Open AccessJournal Article
Evidence for the existence of monoamine neurons in the central nervous system. iv. distribution of monoamine nerve terminals in the central nervous system.
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This article is published in Acta Physiologica Scandinavica.The article was published on 1965-01-01 and is currently open access. It has received 1467 citations till now. The article focuses on the topics: Monoamine neurotransmitter & Nervous system.read more
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Journal ArticleDOI
The ascending serotonergic system in the hamster: comparison with projections of the dorsal and median raphe nuclei.
TL;DR: The anterograde tracing of ascending median or dorsal raphe projections reveals a high, but imperfect, degree of correspondence with the serotonin innervation data, and with data from rats derived from immunohistochemical and autoradiographic tract-tracing techniques.
Journal ArticleDOI
Selective reduction of tryptophan hydroxylase activity in rat forebrain after midbrain raphe lesions
TL;DR: Results indicate that projections of the midbrain raphe neurons, which are believed to account for the major portion of forebraibn serotonin, also contain the bulk of the enzyme tryptophan hydroxylase in the forebrain.
Journal ArticleDOI
Raphe origin of serotonergic nerves terminating in the cerebral ventricles.
TL;DR: Most, if not all, supra-ependymal nerve terminals are derived from serotonergic cells of origin in the raphe nuclei, and degeneration in all parts of the cerebral ventricular system examined.
Book ChapterDOI
The projections of locus coeruleus neurons to the spinal cord
Herbert K. Proudfit,F M Clark +1 more
TL;DR: Results of experiments that used the anterograde tracer Phaseolus vulgaris leucoagglutinin in combination with dopamine-beta-hydroxylase immunocytochemistry to more precisely determine the spinal cord terminations of neurons located in the LC/SC indicate that the axons of LC neurons are located primarily in the ipsilateral ventral funiculus and terminate most heavily in the medial part of laminae VII and VIII, the motoneuron pool
Journal ArticleDOI
Sweet talk in the brain: glucosensing, neural networks, and hypoglycemic counterregulation.
Alan G. Watts,Casey M. Donovan +1 more
TL;DR: This work proposes that models previously developed to describe how the forebrain modulates autonomic reflex loops in the hindbrain offer a reasoned framework for explaining how counterregulatory neural mechanisms in the hypothalamus and hindbrain are structured.
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Evidence for the existence of monoamine neurons in the central nervous system. 3. the monoamine nerve terminal.
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