Magnesium-dependent folding of self-splicing RNA: Exploring the link between cooperativity, thermodynamics, and kinetics

摘要

Folding of the Tetrahymena self-splicing RNA into its active conformation involves a set of discrete inter- mediate states. The Mg~2+-dependent equilibrium transition from the intermediates to the native structure is more coop- erative than the formation of the intermediates from the unfolded states. We show that the degree of cooperativity is linked to the free energy of each transition and that the rate of the slow transition from the intermediates to the native state decreases exponentially with increasing Mg~2+ concen- tration. Monovalent salts, which stabilize the folded RNA nonspecifically, induce states that fold in less than 30 s after Mg~2+ is added to the RNA. A simple model is proposed that predicts the folding kinetics from the Mg~2+-dependent change in the relative stabilities of the intermediate and native states.