Structural variation induced by different nucleotides at the cleavage site of the hammerhead ribozyme.

The hammerhead ribozyme is capable of cleaving RNA substrates at 5' UX 3' sequences (where the cleavage site, X, can be A, C, or U). Hammerhead complexes containing dC, dA, dI, or rG nucleotides at the cleavage site have been studied by NMR. The rG at the cleavage site forms a Watson-Crick base pair with C3 in the conserved core of the hammerhead, indicating that rG substrates inhibit the cleavage reaction by stabilizing an inactive conformation of the molecule. Isotope-edited NMR experiments on the hammerhead complexes show that there are different short proton-proton distances between neighboring residues depending upon whether there is a dC or dA at the cleavage site. These NMR data demonstrate that there are significant differences in the structure and/or dynamics of the active-site residues in these hammerhead complexes. Molecular dynamics calculations were used to model the conformations of the cleavage-site variants consistent with the NMR data. The solution conformations of the hammerhead ribozyme-substrate complexes are compared with the X-ray structure of the hammerhead ribozyme and are used to help understand the thermodynamic and kinetic differences among the cleavage-site variants.