A novel snoRNA (U73) is encoded within the introns of the human and mouse ribosomal protein S3a genes.

Abstract

The mouse ribosomal protein S3a-encoding gene (mRPS3a) was cloned and sequenced in this study. mRPS3a shares identical exon/intron structure with its human counterpart. Both genes are split to six exons and exhibit remarkable conservation of the promoter region (68.8% identity in the 250 bp upstream of cap site) and coding region (the proteins differ in two amino acids). mRPS3a displays many features common to other r-protein genes, including the CpG-island at 5'-end of the gene, cap site within an oligopyrimidine tract and no consensus TATA or CAAT boxes. However, mRPS3a represents a rare subclass of r-protein genes that possess a long coding sequence in the first exon. Comparison of human and mouse S3a genes revealed sequence fragments with striking similarity within introns 3 and 4. Here we demonstrate that these sequences encode for a novel small nucleolar RNA (snoRNA) designated U73. U73 contains C, D and D' boxes and a 12-nucleotide antisense complementarity to the 28S ribosomal RNA. These features place U73 into the family of intron-encoded antisense snoRNAs that guide site-specific 2'-O-ribose methylation of pre-rRNA. We propose that U73 is involved in methylation of the G1739 residue of the human 28S rRNA. In addition, we present the mapping of human ribosomal protein S3a gene (hRPS3a) and internally nested U73 gene to the human chromosome 4q31.2-3.