SEARCH

SEARCH BY CITATION

  • Bingmann, D., Baker, R. E., Ballantyne, D., Jones, D. & Widman, G. (1995). Suppression of rhythmic discharges of medullary neurones in organotypic cultures of new-born rats by calcium antagonists. Neuroscience Letters 199, 187190.
  • Blackmore, P. F., Boccino, S. B., Waynick, L. E. & Exton, J. H. (1985). Role of guanine nucleotide-binding regulatory protein in the hydrolysis of hepatocyte phosphatidylinositol 4,5-biphosphate by calcium-mobilizing hormones and the control of cell calcium: Studies utilizing aliminium fluoride. Journal of Biological Chemistry 260, 1447714483.
  • Buckler, K. J. & Vaughan-Jones, R. D. (1994). Effects of hypoxia on membrane potential and intracellular calcium in rat neonatal carotid body type I cells. The Journal of Physiology 476, 423428.
  • Chad, J. E. & Eckert, R. (1984). An enzymatic mechanism for calcium current inactivation in dialysed Helix neurones. The Journal of Physiology 378, 3151.
  • Chavis, P., Fagni L., Bockaert, J. & Lansman, J. B. (1995a). Modulation of calcium channels by metabotropic glutamate receptors in cerebellar granule cells. Neuropharmacology 34, 929937.
  • Chavis, P., Nooney, J. M., Bockaert, J., Fagni L., Feltz, A. & Bossu, J. L. (1995b). Facilitatory coupling between a glutamate metabotropic receptor and dihydropyridine-sensitive calcium channels in cultured cerebellar granule cells. Journal of Neuroscience 15, 135143.
  • Cherniack, N. S., Edelman, N. H. & Lahiri, S. (1970). Hypoxia and hypercapnia as respiratory stimulants and depressants. Respiration Physiology 11, 113126.
  • Conn, P. J. & Pin, J. P. (1997). Pharmacology and functions of metabotropic glutamate receptors. Annual Review of Pharmacology and Toxicology 37, 205237.
  • Duchen, M. R. (1990). Effects of metabolic inhibition on the membrane properties of isolated mouse primary sensory neurones. The Journal of Physiology 424, 387409.
  • Elliot, E. M., Malouf, A. T. & Catterall, W. A. (1995). Role of calcium channel subtypes in calcium transients in hippocampal CA3 neurons. Journal of Neuroscience 14, 55905602.
  • Elsen, F. P. & Ramirez, J. M. (1997). Hypoxia reduces the amplitude of voltage-dependent calcium current in the isolated respiratory system of mice. Society for Neuroscience Abstracts 495, 11.
  • Ganitkevich, V. Y. & Isenberg, G. (1990). Contribution of two types of calcium channels to membrane conductance of single myocytes from guinea-pig coronary artery. The Journal of Physiology 443, 703725.
  • Haddad, G. G. & Donnelly, D. F. (1990). O2 deprivation induces a major depolarization in brain stem neurons in the adult but not in the neonatal rat. The Journal of Physiology 429, 411428.
  • Jiang, C., Sigworth, C. & Haddad, G. G. (1994). Hypoxia activates ATP- and Ca2+-sensitive K+ channels in substantia nigra neurones. Journal of Neuroscience 14, 55905602.
  • Ju, Y. K., Saint, D. A. & Gage, P. W. (1996). Hypoxia increases persistent sodium current in rat ventricular myocytes. The Journal of Physiology 497, 337347.
  • Kay, A. R. (1992). An intracellular medium formulary. Journal of Neuroscience Methods 44, 91100.DOI: 10.1016/0165-0270(92)90002-U
  • Kostyuk, P. G. & Krishtal, O. (1977). Effects of calcium and calcium-chelating agents on the inward and outward current in the membrane of mollusc neurones. The Journal of Physiology 270, 569580.
  • Kostyuk, P. G., Mironov, S. L., Doroshenko, P. A. & Ponomarev, V. N. (1982). Surface charges on the outer surface of mollusc neurons. Journal of Membrane Biology 70, 171179.
  • Kostyuk, P. G., Mironov, S. L. & Shuba, Y. M. (1983). Two ion-selecting filters in Ca2+ channel of mollusc neurons. Journal of Membrane Biology 76, 8393.
  • Kuo, C.-C. & Hess, P. (1993). Ion permeation through the L-type Ca2+ channel in rat phaeochromocytoma cells: two sets of ion binding sites in the pore. The Journal of Physiology 466, 629655.
  • Lester, R. A. & Jahr, C. E. (1990). Quisqualate receptor-mediated depression of calcium current in hippocampal neurons. Neuron 4, 741749.
  • Levitan, I. B. (1988). Modulation of ion channels in neurons and other cells. Annual Review of Neuroscience 11, 119136.DOI: 10.1146/annurev.ne.11.030188.001003
  • Leyssens, A., Nowicky, A. V., Patterson, L., Crompton, M. & Duchen, M. R. (1996). The relationship between mitochondrial state, ATP hydrolysis, [Mg2+]i and [Ca2+]i studied in isolated rat cardimyocytes. The Journal of Physiology 496, 111128.
  • Lutz, P. L. (1992). Mechanisms for anoxic survival in the vertebrate brain. Annual Review of Physiology 54, 601618.DOI: 10.1146/annurev.ph.54.030192.003125
  • McDonald, T. F., Cavalie, A., Trautwein, W. & Pelzer, D. (1986). Voltage-dependent properties of macroscopic and elementary calcium channel currents in guinea pig ventricular myocytes. Pflügers Archiv 406, 437448.
  • Martin, R., Lloyd, H. G. E. & Cowan, A. I. (1995). The early events of oxygen and glucose deprivation: setting the scene for neuronal death? Trends in Neurosciences 17, 251255.
  • Matsuda, H. (1986). Sodium conductance in calcium channels of guinea-pig ventricular cells induced by removal of external calcium ions. Pflügers Archiv 407, 465475.
  • Mironov, S. L. (1992). Conformational model for ion permeation in membrane channels: A comparison with multi-ion models and applications to Ca channel permeability. Biophysical Journal 63, 485496.
  • Mironov, S. L. (1995). Plasmalemmal and intracellular Ca2+ pumps as main determinants of slow Ca2+ buffering in rat hippocampal neurones. Neuropharmacology 34, 11231132.
  • Mironov, S. L., Langohr, K., Haller, M. & Richter, D. W. (1998). Hypoxia activates ATP-dependent potassium channels in inspiratory neurones of neonatal mice. The Journal of Physiology 509, 755766.
  • Mironov, S. L. & Lux, H. D. (1991a). Cytoplasmic alkalinization increases high-threshold calcium current in chick dorsal root ganglion neurones. Pflügers Archiv 419, 138143.
  • Mironov, S. L. & Lux, H. D. (1991b). Calmodulin antagonists and protein phosphatase inhibitor okadaic acid fasten a ‘run-up’ of high-voltage activated calcium current in hippocampal neurons. Neuroscience Letters 133, 175178.
  • Mironov, S. L. & Lux, H. D. (1992). A selective increase of high-threshold Ca current by glutamate in hippocampal cells. Brain Research 580, 341344.
  • Nagel, H., Schmidt-Garcon, R. & Richter, D. W. (1993). Extracellular adenosine levels within the respiratory network during sustained hypoxia. XXXII Congress of the International Union of Physiological Sciences 141.21/P.
  • Onimaru, H., Ballanyi, K. & Richter, D. W. (1996). Calcium-dependent responses in neurons of the isolated respiratory network of newborn rats. The Journal of Physiology 491, 677695.
  • Ottersen, O. P. & Landsend, A. S. (1997). Organization of glutamate receptors at the synapse. European Journal of Neuroscience 9, 22192224.
  • Pierrefiche, O., Champagnat, J. & Richter, D. W. (1995). Calcium-dependent conductances control neurones involved in termination of inspiration in cats. Neuroscience Letters 184, 101104.
  • Ramirez, J. M., Quellmalz, U. J. A. & Wilken, B. (1997). Developmental changes in the hypoxic response of the hypoglossus respiratory motor output in vitro. Journal of Neurophysiology 78, 383392.
  • Richter, D. W., Bischoff, A. M., Anders, K., Bellingham, M. & Windhorst, U. (1991). Response of the medullary respiratory network of the cat to hypoxia. The Journal of Physiology 443, 231256.
  • Richter, D. W., Champagnat, J., Jacquin, T. & Benacka, R. (1993). Calcium and calcium-dependent potassium currents in medullary respiratory neurones. The Journal of Physiology 470, 2333.
  • Rothe, T., Bigl, V. & Grantyn, R. (1994). Potentiating and depressant effects of metabotropic glutamate receptor agonists on high-voltage-activated calcium currents in cultured retinal ganglion neurones from postnatal mice. Pflügers Archiv 426, 161170.
  • Ruß, U., Englert, H., Schölkens, B. A. & Gögelein, H. (1996). Simultaneous recording of ATP-sensitive K+ current and intracellular Ca2+ in hypoxic rat ventricular myocytes. Effects of glibenclamide. Pflügers Archiv 432, 7580.
  • Slesinger, P. A. & Lansman, J. B. (1991). Inactivating and non-inactivating dihydropyridine-sensitive Ca2+ channels in mouse cerebellar granule cells. The Journal of Physiology 439, 301323.
  • Smith, J. C., Ellenberger, H. H., Ballanyi, K., Richter, D. W. & Feldman, J. L. (1991). Pre-Bötzinger complex: a brainstem region that may generate respiratory rhythm in mammals. Science 254, 726729.
  • Sun, M. K. & Reis, D. J. (1994). Hypoxia-activated Ca2+ currents in pacemaker neurones of rat rostral ventrolateral medulla in vitro. The Journal of Physiology 476, 101116.
  • Swartz, K. J. & Bean, B. P. (1992). Inhibition of calcium channels in rat CA3 pyramidal neurons by a metabotropic glutamate receptor. Journal of Neuroscience 12, 43584371.
  • Szatkowski, M. & Attwell, D. (1994). Triggering and execution of neuronal death in brain ischemia: two phases of glutamate release by different mechanisms. Trends in Neurosciences 9, 359365.
  • Trippenbach, T., Richter, D. W. & Acker, H. (1990). Hypoxia and ion activities within the brainstem of newborn rabbits. Journal of Applied Physiology 68, 24942503.
  • Tsien, R. W., Lipscombe, D., Madison, D. V., Bley, K. R. & Fox, A. P. (1988). Multiple types of neuronal calcium channels and their selective modulation. Trends in Neurosciences 11, 431437.
  • Umemiya, M. & Berger, A. J. (1995). Single-channel properties of four calcium channel types in rat motoneurons. Journal of Neuroscience 15, 22182224.
  • Zegarra-Moran, O. & Moran, O. (1993). Modulation of voltage-dependent calcium channels by glutamate in rat cerebellar granule cells in culture. Experimental Brain Research 95, 6569.