler H. (eds.). Biophysik, Berlin, Heidelberg, New York, Springer, 1984.

5. Kandel E. R., Schwartz J. H. (eds.). Principles of neural science, New York, Amsterdam, Oxford, Elsevier, 1985.

6. Kuffler S. W., Nicholls J. C, Martin A. R. From neuron to brain, Second Edition Sunderland, Mass., Sinauer Associates, 1984.

7. Schiebler Т.Н., Schmidt W. Lehrbuch der gesamten Anatomie des Menschen, 3rd Edition, Berlin Heidelberg New York-Tokyo, Springer Verlag, 1983.

68 ЧАСТЬ I. ОБЩАЯ ФИЗИОЛОГИЯ КЛЕТКИ

Оригинальные статьи и обзоры

8. Bennett Μ. L. V. Electrical transmission: a functional analysis and comparison with chemical transmission. In: Cellular biology of neurons, Vol. 1, Sect. 1, Handbook of Physiology: The Nervous System. E. R. Kandel, ed., 357416. Baltimore, Williams and Wilkins, 1977.

9. Blumberg Η., Jänig W. Activation of fibers via experimantally produced stump neuromas of skin nerves: ephaptic transmission of retrograde sprouting? Experimental Neurology, 76, 468-482 (1982).

10. Colquhoun D., Dreyer F., Sheridan R. E. The actions of tubocurarine at the frog neuromuscular junction, J. Physiol. (Lond.), 293, 247-284 (1979).

11. Colquhoun D., Sakmann B. Fast events in single-channel currents activated by ecetylcholine and its analogues at the frog muscle end-plate, J. Physiol. (Lond.), 369, 501 557 (1985).

12. Dodge F.A., Rahamimqff R. Co-operative action of calcium ions in transmitter release at the neuromuscular junction, J. Physiol. (Lond.), 193, 419-432 (1967).

13. Dudel J. The mechanism of presynaptic inhibition at the crayfish neuromuscular junction, Pflügers Arch., 248, 6680 (1965).

14. Dudel J. Dose-response curve of glutamate applied by supervision to crayfish muscle synapses, Pflügers Arch., 368, 49-54 (1977).

15. Dudel J., Kuffler S.W. Presynaptic inhibition at the crayfish neuromuscular junction, J. Physiol. (Lond.), 155, 543562 (1961).

16. Franke С, Dudel J. High-resolution measurement of singlechannel currents activated by glutamate in crayfish muscle, Meurosci. Lett., 59, 241-246 (1985).

17. Furshpan E.J., Potter D. Transmission at the giant motor synapses of the crayfish. J. Physiol. (Lond.), 145, 289-325 (1959).

18. Furukawa T. Furshpan E.J. Two inhibitory mechanisms in the Mauthner neuronsof goldfish, J. Neurophysiol., 26, 140-176 (1963).

19. I to Y.. Miledi R., Vincent Α.. Newsom-Davis J. Acetylcholine receptors and end-plate electrophysiology in myasthenia gravis, Brain, 101, 345-368 (1978).

20. Katz В., Miledi R. The role of calcium in neuromuscular facilitation, J. Physiol. (Lohd.), 195, 481-492 (1968).

21. Katz В.. ThesleffS. A study of the „desensitization" produced by acetylcholine at the motor end-plate, J. PhysioL (Lond.), 138, 63-80 (1957).

22. Kuffler S. W. Slow synaptic responses in autonomic ganglia and the pursuit of a peptidergic transmitter, J. Exp. Biol., 89, 257-286 (1980).

23. Libet B. Heterosynaptic interaction at a sympathetic neuron as a model for induction and storage of a postsynaptic memory trace. Neurobiology of Learning and Memory, G. Lynch. J. L. McCaugh, Η. Μ. Weinberger, editors, 405430, New York, The Guilford Press (1984).

24. Llinas R. R. Calcium in synaptic transmission, Sei. Amer., 10, 38-48 (1982).

25. Loewenstein W.R. Junctional intercellular communication: the cell-to-cell mambrane channel, Physiologicap Reviews, 61, 829-913 (1981).

26. Magleby K. L., Stevens C. F. The effect of voltage on the time course of end-plate currents, J. Physiol. (Lond.X 223, 151-171 (1972).

27. Magleby K. L., Zengel J. E. A quantitative description of stimulation-induced changes in transmitter release at the frog neuromuscular junction, J. Gen. Physiol., 80, 613-638 (1982).

28. Makowski L., Caspar D. L. D., Phillips W. C, Goodenough D.A. Gap junction structures. II. Analysis of the x-ray diffraction data, J. Gell. Biol., 84, 629 645 (1977).

29. Numa S., Noda M.. Takahashi H., Tanabe T, Toyosato M., Furutani Y., Kikyotoni S. Molecular structure of the nicotinic acetylcholine receptor. Cold Spring Harbor Symposia Quant. Biol. XLVIII, 57-69 (1983).

30. Pamas H., Dudel J., Parnas I. Neurotransmitter release and its facilitation in crayfish. 1. Saturation kinetics of release and of entry and removal of calcium, Pflügers Arch., 393, 1-14 (1982).

31. Parnas H., Dudel J., Pamas l. Neurotransmitter release and its facilitation in crayfish. VII. Another voltage dependent process beside Ca entry controls the time course of phasic release, Pflügers Arch., 406, 121-130 (1986).

32. Peper K., Bradley R. J., Dreyer F. The acetylcholine receptor at the neuromuscular junction, Physiol. Rev., 62, 1271-1340 (1982).

33. Popot J. L., Changeux J. P. Nicotinic receptor of acetylcholine: structure of an oligomeric integral membrane protein, Physiol. Rev., 64, 1162-1239 (1984).

34. Sakmann В., Methfessel C, Mishina M.. Takahashi T, Tαkai T, Kurasaki M., Fukuda K., Numa S. Role of acetylcholine receptor subunits in gating of the channel, Nature, 318, 538-543 (1985).

35. Schmidt R. F. Presynaptic inhibition in the vertebrate central nervous system, Ergebn. Physiol, 63, Springer Verlag, Berlin-Heidelberg-New York, 1971.

36. White J. D., Stewart KD., Krause J. Ε.. McKelvy J.F. Biochemistry of peptide-secreting neurons, Physiol. Rev., 65, 553-606 (1985).