Literature DB >> 3399135

Regeneration of descending axons in the spinal cord of the axolotl.

J D Clarke1, R Alexander, N Holder.   

Abstract

Horseradish peroxidase was used to describe the positions and approximate numbers of neurones with axons that descend to the lumbar spinal cord in normal axolotls and axolotls whose spinal cord had been transected 3-23 months previously. Three to 4 months after the transection approximately 10% of the axons had grown across the cut and returned to the lumbar spinal cord whereas 23 months after the transection the number and distribution of these cells were approaching those of the controls.

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Year:  1988        PMID: 3399135     DOI: 10.1016/0304-3940(88)90471-5

Source DB:  PubMed          Journal:  Neurosci Lett        ISSN: 0304-3940            Impact factor:   3.046


  15 in total

1.  Dynamic membrane depolarization is an early regulator of ependymoglial cell response to spinal cord injury in axolotl.

Authors:  Keith Sabin; Tiago Santos-Ferreira; Jaclyn Essig; Sarah Rudasill; Karen Echeverri
Journal:  Dev Biol       Date:  2015-10-20       Impact factor: 3.582

Review 2.  Anatomical and electrophysiological plasticity of locomotor networks following spinal transection in the salamander.

Authors:  Jean-Marie Cabelguen; Stéphanie Chevallier; Ianina Amontieva-Potapova; Céline Philippe
Journal:  Neurosci Bull       Date:  2013-07-28       Impact factor: 5.203

3.  Time course of locomotor recovery and functional regeneration in spinal-transected lamprey: kinematics and electromyography.

Authors:  G R Davis; M T Troxel; V J Kohler; E M Grossmann; A D McClellan
Journal:  Exp Brain Res       Date:  1993       Impact factor: 1.972

Review 4.  Mitochondrial function in spinal cord injury and regeneration.

Authors:  Paula G Slater; Miguel E Domínguez-Romero; Maximiliano Villarreal; Verónica Eisner; Juan Larraín
Journal:  Cell Mol Life Sci       Date:  2022-04-13       Impact factor: 9.261

5.  Genetic, Epigenetic, and Post-Transcriptional Basis of Divergent Tissue Regenerative Capacities Among Vertebrates.

Authors:  Sheamin Khyeam; Sukjun Lee; Guo N Huang
Journal:  Adv Genet (Hoboken)       Date:  2021-06

6.  The role of the immune system during regeneration of the central nervous system.

Authors:  K Z Sabin; K Echeverri
Journal:  J Immunol Regen Med       Date:  2019-11-05

7.  Robust axonal growth and a blunted macrophage response are associated with impaired functional recovery after spinal cord injury in the MRL/MpJ mouse.

Authors:  S K Kostyk; P G Popovich; B T Stokes; P Wei; L B Jakeman
Journal:  Neuroscience       Date:  2008-08-19       Impact factor: 3.590

8.  Precise control of miR-125b levels is required to create a regeneration-permissive environment after spinal cord injury: a cross-species comparison between salamander and rat.

Authors:  Juan Felipe Diaz Quiroz; Eve Tsai; Matthew Coyle; Tina Sehm; Karen Echeverri
Journal:  Dis Model Mech       Date:  2014-04-03       Impact factor: 5.758

9.  Neurogenesis and growth factors expression after complete spinal cord transection in Pleurodeles waltlii.

Authors:  Amira Z Zaky; Marie Z Moftah
Journal:  Front Cell Neurosci       Date:  2015-01-13       Impact factor: 5.505

Review 10.  Salamanders: The molecular basis of tissue regeneration and its relevance to human disease.

Authors:  Claudia Marcela Arenas Gómez; Karen Echeverri
Journal:  Curr Top Dev Biol       Date:  2021-03-16       Impact factor: 4.897
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