VOL. 73 (2), 537-566, 2007  ECTO-NUCLEOTIDASES, MOLECULAR PROPERTIES...

                            REFERENCES

 (1)  BURNSTOCK, G. and KNIGHT, G. E. (2004): Cellular distribution and functions
 (2)  of P2 receptor subtypes in different systems. Int. Rev. Cytol. 240: 31-304.
 (3)  BURNSTOCK, G. (1972): Purinergic nerves. Pharmacol. Rev. 24: 509-581.
 (4)  BURNSTOCK, G. (1998): History of extracellular nucleotides and their receptors.
      in: The P2 Nucleotide Receptors (Turner J. T., Weisman G. A. and Fedan J.
 (5)  S., Eds), pp. 3-40. Humana Press, Totowa, New Jersey.
      MORESCHI, I.; BRUZZONE, S.; NICHOLAS, R. A.; FRUSCIONE, F.; STURLA, L.;
 (6)  BENVENUTO, F.; USAI, C.; MEIS, S.; KASSACK, M. U.; ZOCCHI, E. and DEFLORA, A.
 (7)  (2006): Extracellular NAD+ is an agonist of the human P2Y11 purinergic
 (8)  receptor in human granulocytes. J. Biol. Chem. 281: 31419-31429.
      SCHWIEBERT, E. M.; ZSEMBERY, A. and GEIBEL, J. P. (2003): Cellular mechanisms
 (9)  and physiology of nucleotide and nucleoside release from cells: Current
(10)  knowledge, novel assays to detect purinergic agonists, and future directions.
(11)  in: Extracellular Nucleotides and Nucleosides: Release, Receptors, and
(12)  Physiological and Pathophysiological Effects (Schwiebert, E. M, Ed), pp. 31-
(13)  58. Academic Press, Amsterdam, New York, Tokyo.
(14)  King, A. E.; Ackley, M. A.; Cass, C. E.; Young, J. D. and Baldwin, S. A. (2006):
(15)  Nucleoside transporters: from scavengers to novel therapeutic targets. Trends
      Pharm. Sci. 27: 416-425.
      HOYLE, C. H. V.; HILDERMAN, R. H.; PINTOR, J. J.; SCHLÜTER, H. and KING, B. F.
      (2001): Diadenosine polyphosphates as extracellular signal molecules. Drug
      Develop. Res. 52: 260-273.
      DELICADO, E. G.; MIRAS-PORTUGAL, M. T.; CARRASQUERO, L. M. G.; LEON, D.; PÉREZ-
      SEN, R. and GUALIX, J. (2006): Dinucleoside polyphosphates and their
      interaction with other nucleotide signaling pathways. Pflugers Arch. Eur. J.
      Physiol. 452: 563-572.
      MARUYAMA, K. (1991): The discovery of adenosine triphosphate and the
      establishment of its structure. J. Hist. Biol. 24: 145-154.
      DRURY, A. N. and SZENT-GYÖRGYI, A. (1929): The physiological activity of
      adenine compounds with especial reference to their action upon the
      mammalian heart. J Physiol-London 68: 213-237.
      GILLESPIE, J. H. (1934): The biological significance of the linkages in adenosine
      triphosphoric acid. J. Physiol. London. 80: 345-359.
      FANTL, P. and WARD, H. A. (1956): Nucleotides in human platelets. Biochem.
      J. 64: 747-754.
      DA PRADA, M.; PLETCHER, A.; TRANZER, J. P. and KNUCHEL, H. (1967): Subcellular
      localization of 5-hydroxytryptamine and histamine in blood platelets. Nature.
      216: 315-317.
      FALCK, B.; HILLARP, N.-Å. and HÖGBERG, B. (1956): Content and intracellular
      distribution of adenosine triphosphate in cow adrenal medulla. Acta Phys.
      Scand. 36: 360-376.
      BLASCHKO, H.; BORN, G. V. R.; D’IORIO, A. and EADE, N. R. (1956): Observations
      on the distribution of catecholamines and adenosine triphosphate in the
      bovine adrenal medulla. J. Physol. Lond. 133: 548-557.

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