Abstract
Mitochondrial DNA (mtDNA) polymerase γ (POLγ) harbours a 3′–5′ exonuclease proofreading activity. Here we demonstrate that this activity is required for the creation of ligatable ends during mtDNA replication. Exonuclease-deficient POLγ fails to pause on reaching a downstream 5′-end. Instead, the enzyme continues to polymerize into double-stranded DNA, creating an unligatable 5′-flap. Disease-associated mutations can both increase and decrease exonuclease activity and consequently impair DNA ligation. In mice, inactivation of the exonuclease activity causes an increase in mtDNA mutations and premature ageing phenotypes. These mutator mice also contain high levels of truncated, linear fragments of mtDNA. We demonstrate that the formation of these fragments is due to impaired ligation, causing nicks near the origin of heavy-strand DNA replication. In the subsequent round of replication, the nicks lead to double-strand breaks and linear fragment formation.
Highlights
Mitochondrial DNA polymerase g (POLg) harbours a 30–50 exonuclease proofreading activity
The exonuclease activity of POLg can be inactivated by a single amino acid substitution in the second exonuclease motif in the POLgA subunit (D274A, hereafter referred to as ‘EXO-’)[29]
The EXO- mutation causes a strand-displacement activity, that is, polymerase continues to displace downstream DNA encountered during DNA synthesis[15,22]
Summary
Mitochondrial DNA (mtDNA) polymerase g (POLg) harbours a 30–50 exonuclease proofreading activity. We demonstrate that the formation of these fragments is due to impaired ligation, causing nicks near the origin of heavy-strand DNA replication. An exonuclease-deficient version of POLg (EXO-) can use dsDNA as a template and synthesize short stretches of DNA even in the absence of a DNA helicase, a process called strand-displacement DNA synthesis[15,22]. This effect is not specific to exonucleasedeficient POLg, as inactivation of exonuclease activity causes strand-displacement DNA synthesis with other DNA polymerases[23,24,25,26,27,28]
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