The Role of Activity in Synaptic Competition at the Neuromuscular Junction

NeurIPS 1995 pp. 96-102

/neurips/1995/joseph1995neurips-role/

Abstract

An extended version of the dual constraint model of motor end(cid:173) plate morphogenesis is presented that includes activity dependent and independent competition. It is supported by a wide range of recent neurophysiological evidence that indicates a strong relation(cid:173) ship between synaptic efficacy and survival. The computational model is justified at the molecular level and its predictions match the developmental and regenerative behaviour of real synapses.

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Cite

Text

Joseph and Willshaw. "The Role of Activity in Synaptic Competition at the Neuromuscular Junction." Neural Information Processing Systems, 1995.

Markdown

[Joseph and Willshaw. "The Role of Activity in Synaptic Competition at the Neuromuscular Junction." Neural Information Processing Systems, 1995.](https://mlanthology.org/neurips/1995/joseph1995neurips-role/)

BibTeX

@inproceedings{joseph1995neurips-role,
  title     = {{The Role of Activity in Synaptic Competition at the Neuromuscular Junction}},
  author    = {Joseph, Samuel R. H. and Willshaw, David J.},
  booktitle = {Neural Information Processing Systems},
  year      = {1995},
  pages     = {96-102},
  url       = {https://mlanthology.org/neurips/1995/joseph1995neurips-role/}
}