Minimizing the damage: repair pathways keep mitochondrial DNA intact
Mitochondrial DNA (mtDNA) faces the universal challenges of genome maintenance: the
accurate replication, transmission and preservation of its integrity throughout the life of the
organism. Although mtDNA was originally thought to lack DNA repair activity, four decades
of research on mitochondria have revealed multiple mtDNA repair pathways, including base
excision repair, single-strand break repair, mismatch repair and possibly homologous
recombination. These mtDNA repair pathways are mediated by enzymes that are similar in …
accurate replication, transmission and preservation of its integrity throughout the life of the
organism. Although mtDNA was originally thought to lack DNA repair activity, four decades
of research on mitochondria have revealed multiple mtDNA repair pathways, including base
excision repair, single-strand break repair, mismatch repair and possibly homologous
recombination. These mtDNA repair pathways are mediated by enzymes that are similar in …
Abstract
Mitochondrial DNA (mtDNA) faces the universal challenges of genome maintenance: the accurate replication, transmission and preservation of its integrity throughout the life of the organism. Although mtDNA was originally thought to lack DNA repair activity, four decades of research on mitochondria have revealed multiple mtDNA repair pathways, including base excision repair, single-strand break repair, mismatch repair and possibly homologous recombination. These mtDNA repair pathways are mediated by enzymes that are similar in activity to those operating in the nucleus, and in all cases identified so far in mammals, they are encoded by nuclear genes.
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