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255 related items for PubMed ID: 7562642

  • 1. Hypoxic changes in rat locus coeruleus neurons in vitro.
    Nieber K, Sevcik J, Illes P.
    J Physiol; 1995 Jul 01; 486 ( Pt 1)(Pt 1):33-46. PubMed ID: 7562642
    [Abstract] [Full Text] [Related]

  • 2. Depolarization of rat locus coeruleus neurons by adenosine 5'-triphosphate.
    Harms L, Finta EP, Tschöpl M, Illes P.
    Neuroscience; 1992 Jun 01; 48(4):941-52. PubMed ID: 1630630
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  • 3. Effects of potassium channel openers and their antagonists on rat locus coeruleus neurones.
    Finta EP, Harms L, Sevcik J, Fischer HD, Illes P.
    Br J Pharmacol; 1993 Jun 01; 109(2):308-15. PubMed ID: 8358535
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  • 4. Inhibitory adenosine A1-receptors on rat locus coeruleus neurones. An intracellular electrophysiological study.
    Regenold JT, Illes P.
    Naunyn Schmiedebergs Arch Pharmacol; 1990 Mar 01; 341(3):225-31. PubMed ID: 2342603
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  • 5. Contribution of ATP-sensitive potassium channels to hypoxic hyperpolarization in rat hippocampal CA1 neurons in vitro.
    Fujimura N, Tanaka E, Yamamoto S, Shigemori M, Higashi H.
    J Neurophysiol; 1997 Jan 01; 77(1):378-85. PubMed ID: 9120578
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  • 6. Changes by short-term hypoxia in the membrane properties of pyramidal cells and the levels of purine and pyrimidine nucleotides in slices of rat neocortex; effects of agonists and antagonists of ATP-dependent potassium channels.
    Pissarek M, Garcia de Arriba S, Schäfer M, Sieler D, Nieber K, Illes P.
    Naunyn Schmiedebergs Arch Pharmacol; 1998 Oct 01; 358(4):430-9. PubMed ID: 9826065
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  • 12. Effects of hypoxia on rat hippocampal neurones in vitro.
    Fujiwara N, Higashi H, Shimoji K, Yoshimura M.
    J Physiol; 1987 Mar 01; 384():131-51. PubMed ID: 2443657
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  • 13. Regulation of a potassium conductance in rat midbrain dopamine neurons by intracellular adenosine triphosphate (ATP) and the sulfonylureas tolbutamide and glibenclamide.
    Stanford IM, Lacey MG.
    J Neurosci; 1995 Jun 01; 15(6):4651-7. PubMed ID: 7790930
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  • 14. Characterization of the adenosine A1 receptor-activated potassium current in rat locus ceruleus neurons.
    Pan WJ, Osmanović SS, Shefner SA.
    J Pharmacol Exp Ther; 1995 Apr 01; 273(1):537-44. PubMed ID: 7714809
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  • 15. Effects of methylphenidate on the membrane potential and current in neurons of the rat locus coeruleus.
    Ishimatsu M, Kidani Y, Tsuda A, Akasu T.
    J Neurophysiol; 2002 Mar 01; 87(3):1206-12. PubMed ID: 11877494
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  • 16. Ca2+-activated K+ currents in rat locus coeruleus neurons induced by experimental ischemia, anoxia, and hypoglycemia.
    Murai Y, Ishibashi H, Koyama S, Akaike N.
    J Neurophysiol; 1997 Nov 01; 78(5):2674-81. PubMed ID: 9356417
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  • 17. Carbon dioxide regulates the tonic activity of locus coeruleus neurons by modulating a proton- and polyamine-sensitive inward rectifier potassium current.
    Pineda J, Aghajanian GK.
    Neuroscience; 1997 Apr 01; 77(3):723-43. PubMed ID: 9070748
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  • 18. gamma-Aminobutyric acid responses in rat locus coeruleus neurones in vitro: a current-clamp and voltage-clamp study.
    Osmanović SS, Shefner SA.
    J Physiol; 1990 Feb 01; 421():151-70. PubMed ID: 2348390
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  • 19. Effects of adenosine and ATP on the membrane potential and synaptic transmission in neurons of the rat locus coeruleus.
    Kuwahata T.
    Kurume Med J; 2004 Feb 01; 51(2):109-23. PubMed ID: 15373228
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  • 20. Pharmacological identification of the K(+) currents mediating the hypoglycemic hyperpolarization of rat midbrain dopaminergic neurones.
    Marinelli S, Bernardi G, Giacomini P, Mercuri NB.
    Neuropharmacology; 2000 Apr 03; 39(6):1021-8. PubMed ID: 10727712
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