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Mitochondrial import of a cytoplasmic lysine-tRNA in yeast is mediated by cooperation of cytoplasmic and mitochondrial lysyl-tRNA synthetases

Abstract

Cytoplasmic tRNA(Lys)CUU is the only nuclear-encoded tRNA of Saccharomyces cerevisiae found to be associated with mitochondria. Selective import of this tRNA into isolated organelles requires cytoplasmic factors. Here we identify two of these factors as the cytoplasmic and mitochondrial lysyl-tRNA synthetases. The cytoplasmic enzyme is obligatory for in vitro import of the deacylated, but not of the aminoacylated tRNA. We thus infer that it is needed for aminoacylation of the tRNA, which is a prerequisite for its import. The mitochondrial synthetase, which cannot aminoacylate tRN(Lys)CUU, is required for import of both aminoacylated and deacylated forms. Its depletion leads to a total arrest of tRNA import, in vitro and in vivo. The mitochondrial lysyl-tRNA synthetase is able to form specific and stable RNP complexes with the amino-acylated tRNA. Furthermore, an N-terminal truncated form of the synthetase which cannot be targeted into mitochondria is unable to direct the import of the tRNA. We therefore hypothesize that the cytosolic precursor form of the mitochondrial synthetase has a carrier function for translocation of the tRNA across the mitochondrial membranes. However, cooperation of the two synthetases is not sufficient to direct tRNA import, suggesting the need of additional factor(s).

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