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The postnatal development of the synapse: A morphological approach utilizing synaptosomes

II. Paramembranous densities

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Summary

Synaptosomes derived from 2–21 days postnatal rat cerebral cortex have been examined following glutaraldehyde fixation and block PTA staining, with the aim of investigating the maturation of the paramembranous densities at the contact region between the pre- and postsynaptic components. The internal coats of pre- and postsynaptic membranes first appear as undifferentiated plaque-like thickenings, which gradually develop into, or are replaced by, dense projections and postsynaptic focal densities respectively. Both sets of densities pass through an interconnected phase before starting to emerge as discrete entities at 5–7 days. The external coats of the pre- and postsynaptic membranes coalesce to form a plate-like structure which breaks down during development to form the cleft densities or transverse bars of the adult contact region. Although for the first few days of postnatal development only one type of synaptosome can be identified, from 5 days onwards two types corresponding to types A and B of adult life become recognizable.

Increase in height of the dense projections has been correlated with increase in the number of synaptic vesicles per synaptosome during postnatal development, indicating that the synaptic vesicles may play a role in the formation and maturation of dense projections. The possible importance of other factors in this process is also discussed.

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Authors and Affiliations

  1. Department of Anatomy, University College London, Gower Street, W.C.1, London

    D. G. Jones & E. Revell

  2. Department of Anatomy, University of Western Australia, 6009, Nedlands, Western Australia

    D. G. Jones

Authors
  1. D. G. Jones
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  2. E. Revell
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We would like to thank Professors J. Z. Young, F. R. S., and E. G. Gray for their advice, and Mr. S. Waterman for expert photographic assistance.

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Jones, D.G., Revell, E. The postnatal development of the synapse: A morphological approach utilizing synaptosomes. Z. Zellforsch. 111, 195–208 (1970). https://doi.org/10.1007/BF00339785

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  • DOI: https://doi.org/10.1007/BF00339785

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