Regeneration of spinal electrocyte fibers in Sternarchus albifrons: Development of axon-schwann cell relationships and nodes of Ranvier |
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Authors: | Stephen G. Waxman M.D. Ph.D. Marilyn J. Anderson |
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Affiliation: | (1) Departments of Neurology and Biological Sciences, Stanford University, Stanford;(2) Neurological Unit (127), Veterans Administration Medical Center, 3801 Miranda Avenue, 94304 Palo Alto, CA, USA |
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Abstract: | Summary The electrocyte fibers in the gymnotid Sternarchus albifrons are highly differentiated myelinated axons which exhibit several types of nodes of Ranvier and characteristically short internode lengths. In the present study, regeneration of the electrocyte fibers following removal of the tail was examined by electron microscopy. By 36 days following extirpation, the regenerating electrocyte axons exhibit Type I nodes of Ranvier, with a normal morphology, and Type II nodes of Ranvier with a large nonmyelinated gap and a polypoid elaboration of the axon surface. Moreover, in the regenerating axons the internode length diameter ratios are quite small. Thus, relatively normal axon-Schwann cell relations and a relatively normal differentiation of the axon surface are achieved during regeneration of the Sternarchus electrocyte fibers.Supported in part by the Medical Research Service, Veterans Administration and by grants from the National Institutes of Health and the Paralyzed Veterans of America |
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Keywords: | Axons Regeneration Schwann cells Spinal cord Teleosts |
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