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| Item Type: | Article |
|---|---|
| Title: | Linear mitochondrial DNA is rapidly degraded by components of the replication machinery |
| Creators Name: | Peeva, V. and Blei, D. and Trombly, G. and Corsi, S. and Szukszto, M.J. and Rebelo-Guiomar, P. and Gammage, P.A. and Kudin, A.P. and Becker, C. and Altmüller, J. and Minczuk, M. and Zsurka, G. and Kunz, W.S. |
| Abstract: | Emerging gene therapy approaches that aim to eliminate pathogenic mutations of mitochondrial DNA (mtDNA) rely on efficient degradation of linearized mtDNA, but the enzymatic machinery performing this task is presently unknown. Here, we show that, in cellular models of restriction endonuclease-induced mtDNA double-strand breaks, linear mtDNA is eliminated within hours by exonucleolytic activities. Inactivation of the mitochondrial 5'-3'exonuclease MGME1, elimination of the 3'-5'exonuclease activity of the mitochondrial DNA polymerase POLG by introducing the p.D274A mutation, or knockdown of the mitochondrial DNA helicase TWNK leads to severe impediment of mtDNA degradation. We do not observe similar effects when inactivating other known mitochondrial nucleases (EXOG, APEX2, ENDOG, FEN1, DNA2, MRE11, or RBBP8). Our data suggest that rapid degradation of linearized mtDNA is performed by the same machinery that is responsible for mtDNA replication, thus proposing novel roles for the participating enzymes POLG, TWNK, and MGME1. |
| Keywords: | DNA Metabolism, Mitochondria |
| Source: | Nature Communications |
| ISSN: | 2041-1723 |
| Publisher: | Nature Publishing Group |
| Volume: | 9 |
| Number: | 1 |
| Page Range: | 1727 |
| Date: | 30 April 2018 |
| Official Publication: | https://doi.org/10.1038/s41467-018-04131-w |
| PubMed: | View item in PubMed |
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