Functional Interactions Among Two Yeast Mitochondrial Ribosomal Proteins and an mRNA-Specific Translational Activator

INVESTIGATIONS

Functional Interactions Among Two Yeast Mitochondrial Ribosomal Proteins and an mRNA-Specific Translational Activator

P. Haffter, T. W. McMullin and T. D. Fox
Section of Genetics and Development, Cornell University, Ithaca, New York 14853-2703

Expression of the Saccharomyces cerevisiae mitochondrial gene coding cytochrome c oxidase subunit III is specifically activated at the level of translation by at least three nuclear genes, PET122, PET494 and PET54. We have shown previously that carboxy-terminal deletions of PET122 are allele-specifically suppressed by mutations in an unlinked nuclear gene, termed PET123, that encodes a small subunit ribosomal protein. Here we describe additional pet122 suppressors generated by mutations in a second gene which we show to be the previously identified nuclear gene MRP1. Like PET123, MRP1 encodes a component of the small subunit of mitochondrial ribosomes. Our mrp1 mutations are allele-specific suppressors of carboxy-terminal truncations of the PET122 protein and do not bypass the requirement for residual function of PET122. None of our mrp1 mutations has an intrinsic phenotype in an otherwise wild-type background. However, some of the mrp1 mutations cause a non-conditional respiratory-defective phenotype in combination with certain pet123 alleles. This synthetic defective phenotype suggests that the ribosomal proteins PET123 and MRP1 interact functionally with each other. The fact that they can both mutate to suppress certain alleles of the mRNA-specific translational activator PET122 strongly suggests that the PET122 protein promotes translation of the coxIII mRNA via an interaction with the small subunit of mitochondrial ribosomes

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