Suppression of a mitochondrial point mutation in a tRNA gene can cast light on the mechanisms of 3' end-processing.

Abstract

We used a genetic approach to study the nuclear factors involved in the biogenesis of mitochondrial tRNAs. A point mutation in the mitochondrial tRNA(Asp) gene of Saccharomyces cerevisiae had previously been shown to result in a temperature-sensitive respiratory-deficient phenotype as a result of the absence of 3' end-processing of the tRNA(Asp). Analysis of mitochondrial revertants has shown that all revertants sequenced have a G-A compensatory change at position 53, which restores the hydrogen-bond with the mutated nucleotide. We then searched for nuclear suppressors to identify the nuclear gene(s) involved in mitochondrial tRNA 3' end-processing. One such suppressor mutation was further characterized: it restores tRNA(Asp) maturation and growth at 36 degrees C on glycerol medium in heterozygous diploids, but leads to a defective growth phenotype in haploids.