Genetically related rats with differences in hippocampal uptake of norepinephrine and maze performance

[1]  D. Whitehorn,et al.  Differences in transmission through the dorsal column nuclei in spontaneously hypertensive and Wistar Kyoto rats , 1983, Brain Research.

[2]  R. F. Kirby,et al.  Spontaneous hypertension and open-field behavior. , 1982, Behavioral and neural biology.

[3]  M. Myers,et al.  Attenuation of hyperactivity in the spontaneously hypertensive rat by amphetamine. , 1982, Behavioral and neural biology.

[4]  S. Whittemore,et al.  Changes in catecholamine neuronal uptake and receptor binding in the brains of spontaneously hypertensive rats (SHR) , 1981, Brain Research.

[5]  F. Gage,et al.  Behavioral assessment of norepinephrine and serotonin function and interaction in the hippocampal formation , 1981, Pharmacology Biochemistry and Behavior.

[6]  M. Segal The action of norepinephrine in the rat hippocampus: Intracellular studies in the slice preparation , 1981, Brain Research.

[7]  E. R. Kloet,et al.  Decrease in noradrenergic activity in hypothalamic nuclei during the development of spontaneous hypertension , 1980, Brain Research.

[8]  R. Moore,et al.  Noradrenergic innervation of the adult rat hippocampal formation , 1980, The Journal of comparative neurology.

[9]  J. Šterc,et al.  Rats with spontaneous hypertension: some characteristics of the avoidance reaction. , 1980, Physiologia Bohemoslovaca.

[10]  J. Elghozi,et al.  Early changes in noradrenaline content of some brain nuclei in spontaneously hypertensive rats. , 1980, Clinical science.

[11]  T. Hökfelt,et al.  Catecholamine turnover changes in hypothalamus and dorsal midline area of the caudal medulla oblongata of spontaneously hypertensive rats , 1979, Neuroscience Letters.

[12]  T. Hökfelt,et al.  Evidence for a selective reduction of adrenaline turnover in the dorsal midline area of the caudal medulla oblongata of young spontaneous hypertensive rats. , 1979, Acta physiologica Scandinavica.

[13]  S. Knardahl,et al.  Open-field behavior of spontaneously hypertensive rats. , 1979, Behavioral and neural biology.

[14]  I. Kopin,et al.  Patterns of behavioral development in spontaneously hypertensive rats and Wistar-Kyoto normotensive controls. , 1979, Developmental psychobiology.

[15]  S. T. Mason,et al.  Noradrenaline and spatial memory , 1978, Brain Research.

[16]  Fred H. Gage,et al.  Endogenous norepinephrine and serotonin within the hippocampal formation during the development and recovery from septal hyperractivity , 1978, Pharmacology Biochemistry and Behavior.

[17]  E. Azmitia,et al.  An autoradiographic analysis of the differential ascending projections of the dorsal and median raphe nuclei in the rat , 1978, The Journal of comparative neurology.

[18]  J. Axelrod,et al.  Changes in Central Catecholaminergic Neurons in the Spontaneously (Genetic) Hypertensive Rat , 1978, Circulation research.

[19]  I. Kopin,et al.  Behavioral and cardiovascular responses of spontaneously hypertensive and normotensive rats to inescapable footshock. , 1978, Behavioral biology.

[20]  F. Gage,et al.  Hippocampal connections and spatial discrimination , 1978, Brain Research.

[21]  R. J. Campbell,et al.  Running-wheel avoidance behavior in the Wistar/Kyoto spontaneously hypertensive rat , 1977, Physiology & Behavior.

[22]  W. Lovenberg,et al.  Regional changes in the activities of aminergic biosynthetic enzymes in the brains of hypertensive rats. , 1977, European journal of pharmacology.

[23]  Barbara E. Jones,et al.  Ascending projections of the locus coeruleus in the rat. II. Autoradiographic study , 1977, Brain Research.

[24]  O. Steward,et al.  Behavioral correlates of denervation and reinnervation of the hippocampal formation of the rat: Recovery of alternation performance following unilateral entorhinal cortex lesions , 1977, Brain Research Bulletin.

[25]  F. Reinoso-suárez,et al.  Differential efferent connections of the brain stem to the hippocampus in the cat , 1977, Brain Research.

[26]  F. Bloom,et al.  A light and electron microscopic study of noradrenergic terminals in the rat dentate gyrus , 1977, Brain Research.

[27]  M. Palkovits,et al.  Catecholamine content of individual brain regions of spontaneously hypertensive rats (SH-rats) , 1976, Brain Research.

[28]  F. Bloom,et al.  The action of norepinephrine in the rat hippocampus. III. Hippocampal cellular responses to locus coeruleus stimulation in the awake rat , 1976, Brain Research.

[29]  R. Moore,et al.  Hippocampal innervation by serotonin neurons of the midbrain raphe in the rat , 1975, The Journal of comparative neurology.

[30]  R. Douglas The Development of Hippocampal Function: Implications for Theory and for Therapy , 1975 .

[31]  C. Leonard,et al.  Connections of the median and dorsal raphe nuclei in the rat: An autoradiographic and degeneration study , 1974, The Journal of comparative neurology.

[32]  G. Lynch,et al.  The distribution of septal projections to the hippocampus of the rat , 1973, The Journal of comparative neurology.

[33]  J. Coyle,et al.  CATECHOLAMINES IN FETAL AND NEWBORN RAT BRAIN , 1973, Journal of neurochemistry.

[34]  A. Cowey,et al.  Effects of dorsal and ventral hippocampal lesions on spontaneous alternation, learned alternation and probability learning in rats. , 1973, Brain research.

[35]  Y. Ibata,et al.  Light and electron microscopic study of the projection of the medial septal nucleus to the hippocampus of the cat. , 1971, Experimental neurology.

[36]  L. Nadel Dorsal and ventral hippocampal lesions and behavior , 1968 .

[37]  C. Shute,et al.  The cholinergic limbic system: projections to hippocampal formation, medial cortex, nuclei of the ascending cholinergic reticular system, and the subfornical organ and supra-optic crest. , 1967, Brain : a journal of neurology.

[38]  D. Kimble The effects of bilateral hippocampal lesions in rats. , 1963, Journal of comparative and physiological psychology.

[39]  K. Okamoto,et al.  Development of a strain of spontaneously hypertensive rats. , 1963, Japanese circulation journal.