| Literature DB >> 26996597 |
Sai Luo1, J Yuyang Lu1, Lichao Liu1, Yafei Yin1, Chunyan Chen2, Xue Han1, Bohou Wu1, Ronggang Xu1, Wei Liu1, Pixi Yan1, Wen Shao1, Zhi Lu3, Haitao Li1, Jie Na1, Fuchou Tang4, Jianlong Wang5, Yong E Zhang2, Xiaohua Shen6.
Abstract
Divergent lncRNAs that are transcribed in the opposite direction to nearby protein-coding genes comprise a significant proportion (∼20%) of total lncRNAs in mammalian genomes. Through genome-wide analysis, we found that the distribution of this lncRNA class strongly correlates with essential developmental regulatory genes. In pluripotent cells, divergent lncRNAs regulate the transcription of nearby genes. As an example, the divergent lncRNA Evx1as promotes transcription of its neighbor gene, EVX1, and regulates mesendodermal differentiation. At a single-cell level, early broad expression of Evx1as is followed by a rapid, high-level transcription of EVX1, supporting the idea that Evx1as plays an upstream role to facilitate EVX1 transcription. Mechanistically, Evx1as RNA binds to regulatory sites on chromatin, promotes an active chromatin state, and interacts with Mediator. Based on our analyses, we propose that the biological function of thousands of uncharacterized lncRNAs of this class may be inferred from the role of their neighboring adjacent genes.Entities:
Keywords: ESCs; Evx1as; development; divergent lncRNA; transcription regulation
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Year: 2016 PMID: 26996597 DOI: 10.1016/j.stem.2016.01.024
Source DB: PubMed Journal: Cell Stem Cell ISSN: 1875-9777 Impact factor: 24.633