Reports

Discovery of a Major D-Loop Replication Origin Reveals Two Modes of Human mtDNA Synthesis

Jennifer Fish,^* Nicola Raule,^* Giuseppe Attardi

Mammalian mitochondrial DNA (mtDNA) replication has long been considered to occur by asymmetric synthesis of the two strands, starting at the multiple origins of the strand-displacement loop (D-loop). We report the discovery of a major replication origin at position 57 in the D-loop of several human cell lines (HeLa, A549, and 143B.TK^–) and immortalized lymphocytes. The nascent chains starting at this origin, in contrast to those initiated at the previously described origins, do not terminate prematurely at the 3' end of the D-loop but proceed well beyond this control point, behaving as "true" replicating strands. This origin is mainly responsible for mtDNA maintenance under steady-state conditions, whereas mtDNA synthesis from the formerly identified D-loop origins may be more important for recovery after mtDNA depletion and for accelerating mtDNA replication in response to physiological demands.

Division of Biology, California Institute of Technology, Pasadena, CA 91125, USA.

^* These authors contributed equally to this work.

To whom correspondence should be addressed. E-mail: attardi{at}caltech.edu

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Removal of Oxidative DNA Damage via FEN1-Dependent Long-Patch Base Excision Repair in Human Cell Mitochondria.

P. Liu, L. Qian, J.-S. Sung, N. C. de Souza-Pinto, L. Zheng, D. F. Bogenhagen, V. A. Bohr, D. M. Wilson III, B. Shen, and B. Demple (2008)
Mol. Cell. Biol. 28, 4975-4987
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Mitochondrial DNA polymerase-{gamma} and human disease.

G. Hudson and P. F. Chinnery (2006)
Hum. Mol. Genet. 15, R244-R252
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Conserved Sequence Box II Directs Transcription Termination and Primer Formation in Mitochondria.

X. H. Pham, G. Farge, Y. Shi, M. Gaspari, C. M. Gustafsson, and M. Falkenberg (2006)
J. Biol. Chem. 281, 24647-24652
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DNA precursor metabolism and genomic stability.

C. K. Mathews (2006)
FASEB J 20, 1300-1314
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The transmission of OXPHOS disease and methods to prevent this.

L.J.A.M. Jacobs, G. de Wert, J.P.M. Geraedts, I.F.M. de Coo, and H.J.M. Smeets (2006)
Hum. Reprod. Update 12, 119-136
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Polyadenylation and Degradation of Human Mitochondrial RNA: the Prokaryotic Past Leaves Its Mark.

S. Slomovic, D. Laufer, D. Geiger, and G. Schuster (2005)
Mol. Cell. Biol. 25, 6427-6435
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