References
- Aghajanian G. K. The modulatory role of serotonin at multiple receptors in brain. Serotonin, neurotransmission and behaviour, B L. Jacobs, A Gelperin, 1981; 156–185, III Synaptic mechanisms
- Armstrong-James M., Caan A. W., Fox K. Threshold effects of N-Methyl-D-Aspartate (NMDA) and 2-Amino-Phosphonovaleric acid (2APV) on the spontaneous activity of neocortical single neurones in the urethane anaesthetised rat. Experimental Brain Research 1985; 60: 209–213
- Armstrong-James M., Fox K. Effects of iontophoresed noradrenaline on the spontaneous activity of neurones in rat primary somatosensory cortex. Journal of Physiology 1983; 335: 427–447
- Armstrong-James M., Fox K. Similarities in the unitary cortical activity between slow wave sleep and light urethane anaesthesia in the rat. Journal of Physiology 1984; 346: 55
- Armstrong-James M., Fox K. Evidence for a specific role for cortical NMDA receptors in slow wave sleep. Brain Research 1988; 451: 189–196
- Armstrong-James M., Fox K., Kruk Z. L., Millar J. Quantitative ionophoresis of catecholamines using multi-barrel carbon fibre microelectrodes. Journal of Neuroscience Methods 1980; 4: 385–406
- Bradshaw C. M., Roberts M. H.T., Szabadi E. Effects of imipramine and desipramine on responses of single cortical neurones to noradrenaline and 5-hydroxytryptamine. British Journal of Pharmacology 1974; 73: 349–358
- Bradshaw C. M., Stoker M. J., Szabadi E. Comparison of the neuronal responses to 5-hydroxytryptamine, noradrenaline and phenylepherine in the cerebral cortex; effects of haloperidol and methysergide. Neuropharmacology 1983; 22: 677–685
- Davies M. F., Deisz R. A., Prince D. A., Peroutka S. J. Two distinct effects of 5-hydroxytryptamine on single cortical neurones. Brain Research 1987; 423: 347–352
- Evarts E. V., Bental E., Bihari B., Huttenlocher P. R. Spontaneous discharge of single neurones during sleep and waking. Science 1962; 135: 726–728
- Fox K., Armstrong-James M. The role of anterior intralaminar nuclei and N-Methyl-D-Aspartate receptors in the generation of spontaneous bursts in rat neocortical neurones. Experimental Brain Research 1986; 505–518
- Jones R. S.G. A comparison of the response of cortical neurones to iontophoretically applied tryptamine and 5-hydroxytryptamine in the rat. Neuropharmacology 1982; 21: 209–214
- Jones R. S.G., Boulton A. A. Tryptamine and 5-hydroxytryptamine: actions and interactions on cortical neurones in the rat. Life Science 1980; 27: 1849–1856
- Jordan L. M., Frederickson R. C.A., Phillis J. W., Lake N. Microelectrophoresis of 5-hydroxytryptamine: a clarification of its action on cerebral cortical neurones. Brain Research 1972; 40: 552–558
- Jouvet M. Biogenic amines and the states of sleep. Science 1969; 163: 32–41
- Jouvet M. Indolamines and sleep inducing factors. Experimental Brain Research Suppliment 1984; 8: 81–94, In Sleep Mechanisms Ed. A. Borbely and J.L. Valatx.
- Krnjevic K., Phillis J. W. Iontophoretic studies of neurones in the mammalian cerebral cortex. Journal of Physiology 1963; 165: 274–304
- Llinas R., Sugimori H. Electrophysiological properties of in vitro Purkinje cell somata in mammalian cerebellar slices. Journal of Physiology 1980; 305: 171–195
- Koella W. P. Serotonin and Sleep. Experimental Medicine and Surgery 1969; 27: 157–168
- Kruk Z. L., Armstrong-James M., Fox K., Millar J. Measurement of the concentration of 5-hydroxytryptamine ejected during iontophoresis using multibarrelled carbon fibre microelectrodes. Life Science 1980; 27: 2093–2098
- Lidov H. G.W., Grzanna R., Molliver M. E. The Serotonin innervation of the cerebral cortex in the rat-an immunohistological analysis. Neuroscience 1980; 5: 207–227
- McGinty D. J., Harper R. M. Dorsal raphe neurones: depression of firing during sleep in cats. Brain Research 1976; 101: 569–575
- Millar J. A ‘wavegate’ spike discriminator for sorting extracellular nerve action potentials. Journal of Neuroscience Methods 1983; 7: 157–164
- Nedergaard S., Enderburg I., Flatman J. A. Serotonin facilitates NMDA responses of cat neocortical neurones. Acta Physiological Scandinavica 1986; 128: 323–325
- Ory-Lavollee L., Pointis D., Lamour Y., Chiang C. Y., Rivot J. P. In vivo electrochemical detection of 5-Hydroxyindoles in rat cerebral cortex and spinal cord: differential aspects of p-Chloroamphetamine, probenecid and clorgyline. Neuroscience Letters 1984; 50: 231–237
- Pazos A., Palacios J. M. Quantitative autoradiographic mapping of serotonin receptors in the rat brain. I. Serotonin-1-receptors. Brain Research 1985; 346: 205–230
- Pazos A., Cortes R., Palacios J. M. Quantitative autoradiographic mapping of serotonin receptor in rat brain. II Serotonin-2-receptors. Brain Research 1985; 346: 231–249
- Phillis J. W., Lake N., Yarborough G. Calcium mediation of the inhibitory effects of biogenic amines on cerebral cortical neurones. Brain Research 1973; 53: 465–469
- Roberts M. H.T., Straughan D. W. Excitation and depression of cortical neurones by 5-hydroxytryptamine. Journal of Physiol 1967; 193: 269–294
- Trulson M. E., Jacobs B. L. Raphe unit activity in freely moving cats: correlation with the level of behavioural arousal. Brain Research 1979; 163: 135–150
- Waterhouse B. D., Moises H. C., Woodward D. J. Interaction of Serotonin with somatosensory cortical neuronal responses to afferent synaptic inputs and putative transmitters. Brain Research Bulletin 1986; 17: 507–518