Replacement of the Conserved G.cntdot.U with a G-C Pair at the Cleavage Site of the Tetrahymena Ribozyme Decreases Binding, Reactivity, and Fidelity

Abstract

There is a phylogenetically conserved G.U pair at the 5'-splice site of group I introns. When this is mutagenized to a G-C pair, splicing of these introns is greatly reduced. We have used a ribozyme derived from the Tetrahymena group I intron to compare the binding and reactivity of oligonucleotides that form either a G.U or a G-C pair at this position. Ribozyme binding of oligonucleotides at 42 degrees C was measured by native gel electrophoresis and equilibrium dialysis. Binding of GGCCCUCC (C(-1)P), which base-pairs with the ribozyme guide sequence to form a G-C at the cleavage site, was 10-fold weaker than the binding of GGCCCUCU (U(-1)P), which maintains the conserved G.U pair at the cleavage site. This is surprising since a terminal G-C enhances the binding between oligonucleotides by 20-fold relative to a terminal G.U. Thermal denaturation studies indicate that C(-1)P and several analogs with deoxy substitutions bind the guide-sequence oligonucleotide, GGAGGGAAA, as strongly as they bind the ribozyme. In contrast, U(-1)P binds 240-fold more strongly to the ribozyme than to GGAGGGAAA, a difference that is decreased by deoxy substitutions. Thus, while U(-1)P binds the ribozyme through a combination of base-pairing and specific 2-OH and other tertiary interactions, C(-1)P may bind by base-pairing alone. The substrate GGCCCUCCAAAAA (C(-1)S) is cleaved 100-fold more slowly than GGCCCUCUAAAAA (U(-1)S) and also has a higher propensity to be cleaved at the wrong nucleotide position.(ABSTRACT TRUNCATED AT 250 WORDS)