Inhibition of protein synthesis by an efficiently expressed mutation in the yeast 5.8S ribosomal RNA

doi:10.1093/nar/22.4.686

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Nucleic Acids Research, 1994, Vol. 22, No. 4 686-693
© 1994

RNA

Inhibition of protein synthesis by an efficiently expressed mutation in the yeast 5.8S ribosomal RNA

Sherif Abou Elela, Liam Good, Yuri F. Melekhovets and Ross N. Nazar^*

Department of Molecular Biology and Genetics, University of Guelph Guelph, Ontario N1G 2W1, Canada

^*To whom correspondence should be addressed

Received July 7, 1993. Accepted January 3, 1994.

Recent studies on the inhibition of protein synthesis by specificanti 5.8S rRNA oligonucleotides strongly suggested that thisRNA plays an important role in eukaryotic ribosome function.To evaluate this possibility further, a ribosomal DNA transcriptionunit from Schizosaccharomyces pombe was cloned into yeast shuttlevectors with copy numbers ranging from 2 to approximately 90per cell; to allow direct detection of expressed RNA and todisrupt the function of the 5.8S rRNA molecule, a five baseinsertion was made in a universally conserved GAAC sequence.The altered mobility of the mutant RNA was readily detectedby gel electrophoresls and analyses indicated that mutant RNAtranscription reflected the ratio of plasmid to endogenous rDNA.The highest copy number plasmid resulted in about 40 –50% mutant RNA. This mutant RNA was readily integrated intothe ribosome structure resulting in an in vivo ribosome populationwhich was also about 40 – 50% mutant; the rates of growthand protein synthesis were equally reduced by approximately40%. A comparable level of inhibition in protein synthesis wasdemonstrated in vitro and polyribosomal profiles revealed aconsistent increase in size. Subsequent RNA analyses indicateda normal distribution of mutant RNA in both monoribosomes andpolyribosomes, but elevated tRNA levels in mutant polyribosomes.Additional mutations in alternate GAAC sequences revealed similarbut cumulative effects on both protein synthesis and polyribosomeprofiles. Taken together, these results suggest little or noeffect on initiation but provide in vivo evidence of a functionalrole for the 5.8S rRNA in protein elongation.

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