Results 211 to 220 of about 7,418 (226)

General Properties of Axoplasmic Transport

1982
Axoplasmic transport has become a well-established phenomenon whose properties have been described in depth in many publications over the last years. The biological significance of axoplasmic transport is widely recognized. Lacking detailed knowledge of the underlying mechanisms, in this paper all movement of molecules and particles inside nerve cell ...
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Axoplasmic Transport and Synaptic Transmission

1982
The aim of this contribution primarily is to give a short review of studies which point to the close dependence on anterograde axonal transport of events, related to synaptic transmission.
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Microtubules and axoplasmic transport

Brain Research, 1974
James C. Paulson, William O. McClure
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Electron microscopic distribution of axoplasmic transport

Journal of Comparative Neurology, 1972
AbstractLight and electron microscopic radioautography have been used to localize the rapid and slow components of axoplasmic flow within the monkey lateral geniculate nucleus (LGN). Three days after an intravitreal injection of H3 leucine, 53% of the silver grains found in the LGN were localized to retinal synaptic terminals and 27% were over retinal ...
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Neuronal fibrillar proteins and axoplasmic transport

Brain Research, 1975
Proteins synthesized in ganglion cells of the rabbit retina were labeled with [3H]leucine or [14C]glycine injected into the vitreous. The labeled proteins that were transported into the optic nerve and tract were dissolved and analyzed by polyacrylamide gel electrophoresis.
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Axoplasmic Transport of Proteins

Annual Review of Biophysics and Bioengineering, 1979
George C. Stone, David L. Wilson
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Putrescine: effect on axoplasmic transport

Brain Research, 1975
Laurane G. Siegel, William O. McClure
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Axoplasmic transport

Comparative Biochemistry and Physiology Part A: Physiology, 1975
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Retrograde Axoplasmic Transport of Neurotoxins

1990
Publisher Summary This chapter focuses on the retrograde axoplasmic transport of neurotoxins. Neurons have both anterograde and retrograde axoplasmic transport systems. Anterograde flow carries such subcellular organelles as neurotubules, neurofilaments, and mitochondria and soluble molecules necessary for neuronal functions and maintenance.
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Mechanism of axoplasmic transport

Journal of Neurobiology, 1971
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