Open Access
Identification and characterization of miRNA expression during zebrafish retinal regeneration
Rachel L. Harding
- 28 Mar 2014
6
TL;DR: Dicer knockdown prior to light damage lead to decreased proliferation in regenerating retinas without affecting the number of Müller glia during retinal regeneration or cell death.
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Abstract: by Rachel Harding Unlike most other vertebrates, zebrafish are able to regenerate many tissues including retina. Light-induced photoreceptor cell death causes inner nuclear layer Müller glia to dedifferentiate, reenter the cell cycle and produce proliferating progenitor cells. These progenitor cells continue to proliferate and migrate to the appropriate retinal layer and differentiate into functional photoreceptors. While a number of genes essential to retinal regeneration have been identified, the mechanisms regulating these genes have been little studied. Many post-transcriptional regulatory mechanisms exist in the cell including miRNAs, short RNA sequences encoded in the genome. To determine if miRNAs play a role in retinal regeneration, I reduced global miRNA expression by Dicer knockdown, an enzyme essential to miRNA maturation. Dicer knockdown prior to light damage lead to decreased proliferation in regenerating retinas without affecting the number of Müller glia during retinal regeneration or cell death. These studies demonstrate an essential role
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Citations
MicroRNAs: Target Recognition and Regulatory Functions
David P. Bartel
- 01 Jan 2009
TL;DR: In this article, a review outlines the current understanding of miRNA target recognition in animals and discusses the widespread impact of miRNAs on both the expression and evolution of protein-coding genes.
656
•Dissertation
Development and regeneration of neuronal circuits in the vertebrate retina
Florence DeEtte D'Orazi
- 22 Sep 2016
TL;DR: Development and regeneration of neuronal circuits in the vertebrate retina and the role of ‘spiking’ in the regeneration of these circuits is studied.
4
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Junji Itou,Isao Oishi,Hiroko Kawakami,Tiffany J. Glass,Jenna Richter,Austin Johnson,Troy C. Lund,Yasuhiko Kawakami +7 more
TL;DR: It is shown that pharmacological blocking of Cxcr4 function as well as genetic loss of cxcr4b function causes failure to regenerate the heart after ventricular resection, and that coordination of both processes is necessary for heart regeneration.
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TL;DR: CNTF utilizes a MAPK- dependency signaling pathway in neuroprotection of light-induced photoreceptor cell death and a Stat3-dependant signaling pathway to stimulate Müller glia proliferation in undamaged zebrafish retinas.
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