Mechanism of mitochondrial DNA replication in mouse L-cells: RNA priming during the initiation of heavy-strand synthesis

The major form of mouse L-cell mitochondrial DNA contains a small displacement loop at the replication origin, created by synthesis of a 550 to 670-nucleotide portion of the heavy strand. These short heavy-strand segments remain hydrogen-bonded to the parental light strand and are collectively termed 7 S mitochondrial DNA. The unique location of these 7 S mitochondrial DNAs at the heavy-strand origin suggests that they may function as primers in the synthesis of full-length heavy strands. Ribonucleotides have been detected at the 5′-end of some of these molecules, which are most likely remnants of primer RNAs. Using 5′-end labeling in vitro, we have determined that these ribonucleotides occur at several discrete positions along the nucleotide sequence of the origin region, which suggests that there may be variability in the precise initiation point of RNA priming or in the location of the switchover from RNA priming to DNA synthesis. The length of 5′-end RNA was estimated by alkali treatment of mitochondrial DNA prior to end labeling. A range of one to ten ribonucleotides was hydrolyzed from the 5′-end of some 7 S mitochondrial DNA strands. This is the first evidence of RNA priming at a eukaryotic cell DNA replication origin.