RNA-binding proteins (RBPs) are found at replication forks, but their direct interaction with DNA-embedded RNA species remains unexplored. Here, we report that p53-binding protein 1 (53BP1), involved in the DNA damage and replication stress response, is an RBP that directly interacts with Okazaki fragments in the absence of external stress. The recruitment of 53BP1 to nascent DNA shows susceptibility to in situ ribonuclease A treatment and is dependent on PRIM1, which synthesizes the RNA primer of Okazaki fragments. Conversely, depletion of FEN1, resulting in the accumulation of uncleaved RNA primers, increases 53BP1 levels at replication forks, suggesting that RNA primers contribute to the recruitment of 53BP1 at the lagging DNA strand. 53BP1 depletion induces an accumulation of S-phase poly(ADP-ribose), which constitutes a sensor of unligated Okazaki fragments. Collectively, our data indicate that 53BP1 is anchored at nascent DNA through its RNA-binding activity, highlighting the role of an RNA-protein interaction at replication forks.
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- Okazaki fragment maturation (OFM) is essential for maintaining genome integrity, and its disruption can lead to DNA damage associated with diseases like cancer and neurodegeneration.
- Recent research has identified the role of polynucleotide kinase-phosphatase (PNKP) alongside LIG3-XRCC1 in an alternative pathway for OFM, demonstrating its significance in DNA replication.
- PNKP is shown to be involved in replication fork dynamics and is phosphorylated by cyclin-dependent kinases (CDK1/2), which is crucial for its function in DNA replication and maintaining genome stability.
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