Two mutations in a mitochondrial structural gene, which cause leaky premature polypeptide chain termination and leaky growth, are +1 and -1 frameshifts in the same run of five T residues. The partial restoration of reading frame is probably due to ribosomal frameshifting at this site, and may be promoted by the unique structure of the yeast mitochondrial t RNAPhe.
We have identified a spontaneous mitochondrial mutation, mfs‐1 (mitochondrial frameshift suppressor‐1), which suppresses a + 1 frameshift mutation localized in the yeast mitochondrial oxi1 gene. The suppressor strain exhibits a single base change (C to U) at position 42 of the mitochondrial serine‐tRNA (UCN). To our knowledge, this is the first reported case showing that a mutation in the anticodon stem of a tRNA can cause frameshift suppression. The expression and aminoacylation of the mutant tRNASer(UCN) are not significantly affected. However, the base change at position 42 has two effects: first, residue U27 of the mutant tRNA is not modified to pseudouridine as observed in wild‐type tRNASer(UCN). Second, the base change and/or the lack of modification of U27 leads to an alteration in the secondary/tertiary structure of the mutant tRNA. It is possible that there are such structural changes in the anticodon loop that enable the tRNA to read a four base codon, UCCA, thus restoring the wild‐type reading frame.
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