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  • ALGER, B.E., DHANJAL, S.S., DINGLEDINE, R., GARTHWAITE, J., HENDERSON, G., KING, G.L., LIPTON, P., NORTH, A., SCHWARTZKROIN, P.A., SEARS, T.A., SEGAL, M., WHITTINGHAM, T.S. & WILLIAMS, J. (1984). Brain slice methods. In Brain Slices, ed. Dingledine, R. pp. 381437. New York: Plenum Press.
  • BALCAR, V.J. & JOHNSTON, G.A.R. (1972). Structural specificity of high affinity uptake of L-glutamate and L-aspartate by rat brain slices. J. Neurochem., 19, 295301.
  • BAUDRY, M., KRAMER, K., FAGNI, L., RECASENS, M. & LYNCH, G. (1983). Classification and properties of acidic amino acid receptors in hippocampus. II. Biochemical studies using a sodium efflux assay. Molec. Pharmac., 24, 222228.
  • BENJAMIN, A.M. & QUASTEL, J.H. (1976). Cerebral uptakes and exchange diffusion in vitro of L- and D-glutamates. J. Neurochem., 26, 431441.
  • BISCOE, T.J., EVANS, R.H., HEADLEY, P.M., MARTIN, M.R. & WATKINS, J.C. (1976). Structure-activity relations of excitatory amino acids on frog and rat spinal neurones. Br. J. Pharmac., 58, 373382.
  • BROWN, D.A., COLLINS, G.G.S. & GALVAN, M. (1980). Influence of cellular transport on the interaction of amino acids with γ-aminobutyric acid (GABA)-receptors in the isolated olfactory cortex of the guinea-pig. Br. J. Pharmac., 251262.
  • BROWN, D.A. & GALVAN, M. (1979). Responses of the guinea-pig isolated olfactory cortex to γ-aminobutyric acid recorded with extracellular electrodes. Br. J. Pharmac., 65, 347353.
  • BROWN, D.A. & SCHOLFIELD, C.N. (1984). Inhibition of GABA uptake potentiates the conductance increase produced by GABA-mimetic compounds on single neurones in isolated olfactory cortex slices of the guinea-pig. Br. J. Pharmac. 83, 195202.
  • CHARLES, A.K. & CHANG, Y-F. (1981). Uptake, release and metabolism of D- and L-α-aminoadipate by rat cerebral cortex. J. Neurochem. 36, 11271136.
  • CHENG, V.C. & PRUSOFF, W.H. (1973). Relationship between the inhibition constant (Ki) and the concentration of inhibitor which causes 50 per cent inhibition (I50) of an enzymatic reaction. Biochem. Pharmac., 22, 30993108.
  • CONSTANTI, A., CONNOR, J.D., GALVAN, M. & NISTRI, A. (1980). Intracellularly-recorded effects of glutamate and aspartate on neurones in the guinea-pig olfactory cortex slice. Brain Res., 195, 403420.
  • CURTIS, D.R. (1976). The use of transmitter antagonists in microelectrophoretic investigations of central synaptic transmission. In Drugs and Central Synaptic Transmission. ed. Bradley, P.B. & Dhawan, B.N. pp. 735. London: Macmillan.
  • CURTIS, D.R., DUGGAN, A.W. & JOHNSTON, G.A.R. (1970). The inactivation of extracellularly administered amino acids in the feline spinal cord. Exp. Brain Res., 10, 447462.
  • CURTIS, D.R., PHILLIS, J.W. & WATKINS, J.C. (1961). Actions of amino-acids on the isolated spinal cord of the toad. Br. J. Pharmac. Chemother., 16, 262283.
  • DAVIES, J., EVANS, R.H., JONES, A.W., SMITH, D.A.S. & WATKINS, J.C. (1982). Differential activation and blockade of excitatory amino acid receptors in the mammalian and amphibian central nervous systems. Comp. Biochem. Physiol., 72C, 211224.
  • DAVIES, L.P. & JOHNSTON, G.A.R. (1976). Uptake and release of D- and L-aspartate by rat brain slices. J. Neurochem., 26, 10071014.
  • DEL CERRO, M.P., SNIDER, R.S. & OSTER, M.L. (1968). Evolution of the extracellular space in immature nervous tissue. Experientia, 24, 929930.
  • DUTTON, G.R., CURRIE, D.N. & TEAR, K. (1981). An improved method for the bulk isolation of viable perikarya from postnatal cerebellum. J. Neurosci. Methods, 3, 421427.
  • FAGNI, L., BAUDRY, M. & LYNCH, G. (1983). Classification and properties of acidic amino acid receptors in hippocampus. I. Electrophysiological studies of an apparent desensitization and interactions with drugs which block transmission. J. Neurosci., 3, 15381546.
  • GARTHWAITE, J. (1982). Excitatory amino acid receptors and guanosine 3′,5′-cyclic monophosphate in incubated slices of immature and adult rat cerebellum. Neuroscience, 7, 24912497.
  • GARTHWAITE, J. & BALÁZS, R. (1978). Supersensitivity to the cyclic GMP response to glutamate during cerebellar maturation. Nature (Lond.), 275, 328329.
  • GARTHWAITE, J. & BALÁZS, R. (1981). Separation of cell types from the cerebellum and their properties. Adv. Cell. Neurobiol., 2, 461489.
  • GARTHWAITE, J. & GILLIGAN, G.J. (1984). Kainateglutamate interactions in rat cerebellar slices. Neuroscience, 11, 125138.
  • GORDON, R.D. & BALÁZS, R. (1983). Characterization of separated cell types from the developing rat cerebellum: transport of glutamate and aspartate by preparations enriched in Purkinje cells, granule neurones, and astrocytes. J. Neurochem., 40, 10901099.
  • HERZ, A., ZEIGLGÄNSBERGER, W. & FÄRBER, G. (1969). Microelectrophoretic studies concerning the spread of glutamic acid and GABA in brain tissue. Exp. Brain. Res., 9, 221235.
  • HILL, A.V. (1929). The diffusion of oxygen and lactic acid through tissues. Proc. R. Soc. B., 104, 3996.
  • ISHIDA, A.T. & FAIN, G.L. (1981). D-aspartate potentiates the effects of L-glutamate on horizontal cells in goldfish retina. Proc. Natn. Acad. Sci. U.S.A., 78, 58905894.
  • JOHNSTON, G.A.R., KENNEDY, S.M.E. & TWITCHIN, B. (1979). Action of the neurotoxin kainic acid on high-affinity uptake of L-glutamic acid in rat brain slices. J. Neurochem., 32, 121127.
  • JOHNSTON, G.A.R., LODGE, D., BORNSTEIN, J.C. & CURTIS, D.R. (1980). Potentiation of L-glutamate and L-aspartate excitation of cat spinal neurones by the stereoisomers of theo-3-hydroxyaspartate. J. Neurochem., 34, 241243.
  • KEYNES, R.D. (1954). The ionic fluxes in frog muscle. Proc. R. Soc. B., 142, 359382.
  • LODGE, D., HEADLEY, P.M. & CURTIS, D.R. (1978). Selective antagonism by D-α-aminoadipate of amino acid and synaptic excitation of cat spinal neurons. Brain Res., 152, 603608.
  • LOGAN, W.J. & SNYDER, S.H. (1972). High affinity uptake systems for glycine, glutamic and aspartic acids in synaptosomes of rat central nervous tissues. Brain Res., 42, 413431.
  • LOWRY, O.H., ROSEBROUGH, N.J., FARR, A.L. & RANDALL, R.J. (1951). Protein measurement with the Folin phenol reagent. J. biol. Chem., 193, 265275.
  • LUND-ANDERSEN, H. & KJELDSEN, C.S. (1976). Uptake of glucose analogues by rat brain cortex slices: A kinetic analysis based upon a model. J. Neurochem., 27, 361368.
  • MAYER, M.L. & WESTBROOK, G.L. (1984). Mixed-agonist action of excitatory amino acids on mouse spinal cord neurones under voltage clamp. J. Physiol., 354, 2953.
  • MCLENNAN, H. (1983). Receptors for the excitatory amino acids in the mammalian central nervous system. Prog. Neurobiol., 20, 251271.
  • NICHOLSON, C. & PHILLIPS, J.M. (1981). Ion diffusion modified by tortuosity and volume fraction in the extracellular microenvironment of the rat cerebellum. J. Physiol., 321, 225257.
  • OKAMOTO, K. & QUASTEL, J.H. (1973). Spontaneous action potentials in isolated guinea-pig cerebellar slices: effects of amino acids and conditions affecting sodium and water uptake. Proc. R. Soc. B., 184, 8390.
  • OLVERMAN, H.J., JONES, A.W. & WATKINS, J.C. (1984). L-Glutamate has higher affinity than other amino acids for [3H]-D-AP5 binding sites in rat brain membranes. Nature (Lond.), 307, 460462.
  • PEET, M.J., LEAH, J.D. & CURTIS, D.R. (1983). Antagonists of synaptic and amino acid excitation of neurones in the cat spinal cord. Brain Res., 266, 8395.
  • ROBERTS, D.V. (1977). Enzyme Kinetics. London: Cambridge University Press.
  • SKERRITT, J.H. & JOHNSTON, G.A.R. (1981). Uptake and release of N-methyl-D-aspartate by rat brain slices. J. Neurochem., 36, 881885.
  • TEICHBERG, V.I., GOLDBERG, O. & LUINI, A. (1981). The stimulation of ion fluxes in brain slices by glutamate and other excitatory amino acids. Mol. Cell. Biochem., 39, 281295.
  • VERNADAKIS, A. & WOODBURY, D.M. (1965). Cellular and extracellular spaces in developing rat brain. Arch. Neurol., 12, 284293.
  • WATKINS, J.C. (1981). Pharmacology of excitatory amino acid transmitters. In Amino Acid Neurotransmitters. ed. DeFeudis, F.V. & Mandel, P. pp. 205212. New York: Raven Press.
  • WATKINS, J.C. & EVANS, R.H. (1981). Excitatory amino acid transmitters. A. Rev. Pharmac. Tox., 21, 165204.
  • WILKIN, G.P., BALÁZS, R., WILSON, J.E., COHEN, J. & DUTTON, G.R. (1976). Preparation of cell bodies from the developing cerebellum. Structural and metabolic integrity of the isolated cells. Brain Res., 115, 181189.