ELECTRON-MICROSCOPE HETERODUPLEX STUDY OF DROSOPHILA MITOCHONDRIAL DNAS - EVOLUTION OF A+T-RICH REGION

Mitochondrial DNAs (mtDNA) from three species of the genus Drosophila (D. melanogaster, D. simulons, and D. virilis) were compared by electron microscope heteroduplex mapping. Analysis of heteroduplex molecules revealed that the A + T-rich region of these mtDNAs has undergone quite extensive base sequence divergence, whereas the remainder of the molecule was found to share apparently complete base sequence homology in all three species. The differences in the sizes of the A + T-rich regions, as determined from the heteroduplex measurements, completely account for the differences in the total sizes of these mtDNAs. A segment of approximately 0.1 kb is conserved within the A + T-rich regions of D. simulans and D. virilis mtDNAs, but not within the A + T-rich region of D. melanogaster mtDNA. HaeIII restriction endonuclease analysis of the heteroduplex molecules has further shown that the unique HaeIII site of D. virilis mtDNA molecule is apparently conserved in both D. melanogaster and D. simulans mtDNA molecules. Finally, electrophoretic patterns of HaeIII-digested mtDNAs from all three species were found to be different and distinguishable from each other suggesting that single base substitutions have probably taken place throughout the entire mitochondrial genome. © 1979.