We previously reported that the third intron of the X.laevis L1 ribosomal protein gene encodes for a snoRNA called U16. Here we show that four different introns of the same gene contain another previously uncharacterized snoRNA (U18) which is associated with fibrillarin in the nucleolus and which originates by processing of the pre-mRNA. The pathway of U18 RNA release from the pre-mRNA is the same as the one described for U16: primary endonucleolytic cleavages upstream and downstream of the U18 coding region produce a pre-U18 RNA which is subsequently trimmed to the mature form. Both the gene organization and processing of U18 are conserved in the corresponding genes of X.tropicalis and H.sapiens. The L1 gene thus has a composite structure, highly conserved in evolution, in which sequences coding for a ribosomal protein are intermingled with sequences coding for two different snoRNAs. The nucleolar localization of these different components suggests some common function on ribosome biosynthesis.

Prislei, S., Michienzi, A., Presutti, C., Fragapane, P., Bozzoni, I. (1993). Two different snoRNAs are encoded in introns of amphibian and human L1 ribosomal protein genes. NUCLEIC ACIDS RESEARCH, 21(25), 5824-5830.

Two different snoRNAs are encoded in introns of amphibian and human L1 ribosomal protein genes

MICHIENZI, ALESSANDRO;
1993-12-25

Abstract

We previously reported that the third intron of the X.laevis L1 ribosomal protein gene encodes for a snoRNA called U16. Here we show that four different introns of the same gene contain another previously uncharacterized snoRNA (U18) which is associated with fibrillarin in the nucleolus and which originates by processing of the pre-mRNA. The pathway of U18 RNA release from the pre-mRNA is the same as the one described for U16: primary endonucleolytic cleavages upstream and downstream of the U18 coding region produce a pre-U18 RNA which is subsequently trimmed to the mature form. Both the gene organization and processing of U18 are conserved in the corresponding genes of X.tropicalis and H.sapiens. The L1 gene thus has a composite structure, highly conserved in evolution, in which sequences coding for a ribosomal protein are intermingled with sequences coding for two different snoRNAs. The nucleolar localization of these different components suggests some common function on ribosome biosynthesis.
25-dic-1993
Pubblicato
Rilevanza internazionale
Articolo
Sì, ma tipo non specificato
Settore BIO/13 - BIOLOGIA APPLICATA
English
Con Impact Factor ISI
ribosomal proteins; phylogeny; rna; dna; conserved sequence; cloning, molecular; base sequence; animals; oocytes; microinjections; introns; humans; blotting, northern; xenopus; ribonucleoproteins, small nuclear; molecular sequence data; xenopus laevis
Prislei, S., Michienzi, A., Presutti, C., Fragapane, P., Bozzoni, I. (1993). Two different snoRNAs are encoded in introns of amphibian and human L1 ribosomal protein genes. NUCLEIC ACIDS RESEARCH, 21(25), 5824-5830.
Prislei, S; Michienzi, A; Presutti, C; Fragapane, P; Bozzoni, I
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/9525
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