BRD4 Prevents R-Loop Formation and Transcription-Replication Conflicts by Ensuring Efficient Transcription Elongation.

dc.contributor.author

Edwards, Drake S

dc.contributor.author

Maganti, Rohin

dc.contributor.author

Tanksley, Jarred P

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Luo, Jie

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Park, James JH

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Balkanska-Sinclair, Elena

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Ling, Jinjie

dc.contributor.author

Floyd, Scott R

dc.date.accessioned

2022-01-02T20:55:38Z

dc.date.available

2022-01-02T20:55:38Z

dc.date.issued

2020-09

dc.date.updated

2022-01-02T20:55:37Z

dc.description.abstract

Effective spatio-temporal control of transcription and replication during S-phase is paramount to maintaining genomic integrity and cell survival. Dysregulation of these systems can lead to conflicts between the transcription and replication machinery, causing DNA damage and cell death. BRD4 allows efficient transcriptional elongation by stimulating phosphorylation of RNA polymerase II (RNAPII). We report that bromodomain and extra-terminal domain (BET) protein loss of function (LOF) causes RNAPII pausing on the chromatin and DNA damage affecting cells in S-phase. This persistent RNAPII-dependent pausing leads to an accumulation of RNA:DNA hybrids (R-loops) at sites of BRD4 occupancy, leading to transcription-replication conflicts (TRCs), DNA damage, and cell death. Finally, our data show that the BRD4 C-terminal domain, which interacts with P-TEFb, is required to prevent R-loop formation and DNA damage caused by BET protein LOF.

dc.identifier

S2211-1247(20)31155-4

dc.identifier.issn

2211-1247

dc.identifier.issn

2211-1247

dc.identifier.uri

https://hdl.handle.net/10161/24178

dc.language

eng

dc.publisher

Elsevier BV

dc.relation.ispartof

Cell reports

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10.1016/j.celrep.2020.108166

dc.subject

Hela Cells

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Animals

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Humans

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Mice

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DNA Damage

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RNA Polymerase II

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Cell Cycle Proteins

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Transcription Factors

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S Phase

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DNA Replication

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Structure-Activity Relationship

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HEK293 Cells

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Proteolysis

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Transcription Elongation, Genetic

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Protein Domains

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Loss of Function Mutation

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R-Loop Structures

dc.title

BRD4 Prevents R-Loop Formation and Transcription-Replication Conflicts by Ensuring Efficient Transcription Elongation.

dc.type

Journal article

duke.contributor.orcid

Floyd, Scott R|0000-0002-8067-2426

pubs.begin-page

108166

pubs.issue

12

pubs.organisational-group

School of Medicine

pubs.organisational-group

Duke Cancer Institute

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Pharmacology & Cancer Biology

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Radiation Oncology

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Duke

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Institutes and Centers

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Basic Science Departments

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Clinical Science Departments

pubs.publication-status

Published

pubs.volume

32

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