Amino acid transmitters in the mammalian central nervous system

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Amino Acid Transmitters in the Mammalian Central Nervous System 183 PONNUSWAMY, P. K., SASISEK, LARAN, V. : Conformation of amino acids. II. Potential energy of conformations of glycine, alanine and aminobutyric acid. Int. J. Protein Res. 2, 3745 (1970). PoPOV, N., POHLE, W., R6SLER, V., MATTHIES, H.: Regional distribution of 7-aminobutyric acid, glutamic acid, aspartic acid, dopamine, noradrenaline and serotonin in rat brain. Acta biol. med. germ. 18, 695-702 (1967). PORTER, L. L. : Picrotoxinin and related substances. Chem. Rev. 67, 441-464 (1967). PRECHT, W., BAKER, R. : Synaptic organization of the vestibulo-trochlear pathway. Exp. Brain Res. 14, 158-184 (1972). PRECHT, W., BAKER, R., OKADA, Y. : Evidence for GABA as the synaptic transmitter of the inhibitory vestibulo-ocular pathway. Exp. Brain Res. in press (1973). PRECHT, W., BAKER, R., YOSHIDA, M.: Blockage of caudate-evoked inhibition of neurons in the substantia nigra by picrotoxin. Brain Res. 32, 229-233 (1971). PURPURA, D.P., GIRADO, M., SMITH, T.G., CALLAN, D.A., GRUNDFEST, H. : Structure activity determinants of pharmacological effects of amino acids and related compounds on central synapses. J. Neurochem. 3, 238 268 (1959). RAMWELL, P.W., SHAW, J. E. : Some observations on the physical and pharmacological properties of picrotoxin solutions. J. Pharm. Pharmacol. 15, 611-619 (1963). RICHTER, J.J., WAINER, A.: Evidence for separate systems for the transport of neutral and basic amino acids across the blood brain barrier. J. Neurochem. 18, 613-620 (1971). ROBERTS, E. : Formation and liberation of 7-aminobutyric acid in brain. In: Progress in neurobiology; 1. Neurochemistry.eds. S. R. Korey and J. I. Nurnberger, p. I l 25. New York : Hoeber-Harper 1956. ROBERTS, E. : Inhibition in the nervous system and gamma-aminobutyric acid. New York : Pergamon Press 1960. ROBERTS, E.: Some biochemical-physiological correlations in studies of ~/-aminobutyric acid. In: Structure and function of inhibitory neuronal mechanisms, eds. C. yon Euler, S. Skoglund and U. S6derberg, p. 401-418. Oxford: Pergamon Press 1968. ROBERTS, E.: The GABA system in brain development. In: Chemistry and brain development, advances in experimental medicine and biology, vol. 13, eds. R. Paoletti and A.N. Davison, p. 207-214. New York: Plenum Press 1971. ROBERTS, E., EIDELBERG, E.: Metabolic and neurophysiological roles of ~/-aminobutyric acid. Int. Rev. Neurobiol. 2, 279-332 (1960). ROBERTS, E., KURIYAMA, K. : Biocherilical-physiological correlations in studies of the 7-aminobutyric acid system. Brain Res. 8, 1-35 (1968). ROBERTS, P.J., MITCHELL, J. F. : The release of amino acids from the hemisected spinal cord during stimulation. J. Neurochem. 19, 2473-2481 (1972). RUBIN, R, P. : The role of calcium in the release of neurotransmitter substances and hormones. Pharmacol. Rev. 22, 389428 (1970). RYALL, R. W. : The subcellular distributions of acetylcholine, substance P, 5-hydroxytryptamine, 7- aminobutyric acid and glutamic acid in brain homogenates. J. Neurochem. 11, 131-145 (1964). RYALL, R. W, : Renshaw cell mediated inhibition of Renshaw cells: patterns of excitation and inhibition from impulses in motor axon collaterals. J. Neurophysiol. 32, 256-270 (1970). RYALL, R.W., DE GROAT, W. C. : The microelectrophoretic administration of noradrenatine, 5-hydroxytryptamine, acetylcholine and glycine to sacral parasympathetic preganglionic neurones. Brain Res. 37, 345-347 (1972). RYALL, R.W., P1ERCEY, M.F., POLOSA, C. : Strychnine-resistant mutual inhibition of Renshaw cells. Brain Res. 41, 119 129 (1972). SALVADOR, R.A., ALBERS, R. W. : The distribution of glutamic-7-aminobutyric transaminase in the nervous system of the Rhesus monkey. J. bioL Chem. 234, 922~25 (1959). SAVERLAND, E. K., MIZUNO, N. : Cortically induced presynaptic inhibition of trigeminal proprioceptive afferents. Brain Res. 13, 556-568 (1969). SCHENCK, J. R. : A note on the distribution of/3-alanine. Proc. Soc. exp. Biol. (N. Y.) 54, 6-7 (1943). SCHMIDT, R.F.: Pharmacological studies on the primary afferent depolarization of the toad spinal cord. Pflfigers Arch. ges. Physiol. 277, 325 346 (1963). SCHMIDT, R. F. ; Presynaptic inhibition in the vertebrate central nervous system. Ergebn. Physiol. 63, 20-101 (1971). SCHOLES, N.W., ROBERTS, E.: Pharmacological studies of the optic system of the chick: effect of 7-aminobutyric acid and pentobarbital. Biochem. Pharmacol. 13, 1319-1329 (1964).
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