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R-loop formation during S phase is restricted by PrimPol-mediated repriming.


ABSTRACT: During DNA replication, conflicts with ongoing transcription are frequent and require careful management to avoid genetic instability. R-loops, three-stranded nucleic acid structures comprising a DNA:RNA hybrid and displaced single-stranded DNA, are important drivers of damage arising from such conflicts. How R-loops stall replication and the mechanisms that restrain their formation during S phase are incompletely understood. Here, we show in vivo how R-loop formation drives a short purine-rich repeat, (GAA)10, to become a replication impediment that engages the repriming activity of the primase-polymerase PrimPol. Further, the absence of PrimPol leads to significantly increased R-loop formation around this repeat during S phase. We extend this observation by showing that PrimPol suppresses R-loop formation in genes harbouring secondary structure-forming sequences, exemplified by G quadruplex and H-DNA motifs, across the genome in both avian and human cells. Thus, R-loops promote the creation of replication blocks at susceptible structure-forming sequences, while PrimPol-dependent repriming limits the extent of unscheduled R-loop formation at these sequences, mitigating their impact on replication.

SUBMITTER: Svikovic S 

PROVIDER: S-EPMC6356060 | biostudies-literature | 2019 Feb

REPOSITORIES: biostudies-literature

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R-loop formation during S phase is restricted by PrimPol-mediated repriming.

Šviković Saša S   Crisp Alastair A   Tan-Wong Sue Mei SM   Guilliam Thomas A TA   Doherty Aidan J AJ   Proudfoot Nicholas J NJ   Guilbaud Guillaume G   Sale Julian E JE  

The EMBO journal 20181126 3


During DNA replication, conflicts with ongoing transcription are frequent and require careful management to avoid genetic instability. R-loops, three-stranded nucleic acid structures comprising a DNA:RNA hybrid and displaced single-stranded DNA, are important drivers of damage arising from such conflicts. How R-loops stall replication and the mechanisms that restrain their formation during S phase are incompletely understood. Here, we show <i>in vivo</i> how R-loop formation drives a short purin  ...[more]

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