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Structures of LIG1 that engage with mutagenic mismatches inserted by polβ in base excision repair

Qun Tang, Mitchell Gulkis, Robert McKenna, Melike Çağlayan

2022Nature Communications28 citationsDOIOpen Access PDF

Abstract

DNA ligase I (LIG1) catalyzes the ligation of the nick repair intermediate after gap filling by DNA polymerase (pol) β during downstream steps of the base excision repair (BER) pathway. However, how LIG1 discriminates against the mutagenic 3'-mismatches incorporated by polβ at atomic resolution remains undefined. Here, we determine the X-ray structures of LIG1/nick DNA complexes with G:T and A:C mismatches and uncover the ligase strategies that favor or deter the ligation of base substitution errors. Our structures reveal that the LIG1 active site can accommodate a G:T mismatch in the wobble conformation, where an adenylate (AMP) is transferred to the 5'-phosphate of a nick (DNA-AMP), while it stays in the LIG1-AMP intermediate during the initial step of the ligation reaction in the presence of an A:C mismatch at the 3'-strand. Moreover, we show mutagenic ligation and aberrant nick sealing of dG:T and dA:C mismatches, respectively. Finally, we demonstrate that AP-endonuclease 1 (APE1), as a compensatory proofreading enzyme, removes the mismatched bases and interacts with LIG1 at the final BER steps. Our overall findings provide the features of accurate versus mutagenic outcomes coordinated by a multiprotein complex including polβ, LIG1, and APE1 to maintain efficient repair.

Topics & Concepts

DNA ligaseDNA mismatch repairEndonucleaseProofreadingLigationDNA polymeraseBase excision repairDNA repairDNAMolecular biologyBiologyGeneticsDNA Repair MechanismsDNA and Nucleic Acid ChemistryAdvanced biosensing and bioanalysis techniques
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