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Literature DB >> 23968139

Retinocollicular mapping explained?

David C Sterratt¹, J J Johannes Hjorth².

Abstract

We review and comment on the recent model of Grimbert and Cang of the development of topographically ordered maps from the retina to the superior colliculus. This model posits a phase in which arbors are created in zones permitted by Eph and ephrin signaling, followed by a phase in which activity-dependent synaptic plasticity refines the map. We show that it is not possible to generate the arborization probability functions used in the simulations of Grimbert and Cang using gradients of Ephs and ephrins and the interaction mechanism that Grimbert and Cang propose in their results. Furthermore, the arborization probabilities we do generate are far less sharp than we imagine truly “permissive” ones would be. It remains to be seen if maps can be generated from the nonpermissive arborization probabilities generated from gradients.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2013 PMID： 23968139 PMCID： PMC3836172 DOI： 10.1017/S0952523813000254

Source DB: PubMed Journal: Vis Neurosci ISSN： 0952-5238 Impact factor: 3.241

20 in total

1. Topographic mapping from the retina to the midbrain is controlled by relative but not absolute levels of EphA receptor signaling.

Authors: A Brown; P A Yates; P Burrola; D Ortuño; A Vaidya; T M Jessell; S L Pfaff; D D O'Leary; G Lemke
Journal: Cell Date: 2000-07-07 Impact factor: 41.582

2. Competition is a driving force in topographic mapping.

Authors: Jason W Triplett; Cory Pfeiffenberger; Jena Yamada; Ben K Stafford; Neal T Sweeney; Alan M Litke; Alexander Sher; Alexei A Koulakov; David A Feldheim
Journal: Proc Natl Acad Sci U S A Date: 2011-11-07 Impact factor: 11.205

3. A relative signalling model for the formation of a topographic neural map.

Authors: Michaël Reber; Patrick Burrola; Greg Lemke
Journal: Nature Date: 2004-10-14 Impact factor: 49.962

Review 4. On a role for competition in the formation of patterned neural connexions.

Authors: M C Prestige; D J Willshaw
Journal: Proc R Soc Lond B Biol Sci Date: 1975-06-20

5. A simple model can unify a broad range of phenomena in retinotectal map development.

Authors: Hugh D Simpson; Geoffrey J Goodhill
Journal: Biol Cybern Date: 2011-02-22 Impact factor: 2.086

Review 6. Developmental mechanisms of topographic map formation and alignment.

Authors: Jianhua Cang; David A Feldheim
Journal: Annu Rev Neurosci Date: 2013-04-29 Impact factor: 12.449

Review 7. Visual map development: bidirectional signaling, bifunctional guidance molecules, and competition.

Authors: David A Feldheim; Dennis D M O'Leary
Journal: Cold Spring Harb Perspect Biol Date: 2010-09-29 Impact factor: 10.005

8. New model of retinocollicular mapping predicts the mechanisms of axonal competition and explains the role of reverse molecular signaling during development.

Authors: François Grimbert; Jianhua Cang
Journal: J Neurosci Date: 2012-07-11 Impact factor: 6.167

9. Sperry versus Hebb: topographic mapping in Isl2/EphA3 mutant mice.

Authors: Dmitry Tsigankov; Alexei A Koulakov
Journal: BMC Neurosci Date: 2010-12-29 Impact factor: 3.288

10. Computational modeling of retinotopic map development to define contributions of EphA-ephrinA gradients, axon-axon interactions, and patterned activity.

Authors: Paul A Yates; Alex D Holub; Todd McLaughlin; Terrence J Sejnowski; Dennis D M O'Leary
Journal: J Neurobiol Date: 2004-04

3 in total