RSS    

   Атф индуцированное изменение внутриклеточной концентрации кальция в нейронах неокортекса крыс

proteins: more sights than insights. Trends Biochem. Sci. 16, 98 - 103.

23. Heschler J. and Schultz G. (1993) G-proteins involved in the calcium

channel signalling system. Curr. Opin. Neurobiol. 3, 360-367.

24. Hiderman, R. H., Martin, M., Zimmerman, J. K., Pivorun, E. B. (1991)

Identification of a unique membrane receptor for adenosin 5(,5(((-

P1,P4-tetraphosphate. J. Biol. Chem. 266: 6915-6918

25. Hoyle, C. H. V. (1990) Pharmacological activity of adenine

dinucleotides in the periphery: possible receptor classes and

transmitter function. Gen. Pharmacol. 21: 827-831

26. Hymel L., Inui M., Fleischer S. and Schindler H. (1988). Purified

ryanodine receptor of skeletal muscle sarcoplasmic reticulum forms Ca2+-

activated oligomeric Ca2+ channels in planar bilayers.

Proc.Natl.Acad.Sci.U.S.A. 85, 441-445.

27. Kirischuk S.I., Voitenko N.V., Kettenmann H.O. and Verkhratsky

A.N. (1994) Mechanisms of cytoplasmic calcium signalling in

cerebellar Bergman glial cells // Neurophysiology v.26, 417-419.

28. Kirischuk, V.Matiash, A.Kulik, N.Voitenko, P.Kostyuk,

A.Verkhratsky (1996) Activation of P2-purino, (1-adreno and H1-

histamine receptors triggers cytoplasmic calcium signalling in

cerebellar Pupkinje neurons // Neuroscience v.73, 643-647

29. Kostyuk and A. Verhratsky (1994) Calcium stores in neurones and

glia //Neuroscience v. 63, N.2, 381-404.

30. Kostyuk P. G. (1992). Calcium ions in nerve cell function. Oxford, New

York, Tokyo: Oxford University Press.

31. Kuno M., Maeda N. and Mikoshiba K. (1994) IP3-activated Ca2+-permeable

channels in the incide-out patches of cultured cerebellar Purkinje

cells. Biochem. Biophys. Res. Comm. 199, 1128 - 1135.

32. Lуckhoff A. and Clapham D.E. (1992) Inositol 1,3,4,5-tetrakisphosphate

activates an endothelial Ca2+-permeable channel. Nature 355, 356-358.

33. Londos, C., Cooper, D. M. F., Wolff, J. (1980) Subclasses of external

adenosine receptors. Proc. Natl. Acad. Sci. 77: 2551-2554

34. Lytton J., Westlin M. and Hanley M. R. (1991). Thapsigargin inhibits

the sarcoplasmic or endoplasmic reticulum Ca-ATPase family of calcium

pums. Biol. Chem. 266, 17067-17071.

35. Mackgrill J. J. and Lai F. A. (1994). Solubilization of the type 3

ryanodine receptor from rabbit brain. Biophys. J. 66, A147

36. McPherson P. S., Kim Y. K., Valdivia H., Knudson C. M., Takekura H.,

Franzini-Armstrong C., Coronado R. and Campbell K. P. (1991). The brain

ryanodine receptor: A caffeine-sensitive calcium release channel.

Neuron 7, 17-25.

37. N.Voitenko, S.Kirischuk, A.Kulik, A.Verkhratsky (1995) Calcium

signalling in granule neurones of the mouse cerebellar slices //

Pflugers Archiv European Journal of Physiology, v.430, Supplement

4, R124.

38. Nicholls D.G. (1985) A role for the mitochondria in the protection of

the cell against calcium overload. Prog. Brain Res. 63, 97-106.

39. Pintor, J., Diaz-Rey, M. A., Torres, M., Miras-Portugal, M. T. (1992)

Presence of diadenosine polyphosphates-Ap4A and Ap5A-in rat brain

synaptic terminals. Ca2+-dependent release evoked by 4-aminopyridine

and veratridine. Neurosci. Lett. 136: 141-144

40. Ribeiro, J. A., Sebastiao, A. M. (1986) Adenosine receptors and

calcium: basis for proposing a third (A3) adenosine receptor. Prog.

Neyrobiol. 26: 179-209

41. Rios E. and Pizarro C. (1991) Voltage-sensor of excitation-contraction

coupling in skeletal muscle. Physiol. Rev. 76, 849 - 908

42. Ross C. A., Danoff S. K., Schell M. J., Snyder S. H. and Ullrich A.

(1992). Three additional inositol 1,4,5-trisphosphate receptors:

Molecular cloning and differential localization in brain and peripheral

tissues. Proc. Natl. Acad. Sci. U.S.A. 89, 4265-4269.

43. S.Kirischuk, N.Voitenko, P.Kostyuk, A.Verkhratsky (1995) Calcium

signalling in granule neurones studied in cerebellar slices //

Cell Calcium v.18, 464-476

44. S.Kirischuk, N.Voitenko, P.Kostyuk, A.Verkhratsky (1996) Age-

associated Changes of Citoplasmic Calcium Homeostasis in

Cerebellar Granule Neurones in situ: Investigation on Thin

Cerebellar Slices. // Experimental Gerontology

45. S.Kirischuk, N.Voitenko, T.Moller, H.Kettenmann and A.Verkhratsky

(1995) ATP-induced cytoplasmic calcium mobilization in bergman

glial cells // J. Neuroscience v.15, 8234-8248.

46. Scheggerburger R., Zhou Z., Konnerth A. and Neher E. (1993). Fractional

contribution of calcium to the cation current through glutamate

receptor channels. Neuron 11, 133-143.

47. Sergej Kirischuk and Alexej Verkhratsky (1996) [Ca2+]i recordings

from neural cells in acutely isolated cerebellar slices employing

differential loading of the membrane-permeant form of the calcium

indicator fura-2 // Pflugers Arch. -Eur. J. Physiology v.431, 977-

983

48. Sergej Kirischuk, Nana Voitenko, Platon Kostyuk, Alexej

Verkhratsky (1996) Calcium signalling in granule neurones studied

in cerebellar slices // Cell Calcium v.19, 59-71

49. Shmigol A., Kirischuk S., Kostyuk P. and Verkhratsky A. (1994).

Different properties of caffeine-sensitive Ca2+ stores in peripheral

and central mammalian neurones. Pflьgers Arch. 426, 174-176.

50. Shmigol, D.Eisner & A.Verkhratsky (1995): Cyclic ADP ribose

enhances Ca2+-induced Ca2+ release in mouse sensory neurones.

Journal of Physiology, London, v. 483P, p63P.

51. Shmigol, N. Svichar, P. Kostyuk & A. Verkhratsky (1996) Gradual

caffeine-induced Ca2+ release in mice DRG neurones is controlled

by cytoplasmic and intraluminal Ca2+. Neuroscience, 73 N 4, 1061-

1067

52. Shmigol, P. Kostyuk & A. Verkhratsky (1995): Thapsigargin blocks

plasmalemmal voltage-operated calcium channels in mouse DRG

neurones. Journal of Physiology, London, v. 483P, p64P.

53. Soltoff, S. P., McMillian, M.K., Talamo, B.R., Cantley, L. C.(1993)

Blockade of ATP binding site of P2 purinoceptors in rat parotid acinar

cells by isothiocyanate compounds. Biochem. Pharmacol. 45: 1936-1940

54. Tatsumi H. and Katayama Y. (1993) Regulation of intracellular free

calcium concentration in acutely dissociated neurones from rat nucleus

basalis.J.Physiol., Lond.464,165-181.

55. Tepikin A. V., Kostyuk P. G., Snitsarev V. A. and Belan P. V. (1992a).

Extrusion of calcium from a single isolated neuron of the snail Helix

pomatia. J. Membrane Biol. 123, 43-37.

56. Thayer S.A. and Miller R.J. (1990) Regulation of the intracellular free

calcium concentration in single rat dorsal root ganglion neurones in

vitro. J.Physiol. (London), 425, 85 - 115.

57. Ursula Windscheif, (1996) Purinoceptors: from history to recent

progress. Review. J. Pharm. Pharmacol. 48: 993-1011

58. Van Calker, D., Muller, M., Hamprecht, B. (1979) Adenosine regulates

via two different types of receptors, the accumulation of cyclic AMP in

cultured brain cells. J. Neurochem. 33: 999-1005

59. Verkhratsky & A.Shmigol (1996) Calcium-induced calcium release in

neurones. Cell Calcium, v.19, No 1, 1-14.

60. Voitenko N., Kirischuk S., Verkhratsky A. (1995) Mechanisms of

cytoplasmic calcium signalling in cerebellar granule neurones in

situ. // Експериментальна та клінічна фізіологія, збірник наукових

праць до 100-річчя кафедри фізіології Львівського медичного

університету, р.357.

61. Zhou Z. and Neher E. (1993). Calcium permeability of nicotininc

acetylcholine receptor channels in bovine adrenal chromaffine cells.

Pflugers Arch. 425, 511-517.

62. Zhou Z. and Neher E. (1993). Mobile and immobile calcium buffers in

bovine adrenal chromaffin cells. J.Physiol., Lond. 469, 245-273.

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Рисунок 1. Строение молекулы АТФ

Страницы: 1, 2, 3, 4, 5, 6


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