Mechanism of human Lig1 regulation by PCNA in Okazaki fragment sealing

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Abstract

During lagging strand synthesis, DNA Ligase 1 (Lig1) cooperates with the sliding clamp PCNA to seal the nicks between Okazaki fragments generated by Pol δ and Flap endonuclease 1 (FEN1). We present several cryo-EM structures combined with functional assays, showing that human Lig1 recruits PCNA to nicked DNA using two PCNA-interacting motifs (PIPs) located at its disordered N-terminus (PIPN-term) and DNA binding domain (PIPDBD). Once Lig1 and PCNA assemble as two-stack rings encircling DNA, PIPN-term is released from PCNA and only PIPDBD is required for ligation to facilitate the substrate handoff from FEN1. Consistently, we observed that PCNA forms a defined complex with FEN1 and nicked DNA, and it recruits Lig1 to an unoccupied monomer creating a toolbelt that drives the transfer of DNA to Lig1. Collectively, our results provide a structural model on how PCNA regulates FEN1 and Lig1 during Okazaki fragments maturation.

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Blair, K., Tehseen, M., Raducanu, V. S., Shahid, T., Lancey, C., Rashid, F., … De Biasio, A. (2022). Mechanism of human Lig1 regulation by PCNA in Okazaki fragment sealing. Nature Communications, 13(1). https://doi.org/10.1038/s41467-022-35475-z

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