Systematic Mapping of Occluded Genes by Cell Fusion Reveals Prevalence and Stability of Cis-mediated Silencing in Somatic Cells

Overview

Journal Genome Res

Specialty Genetics

Date 2013 Dec 7

PMID 24310002

Citations 10

Authors

Timothy J Looney

Li Zhang

Chih-Hsin Chen

Jae Hyun Lee

Sheila Chari

Frank Fuxiang Mao

Mattia Pelizzola

Lu Zhang

Ryan Lister

Samuel W Baker

Croydon J Fernandes

Jedidiah Gaetz

Kara M Foshay

Kayla L Clift

Zhenyu Zhang

Wei-Qiang Li

Eric J Vallender

Ulrich Wagner

Jane Yuxia Qin

Katelyn J Michelini

Branimir Bugarija

Donghyun Park

Emmanuel Aryee

Thomas Stricker

Jie Zhou

Kevin P White

Bing Ren

Gary P Schroth

Joseph R Ecker

Andy Peng Xiang

Bruce T Lahn

Affiliations

Soon will be listed here.

Abstract

Both diffusible factors acting in trans and chromatin components acting in cis are implicated in gene regulation, but the extent to which either process causally determines a cell's transcriptional identity is unclear. We recently used cell fusion to define a class of silent genes termed "cis-silenced" (or "occluded") genes, which remain silent even in the presence of trans-acting transcriptional activators. We further showed that occlusion of lineage-inappropriate genes plays a critical role in maintaining the transcriptional identities of somatic cells. Here, we present, for the first time, a comprehensive map of occluded genes in somatic cells. Specifically, we mapped occluded genes in mouse fibroblasts via fusion to a dozen different rat cell types followed by whole-transcriptome profiling. We found that occluded genes are highly prevalent and stable in somatic cells, representing a sizeable fraction of silent genes. Occluded genes are also highly enriched for important developmental regulators of alternative lineages, consistent with the role of occlusion in safeguarding cell identities. Alongside this map, we also present whole-genome maps of DNA methylation and eight other chromatin marks. These maps uncover a complex relationship between chromatin state and occlusion. Furthermore, we found that DNA methylation functions as the memory of occlusion in a subset of occluded genes, while histone deacetylation contributes to the implementation but not memory of occlusion. Our data suggest that the identities of individual cell types are defined largely by the occlusion status of their genomes. The comprehensive reference maps reported here provide the foundation for future studies aimed at understanding the role of occlusion in development and disease.

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