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Literature DB >> 22704732

Cell fate determination in the vertebrate retina.

Abstract

The vertebrate retina is a well-characterized and tractable model for studying neurogenesis. Retinal neurons and glia are generated in a conserved sequence from a pool of multipotent progenitor cells, and numerous cell fate determinants for the different classes of retinal cell types have been identified. Here, we summarize several recent developments in the field that have advanced understanding of the regulation of multipotentiality and temporal competence of progenitors. We also discuss recent insights into the relative influence of lineage-based versus stochastic modes of cell fate determination. Enhancing and integrating knowledge of the molecular and genetic machinery underlying retinal development is critically important for understanding not only normal developmental mechanisms, but also therapeutic interventions aimed at restoring vision loss. Crown

Mesh：

Year: 2012 PMID： 22704732 DOI： 10.1016/j.tins.2012.05.004

Source DB: PubMed Journal: Trends Neurosci ISSN： 0166-2236 Impact factor: 13.837

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Cited

119 in total

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Authors: Joseph A Brzezinski; Thomas A Reh
Journal: Development Date: 2015-10-01 Impact factor: 6.868

Review 2. Development of the Vertebrate Eye and Retina.

Authors: Deborah L Stenkamp
Journal: Prog Mol Biol Transl Sci Date: 2015-07-02 Impact factor: 3.622

Review 3. Vision from next generation sequencing: multi-dimensional genome-wide analysis for producing gene regulatory networks underlying retinal development, aging and disease.

Authors: Hyun-Jin Yang; Rinki Ratnapriya; Tiziana Cogliati; Jung-Woong Kim; Anand Swaroop
Journal: Prog Retin Eye Res Date: 2015-02-07 Impact factor: 21.198

4. Independent genomic control of neuronal number across retinal cell types.

Authors: Patrick W Keeley; Irene E Whitney; Nils R Madsen; Ace J St John; Sarra Borhanian; Stephanie A Leong; Robert W Williams; Benjamin E Reese
Journal: Dev Cell Date: 2014-06-19 Impact factor: 12.270

5. Molecular Evidence for Convergence and Parallelism in Evolution of Complex Brains of Cephalopod Molluscs: Insights from Visual Systems.

Authors: M A Yoshida; A Ogura; K Ikeo; S Shigeno; T Moritaki; G C Winters; A B Kohn; L L Moroz
Journal: Integr Comp Biol Date: 2015-05-21 Impact factor: 3.326

6. Molecular codes for cell type specification in Brn3 retinal ganglion cells.

Authors: Szilard Sajgo; Miruna Georgiana Ghinia; Matthew Brooks; Friedrich Kretschmer; Katherine Chuang; Suja Hiriyanna; Zhijian Wu; Octavian Popescu; Tudor Constantin Badea
Journal: Proc Natl Acad Sci U S A Date: 2017-05-02 Impact factor: 11.205

Review 7. RNA Biology in Retinal Development and Disease.

Authors: Lina Zelinger; Anand Swaroop
Journal: Trends Genet Date: 2018-01-31 Impact factor: 11.639

8. Complement Targets Newborn Retinal Ganglion Cells for Phagocytic Elimination by Microglia.

Authors: Sarah R Anderson; Jianmin Zhang; Michael R Steele; Cesar O Romero; Amanda G Kautzman; Dorothy P Schafer; Monica L Vetter
Journal: J Neurosci Date: 2019-01-15 Impact factor: 6.167

9. The ETS transcription factor Etv1 mediates FGF signaling to initiate proneural gene expression during Xenopus laevis retinal development.

Authors: Minde Willardsen; David A Hutcheson; Kathryn B Moore; Monica L Vetter
Journal: Mech Dev Date: 2013-11-09 Impact factor: 1.882

10. Characterization of Three-Dimensional Retinal Tissue Derived from Human Embryonic Stem Cells in Adherent Monolayer Cultures.

Authors: Ratnesh K Singh; Ramya K Mallela; Pamela K Cornuet; Aaron N Reifler; Andrew P Chervenak; Michael D West; Kwoon Y Wong; Igor O Nasonkin
Journal: Stem Cells Dev Date: 2015-09-10 Impact factor: 3.272