Differential chemical probing of a group II self-splicing intron identifies bases involved in tertiary interactions and supports an alternative secondary structure model of domain V

Dimethyl sulfate modification was used to probe for tertiary structural elements in the group II intron PI.LSU/2 from the mitochondrial pre-ribosomal RNA of the brown alga Pylaiella littoralis. Modification of the lariat form of the intron under conditions that allow both native folding and conformational homogeneity is found to be generally consistent with secondary and tertiary structural features identified previously for group II ribozymes. A comparison of chemical probing at temperatures just below and above the first melting transition illustrates the cooperative unfolding of tertiary structure and identifies novel candidates for tertiary interactions in addition to defining elements of Secondary structure. Substitution of the GAAA terminal loop of domain V is shown to be compatible with retention of conformational homogeneity (despite the loss of an important tertiary interaction), but produces a concise methylation footprint in domain I at the site previously shown to harbor the receptor for that loop. The analysis also identified two nucleotide positions in domain V with novel secondary and potential tertiary structural roles. The proposed refinement of domain V secondary structure is supported by an expended comparative analysis of group II sequences and bears increased resemblance to U2:U6 snRNA pairing in the spliceosome.