Abstract
The homologous ribosomal RNA species of all organisms can be folded into a common "core" secondary structure. In addition, eukaryotic rRNAs contain a large number of segments, located at fixed positions, that are highly variable in size and sequence from one organism to another. We have investigated the role of the two largest of these variable regions in Saccharomyces cerevisiae 25S rRNA, V13, and V3, by mutational analysis in a yeast strain that can be rendered completely dependent on the synthesis of mutant (pre-)rRNA. We found that approximately half of variable region V13 can be deleted without any phenotypic effect. The remaining portion, however, contains multiple structural features whose disturbance causes serious growth defects or lethality. Accumulation of 25S rRNA is strongly reduced by these mutations, at least in part because they inhibit processing of ITS2. Removal of even a relatively small portion of V3 also strongly reduces the cellular growth rate and larger deletions are lethal. Interestingly, some of the deletions in V3 cause accumulation of 27S(A) pre-rRNA and, moreover, appear to interfere with the close coupling between the processing cleavages at sites A3 and B1(S). These results demonstrate that both variable regions play an important role in 60S subunit formation.
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