Physical and genetic organization of Petite and Grande yeast mitochondrial DNA. II. DNA-DNA hybridization studies and buoyant density determinations

Buoyant density of mitochondrial DNA from 14 cytoplasmic petite mutants issued from the same grande yeast Saccharomyces cerevisiae was determined. Mutants that have retained the mitochondrial gene conferring resistance to erythromycin displayed higher buoyant density, while mutants that have retained the mitochondrial gene conferring resistance to chloramphenicol displayed lower buoyant density. It is inferred that the segment which carries the E^R gene has a higher G + C content than the segment which carries the C^R gene. DNA-DNA filter hybridizations were carried out systematically in different reciprocal pair-wise combinations between mtDNAs purified from various mutants and from the grande. All petites were found to be deleted in 42 to 93% of the grande sequence, depending on the mutant studied. Sequence homology between petite mtDNAs was greatest in mutants retaining common genetic markers and was least when different genetic markers were retained. Practically no hybridization was found between some C^RE^O and C^OE^R mutants. Correlations established between the extent of DNA-DNA hybridization, kinetic and genetic complexity show that a selective enrichment of gene specific sequences occurs in mtDNA of petites.