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

Rui Xiao; Jia Yu Chen; Zhengyu Liang; Daji Luo; Geng Chen; Zhi John Lu; Yang Chen; Bing Zhou; Hairi Li; Xian Du; Yang Yang; Mingkui San; Xintao Wei; Wen Liu; Eric Lécuyer; Brenton R. Graveley; Gene W. Yeo; Christopher B. Burge; Michael Q. Zhang; Yu Zhou; Xiang Dong Fu

doi:10.1016/j.cell.2019.06.001

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

Rui Xiao
, Jia Yu Chen
, Zhengyu Liang
, Daji Luo
, Geng Chen
, Zhi John Lu
, Yang Chen
, Bing Zhou
, Hairi Li
, Xian Du
, Yang Yang
, Mingkui San
, Xintao Wei
, Wen Liu
, Eric Lécuyer
, Brenton R. Graveley
, Gene W. Yeo
, Christopher B. Burge
, Michael Q. Zhang
, Yu Zhou

Xiang Dong Fu

University of California
Wuhan University
Tsinghua University
UConn Health
Xiamen University
Institut de Recherches Cliniques de Montréal
Massachusetts Institute of Technology
University of Texas at Dallas

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

279 Scopus citations

Abstract

Increasing evidence suggests that transcriptional control and chromatin activities at large involve regulatory RNAs, which likely enlist specific RNA-binding proteins (RBPs). Although multiple RBPs have been implicated in transcription control, it has remained unclear how extensively RBPs directly act on chromatin. We embarked on a large-scale RBP ChIP-seq analysis, revealing widespread RBP presence in active chromatin regions in the human genome. Like transcription factors (TFs), RBPs also show strong preference for hotspots in the genome, particularly gene promoters, where their association is frequently linked to transcriptional output. Unsupervised clustering reveals extensive co-association between TFs and RBPs, as exemplified by YY1, a known RNA-dependent TF, and RBM25, an RBP involved in splicing regulation. Remarkably, RBM25 depletion attenuates all YY1-dependent activities, including chromatin binding, DNA looping, and transcription. We propose that various RBPs may enhance network interaction through harnessing regulatory RNAs to control transcription. Nuclear RNA-binding proteins are pervasive at gene promoters, with many directly participating in transcription through functional interaction with specific transcription factors.

Original language	English
Pages (from-to)	107-121.e18
Journal	Cell
Volume	178
Issue number	1
DOIs	https://doi.org/10.1016/j.cell.2019.06.001
State	Published - 27 Jun 2019
Externally published	Yes

Keywords

RBP-TF co-occupancy
RNA-based transcriptional control
RNA-binding proteins
YY1-mediated DNA looping
chromatin binding
functional genomics

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10.1016/j.cell.2019.06.001

Cite this

Xiao, R., Chen, J. Y., Liang, Z., Luo, D., Chen, G., Lu, Z. J., Chen, Y., Zhou, B., Li, H., Du, X., Yang, Y., San, M., Wei, X., Liu, W., Lécuyer, E., Graveley, B. R., Yeo, G. W., Burge, C. B., Zhang, M. Q., ... Fu, X. D. (2019). Pervasive Chromatin-RNA Binding Protein Interactions Enable RNA-Based Regulation of Transcription. Cell, 178(1), 107-121.e18. https://doi.org/10.1016/j.cell.2019.06.001

@article{20447716e7ef48238cbc55279c884fa8,

title = "Pervasive Chromatin-RNA Binding Protein Interactions Enable RNA-Based Regulation of Transcription",

abstract = "Increasing evidence suggests that transcriptional control and chromatin activities at large involve regulatory RNAs, which likely enlist specific RNA-binding proteins (RBPs). Although multiple RBPs have been implicated in transcription control, it has remained unclear how extensively RBPs directly act on chromatin. We embarked on a large-scale RBP ChIP-seq analysis, revealing widespread RBP presence in active chromatin regions in the human genome. Like transcription factors (TFs), RBPs also show strong preference for hotspots in the genome, particularly gene promoters, where their association is frequently linked to transcriptional output. Unsupervised clustering reveals extensive co-association between TFs and RBPs, as exemplified by YY1, a known RNA-dependent TF, and RBM25, an RBP involved in splicing regulation. Remarkably, RBM25 depletion attenuates all YY1-dependent activities, including chromatin binding, DNA looping, and transcription. We propose that various RBPs may enhance network interaction through harnessing regulatory RNAs to control transcription. Nuclear RNA-binding proteins are pervasive at gene promoters, with many directly participating in transcription through functional interaction with specific transcription factors.",

keywords = "RBP-TF co-occupancy, RNA-based transcriptional control, RNA-binding proteins, YY1-mediated DNA looping, chromatin binding, functional genomics",

author = "Rui Xiao and Chen, \{Jia Yu\} and Zhengyu Liang and Daji Luo and Geng Chen and Lu, \{Zhi John\} and Yang Chen and Bing Zhou and Hairi Li and Xian Du and Yang Yang and Mingkui San and Xintao Wei and Wen Liu and Eric L{\'e}cuyer and Graveley, \{Brenton R.\} and Yeo, \{Gene W.\} and Burge, \{Christopher B.\} and Zhang, \{Michael Q.\} and Yu Zhou and Fu, \{Xiang Dong\}",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier Inc.",

year = "2019",

month = jun,

day = "27",

doi = "10.1016/j.cell.2019.06.001",

language = "英语",

volume = "178",

pages = "107--121.e18",

journal = "Cell",

issn = "0092-8674",

publisher = "Elsevier B.V.",

number = "1",

}

Xiao, R, Chen, JY, Liang, Z, Luo, D, Chen, G, Lu, ZJ, Chen, Y, Zhou, B, Li, H, Du, X, Yang, Y, San, M, Wei, X, Liu, W, Lécuyer, E, Graveley, BR, Yeo, GW, Burge, CB, Zhang, MQ, Zhou, Y & Fu, XD 2019, 'Pervasive Chromatin-RNA Binding Protein Interactions Enable RNA-Based Regulation of Transcription', Cell, vol. 178, no. 1, pp. 107-121.e18. https://doi.org/10.1016/j.cell.2019.06.001

TY - JOUR

T1 - Pervasive Chromatin-RNA Binding Protein Interactions Enable RNA-Based Regulation of Transcription

AU - Xiao, Rui

AU - Chen, Jia Yu

AU - Liang, Zhengyu

AU - Luo, Daji

AU - Chen, Geng

AU - Lu, Zhi John

AU - Chen, Yang

AU - Zhou, Bing

AU - Li, Hairi

AU - Du, Xian

AU - Yang, Yang

AU - San, Mingkui

AU - Wei, Xintao

AU - Liu, Wen

AU - Lécuyer, Eric

AU - Graveley, Brenton R.

AU - Yeo, Gene W.

AU - Burge, Christopher B.

AU - Zhang, Michael Q.

AU - Zhou, Yu

AU - Fu, Xiang Dong

PY - 2019/6/27

Y1 - 2019/6/27

N2 - Increasing evidence suggests that transcriptional control and chromatin activities at large involve regulatory RNAs, which likely enlist specific RNA-binding proteins (RBPs). Although multiple RBPs have been implicated in transcription control, it has remained unclear how extensively RBPs directly act on chromatin. We embarked on a large-scale RBP ChIP-seq analysis, revealing widespread RBP presence in active chromatin regions in the human genome. Like transcription factors (TFs), RBPs also show strong preference for hotspots in the genome, particularly gene promoters, where their association is frequently linked to transcriptional output. Unsupervised clustering reveals extensive co-association between TFs and RBPs, as exemplified by YY1, a known RNA-dependent TF, and RBM25, an RBP involved in splicing regulation. Remarkably, RBM25 depletion attenuates all YY1-dependent activities, including chromatin binding, DNA looping, and transcription. We propose that various RBPs may enhance network interaction through harnessing regulatory RNAs to control transcription. Nuclear RNA-binding proteins are pervasive at gene promoters, with many directly participating in transcription through functional interaction with specific transcription factors.

AB - Increasing evidence suggests that transcriptional control and chromatin activities at large involve regulatory RNAs, which likely enlist specific RNA-binding proteins (RBPs). Although multiple RBPs have been implicated in transcription control, it has remained unclear how extensively RBPs directly act on chromatin. We embarked on a large-scale RBP ChIP-seq analysis, revealing widespread RBP presence in active chromatin regions in the human genome. Like transcription factors (TFs), RBPs also show strong preference for hotspots in the genome, particularly gene promoters, where their association is frequently linked to transcriptional output. Unsupervised clustering reveals extensive co-association between TFs and RBPs, as exemplified by YY1, a known RNA-dependent TF, and RBM25, an RBP involved in splicing regulation. Remarkably, RBM25 depletion attenuates all YY1-dependent activities, including chromatin binding, DNA looping, and transcription. We propose that various RBPs may enhance network interaction through harnessing regulatory RNAs to control transcription. Nuclear RNA-binding proteins are pervasive at gene promoters, with many directly participating in transcription through functional interaction with specific transcription factors.

KW - RBP-TF co-occupancy

KW - RNA-based transcriptional control

KW - RNA-binding proteins

KW - YY1-mediated DNA looping

KW - chromatin binding

KW - functional genomics

UR - https://www.scopus.com/pages/publications/85067306579

U2 - 10.1016/j.cell.2019.06.001

DO - 10.1016/j.cell.2019.06.001

M3 - 文章

C2 - 31251911

AN - SCOPUS:85067306579

SN - 0092-8674

VL - 178

SP - 107-121.e18

JO - Cell

JF - Cell

IS - 1

ER -

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

Abstract

Keywords

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