Reference: Guedes-Monteiro RF, et al. (2019) 5' processing of Saccharomyces cerevisiae mitochondrial tRNAs requires expression of multiple genes. Biochim Biophys Acta Mol Cell Res 1866(5):806-818

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Abstract


Mitochondrial tRNAs are processed at their 5'ends by highly divergent but ubiquitous RNase P. In Saccharomyces cerevisiae, RPM2p is the protein component of RNase P. Here, we identify four novel genes MTA1, MTA2, GEP5 and PET130 of the Saccharomycetaceae family that are necessary for an efficient processing of mitochondrial tRNAs. Null mutants of mta1, mta2 and GEP5 have severely reduced levels of mitochondrial tRNAs; in addition, temperature sensitive (ts) mutants of mta1, mta2, PET130 and GEP5 accumulated tRNAs precursor transcripts at the restrictive but not at the permissive temperature. The same mitochondrial tRNAs precursors were also identified in RPM2 ts mutants or in the double ts mutants mta1 RPM2 and mta2 RPM2. The genetic and physical association of these four novel genes corroborate the hypothesis that they have their function associated. Different combinations of mta1, mta2, PET130 and GEP5 ts alleles display a synthetic respiratory deficient phenotype, an indication of genetic interactions of the genes. Indeed, Mta1p, Mta2p, Pet130p, and Gep5p are associated with the mitochondrial inner membrane and are all extracted and sediment in sucrose gradients as high molecular weight complexes, where they may be present in a common complex with RPM2p. This is supported by pull-down assays showing co-immunopurification of RPM2 with Mta1p.

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Journal Article | Research Support, N.I.H., Extramural | Research Support, Non-U.S. Gov't
Authors
Guedes-Monteiro RF, Franco LVR, Moda BS, Tzagoloff A, Barros MH
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