Fiche publication


Date publication

mai 2008

Auteurs

Membres identifiés du Cancéropôle Est :
Pr BOSCHI-MULLER Sandrine , Dr BRANLANT Christiane , Pr CHARPENTIER Bruno


Tous les auteurs :
Muller S, Leclerc F, Behm-Ansmant I, Fourmann JB, Charpentier B, Branlant C

Résumé

How far do H/ACA sRNPs contribute to rRNA pseudouridylation in Archaea was still an open question. Hence here, by computational search in three Pyrococcus genomes, we identified seven H/ACA sRNAs and predicted their target sites in rRNAs. In parallel, we experimentally identified 17 Psi residues in P. abyssi rRNAs. By in vitro reconstitution of H/ACA sRNPs, we assigned 15 out of the 17 Psi residues to the 7 identified H/ACA sRNAs: one H/ACA motif can guide up to three distinct pseudouridylations. Interestingly, by using a 23S rRNA fragment as the substrate, one of the two remaining Psi residues could be formed in vitro by the aCBF5/aNOP10/aGAR1 complex without guide sRNA. Our results shed light on structural constraints in archaeal H/ACA sRNPs: the length of helix H2 is of 5 or 6 bps, the distance between the ANA motif and the targeted U residue is of 14 or 15 nts, and the stability of the interaction formed by the substrate rRNA and the 3'-guide sequence is more important than that formed with the 5'-guide sequence. Surprisingly, we showed that a sRNA-rRNA interaction with the targeted uridine in a single-stranded 5'-UNN-3' trinucleotide instead of the canonical 5'-UN-3' dinucleotide is functional.

Référence

Nucleic Acids Res. 2008 May;36(8):2459-75