Цитированная. 1. Smith E.L. et al. Principles of Biochemistry: Mammalian Biochemistry, 7th ed, pp

1. Smith E.L. et al. Principles of Biochemistry: Mammalian Biochemistry, 7th ed, pp. 355 619. New York, McGraw-Hill, 1983.

Snyder S. H. The molecular basis of communication between cells. Sci. Am., 253 (4), 132-140, 1985.

2. Norman A. W., Litwack G. Hormones. San Diego, CA, Academic, 1987.

Wilson J. D., Foster D. W. Williams' Textbook of Endocrinology, 7th ed. Philadelphia, Saunders, 1985.

3. Simpson I. A., Cushman S. W. Hormonal regulation of mammalian glucose transport. Annu. Rev. Biochem., 55, 1059-1089, 1986.

4. Beer D. J., Matloff S. M., Rocklin R. E. The influence of histamine in immune and inflammatory responses. Adv. Immunol., 35, 209-268, 1984.

Gospodarowicz D., Cheng J., Lui G. M., Baird A., Bohlen P. Isolation of brain fibroblast growth factor by heparin sepharose affinity chromatography: identity with pituitary fibroblast growth factor. Proc. Natl. Acad. Sci. USA, 81, 6963-6967, 1984.

5. Smith W. L., Borgeat P. The eicosanoids: prostaglandins, thromboxanes, leukotrienes, and hydroxyeicosaenoic acids. In: Biochemistry of Lipids and Membranes (D. E. Vance, J. E. Vance, eds.), pp. 325-360. Menlo Park, CA, Benjamin-Cummings, 1985.

6. Evans R. M. The steroid and thyroid hormone receptor superfamily. Science, 240, 889-895, 1988.

Gehring U. Steroid hormone receptors: biochemistry, genetics, and molecular biology. Trends Biochem. Sci., 12, 399-402, 1987.

Ivarie R. D., O'Farrell P. H. The glucocorticoid domain: steroid-mediated changes in the rate of synthesis of rat hepatoma proteins. Cell, 13, 41-55, 1978.

Yamamoto K. R. Steroid receptor regulated transcription of specific genes and genenetworks. Annu. Rev. Genet., 19, 209-252, 1985.

7. Ashburner M., Chihara C., Meltzer P., Richards G. Temporal control of puffing activity in polytene chromosomes. Cold Spring Harbor Symp.

Quant. Biol., 38, 655-662, 1974.

8. Attardi В., Ohno S. Physical properties of androgen receptors in brain cytosol from normal and testicular feminized (Tfrn/y♂) mice.

Endocrinology, 103, 760-770, 1978.

9. Berridge M. The molecular basis of communication within the cell. Sci. Am., 253 (4), 142-152, 1985.

Kahn C. R. Membrane receptors for hormones and neurotransmitters. J. Cell Biol., 70, 261-286, 1976.

Levitski A. Receptors: A Quantitative Approach. Menlo Park, Ca. Benjamin-Cummings, 1984.

Rees Smith В., Buckland P. R. Structure-function relations of the thyrotroprin receptor. In: Receptors, Antibodies and Disease. Ciba Foundation Symposium 90 (D. Evered, J. Whelan, eds.), pp. 114-132. London, Pitman, 1982.

Snyder S. H. The molecular basis of communication between cells. Sci. Am., 253 (4), 132-140, 1985.

10. Pastan I. Cyclic AMP. Sci. Am., 227(2), 97-105, 1972.

Sutherland E. W. Studies on the mechanism of hormone action. Science, 177, 401-408, 1972.

11. Schramm M., Selinger Z. Message transmission: receptor controlled adenylate cyclase system. Science, 225, 1350-1356, 1984.

12. Casperson G.F., Bourne H. R. Biochemical and molecular genetic analysis of hormone-sensitive adenylate cyclase. Annu. Rev. Pharmacol.

Toxicol., 27, 371-384, 1987.

Feder D. et al. Resonstruction of beta1-adrenoceptor-dependent adenylate cyclase from purified components. EMBO J. 5, 1509-1514, 1986.

Rodbell M. The role of hormone receptors and GTP-regulatory proteins in membrane transduction. Nature, 284, 17-22, 1980.

13. Oilman A.G. G proteins and dual control of afenylate cyclase. Cell, 36, 577-579, 1984.

Gilman A. G. G proteins: transducers of receptor-generated signals. Annu. Rev.

Biochem., 56, 615 649, 1987. Lai C.-Y. The chemistry and biology of cholera toxin. CRC Crit. Rev. Biochem., 9, 171-206, 1980.

Levitzki A. From epinephrine to cyclic AMP. Science, 241, 800-806, 1988. Stryer L., Bourne H. R. G proteins: a family of signal transducers.

Annu. Rev. Cell Biol., 2, 391-419, 1986.

14. Carafoli E. Intracellular calcium homeostasis. Annu. Rev. Biochem., 56, 395-433, 1987.

Carafoli E., Penninston J.T. The calcium signal. Sci. Am., 253(5), 70-78, 1985.

Албертс Б., Брей Д., Льюис Дж., Рэфф М., Робертс К. Уотсон Дж. Д. Молекулярная биология клетки: В 3-х т. 2-е изд. перераб. и доп. Т. 2.: Пер. с англ. – М.: Мир, 1993. – 539 с.

Evered D., Whelan J., eds. Calcium and the Cell. Ciba Foundation Symposium 122. Chichester, U.K., Wiley, 1986.

Volpe P. et al. "Calciosome", a cytoplasmic organelle: the inositol 1,4,5-trisphosphate-sensitive Ca2 + store of nonmuscle cells? Proc. Natl.

Acad. Sci. Usa, 85, 1091-1095, 1988.

15. Augustine G.J., Charlton M.P., Smith S.J. Calcium action in synaptic transmitter release. Annu. Rev. Neurosci., 10, 633-639, 1987.

Heilbrunn L. V., Wiercenski F. J. The action of various cations on muscle protoplasm. J. Cell. Соmр. Physiol., 29, 15-32, 1947.

16. Berridge M.J. Inositol lipids and calcium signalling. Pro. R. Soc. Lond. (Biol.), 234, 359-378, 1988.

Cockcroft S. Polyphosphoinositide phosphodiesterase: regulation by a novel guanine nucleotide binding protein, Gp. Trends Biochem. Sci., 12, 75-78, 1987.

Majerus P. W. et al. The metabolism of phosphoinositide-derived messenger molecules. Science, 234, 1519-1526, 1986.

Michell R. H., Putney J. W., eds. Inositol Lipids in Cellular Signaling. Current Communications in Molecular Biology. Cold Spring Harbor, NY. Cold Spring Harbor Laboratory, 1987.

Sekar M. C., Hokin L. L. 1 he role of phosphoinositides in signal transduction. J. Membr. Biol., 89, 193-210, 1986.

Woods N. M., Cuthbertson K. S. R., Cobbold P. H. Repetitive transient rises incytoplasmatic free calcium in hormone-stimulated hepatocytes.

Nature, 319, 600-602, 1986.

17. Angel P. et al. Phorbol ester-inducible genes contain a common cis element recognized by a TPA-modulated /raws-acting factor. Cell, 49, 729-

739, 1987.

Bell R. M. Protein kinase С activation by diacylglycerol second messengers. Cell, 45, 631-632, 1986.

Lee W., Mitchell P., Tijan R. Purified transcription factor AP-1 interacts with TPA-inducible enhancer elements. Cell, 49, 741-752, 1987.

Nishizuka Y. Studies and perspectives of protein kinase C. Science, 233, 305-312, 1986.

Parker P. J. et al. The complete primary structure of protein kinase С - the major phorbol ester receptor. Science, 233, 853-859, 1986.

18. Barbacid M. ras genes. Annu. Rev. Biochem., 56, 779-827, 1987.

19. Dohlman H.G., Caron M.G., Lefkowitz R.J. A family of receptors coupled to guanine nucleotide regulatory proteins. Biochemistry, 26, 2657-

2664, 1987.

Dunlap K., Holz G. G., Rane S. G. G proteins as regulators of ion channel function. Trends Neurosci., 10, 241-244, 1987.

Kubo T. et al. Cloning, sequencing and expression of complementary DNA encoding the muscarinic acetylcholine receptor. Nature, 323, 411-

416, 1986.

Masu Y. et al. cDNA cloning of bovine substance-K receptor through oocyte expression system. Nature, 329, 836-838, 1987.

Stryer L. The molecules of visual excitation. Sci. Am., 257(1), 42-50, 1987.

20. Carpenter G. Receptors for epidermal growth factor and other polypeptide mitogens. Annu. Rev. Biochem., 56, 881-914, 1987.

Kaplan D. R. et al. Common elements in growth factor stimulation and oncogenic transformation: 85 kd phosphoprotein and phosphatidylinositol kinase activity. Cell, 50, 1021-1029, 1987.

Rosen O.M. After insulin binds. Science, 237, 1452-1458, 1987. Schlessinger J. Allosteric regulation of the epidermal growth factor receptor kinase. J. Cell Biol., 103, 2067-2072, 1986.

Yarden Y, Ullrich A. Growth factor receptor tyrosine kinases. Annu. Rev. Biochem., 57, 443-478, 1988.

21. Deuel T.F. Polypeptide growth factors: roles in normal and abnormal cell growth. Annu. Rev. Cell Biol., 3, 443-492, 1987.

Hanks S. K., Quinn A. M., Hunter T. The protein kinase family: conserved features and deduced phylogeny of the catalytic domains. Science, 241, 42-52, 1988. Hunter T. A thousand and one protein kinases. Cell, 50, 823-829, 1987.

Ullrich A. et al. Human insulin receptor and its relationship to the tyrosine kinase family of oncogenes. Nature, 313, 756-761, 1985.

22. Cohen P. Control of Enzyme Activity, 2nd ed. London. Chapman and Hall, 1983. Edelman A.M., Blumenthal D.K., Krebs E. G. Protein serine/threonine kinases. Annu. Rev. Biochem, 56, 567-613, 1987.

23. Cohen P. Protein phosphorylation and the control of glycogen metabolism in skeletal muscle. Philos. Trans. R. Soc. Lond. (Biol.), 302, 13-25, 1983.

Montminy M. R., Bilezikjian L. M. Binding of a nuclear protein to the cyclic-AMP response of the somatostatin gene. Nature, 328, 175-178, 1987.

Pilkis S. J., El-Maghrabi M. R., Claus Т. Н. Hormonal regulation of hepatic gluconeogenesis and glycolysis. Annu. Rev. Biochem, 57, 755-

784, 1988.

Smith S. В., White H. D.. Siegel J. В., Krebs E. G. Cyclic AMP-dependent protein

Албертс Б., Брей Д., Льюис Дж., Рэфф М., Робертс К. Уотсон Дж. Д. Молекулярная биология клетки: В 3-х т. 2-е изд. перераб. и доп. Т. 2.: Пер. с англ. – М.: Мир, 1993. – 539 с.

kinase I: cyclic nucleotide binding, structural changes, and release of the catalytic subunits. Proc. Natl. Acad. Sci. USA, 78, 1591-1595, 1981.

24. Alemany S., Pelech S., Brier ley С. Н., Cohen P. The protein phosphatases involved in cellular regulation. Evidence that dephosphorylation of glycogen phosphorylase and glycogen synthase in the glycogen and microsomal fractions of rat liver are catalysed by the same enzyme: protein phosphatase-1. Eur. J. Biochem., 156, 101-110, 1986.

Ingebritsen T.S., Cohen P. Protein phosphatases: properties and role in cellular regulation. Science, 221, 331 338, 1983.

25. Baku Y.S. et al. Three-dimensional structure of calmodulin. Nature, 315, 37-40, 1985.

Cheung W.Y. Calmodulin. Sci. Am., 246(6), 48-56, 1982.

Gerday C., Gilles R., Bolis L., eds. Calcium and Calcium Binding Proteins. Berlin, Springer-Verlag, 1988.

Klee C.B., Crouch Т.Н., Richman P.O. Calmodulin. Annu. Rev. Biochem., 49, 489-515, 1980.

26. Cohen P. Protein phosphorylation and hormone action. Proc. R. Soc. Lond. (Biol.), 234 115-144, 1988.

27. Golberg N. D., Haddox M. K. Cyclic GMP metabolism and involvement in biological regulation. Annu. Rev. Biochem., 46, 823 896, 1977.

Nakamura Т., Gold G. H. A cyclic nucleotide-gated conductance in olfactory receptor cilia. Nature, 325, 442-444, 1987.

Schnapf J.L., Bay lor D.A. How photoreceptor cells respond to light. Sci. Am., 256, (4), 40-47, 1987.

Stryer L. Cyclic GMP cascade of vision. Annu. Rev. Neurosci., 9, 87-119, 1986.

28. Cohen P. Protein phosphorylation and hormone action. Proc. R. Soc, Lond. (Biol.), 234, 115-144, 1988.

29. Schimke R. T. On the roles of synthesis and degradation in regulation of enzyme levels in mammalian tissues. Curr. Top. Cell. Regul., 1, 77-

124, 1969.

30. Lewis J., Slack J., Wolpert L. Thresholds in development. J. Theor. Biol., 65, 579-590, 1977.

Miller S. G., Kennedy M. B. Regulation of brain type II Ca2+/calmodulin-dependent protein kinase by autophosphorylation: a Ca2 +-triggered molecular switch. Cell, 44, 861-870, 1986.

Mulvihill E. R., Palmiter R. D. Relationship of nuclear estrogen receptor levels to induction of ovalbumin and conalbumin mRNA in chick oviduct. J. Biol. Chem., 252, 2060-2068, 1977.

31. Lefkowitz R.J., ed. Receptor regulation. Receptors and Recognition. Series B, Vol. 13. London, Chapman and Hall, 1981.

Soderquist A.M., Carpenter G. Biosynthesis and metabolic degradation of receptors for epidermal growth factor. J. Memb. Biol., 90, 97-105, 1986.

32. Sibley D. R., Benovic J. L., Caron M. G., Lefkowitz R. J. Regulation of transmembrane signaling by receptor phosphorylation. Cell, 48, 913-922, 1987.

33. Kassis S., Fishman P. H. Different mechanisms of desensitization of adenylate cyclase by isoproterenol and prostaglandin Et in human fibroblasts: role of regulatory components in desensitization. J. Biol. Chem., 257, 5312-5318, 1982.

Klee W.A., Sharma S.K., Nirenberg M. Opiate receptors as regulators of adenylate cyclase. Life Sci., 16, 1869-1874, 1975.

Snyder S.H. Opiate receptors and internal opiates. Sci. Am., 236(3), 44-56, 1977.

34. Adler J. The sensing of chemicals by bacteria. Sci. Am., 234(4), 40-47, 1976. Berg H. How bacteria swim. Sci. Am., 233(2), 36-44, 1975.

35. Koshlad D. E., Jr. Biochemistry of sensing adaptation in a simple bacterial system. Annu. Rev. Biochem., 50, 765-782, 1981.

Russo A.F., Koshland D.E. Receptor modification and absolute adaptation in bacterial sensing. In: Sensing and Response in Microorganisms (M. Eisenbach, M. Balaban, eds.), pp. 27-41. Amsterdam, Elsevier, 1985.

Springer M.S., Goy M.F., Adler J. Protein methylation in behavioral control mechanisms and in signal transduction. Nature, 280, 279-284, 1979.

36. Hess J. F., Oosawa K., Kaplan N., Simon M. I. Phosphorylation of three proteins in the signaling pathway of bacterial chemotaxis. Cell, 53, 79-

87, 1988.

Oosawa K., Hess J. F., Simon M. L Mutants defective in bacterial chemotaxis show modified protein phosphorylation. Cell, 53, 89-96, 1988.

Албертс Б., Брей Д., Льюис Дж., Рэфф М., Робертс К. Уотсон Дж. Д. Молекулярная биология клетки: В 3-х т. 2-е изд. перераб. и доп. Т. 2.: Пер. с англ. – М.: Мир, 1993. – 539 с.

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