Transfer RNA genes in the mitochondrial DNA of cytoplasmic petite mutants of Saccharomyces cerevisiae

Abstract

Hybridization saturation analyses of mitochondrial DNA from 11 petite clones genetically characterized with respect to chloramphenicol and erythromycin resistance markers, have been carried out with 11 individual mitochrondrial transfer RNAs. Mitochondrial tRNA cistrons were lost, retained, or amplified in different petite strains. In some cases hybridization levels corrected for kinetic complexity of the mtDNA ‡ ‡ Abbreviations used:mtDNA, mitochondrial DNA; O, oligomycin; C, chloramphenicol; E, erythromycin. were two- to threefold greater than that for grande mtDNA indicating selective amplification, or increased number of copies, of the segment of mtDNA containing that tRNA cistron. Hybridization levels corrected for reduced kinetic complexity of petite mtDNAs in many cases were only 1 to 10% of that for grande mtDNA suggesting a low level of intracellular molecular heterogeneity of mtDNA with respect to tRNA cistrons. Some petite clones that retained tRNA genes continued to transcribe mitochondrial tRNAs, since tRNA isolated from these strains could be aminoacylated with Escherichia, coli synthetases and hybridized with mtDNA. Hybridization data allow us to order several of the tRNA cistrons on the mitochondrial genome with respect to the chloramphenicol and erythromycin antibiotic resistance markers.