A Novel Brain-specific Box C/D Small Nucleolar RNA Processed from Tandemly Repeated Introns of a Noncoding RNA Gene in Rats

Antisense box C/D small nucleolar RNAs (snoRNAs) guide the 2′-O-ribose methylations of eukaryotic rRNAs and small nuclear RNAs (snRNAs) through formation of a specific base pairing at each RNA methylation site. By analysis of a box C/D snoRNA cDNA library constructed from rat brain RNAs, we have ide...

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Bibliographic Details
Published in:The Journal of biological chemistry 2001-07, Vol.276 (28), p.26374-26383
Main Authors: Cavaillé, Jérôme, Vitali, Patrice, Basyuk, Eugenia, Hüttenhofer, Alexander, Bachellerie, Jean-Pierre
Format: Article
Language:English
Subjects:
Animals
Base Sequence
Brain
Cloning, Molecular
Introns
Molecular Sequence Data
Organ Specificity
Rats
RNA Processing, Post-Transcriptional
RNA, Small Nuclear - biosynthesis
RNA, Small Nuclear - genetics
RNA, Untranslated - genetics
snoRNA
Tandem Repeat Sequences - genetics
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Summary:Antisense box C/D small nucleolar RNAs (snoRNAs) guide the 2′-O-ribose methylations of eukaryotic rRNAs and small nuclear RNAs (snRNAs) through formation of a specific base pairing at each RNA methylation site. By analysis of a box C/D snoRNA cDNA library constructed from rat brain RNAs, we have identified a novel box C/D snoRNA, RBII-36, which is devoid of complementarity to rRNA or an snRNA and exhibits a brain-specific expression pattern. It is uniformly expressed in all major areas of adult rat brain (except for choroid plexus) and throughout rat brain ontogeny but exclusively detected in neurons in which it exhibits a nucleolar localization. In vertebrates, known methylation guide snoRNAs are intron-encoded and processed from transcripts of housekeeping genes. In contrast, RBII-36 snoRNA is intron-encoded in a gene preferentially expressed in the rat central nervous system and not in proliferating cells. Remarkably, this host gene, which encodes a previously reported noncoding RNA, Bsr, spans tandemly repeated 0.9-kilobase units including the snoRNA-containing intron. The novel brain-specific snoRNA appears to result not only from processing of the debranched lariat but also from endonucleolytic cleavages of unspliced Bsr RNA (i.e. an alternative splicing-independent pathway unreported so far for mammalian intronic snoRNAs). Sequences homologous to RBII-36 snoRNA were exclusively detected in the Rattus genus of rodents, suggesting a very recent origin of this brain-specific snoRNA.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M103544200