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Literature DB >> 19481440

Making a visual map: mechanisms and molecules.

Abstract

Visual system development utilizes global and local cues to assemble a topographic map of the visual world, arranging synaptic connections into columns and layers. Recent genetic studies have provided new insights into the mechanisms that underlie these processes. In flies, a precise temporal sequence of neural differentiation provides a global organizing cue; in vertebrates, gradients of ephrin-mediated signals, acting with neurotrophin co-receptors and neural activity, play crucial roles. In flies and mice, neural processes tile into precise arrays through homotypic, repulsive interactions, autocrine signals, and cell-intrinsic mechanisms. Laminar targeting specificity is achieved through temporally regulated cell-cell adhesion, as well as combinatorial expression of specific adhesion molecules. Future studies will define the interactions between these global and local cues.

Entities: Disease Gene Species

Mesh：

Year: 2009 PMID： 19481440 PMCID： PMC2726114 DOI： 10.1016/j.conb.2009.04.011

Source DB: PubMed Journal: Curr Opin Neurobiol ISSN： 0959-4388 Impact factor: 6.627

37 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. Visual stimulation is required for refinement of ON and OFF pathways in postnatal retina.

Authors: Ning Tian; David R Copenhagen
Journal: Neuron Date: 2003-07-03 Impact factor: 17.173

3. Retinal ganglion cell type, size, and spacing can be specified independent of homotypic dendritic contacts.

Authors: Bin Lin; Steven W Wang; Richard H Masland
Journal: Neuron Date: 2004-08-19 Impact factor: 17.173

4. N-cadherin regulates target specificity in the Drosophila visual system.

Authors: C H Lee; T Herman; T R Clandinin; R Lee; S L Zipursky
Journal: Neuron Date: 2001-05 Impact factor: 17.173

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Journal: Exp Brain Res Date: 1967 Impact factor: 1.972

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Journal: Exp Brain Res Date: 1967 Impact factor: 1.972

7. Hedgehog, transmitted along retinal axons, triggers neurogenesis in the developing visual centers of the Drosophila brain.

Authors: Z Huang; S Kunes
Journal: Cell Date: 1996-08-09 Impact factor: 41.582

8. A retinal axon fascicle uses spitz, an EGF receptor ligand, to construct a synaptic cartridge in the brain of Drosophila.

Authors: Z Huang; B Z Shilo; S Kunes
Journal: Cell Date: 1998-11-25 Impact factor: 41.582

9. The protocadherin Flamingo is required for axon target selection in the Drosophila visual system.

Authors: Roger C Lee; Thomas R Clandinin; Chi-Hon Lee; Pei-Ling Chen; Ian A Meinertzhagen; S Lawrence Zipursky
Journal: Nat Neurosci Date: 2003-06 Impact factor: 24.884

10. Hardwiring of fine synaptic layers in the zebrafish visual pathway.

Authors: Linda M Nevin; Michael R Taylor; Herwig Baier
Journal: Neural Dev Date: 2008-12-16 Impact factor: 3.842

23 in total

Review 1. Candidate molecular mechanisms for establishing cell identity in the developing retina.

Authors: Andrew M Garrett; Robert W Burgess
Journal: Dev Neurobiol Date: 2011-12 Impact factor: 3.964

2. Neuronal birth order identifies a dimorphic sensorineural map.

Authors: Jesús Pujol-Martí; Andrea Zecca; Jean-Pierre Baudoin; Adèle Faucherre; Kazuhide Asakawa; Koichi Kawakami; Hernán López-Schier
Journal: J Neurosci Date: 2012-02-29 Impact factor: 6.167

Review 3. Development of the retina and optic pathway.

Authors: Benjamin E Reese
Journal: Vision Res Date: 2010-07-18 Impact factor: 1.886

4. 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

5. Ephrin-B2 elicits differential growth cone collapse and axon retraction in retinal ganglion cells from distinct retinal regions.

Authors: Timothy J Petros; J Barney Bryson; Carol Mason
Journal: Dev Neurobiol Date: 2010-09-15 Impact factor: 3.964

6. Afadin, a Ras/Rap effector that controls cadherin function, promotes spine and excitatory synapse density in the hippocampus.

Authors: Gerard M J Beaudoin; Claude M Schofield; Tulip Nuwal; Keling Zang; Erik M Ullian; Bo Huang; Louis F Reichardt
Journal: J Neurosci Date: 2012-01-04 Impact factor: 6.167