Book ChapterDOI
Transport of s-100 protein in mammalian nerve fibers and transneuronal signals.
TLDR
The brain-specific acidic protein S- 100 is a migratory protein from soma to terminals of the glossopharyngeal and vagus nerves of rabbit (axonal transport of S-100 protein).Abstract:
The brain-specific acidic protein S-100 is a migratory protein from soma to terminals of the glossopharyngeal and vagus nerves of rabbit (axonal transport of S-100 protein).read more
Citations
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Journal ArticleDOI
Autoradiographic demonstration of ocular-dominance columns in the monkey striate cortex by means of transneuronal transport.
TL;DR: If radioactive substances were transported transneuronally, injection of labeled material into one eye followed by autoradiography of the cortex might reveal the entire system of ocular-dominance columns.
Journal ArticleDOI
Transport of radioactivity from eye to visual cortex in the mouse.
Bernice Grafstein,Robert Laureno +1 more
TL;DR: The tentative picture emerging from these experiments is that there is a constant transfer of protein from the labeled optic axons to neuronal elements in their vicinity, which is not related to the process of synaptic transmission.
Journal ArticleDOI
Accumulation of radioactive protein in mouse cerebral cortex after injection of 3H-fucose into the eye.
TL;DR: The results suggest that the label in the visual cortex was localized in the endings of the geniculocortical fibers, and hence must initially have been transferred from optic nerve endings to neurons in the lateral geniculate body.
Journal ArticleDOI
The axonal transport of slowly migrating [3H]leucine labelled proteins and the regeraration rate in regenerating hypoglossal and vagus nerves of the rabbit
M. Frizell,J. Sjöstrand +1 more
TL;DR: Rapidly migrating [3H]leucine labelled proteins were transported into regenerating hypoglossal and vagus nerves distal to the crush zone, indicating axonal transport in the growing axons.
Journal ArticleDOI
Chemistry and Biology of the S-100 Protein
TL;DR: The S-100 protein is specific for the nervous system and, being present in all vertebrates, shows a high degree of stability of structure during evolution as discussed by the authors, which suggests that it is connected with some specific essential function.
References
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Journal ArticleDOI
Disc electrophoresis – ii method and application to human serum proteins*
TL;DR: The technique of disc electrophoresis has been presented, including a discussion of the technical variables with special reference to the separation of protein fractions of normal human serum.
Journal ArticleDOI
Chromatographic and electrophoretic fractionation of soluble proteins of brain and liver.
Blake W. Moore,D. McGregor +1 more
TL;DR: A method is described for fractionation of soluble proteins from liver and brain with an improved gradient elution for fractionating proteins which are water-soluble.
Journal ArticleDOI
Effect of calcium ion on S-100, a protein of the nervous system.
Journal ArticleDOI
A glial protein specific for the nervous system.
Holger Hydén,Bruce S. McEwen +1 more