Folding of the natural hammerhead ribozyme is enhanced by interaction of auxiliary elements

J. CARLOS PENEDO; TIMOTHY J. WILSON; SUMEDHA D. JAYASENA; ANASTASIA KHVOROVA; DAVID M.J. LILLEY

doi:10.1261/rna.5268404

Folding of the natural hammerhead ribozyme is enhanced by interaction of auxiliary elements

¹Cancer Research UK Nucleic Acid Structure Research Group, Department of Biochemistry, The University of Dundee, Dundee DD1 5EH, United Kingdom
²Amgen Inc., Thousand Oaks, California 91320, USA
³Dharmacon Research, Inc., Lafayett, Colorado 80026, USA

Abstract

It has been shown that the activity of the hammerhead ribozyme at μM magnesium ion concentrations is markedly increased by the inclusion of loops in helices I and II. We have studied the effect of such loops on the magnesium ion-induced folding of the ribozyme, using fluorescence resonance energy transfer. We find that with the loops in place, folding into the active conformation occurs in a single step, in the μM range of magnesium ion concentration. Disruption of the loop–loop interaction leads to a reversion to two-step folding, with the second stage requiring mM concentrations of magnesium ion. Sodium ions also promote the folding of the natural form of the ribozyme at high concentrations, but the folding occurs as a two-stage process. The loops clearly act as important auxiliary elements in the function of the ribozyme, permitting folding to occur efficiently under physiological conditions.

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