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Structure-specific roles for PolG2–DNA complexes in maintenance and replication of mitochondrial DNA

Jessica L. Wojtaszek, Kirsten E. Hoff, Matthew J. Longley, Parminder Kaur, Sara N. Andres, Hong Wang, R. Scott Williams, William C. Copeland

2023Nucleic Acids Research15 citationsDOIOpen Access PDF

Abstract

The homodimeric PolG2 accessory subunit of the mitochondrial DNA polymerase gamma (Pol γ) enhances DNA binding and processive DNA synthesis by the PolG catalytic subunit. PolG2 also directly binds DNA, although the underlying molecular basis and functional significance are unknown. Here, data from Atomic Force Microscopy (AFM) and X-ray structures of PolG2-DNA complexes define dimeric and hexameric PolG2 DNA binding modes. Targeted disruption of PolG2 DNA-binding interfaces impairs processive DNA synthesis without diminishing Pol γ subunit affinities. In addition, a structure-specific DNA-binding role for PolG2 oligomers is supported by X-ray structures and AFM showing that oligomeric PolG2 localizes to DNA crossings and targets forked DNA structures resembling the mitochondrial D-loop. Overall, data indicate that PolG2 DNA binding has both PolG-dependent and -independent functions in mitochondrial DNA replication and maintenance, which provide new insight into molecular defects associated with PolG2 disruption in mitochondrial disease.

Topics & Concepts

BiologyMitochondrial DNADNA clampDNADNA replicationReplication protein ADNA polymeraseProtein subunitDNA polymerase IIDNA polymerase deltaHMG-boxMolecular biologyPolymeraseCell biologyDNA-binding proteinBiochemistryGeneReverse transcriptasePolymerase chain reactionTranscription factorMitochondrial Function and PathologyMetabolism and Genetic DisordersDNA Repair Mechanisms
Structure-specific roles for PolG2–DNA complexes in maintenance and replication of mitochondrial DNA | Litcius