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Long patch base excision repair in mammalian mitochondrial genomes.
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Removal of oxidative DNA damage via FEN1-dependent long-patch base excision repair in human cell mitochondria.
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Mitochondrial base excision repair of uracil and AP sites takes place by single-nucleotide insertion and long-patch DNA synthesis.
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Comprehensive mapping of the C-terminus of flap endonuclease-1 reveals distinct interaction sites for five proteins that represent different DNA replication and repair pathways.
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Fen1 mutations result in autoimmunity, chronic inflammation and cancers.
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Disruption of the FEN-1/PCNA interaction results in DNA replication defects, pulmonary hypoplasia, pancytopenia, and newborn lethality in mice.
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Biochemical analysis of human Dna2.
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Isolation of human Dna2 endonuclease and characterization of its enzymatic properties.
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Functional human mitochondrial DNA polymerase gamma forms a heterotrimer.
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Long-patch base excision DNA repair of 2-deoxyribonolactone prevents the formation of DNA-protein cross-links with DNA polymerase beta.
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