Fast Transport System of Materials in Mammalian Nerve Fibers
- 14 February 1969
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 163 (3868) , 686-687
- https://doi.org/10.1126/science.163.3868.686
Abstract
A fast transport system of materials is shown in cat sensory fibers of sciatic nerve. After injection of tritiated leucine into the lumbar seventh ganglia, the distribution of activity was measured in the sciatic nerves from 2 to 8 hours afterward. The distribution showed a crest of activity advancing down the fibers at a rate of approximately 410 millimeters per day. An intraaxonic locus of the activity was indicated by a block of the downflow induced by local freezing which causes the fibers to close off. Some of the activity in the nerve was due to free tritiated leucine, with most of it incorporated into polypeptide, soluble protein, and subcellular particulates.Keywords
This publication has 10 references indexed in Scilit:
- COMPONENTS OF FAST AND SLOW PHASES OF AXOPLASMIC FLOW1Journal of Neurochemistry, 1969
- FAST AND SLOW PHASES OF AXOPLASMIC FLOW IN VENTRAL ROOT NERVE FIBRES1Journal of Neurochemistry, 1969
- FAST AND SLOW COMPONENTS IN AXONAL TRANSPORT OF PROTEINThe Journal of cell biology, 1968
- Axoplasmic transport in cat dorsal root ganglion cells: As studied with [3H]-L-leucineBrain Research, 1968
- The transport of 14C-labelled material from CNS⇌muscle along a nerve trunkComparative Biochemistry and Physiology, 1967
- PROTEIN INCORPORATION AND AXOPLASMIC FLOW IN MOTONEURON FIBRES FOLLOWING INTRA‐CORD INJECTION OF LABELLED LEUCINE*Journal of Neurochemistry, 1967
- Studies on the Transport and Life‐Span of Amine Storage Granules in a Peripheral Adrenergic Neuron System1Acta Physiologica Scandinavica, 1966
- Axoplasmic Streaming in Regenerating and in Normal Nerve FibresPublished by Elsevier ,1964
- ANALYSIS OF THE SOMATO‐AXONAL MOVEMENT OF PHOSPHOLIPIDS IN THE VAGUS AND HYPOGLOSSAL NERVESJournal of Neurochemistry, 1963
- Axoplasmic flow in ventral root nerve fibers of the catExperimental Neurology, 1962