Sequence analysis of mouse mitochondrial chloramphenicol-resistant mutants

Abstract

The nucleotide sequences of the 3' halves of the mitochondrial 16S rRNA genes from four independent mouse chloramphenicol-resistant (CAP-R) mutants were determined. Each contained a different, single base change that encodes the mutational phenotype. The mitochondrial rRNA gene from the SVA31 CAP-R mutant contains a G-to-A transition at nucleotide 2161 of the noncoding strand; the SVIS CAP-R mutant, a G-to-A transition at position 2375; the LA9 CAP-R mutant, an A-to-T transversion at position 2379; and the SVT2 CAP-R mutant, a T-to-C transition at position 2433. Three of these CAP-R mutants appear to be heteroplasmic as the mtDNA populations contain both wild-type and mutant copies of the rRNA gene. The SVIS CAP-R mutation has not been observed in other mammalian CAP-R mutants, although it occurs at a site homologous to one of the yeast mitochondrial CAP-R mutations. Based upon the locations of the mutated sites within the 16S rRNA, and their proximity to previously analyzed sites of mutations conferring increased inhibitor resistance, all these mutations occur within the ribosomal RNA peptidyltransferase domain. These results provide an explanation for the pleiotropic nature of mitochondrial CAP-R mutations in mammalian cells, particularly the observations that some of the mutant lines are partially respiration deficient.