The PPR domain of mitochondrial RNA polymerase is a ribonuclease required for mtDNA replication

Abstract

AbstractMitochondrial DNA (mtDNA) replication and transcription are of paramount importance to cellular energy metabolism. Mitochondrial RNA polymerase (POLRMT) is thought to be the primase for mtDNA replication. However, it is unclear how POLRMT, which normally transcribes long polycistronic RNAs, can produce short RNA oligos to initiate mtDNA replication. Here we show that the PPR domain of Drosophila POLRMT is a 3’ to 5’ exoribonuclease. The exoribonuclease activity is indispensable for POLRMT to synthesize short RNA oligos and to prime DNA replication in vitro. An exoribonuclease deficient POLRMT, POLRMTE423P partially restores mitochondrial transcription but fails to support mtDNA replication when expressed in POLRMT mutant background, indicating that the exoribonuclease activity is necessary for mtDNA replication. Overexpression of POLRMTE423P in adult flies leads to severe neuromuscular defects and a marked increase of mtDNA transcripts errors, suggesting that exoribonuclease activity may contribute to the proofreading of mtDNA transcription. PPR domain of human POLRMT also has exoribonuclease activity, indicating evolutionarily conserved roles of PPR domain in mitochondrial DNA and RNA metabolism.