Abstract
The mouse mitochondrial DNA origin of light-strand replication has been defined as a 32-nucleotide region located among five transfer RNA genes in the genomic sequence. A distinctive feature of this origin is its potential to form a perfectly complementary stem and 11-nucleotide loop structure. Previous studies have demonstrated that the 5′ ends of nascent light strands map within this region and a major trinucleotide ribosubstitution site in closed circular mouse mitochondrial DNA has been mapped within the stem sequence. Direct analysis and precise localization of the 5′ ends of nascent light strands indicate that essentially all 5′ ends are ribonucleotides mapping in the originspecific dyadic structure. The major 5′ end identified is the rG at position 5187 in the genomic sequence. Priming of replication most likely occurs within the loop portion of the potential dyad and continues for 2 to 16 nucleotides with a sharply defined switch to deoxyribonucleotide synthesis. This functional transition point is identical in map position to the trinucleotide ribosubstitution site in mature, closed circular mitochondrial DNA.
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