Literature DB >> 34375583

Enhancer RNA m6A methylation facilitates transcriptional condensate formation and gene activation.

Joo-Hyung Lee1, Ruoyu Wang2, Feng Xiong1, Joanna Krakowiak1, Zian Liao2, Phuoc T Nguyen2, Elena V Moroz-Omori3, Jiaofang Shao1, Xiaoyu Zhu1, Michael J Bolt4, Haoyi Wu2, Pankaj K Singh4, Mingjun Bi5, Caleb J Shi1, Naadir Jamal1, Guojie Li1, Ragini Mistry6, Sung Yun Jung7, Kuang-Lei Tsai1, Josephine C Ferreon8, Fabio Stossi6, Amedeo Caflisch3, Zhijie Liu5, Michael A Mancini9, Wenbo Li10.   

Abstract

The mechanistic understanding of nascent RNAs in transcriptional control remains limited. Here, by a high sensitivity method methylation-inscribed nascent transcripts sequencing (MINT-seq), we characterized the landscapes of N6-methyladenosine (m6A) on nascent RNAs. We uncover heavy but selective m6A deposition on nascent RNAs produced by transcription regulatory elements, including promoter upstream antisense RNAs and enhancer RNAs (eRNAs), which positively correlates with their length, inclusion of m6A motif, and RNA abundances. m6A-eRNAs mark highly active enhancers, where they recruit nuclear m6A reader YTHDC1 to phase separate into liquid-like condensates, in a manner dependent on its C terminus intrinsically disordered region and arginine residues. The m6A-eRNA/YTHDC1 condensate co-mixes with and facilitates the formation of BRD4 coactivator condensate. Consequently, YTHDC1 depletion diminished BRD4 condensate and its recruitment to enhancers, resulting in inhibited enhancer and gene activation. We propose that chemical modifications of eRNAs together with reader proteins play broad roles in enhancer activation and gene transcriptional control. Published by Elsevier Inc.

Entities:  

Keywords:  BRD4; MINT-Seq; RNA m6A methylation; YTHDC1; enhancer RNAs; enhancers; epitranscriptome; nuclear condensate; phase separation; transcriptional activation

Mesh:

Substances:

Year:  2021        PMID: 34375583      PMCID: PMC8383322          DOI: 10.1016/j.molcel.2021.07.024

Source DB:  PubMed          Journal:  Mol Cell        ISSN: 1097-2765            Impact factor:   19.328


  95 in total

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3.  Transcription Factors Activate Genes through the Phase-Separation Capacity of Their Activation Domains.

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Journal:  Cell       Date:  2018-11-15       Impact factor: 41.582

4.  m6A RNA methylation regulates the fate of endogenous retroviruses.

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Journal:  Nature       Date:  2021-01-13       Impact factor: 49.962

5.  Pervasive Chromatin-RNA Binding Protein Interactions Enable RNA-Based Regulation of Transcription.

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Journal:  Cell       Date:  2019-06-27       Impact factor: 41.582

6.  Base-pair-resolution genome-wide mapping of active RNA polymerases using precision nuclear run-on (PRO-seq).

Authors:  Dig Bijay Mahat; Hojoong Kwak; Gregory T Booth; Iris H Jonkers; Charles G Danko; Ravi K Patel; Colin T Waters; Katie Munson; Leighton J Core; John T Lis
Journal:  Nat Protoc       Date:  2016-07-21       Impact factor: 13.491

7.  N6-methyladenosine RNA modification regulates embryonic neural stem cell self-renewal through histone modifications.

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8.  A Myc enhancer cluster regulates normal and leukaemic haematopoietic stem cell hierarchies.

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Journal:  Nature       Date:  2018-01-17       Impact factor: 49.962

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Journal:  Genes Dev       Date:  2018-01-29       Impact factor: 11.361

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Journal:  Genome Res       Date:  2013-05-01       Impact factor: 9.043
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  33 in total

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2.  Dynamic control of chromatin-associated m6A methylation regulates nascent RNA synthesis.

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Review 4.  Hidden codes in mRNA: Control of gene expression by m6A.

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5.  RNA m6A regulates transcription via DNA demethylation and chromatin accessibility.

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Review 6.  Super-Enhancers, Phase-Separated Condensates, and 3D Genome Organization in Cancer.

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Review 7.  m6A RNA modification in transcription regulation.

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Review 10.  Inflammatory Immune-Associated eRNA: Mechanisms, Functions and Therapeutic Prospects.

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