A conserved 3′ extension in unusual group II introns is important for efficient second-step splicing

Abstract

The B.c.I4 group II intron from Bacillus cereus ATCC 10987 harbors an unusual 3′ extension. Here, we report the discovery of four additional group II introns with a similar 3′ extension in Bacillus thuringiensis kurstaki 4D1 that splice at analogous positions 53/56 nt downstream of domain VI in vivo. Phylogenetic analyses revealed that the introns are only 47-61% identical to each other. Strikingly, they do not form a single evolutionary lineage even though they belong to the same Bacterial B class. The extension of these introns is predicted to form a conserved two-stem-loop structure. Mutational analysis in vitro showed that the smaller stem S1 is not critical for self-splicing, whereas the larger stem S2 is important for efficient exon ligation and lariat release in presence of the extension. This study clearly demonstrates that previously reported B.c.I4 is not a single example of a specialized intron, but forms a new functional class with an unusual mode that ensures proper positioning of the 3′ splice site.