Rad53 regulates RNase H1, which promotes DNA replication through sites of transcription-replication conflict

Carolin B. Wagner; Matteo Longaretti; Sophia G. Sergi; Neha Singh; Ioannis Tsirkas; Fabio Bento; Ronald P. Wong; Maya Wilkens; Stephan Hamperl; Falk Butter; Amir Aharoni; Helle D. Ulrich; Brian Luke

doi:10.1016/j.celrep.2025.116565

Rad53 regulates RNase H1, which promotes DNA replication through sites of transcription-replication conflict

Carolin B. Wagner
, Matteo Longaretti
, Sophia G. Sergi
, Neha Singh
, Ioannis Tsirkas
, Fabio Bento
, Ronald P. Wong
, Maya Wilkens
, Stephan Hamperl
, Falk Butter
, Amir Aharoni
, Helle D. Ulrich
, Brian Luke

Department of Life Sciences

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

Abstract

RNA-DNA hybrids and R-loops can lead to extensive DNA damage and loss of genomic integrity if not regulated in a timely manner. Although RNase H1 overexpression is frequently used as a tool to resolve R-loops, the regulation of RNase H1, overexpressed or endogenous, remains poorly characterized. We reveal that in yeast, overexpressed RNase H1 (RNH1) has no effect on gene expression, cell growth, or RNA-DNA hybrid resolution in wild-type cells. Overexpressed RNase H1 does, however, remove RNA-DNA hybrids in mutants where hybrids have become dysregulated. Endogenous RNase H1 becomes up-regulated and chromatin-associated in the absence of Sen1 in a DNA replication checkpoint-dependent manner. Rnh1 gets recruited to genomic loci where RNA-DNA hybrids accumulate following the loss of Sen1. Rnh1, together with Sen1, promotes DNA replication at sites of transcription-replication conflict. Hence, RNase H1, overexpressed or endogenous, responds to unscheduled, stress-inducing RNA-DNA hybrids.

Original language	English
Article number	116565
Journal	Cell Reports
Volume	44
Issue number	11
DOIs	https://doi.org/10.1016/j.celrep.2025.116565
State	Published - 25 Nov 2025

Keywords

CP: molecular biology
R-loop
RNA-DNA hybrid
RNase H1
Rnh1
Sen1
Senataxin

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2025.116565

Cite this

Wagner, C. B., Longaretti, M., Sergi, S. G., Singh, N., Tsirkas, I., Bento, F., Wong, R. P., Wilkens, M., Hamperl, S., Butter, F., Aharoni, A., Ulrich, H. D., & Luke, B. (2025). Rad53 regulates RNase H1, which promotes DNA replication through sites of transcription-replication conflict. Cell Reports, 44(11), Article 116565. https://doi.org/10.1016/j.celrep.2025.116565

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abstract = "RNA-DNA hybrids and R-loops can lead to extensive DNA damage and loss of genomic integrity if not regulated in a timely manner. Although RNase H1 overexpression is frequently used as a tool to resolve R-loops, the regulation of RNase H1, overexpressed or endogenous, remains poorly characterized. We reveal that in yeast, overexpressed RNase H1 (RNH1) has no effect on gene expression, cell growth, or RNA-DNA hybrid resolution in wild-type cells. Overexpressed RNase H1 does, however, remove RNA-DNA hybrids in mutants where hybrids have become dysregulated. Endogenous RNase H1 becomes up-regulated and chromatin-associated in the absence of Sen1 in a DNA replication checkpoint-dependent manner. Rnh1 gets recruited to genomic loci where RNA-DNA hybrids accumulate following the loss of Sen1. Rnh1, together with Sen1, promotes DNA replication at sites of transcription-replication conflict. Hence, RNase H1, overexpressed or endogenous, responds to unscheduled, stress-inducing RNA-DNA hybrids.",

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AU - Wagner, Carolin B.

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AU - Sergi, Sophia G.

AU - Singh, Neha

AU - Tsirkas, Ioannis

AU - Bento, Fabio

AU - Wong, Ronald P.

AU - Wilkens, Maya

AU - Hamperl, Stephan

AU - Butter, Falk

AU - Aharoni, Amir

AU - Ulrich, Helle D.

AU - Luke, Brian

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N2 - RNA-DNA hybrids and R-loops can lead to extensive DNA damage and loss of genomic integrity if not regulated in a timely manner. Although RNase H1 overexpression is frequently used as a tool to resolve R-loops, the regulation of RNase H1, overexpressed or endogenous, remains poorly characterized. We reveal that in yeast, overexpressed RNase H1 (RNH1) has no effect on gene expression, cell growth, or RNA-DNA hybrid resolution in wild-type cells. Overexpressed RNase H1 does, however, remove RNA-DNA hybrids in mutants where hybrids have become dysregulated. Endogenous RNase H1 becomes up-regulated and chromatin-associated in the absence of Sen1 in a DNA replication checkpoint-dependent manner. Rnh1 gets recruited to genomic loci where RNA-DNA hybrids accumulate following the loss of Sen1. Rnh1, together with Sen1, promotes DNA replication at sites of transcription-replication conflict. Hence, RNase H1, overexpressed or endogenous, responds to unscheduled, stress-inducing RNA-DNA hybrids.

AB - RNA-DNA hybrids and R-loops can lead to extensive DNA damage and loss of genomic integrity if not regulated in a timely manner. Although RNase H1 overexpression is frequently used as a tool to resolve R-loops, the regulation of RNase H1, overexpressed or endogenous, remains poorly characterized. We reveal that in yeast, overexpressed RNase H1 (RNH1) has no effect on gene expression, cell growth, or RNA-DNA hybrid resolution in wild-type cells. Overexpressed RNase H1 does, however, remove RNA-DNA hybrids in mutants where hybrids have become dysregulated. Endogenous RNase H1 becomes up-regulated and chromatin-associated in the absence of Sen1 in a DNA replication checkpoint-dependent manner. Rnh1 gets recruited to genomic loci where RNA-DNA hybrids accumulate following the loss of Sen1. Rnh1, together with Sen1, promotes DNA replication at sites of transcription-replication conflict. Hence, RNase H1, overexpressed or endogenous, responds to unscheduled, stress-inducing RNA-DNA hybrids.

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KW - R-loop

KW - RNA-DNA hybrid

KW - RNase H1

KW - Rnh1

KW - Sen1

KW - Senataxin

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JO - Cell Reports

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ER -

Rad53 regulates RNase H1, which promotes DNA replication through sites of transcription-replication conflict

Abstract

Keywords

ASJC Scopus subject areas

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