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Medical Research Council Neurochemical Pharmacology Unit

Published online by Cambridge University Press:  09 July 2009

L. L. Iversen
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Type
Research Reports
Information
Psychological Medicine , Volume 4 , Issue 2 , May 1974 , pp. 222 - 224
Copyright
Copyright © Cambridge University Press 1974

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References

BIBLIOGRAPHY

Baumgarten, H. G., Evetts, K. D., Holman, R. B., Iversen, L. L., Vogt, M., and Wilson, G. (1972). Effects of 5,6-dihydroxytryptamine on monoaminergic neurones in the central nervous system of the rat. Journal of Neurochemistry, 19, 15871597.CrossRefGoogle Scholar
Black, I. B., Hendry, I. A., and Iversen, L. L. (1972). The role of post-synaptic neurones in the biochemical maturation of presynaptic cholinergic nerve terminals in a mouse sympathetic ganglion. Journal of Physiology, 221, 149159.CrossRefGoogle Scholar
Black, I. B., Hendry, I. A., and Iversen, L. L. (1972). Effects of surgical decentralization and nerve growth factor on the maturation of adrenergic neurons in a mouse sympathetic ganglion. Journal of Neurochemistry, 19, 13671377.CrossRefGoogle Scholar
Cuello, A. C., Horn, A. S., Mackay, A. V. P., and Iversen, L. L. (1973). Catecholamines in the median eminence: new evidence for a major noradrenergic input. Nature, 243, 465467.CrossRefGoogle ScholarPubMed
Hendry, I. A. (1972). Developmental changes in tissue and plasma concentrations of the biologically active species of nerve growth factor in the mouse, by using a two-site radio-immunoassay. Biochemical Journal, 128, 12651272.CrossRefGoogle Scholar
Hendry, I. A., Addison, G. M., and Iversen, L. L. (1972). Radioimmunoassay of nerve growth factor from mouse salivary gland. In Nerve Growth Factor and its Antiserum, pp. 262270. Edited by Zaimis, E. and Knight, J.. Athlone Press: London.Google Scholar
Henrdy, I. A., Iversen, L. L. and Black, I. B. (1973). A comparison of the neural regulation of tyrosine hydroxylase activity in sympathetic ganglia of adult mice and rats. Journal of Neurochemistry, 20, 16831689.Google Scholar
Horn, A. S. (1973). Structure-activity relations for the inhibition of catecholamine uptake into synaptosomes from noradrenaline and dopaminergic neurones in rat brain homogenates. British Journal of Pharmacology, 47, 332338.CrossRefGoogle ScholarPubMed
Iversen, L. L. (1972). The uptake, storage, release, and metabolism of GABA in inhibitory nerves. In Perspectives in Neuropharmacology, pp. 75111. Edited by Snyder, S. H.. Oxford University Press: London.Google Scholar
Iversen, L. L. (1972). Methods involved in studies of the uptake of biogenic amines. In Methods in Investigative and Diagnostic Endocrinology. Vol. 1. The Thyroid and Biogenic Amines, pp. 569603. Edited by Berson, S. A.. North-Holland: Amsterdam.Google Scholar
Iversen, L. L. (1973). Catecholamine uptake processes. British Medical Bulletin, 29, 130135.CrossRefGoogle ScholarPubMed
Iversen, L. L., and Bloom, F. E. (1972). Studies of the uptake of 3H-GABA and [3H]glycine in slices and homogenates of rat brain and spinal cord by electron microscopic auto-radiography. Brain Research, 41, 131143.CrossRefGoogle Scholar
Iversen, L. L., Salt, P. J., and Wilson, H. A. (1972). Inhibition of catecholamine uptake in the isolated rat heart by halo-alkylamines related to phenoxybenzamine. British Journal of Pharmacology, 46, 647657.CrossRefGoogle ScholarPubMed
Kelly, J. S., and Renaud, L. P. (1972). On-line analysis of two sumultaneous neuronal spike trains with a LINC 8 computer. Journal of Physiology, 226, 1416P.Google Scholar
Mackay, A. V. P., and Iversen, L. L. (1972). Trans-synaptic regulation of tyrosine hydroxylase activity in adrenergic neurones: effect of potassium concentration on cultured sympathetic ganglia. Naunyn-Schmiedebergs Archive für Pharmacologie, 272, 225229.CrossRefGoogle ScholarPubMed
Mackay, A. V. P., and Iversen, L. L. (1972). Increased tyrosine hydroxylase activity of sympathetic ganglia cultured in the presence of dibutyryl cyclic AMP. Brain Research, 48, 424426.CrossRefGoogle ScholarPubMed
Neal, M. J., and Iversen, L. L. (1972). Autoradiographic localization of 3H-GABA in rat retina. Nature New Biology, 235, 217218.CrossRefGoogle Scholar
Salt, P. J. (1972). Inhibition of noradrenaliire uptake2 in the isolated rat heart by steroids, clonidine and methoxylated phenylethylamines. European Journal of Pharmacology, 20, 329340.CrossRefGoogle Scholar
Salt, P. J., and Iversen, L. L. (1972). Inhibition of the extra-neuronal uptake of catecholamine in the isolated rat heart by cholesterol. Nature New Biology, 238, 9192.CrossRefGoogle Scholar
Schon, F., and Iversen, L. L. (1972). Selective accumulation of [3H]GABA by stellate cells in rat cerebellar cortex in vivo. Brain Research, 42, 503507.CrossRefGoogle ScholarPubMed
Snodgrass, S. R., and Iversen, L. L. (1973). Effects of amino-oxyacetic acid on [3H]GABA uptake by rat brain slices. Journal of Neurochemistry, 20, 431439.CrossRefGoogle ScholarPubMed
Snodgrass, S. R., and Iversen, L. L. (1973). A sensitive double isotope derivative assay to measure release of amino acids from brain in vitro. Nature New Biology, 241, 154156.CrossRefGoogle ScholarPubMed