The influence of junction conformation on RNA cleavage by the hairpin ribozyme in its natural junction form

JAMES B. THOMSON; DAVID M.J. LILLEY

doi:10.1017/S1355838299981670

Abstract

In the natural form of the hairpin ribozyme the two loop-carrying duplexes that comprise the majority of essential bases for activity form two adjacent helical arms of a four-way RNA junction. In the present work we have manipulated the sequence around the junction in a way known to perturb the global folding properties. We find that replacement of the junction by a different sequence that has the same conformational properties as the natural sequence gives closely similar reaction rate and Arrhenius activation energy for the substrate cleavage reaction. By comparison, rotation of the natural sequence in order to alter the three-dimensional folding of the ribozyme leads to a tenfold reduction in the kinetics of cleavage. Replacement with the U1 four-way junction that is resistant to rotation into the antiparallel structure required to allow interaction between the loops also gives a tenfold reduction in cleavage rate. The results indicate that the conformation of the junction has a major influence on the catalytic activity of the ribozyme. The results are all consistent with a role for the junction in the provision of a framework by which the loops are presented for interaction in order to create the active form of the ribozyme.

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The influence of junction conformation on RNA cleavage by the hairpin ribozyme in its natural junction form

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The influence of junction conformation on RNA cleavage by the hairpin ribozyme in its natural junction form

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