Probing the Tetrahymena group I ribozyme reaction in both directions |
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Authors: | Karbstein Katrin Carroll Kate S Herschlag Daniel |
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Institution: | Department of Biochemistry, Stanford University, Beckman Center B400, Stanford, California 94305-5307, USA. herschla@cmgm.stanford.edu |
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Abstract: | The Tetrahymena L-21 ScaI ribozyme derived from the self-splicing group I intron catalyzes a reversible reaction analogous to the first step of self-splicing: CCCUCUA (S) + UC]G right harpoon over left harpoon CCCUCU (P) + UC]GA. To relate our understanding of the ribozyme to the self-splicing reaction and to further the mechanistic dissection of the ribozyme reaction, we have established a quantitative kinetic and thermodynamic framework for the forward and reverse reaction of the L-21 ScaI ribozyme under identical conditions. Examination of the framework shows that binding of products is cooperative with binding enhanced 5-fold, as was observed previously for binding of the substrates. Further, binding of UCGA is 12-fold weaker than binding of the unphosphorylated UCG, analogous to the 20-fold weaker binding of phosphorylated S relative to P; the molecular interactions underlying the stronger binding of UCG were traced to the 3'-hydroxyl group of UCG. The symmetrical effects on binding of substrates and products result in the equilibrium between ribozyme-bound species, K(int), that is essentially unperturbed from the solution equilibrium, K(ext) (K(int) = E.P.UCGA]/E.S.UCG] = 4.6 and K(ext) = P]UCGA]/S]UCG] = 1.9). Last, we show that the pK(a) values of the nucleophiles in the forward and reverse reactions are >/=10. This observation suggests that metal ion activation of the nucleophile and stabilization of the leaving group can only account for a portion of the rate enhancement of this ribozyme. These and prior results suggest that the Tetrahymena group I ribozyme, analogous to protein enzymes, uses multiple catalytic strategies to achieve its large rate enhancement. |
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