Gaspin, C.; Canal, I.; Capeyrou, R.; Da Cunha, V.; Bourgeois, G.; Madru, C.; Schmitt, E.; Clouet d'Orval, B.; Kwapisz, M.; BOUVIER, M.

In Archaea, a prevalent class of circular RNAs corresponds to 16S and 23S ribosomal RNA intermediates (circ-pre-rRNAs). A conserved bulge-helix-bulge (BHB) motif within the 16S and 23S rRNAs processing stems and adjacent to the circularization site in Euryarchaeota and TACK superphylum suggests that pre-rRNAs circularization is widely conserved across Archaea. Using genome-wide transcriptomic data obtained on total RNAs of wild-type Thermococcus barophilus cells, we recovered the canonical circularization junctions of the 16S and 23S circ-pre-rRNAs at the predicted BHB motifs. We also identified three alternatives 23S circular junctions introducing variability at the 3 end of the mature rRNA. We investigated the different forms of 16S and 23S by performing primer extension and RACE experiments. We showed that while the 16S rRNA has standard 5 and 3 extremities, the main form of 23S rRNA is circularly permuted, with helix H99 now at its 5 end. This permutation most probably emerged from the deletion of helix H98 from the 23S circ-pre-rRNA. Interestingly, we showed that the permuted 23S rRNA is incorporated into ribosome subunits and 70S monosomes. The significance of this event in generating functional 50S particles remains to be determined.