Abstract
Twenty-one fragments have been identified among the products of digestion of HeLa cell mtDNA with the restriction enzyme Hpa II. The sum of the molecular sizes of these fragments, estimated from their mobility relative to that of known markers, accounts, within experimental error, for the total length of HeLa cell mtDNA. The 21 fragments have been ordered in a physical map by two approaches: (1) sequential digestion with Hpa II of the fragments produced by Eco RI, Hind III, and Hpa I enzymes, and (2) fragment-primed DNA synthesis. The Hpa II map has been aligned with the maps constructed with the other three enzymes and with the unique cutting site produced by Bam I. The combined map thus obtained has resolved HeLa cell mtDNA into 27 recognizable segments in the molecular size range between 75 and 1950 base pairs. This physical map has been aligned with the known positions of the rRNA and 4 S RNA genes on the two mtDNA strands by RNA-DNA hybridization experiments utilizing purified 32P-labeled 12 and 16 S rRNA.
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