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ЛИТЕРАТУРА

Основная

Николс, Дж. Г. От нейрона к мозгу / Дж. Г. Николс [и др.]. М. : Едиториал УРСС, 2003. 672 с.

Bohlen und Halbach von, O. Neurotransmitters and neuromodulators / O. von Bohlen und Halbach, R. Dermietzel. Darmstadt : Wiley-VCH Verlag GmbH Weinheim, 2002. 285 p.

Neurotransmitters, drugs and brain function / ed. R. A. Webster. Chichester : J. Wiley and Sons Ltd., 2001. 520 p.

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Базисная и клиническая фармакология : в 2 т. / под ред. Б. Г. Катцунг. М.; СПб. : Бином-Невский диалект, 2000. Т. 1. 608 с.

Катц, Б. Нерв, мышца и синапс / Б. Катц. М. : Мир, 1969. 220 с.

Костюк, П. Г. Микроэлектродная техника / П. Г. Костюк. Киев : Наук. думка, 1960. 126 с.

Костюк, П. Г. Механизмы электрической возбудимости нервной ткани / П. Г. Костюк, О. А. Крышталь. М. : Наука, 1981. 204 с.

Кэндел, Э. Клеточные основы поведения / Э. Кэндел. М. : Мир, 1980. 599 с. Марри, Р. Биохимия человека : в 2 т. / Р. Марри [и др.]. М. : Мир, 1993. Т. 1. 384 с.

Магура, И. С. Проблема электрической возбудимости нейрональной мембраны / И. С. Магура. Киев : Наук. думка, 1981. 208 с.

Пёрвис, Р. Микроэлектродные методы внутриклеточной регистрации и ио- нофореза / Р. Пёрвис. М. : Мир, 1983. 208 с.

Сахаров, Д. А. Генеалогия нейронов / Д. А. Сахаров. М. : Наука, 1973. 183 с. Физиология человека : в 3 т. / под ред. Р. Шмидта, Г. Тевса. М. : Мир, 1996. Т. 1. 323 с.

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Хухо, Ф. Нейрохимия : основы и принципы / Ф. Хухо. М. : Мир, 1990. 384 с.

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Экклс, Дж. Физиология нервных клеток / Дж. Экклс. М. : Изд-во иностр. лит., 1959. 299 с.

Экклс, Дж. Физиология синапсов / Дж. Экклс. М. : Мир, 1966. 395 с.

Экклс, Дж. Тормозные пути центральной нервной системы / Дж. Экклс. М. : Мир, 1971. 168 с.

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ОРИГИНАЛЬНЫЕ СТАТЬИ

Глава 1. Строение межклеточных контактов

Костюк, П. Г. Основные нервные процессы как фундамент эволюции нервной деятельности // Журн. эволюц. биохим. и физиол. 1979. Т. 15, № 3. С.222-226.

Bruzzone, R., Ressot, C. Connexins, gap junctions and cell-cell signalling in the nervous system // Eur. J. Neurosci. 1997. Vol. 9. P. 1-6.

De Lorenzo, A. J. The fine structure of synapses in the ciliary ganglion of the chick // J. Biophysic and Biochem. Cytol. 1960. Vol. 7. P. 31-36.

Gray, E.G. Electron microscopy of presynaptic organelles of the spinal cord // J. Anat. (L.) 1963. Vol. 97. P. 101-106.

Hamlyn, L. H. The fine structure of the mossy fibre endings in the hippocampus of the rabbit // J. Anat. (L.) 1962. Vol. 96. P. 112-120.

Saez, J. C., Berthoud, V. M., Branes, M. C. et al. Plasma membrane channels formed by connexins: their regulation and functions // Physiol. Rev. 2003. Vol. 83. P. 1359-1400.

Palade, G. E., Palay, S. L. Electron microscope observations of interneuronal and neuromuscular synapses // Anat. Rec. 1954. Vol. 118. P. 335.

Peters, A., Palay, S. L. The morphology of synapses // J. Neurocytol. 1996. Vol. 25. P. 687-700.

Глава 2. Транспорт веществ через мембрану

Aggarwal, S. K., MacKinnon, R. Contribution of the S4 segment to gating charge in the Shaker K1 channel // Neuron. 1996. Vol. 16. P. 1169-1177.

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Armstrong, C. M., Bezanilla, F. Currents related to movement of the gating particles of the sodium channels // Nature. 1973. Vol. 242. P. 459-461.

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Bezanilla, F. The voltage sensor in voltage-dependent ion channels // Physiol. Rev. 2000. Vol. 80. P. 555-592.

Catterall, W. A. Structure and function of voltage-gated ion channels // Ann. Rev. Biochem. 1995. Vol. 65. P. 493-531.

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Catterall, W. A. Structure and regulation of voltage-gated Ca channels // Ann. Rev. Cell Dev. Biol. 2000. Vol. 16. P. 521-555.

Doyle, D. A., Cabral, J. M., Pfuetzner, R. A. et al. The structure of the potassium channel: molecular basis of K+ conduction and selectivity // Science. 1998. Vol. 280. P. 69-76.

Edry-Schiller, J., Gins burg, S., Rahamimoff, R. A chloride channel in isolated fused synaptosomes from Torpedo electric organ // J. Physiol. (L.). 1991. Vol. 438. P. 627-647.

Edwards, G. Potassium channel modulation: What next? // Curr. Res. Ion Channel Modulators. 1998. Vol. 3. P. 163-164.

Favre, I., Moczydlowski, E., Schild, L. On the structural basis for ionic selectivity among Na+, K+, and Ca2+ in the voltagegated sodium channel // Biophys. J. 1996.Vol. 71. P. 3110-3125.

Hodgkin, A. L., Keynes, R. D. Active transport of cations in giant axons from Sepia and Loligo // J. Physiol. (L.). 1955. Vol. 128. P. 28-42.

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Hofmann, F., Biel, M., Flockerzi, V. Molecular basis for Ca channel diversity // Ann. Rev. Neurosci. 1994. Vol. 17. P. 399-418.

Lauger, P. Ionic channels with conformational substrates // Biophys. J. 1985. Vol. 47. P. 581-590.

Marban, E., Yamagishi, T., Tomaselli, G. Structure and function of voltage- gated sodium channels // J. Physiol. 1998. Vol. 508 (3). P. 647-657.

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MacKinnon, R. Pore loops: An emerging theme in ion channel structure // Neuron. 1995. Vol. 14. P. 889-892.

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Shieh, C-C., Coghlan, M., Sullivan, J. P., Gopalakrishnam, M. Potassium channels: molecular defects, diseases, and therapeutic opportunities // Pharmacol. Rev.

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Skou, J. C. The influence of some cations on an adenosine triphosphatase from peripheral nerves // Biochim. Biophys. Acta. 1957. Vol. 23. P. 394-401.

Skou, J. C. The Na, K pump // Methods Enzymol. 1988. Vol. 156. P. 1-25.

Spafford, J. D., Zamponi, G. W. Functional interactions between presynaptic calcium channels and the neurotransmitter release machinery // Curr. Opin. Neurobiol. 2003. Vol. 13. P. 308-314.

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Westenbroek, R. E., Hoskins, L., Catterall, W. A. Localization of Ca channel subtypes on rat spinal motor neurons, interneurons, and nerve terminals // J. Neuro- sci. 1998. Vol. 18. P. 6319-6330.

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Глава 3. Электрические сигналы клеток

Curtis, H. J., Cole, K.S. Membrane resting and action potentials from the squid giant axon // J. Cell. Comp. Physiol. 1942. Vol. 19. P. 135-144.

Gasser, H. S., Grundfest, H. Axon diameters in relation to the spike dimension and the conduction velocity in mammalian A-fibres // Am. J. Physiol. 1939. Vol. 137. P. 393.

Graham, J., Gerard, R. W. Membrane potentials and excitation of impaled single muscle fibres // J. Cell. Comp. Physiol. 1946. Vol. 28. P. 99-117.

Hodgkin, A. L., Huxley, A. F. Action potentials recorded from inside a nerve fibre // Nature. 1939. Vol. 144. P. 710-711.

Hodgkin, A. L., Rushton, W. A. H. The electrical constants of crustacean nerve fibre // Proc. Roy. Soc. B. 1946. Vol. 133. P. 444.

Huxley, A. F., Stampfli, R. Evidence for saltatory conduction in peripheral myelinated nerve fibres // J. Physiol. (L.). 1949. Vol. 108. P. 315.

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Глава 4. Ионные механизмы формирования мембранного потенциала и потенциала действия

Cole, K. S., Curtis, H. J. Electric impedance of the squid giant axon during activity // J. Gen. Physiol. 1939. Vol. 22. P. 649-670.

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Hodgkin, A. L., Katz, B. The effect of sodium ions on the electrical activity of the giant axon of the squid // J. Physiol. (L.). 1949. Vol. 108. P. 37-77.

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Глава 5. Пресинаптические механизмы передачи сигнала

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Katz, B., Miledi, R. The realese of acetylcholine from nerve endings by graded pulses // Proc. R. Soc. (L.). 1967. Vol. 167. P. 23-38.

Katz, B., Miledi, R. A study of sinaptic transmission in the absence of nerve impulses // J. Physiol. (L.). 1967. Vol. 192. P. 407-436.

Katz, B., Miledi, R. Tetrodotoxin-resistant electric activity in presinaptic terminals // J. Physiol. (L.). 1969. Vol. 203. P. 459-487.

Katz, B., Miledi, R. The effects of divalent cations on transmission in the squid giant synapse // Pubbl. Sin. Zool. Napoli. 1969. Vol. 37. P. 303-310.

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Глава 6. Постсинаптические механизмы передачи сигнала

Barrionuevo, G., Brown, T. H. Associative long-term potentiation in hippocampal slices // Proc. Natl. Acad. Sci. USA. 1983. Vol. 80. P. 7347-7351.

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Глава 7. Сигнальные механизмы действия веществ

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Глава 8. Нейромедиаторы и нейромодуляторы (общий обзор)

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Глава 12. Газообразные нейромодуляторы и объемная передача сигнала

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Сидоров Александр Викторович

ФИЗИОЛОГИЯ МЕЖКЛЕТОЧНОЙ КОММУНИКАЦИИ

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