UAP56/DDX39B is a major cotranscriptional RNA-DNA helicase that unwinds harmful R loops genome-wide

Nonscheduled R loops represent a major source of DNA damage and replication stress. Cells have different ways to prevent R-loop accumulation. One mechanism relies on the conserved THO complex in association with cotranscriptional RNA processing factors including the RNA-dependent ATPase UAP56/DDX39B...

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Veröffentlicht in:	Genes & development 2020-07, Vol.34 (13-14), p.898-912
Hauptverfasser:	Pérez-Calero, Carmen, Bayona-Feliu, Aleix, Xue, Xiaoyu, Barroso, Sonia I, Muñoz, Sergio, González-Basallote, Víctor M, Sung, Patrick, Aguilera, Andrés
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Sprache:	eng
Schlagworte:	Chromatin - metabolism DEAD-box RNA Helicases - genetics DEAD-box RNA Helicases - metabolism Gene Expression - genetics Genome - genetics Genomic Instability - genetics Humans K562 Cells R-Loop Structures - genetics Research Paper Transcription, Genetic - genetics
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container_issue	13-14
container_start_page	898
container_title	Genes & development
container_volume	34
creator	Pérez-Calero, Carmen Bayona-Feliu, Aleix Xue, Xiaoyu Barroso, Sonia I Muñoz, Sergio González-Basallote, Víctor M Sung, Patrick Aguilera, Andrés
description	Nonscheduled R loops represent a major source of DNA damage and replication stress. Cells have different ways to prevent R-loop accumulation. One mechanism relies on the conserved THO complex in association with cotranscriptional RNA processing factors including the RNA-dependent ATPase UAP56/DDX39B and histone modifiers such as the SIN3 deacetylase in humans. We investigated the function of UAP56/DDX39B in R-loop removal. We show that UAP56 depletion causes R-loop accumulation, R-loop-mediated genome instability, and replication fork stalling. We demonstrate an RNA-DNA helicase activity in UAP56 and show that its overexpression suppresses R loops and genome instability induced by depleting five different unrelated factors. UAP56/DDX39B localizes to active chromatin and prevents the accumulation of RNA-DNA hybrids over the entire genome. We propose that, in addition to its RNA processing role, UAP56/DDX39B is a key helicase required to eliminate harmful cotranscriptional RNA structures that otherwise would block transcription and replication.
doi_str_mv	10.1101/gad.336024.119
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Cells have different ways to prevent R-loop accumulation. One mechanism relies on the conserved THO complex in association with cotranscriptional RNA processing factors including the RNA-dependent ATPase UAP56/DDX39B and histone modifiers such as the SIN3 deacetylase in humans. We investigated the function of UAP56/DDX39B in R-loop removal. We show that UAP56 depletion causes R-loop accumulation, R-loop-mediated genome instability, and replication fork stalling. We demonstrate an RNA-DNA helicase activity in UAP56 and show that its overexpression suppresses R loops and genome instability induced by depleting five different unrelated factors. UAP56/DDX39B localizes to active chromatin and prevents the accumulation of RNA-DNA hybrids over the entire genome. 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subjects	Chromatin - metabolism DEAD-box RNA Helicases - genetics DEAD-box RNA Helicases - metabolism Gene Expression - genetics Genome - genetics Genomic Instability - genetics Humans K562 Cells R-Loop Structures - genetics Research Paper Transcription, Genetic - genetics
title	UAP56/DDX39B is a major cotranscriptional RNA-DNA helicase that unwinds harmful R loops genome-wide
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