Analysis of Hairpin Ribozyme Base Mutations in Loops 2 and 4 and Their Effects on cis-Cleavage in Vitro

Abstract

In order to determine base requirements in loops 2 and 4 of the hairpin ribozyme, a comprehensive mutational analysis of the wild type sequence was done. Each base position in these two loops was mutated to contain each of the three non-wild type bases, and the effects of these mutations were analyzed using cis-cleavage assays. The method of data analysis allowed for the determination of self−cleavage rates as well as the fraction of transcripts produced which were uncleavable. Three positions in loop 2 (A₂₂, A₂₃, and C₂₅) and one position in loop 4 (A₃₈) resulted in no detectable self-cleavage when mutated to any of the non-wild type bases. The remainder of the base positions showed varying degrees of tolerance to base mutations with respect to their support of cis-cleavage. Evidence was obtained for the presence of a non-Watson−Crick base pair between A₂₆ and G₃₆ in the catalytic conformation of the hairpin ribozyme. On the basis of these results, a two-dimensional model for the hairpin ribozyme is presented.