Results 151 to 160 of about 2,127,716 (198)
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Axoplasmic Transport (with Particular Respect to Adrenergic Neurons)
, 1971The article presents a review and summary on the development of studies in the field of axoplasmic transport in non-adrenergic and adrenergic neurons. Results obtained by, for example, histochemical, biochemical, electronmicroscopical, autoradiographical
A. Dahlstrom
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Calmodulin: Is it involved in axoplasmic transport?
Trends in Neurosciences, 1979Abstract Essential goods required for the proper maintenace of nerve cells are manufactured in the cell body. They are carried down in the axonal extensions of the nerve cell by means of axoplasmic transport. This review focuses on some of the characteristics of this transport process.
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Dependence of batrachotoxin block of axoplasmic transport on sodium.
Journal of Neurobiology, 1982Batrachotoxin (BTX) in the low concentration range of 19-190 nM blocks axoplasmic transport in the desheathed cat peroneal nerve in vitro. When the level of Na+ in the incubation medium was reduced to 10 mM, the blocking effect of BTX was much diminished,
R. Worth, S. Ochs
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Immunoreactive somatostatin distribution and axoplasmic transport in rat peripheral nerve.
Endocrinology, 1981The levels of immunoreactive somatostatin (IR-somatostatin) were determined in various parts of the rat spinal cord and peripheral nervous system. The axoplasmic transport rate of IR-somatostatin was determined in the sciatic nerve by the ligation ...
C. Rasool +4 more
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Rate of axoplasmic transport in the dystrophic chicken
Experimental Neurology, 1981Abstract The rate of axoplasmic transport in the radial nerves of the New Hampshire strain of chicken showing signs of dystrophy was found to be similar to that of normal controls. The rates found in the dystrophic nerves when scaled to a temperature of 38°C, was 388 to 400 mm/day using [ 3 H]leucine and [ 3 H]fucose to assess the downflow of ...
D.P. Stromska, J. Muller, Sidney Ochs
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Role of the microtrabecular lattice in axoplasmic transport
Vision Research, 1981Abstract High voltage electron microscopy (HVEM) stereo images of whole mounted cells have revealed that the cytoplasmic ground substance comprises a three-dimensional lattice of slender strands from 4 to 10 nm dia. (termed microtrabeculae). The lattice, in effect, forms an integral cytoskeletal component that cross-links other filamentous elements ...
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Electron microscopic distribution of axoplasmic transport
Journal of Comparative Neurology, 1972AbstractLight 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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Acta Physiologica Scandinavica, 1980
Fast anterograde axoplasmic transport was studied in the motor fibres of the vagus nerve of rabbits in vitro at 22 degrees C with a pressure barrier applied to a small section of the nerve.
R. Hahnenberger
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Fast anterograde axoplasmic transport was studied in the motor fibres of the vagus nerve of rabbits in vitro at 22 degrees C with a pressure barrier applied to a small section of the nerve.
R. Hahnenberger
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Developments in neurochemistry related to axoplasmic transport
Neurochemistry International, 1989Fast transport of labeled proteins in vertebrate nerve and the particle movement seen in the axoplasm of giant fibers with video microscopy share basic properties. They are both dependent on oxidative metabolism providing ATP to drive transport with the microtubules acting as the "rails" for transport.
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Axoplasmic transport in the toad Bufo marinus
Brain Research, 1975The rate and course of axoplasmic transport from the eighth dorsal root ganglion cell bodies into the sciatic nerve of the toad Bufo marinus were studied. Concentrated tritiated proline was hydraulically injected into a surgically exposed dorsal root ganglion of animals maintained at 19 +/- 0.5 degrees C.
Miles L. Cook, David G. Whitlock
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