Saccharomyces cerevisiae contains an RNase MRP that cleaves at a conserved mitochondrial RNA sequence implicated in replication priming.

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Mol Cell Biol. 1992 June; 12(6): 2561-2569

Saccharomyces cerevisiae contains an RNase MRP that cleaves at a conserved mitochondrial RNA sequence implicated in replication priming.

L L Stohl and D A Clayton

Department of Developmental Biology, Stanford University School of Medicine, California 94305-5427.

ABSTRACT

Yeast mitochondrial DNA contains multiple promoters that sponsordifferent levels of transcription. Several promoters are individuallylocated immediately adjacent to presumed origins of replicationand have been suggested to play a role in priming of DNA replication.Although yeast mitochondrial DNA replication origins have notbeen extensively characterized at the primary sequence level,a common feature of these putative origins is the occurrenceof a short guanosine-rich region in the priming strand downstreamof the transcriptional start site. This situation is reminiscentof vertebrate mitochondrial DNA origins and raises the possibilityof common features of origin function. In the case of humanand mouse cells, there exists an RNA processing activity withthe capacity to cleave at a guanosine-rich mitochondrial RNAsequence at an origin; we therefore sought the existence ofa yeast endoribonuclease that had such a specificity. Wholecell and mitochondrial extracts of Saccharomyces cerevisiaecontain an RNase that cleaves yeast mitochondrial RNA in a site-specificmanner similar to that of the human and mouse RNA processingactivity RNase MRP. The exact location of cleavage within yeastmitochondrial RNA corresponds to a mapped site of transitionfrom RNA to DNA synthesis. The yeast activity also cleaved mammalianmitochondrial RNA in a fashion similar to that of the mammalianRNase MRPs. The yeast endonuclease is a ribonucleoprotein, asjudged by its sensitivity to nucleases and proteinase, and itwas present in yeast strains lacking mitochondrial DNA, whichdemonstrated that all components required for in vitro cleavageare encoded by nuclear genes. We conclude that this RNase isthe yeast RNase MRP.

Mol Cell Biol. 1992 June; 12(6): 2561-2569

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