Epigenomic landscapes of retinal rods and cones

Alisa Mo; Chongyuan Luo; Fred P. Davis; Eran A. Mukamel; Gilbert L. Henry; Joseph R. Nery; Mark A. Urich; Serge Picard; Ryan Lister; Sean R. Eddy; Michael A. Beer; Joseph R. Ecker; Jeremy Nathans

doi:10.7554/eLife.11613

Epigenomic landscapes of retinal rods and cones

Alisa Mo, Chongyuan Luo, Fred P. Davis, Eran A. Mukamel, Gilbert L. Henry, Joseph R. Nery, Mark A. Urich, Serge Picard, Ryan Lister, Sean R. Eddy, Michael A. Beer, Joseph R. Ecker, Jeremy Nathans

Research output: Contribution to journal › Article › peer-review

68 Scopus citations

Abstract

Rod and cone photoreceptors are highly similar in many respects but they have important functional and molecular differences. Here, we investigate genome-wide patterns of DNA methylation and chromatin accessibility in mouse rods and cones and correlate differences in these features with gene expression, histone marks, transcription factor binding, and DNA sequence motifs. Loss of NR2E3 in rods shifts their epigenomes to a more cone-like state. The data further reveal wide differences in DNA methylation between retinal photoreceptors and brain neurons. Surprisingly, we also find a substantial fraction of DNA hypo-methylated regions in adult rods that are not in active chromatin. Many of these regions exhibit hallmarks of regulatory regions that were active earlier in neuronal development, suggesting that these regions could remain undermethylated due to the highly compact chromatin in mature rods. This work defines the epigenomic landscapes of rods and cones, revealing features relevant to photoreceptor development and function.

Original language	English (US)
Article number	e11613
Journal	eLife
Volume	5
Issue number	MARCH2016
DOIs	https://doi.org/10.7554/eLife.11613
State	Published - Mar 7 2016

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology
General Neuroscience

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10.7554/eLife.11613

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title = "Epigenomic landscapes of retinal rods and cones",

abstract = "Rod and cone photoreceptors are highly similar in many respects but they have important functional and molecular differences. Here, we investigate genome-wide patterns of DNA methylation and chromatin accessibility in mouse rods and cones and correlate differences in these features with gene expression, histone marks, transcription factor binding, and DNA sequence motifs. Loss of NR2E3 in rods shifts their epigenomes to a more cone-like state. The data further reveal wide differences in DNA methylation between retinal photoreceptors and brain neurons. Surprisingly, we also find a substantial fraction of DNA hypo-methylated regions in adult rods that are not in active chromatin. Many of these regions exhibit hallmarks of regulatory regions that were active earlier in neuronal development, suggesting that these regions could remain undermethylated due to the highly compact chromatin in mature rods. This work defines the epigenomic landscapes of rods and cones, revealing features relevant to photoreceptor development and function.",

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AU - Luo, Chongyuan

AU - Davis, Fred P.

AU - Mukamel, Eran A.

AU - Henry, Gilbert L.

AU - Nery, Joseph R.

AU - Urich, Mark A.

AU - Picard, Serge

AU - Lister, Ryan

AU - Eddy, Sean R.

AU - Beer, Michael A.

AU - Ecker, Joseph R.

AU - Nathans, Jeremy

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AB - Rod and cone photoreceptors are highly similar in many respects but they have important functional and molecular differences. Here, we investigate genome-wide patterns of DNA methylation and chromatin accessibility in mouse rods and cones and correlate differences in these features with gene expression, histone marks, transcription factor binding, and DNA sequence motifs. Loss of NR2E3 in rods shifts their epigenomes to a more cone-like state. The data further reveal wide differences in DNA methylation between retinal photoreceptors and brain neurons. Surprisingly, we also find a substantial fraction of DNA hypo-methylated regions in adult rods that are not in active chromatin. Many of these regions exhibit hallmarks of regulatory regions that were active earlier in neuronal development, suggesting that these regions could remain undermethylated due to the highly compact chromatin in mature rods. This work defines the epigenomic landscapes of rods and cones, revealing features relevant to photoreceptor development and function.

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Epigenomic landscapes of retinal rods and cones

Abstract

ASJC Scopus subject areas

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