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Monday, August 10, 2020 | History

6 edition of Axonal transport, degeneration, and regeneration in the visual system of the goldfish found in the catalog.

Axonal transport, degeneration, and regeneration in the visual system of the goldfish

Hartwig Wolburg

Axonal transport, degeneration, and regeneration in the visual system of the goldfish

by Hartwig Wolburg

  • 36 Want to read
  • 17 Currently reading

Published by Springer-Verlag in Berlin, New York .
Written in English

    Subjects:
  • Visual pathways.,
  • Axonal transport.,
  • Nervous system -- Degeneration.,
  • Nervous system -- Regeneration.,
  • Goldfish -- Physiology.

  • Edition Notes

    StatementHartwig Wolburg.
    SeriesAdvances in anatomy, embryology, and cell biology ;, v. 67
    Classifications
    LC ClassificationsQL801 .E67 vol. 67, QP475 .E67 vol. 67
    The Physical Object
    Paginationix, 94 p. :
    Number of Pages94
    ID Numbers
    Open LibraryOL4107923M
    ISBN 100387103368
    LC Control Number80022731

    -Axonal transport is for proteins to be shipped down the axon using microtubules -Rate of regeneration is 1 to 5 mm/day; slow axonal transport. Degeneration events in the nervous system. 1. Terminal degeneration 2. Wallerian degeneration of distal segment 3. Myelin debris. axonal degeneration: a type of peripheral nerve fiber response to insult, wherein axon death and subsequent breakdown occur, with secondary breakdown of the myelin sheath associated; caused by focal injury to peripheral nerve fibers; often referred to as wallerian degeneration. Synonym(s): axon degeneration.

    Keywords Axotomy, Axonal degeneration, Axonal regeneration, Axonal proteins, Spinal cord lesions, Recovery of function, Nerve plasticity Peters A, Palay S, Webster H de F. The fine structure of the nervous system. Traumatic injuries in the adult central nervous system (CNS) are often associated with permanent neurological impairments. This is mainly due to the limited capacity of adult axons to regenerate and to the irreversible loss of neuronal cells [1,2].The model of rodent optic nerve injury has extensively been used to study the mechanisms responsible for the failure of axonal regeneration in the CNS.

    Axonal transport deficits and degeneration can evolve independently in mouse models of amyotrophic lateral sclerosis Petar Marinkovic´ a, Miriam S. Reuter, Monika S. Brilla, Leanne Godinhoa, Martin Kerschensteinerb,1,2, and Thomas Misgelda,c,d,1,2 aBiomolecular Sensors and Center for Integrated Protein Sciences (Munich) at the Institute of Neuroscience, Technische Universität München.   Axonal degeneration is a common feature of traumatic, ischemic, inflammatory, toxic, metabolic, genetic, and neurodegenerative disorders affecting the CNS and the peripheral nervous system (PNS). The typical example is Wallerian degeneration (WD), which results from traumatic or ischemic injuries that disconnect the neuronal cell body from the distal segment of the axon.


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Axonal transport, degeneration, and regeneration in the visual system of the goldfish by Hartwig Wolburg Download PDF EPUB FB2

1 Introduction.- 2 Degeneration and Methods.- 3 Results.- Morphology of the Goldfish Visual System.- Retina.- Optic Nerve and Optic Tract.- Optic Tectum.- Axonal Transport.- Rapid Axonal Transport.- Effect of Ouabain on Rapid Transport.- In Vitro Investigations of Rapid Axonal Transport.- Slow.

Axonal Transport, Degeneration, and Regeneration in the Visual System of the Goldfish (Advances in Anatomy, Embryology and Cell Biology): Medicine & Health Science Books @ ed by: Axonal transport, degeneration, and regeneration in the visual system of the goldfish.

Wolburg H. Advances in Anatomy, Embryology, and Cell The effect of inhibition of axonal RNA transport on the restoration of retinotectal projections in regenerating optic nerves of goldfish.

The Book of Longings. Sue Monk Kidd. € €. General Features of the Goldfish Visual System. Like the brain and the spinal cord, the visual system of the vertebrates is a component of the central nervous system (CNS). In the goldfish, the visual system is made up of three distinct compartments (Figure 1).

(1) The retina, which lines the posterior of the eye. Biochemical Aspects of the Regenerating Goldfish Visual System. Bernard W. Agranoff, Thomas S. Ford-Holevinski. Effect of a Conditioning Lesion on Axonal Transport During Regeneration. Irvine G. McQuarrie. It appears timely to review the role played by axonal transport in the intrinsic responses of neurons in the growth and regrowth.

Biochemical Aspects of the Regenerating Goldfish Visual System. Pages Target-Dependent and Target-Independent Changes in Rapid Axonal Transport During Regeneration of the Goldfish Retinotectal Pathway.

The Relationship of Slow Axonal Flow to Nerve Elongation and Degeneration. 1. Introduction. When the optic nerve of the goldfish sustains a crushing injury, the severed retinal ganglion cell axons regenerate and re-establish functional connections in the is similar to the response seen in the mammalian peripheral nervous system (PNS) following axon stingly, regeneration in the PNS is associated with a massive invasion of the distal nerve.

Wolburg transport, degeneration, and regeneration in the visual system of the goldfish Advances in Anatomy, Embryology and Cell Biology, Vol. 67, Springer-Verlag, Amsterdam () Google Scholar. Abstract.

Changes in axonally transported phospholipids of regenerating goldfish optic nerve were studied by intraocular injection of [ H]glycerol 9 days and 16 days after nerve crush at 30° four major glycerophospholipids all showed substantial increases in transported radioactivity above non-regenerating controls at both time points, these being maximal ( to fold) in the optic.

All these findings in the visual system are translatable to the CNS as a whole and thus strategies that successfully promote visual axon regeneration will be equally effective elsewhere in the CNS. Vidal-Sanz M, Bray GM, Villegas-Perez MP, Thanos S, Aguayo AJ.

Axonal regeneration and synapse formation in the superior colliculus by retinal ganglion cells in the adult rat.

J Neurosci. ;– Wolburg H. Axonal transport, degeneration, and regeneration in the visual system of the goldfish. Adv Anat Embryol Cell Biol. ; Axonal transport, degeneration, and regeneration in the visual system of the goldfish. Wolburg H. Author(s): Wolburg,Hartwig, Title(s): Axonal transport, degeneration, and regeneration in the visual system of the goldfish/ Hartwig Wolburg.

Country of Publication: Germany Publisher: Berlin ; New York: Springer-Verlag, Figure Axon regeneration and degeneration in response to acute and chronic injuries.

(A) Acute injuries physically break axons into two parts: a proximal stump, which remains connected to the cell body, and a distal stump, which has lost this many cases the distal stump has presynaptic terminals (cartooned as button-shaped boutons) that are made nonfunctional by the injury.

Request PDF | Axonal Degeneration and Regeneration in the Peripheral and Central Nervous Systems | This chapter presents an overview of basic principles related to neuronal responses to injury and.

Regeneration in the Goldfish Visual System. Sam Nona Wolburg, H. () Axonal transport, degeneration and regeneration in the visual system of the goldfish.

Anat. Embryol. Cell Biol. The author Dr Sam (Shmaiel) Nona was born in Northern Mesopotamia (now Iraq). At the age of 17 he gained a scholarship to study in England.

Axonal transport, also called axoplasmic transport or axoplasmic flow, is a cellular process responsible for movement of mitochondria, lipids, synaptic vesicles, proteins, and other organelles to and from a neurons cell body, through the cytoplasm of its axon called the axoplasm.

Since some axons are on the order of meters long, neurons cannot rely on diffusion to carry products of the nucleus. Numerous optic nerve fibers persist for a period of up to 20 months following enucleation in reptiles, although it is unlikely that a significant number of efferent fibers are present.

After varying. The time course of Wallerian degeneration in the tibial and saphenous nerves was compared in Balb/c mice and mice of the C57BL/Ola strain (Lunn et al., ).

Axons, particularly myelinated ones, in. ISBN: OCLC Number: Description: xvi, pages: illustrations ; 24 cm. Contents: Axoplasmic transport in relation to nerve fiber regeneration / Sidney Ochs --Basic properties of fast axonal transport and the role of fast transport in axonal growth / Scott T.

Brady --Retrograde signaling after nerve injury / Krister Kristensson --Retrograde axonal transport.The book Axonal Regeneration in the Central Nervous System is the book to have for those interested in spinal cord injury and axonal regeneration in general.

Eventually, perhaps 50 years from now, this book may become the framework for a Foreword of a new book, documenting the important steps and the thinking that led to Superman really walking.Fagiolini M, Caleo M, Strettoi E, Maffei L. Axonal transport blockade in the neonatal rat optic nerve induces limited retinal ganglion cell death.

J Neurosci;– Fawcett JW. Astrocytic and neuronal factors affecting axon regeneration in the damaged central nervous system. Cell Tissue Res. ;–