Characterization of a native hammerhead ribozyme derived from schistosomes

Abstract

A recent re-examination of the role of the helices surrounding the conserved core of the hammerhead ribozyme has identified putative loop–loop interactions between stems I and II in native hammerhead sequences. These extended hammerhead sequences are more active at low concentrations of divalent cations than are minimal hammerheads. The loop–loop interactions are proposed to stabilize a more active conformation of the conserved core. Here, a kinetic and thermodynamic characterization of an extended hammerhead sequence derived from Schistosoma mansoni is performed. Biphasic kinetics are observed, suggesting the presence of at least two conformers, one cleaving with a fast rate and the other with a slow rate. Replacing loop II with a poly(U) sequence designed to eliminate the interaction between the two loops results in greatly diminished activity, suggesting that the loop–loop interactions do aid in forming a more active conformation. Previous studies with minimal hammerheads have shown deleterious effects of R_p-phosphorothioate substitutions at the cleavage site and 5′ to A9, both of which could be rescued with Cd²⁺. Here, phosphorothioate modifications at the cleavage site and 5′ to A9 were made in the schistosome-derived sequence. In Mg²⁺, both phosphorothioate substitutions decreased the overall fraction cleaved without significantly affecting the observed rate of cleavage. The addition of Cd²⁺ rescued cleavage in both cases, suggesting that these are still putative metal binding sites in this native sequence.

Keywords

• RNA catalysis
• hammerhead
• ribozyme
• metal ions
• RNA ligation