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Biochemistry. 1996 Jan 16;35(2):648-58.

A mechanistic framework for the second step of splicing catalyzed by the Tetrahymena ribozyme.

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  • 1Department of Chemistry, University of Rochester, New York 14627-0216, USA.

Abstract

A simple model system is described which mimics the second step of splicing and reverse cyclization reactions of the self-splicing intron from Tetrahymena thermophila. This model is based on the L-21 Sca I catalyzed ligation reaction between exogenously added oligomers: cucu + UCGa L-21 Sca I cucua + UCG. Steady-state kinetics for the forward and reverse direction were measured at 15 degrees C to find oligonucleotides that exhibit Michaelis-Menten behavior with acceptable KMS. CUCU and UCGA fit both criteria and were chosen for further studies. Steady-state kinetics reveal a lag that appears to be an RNA folding step that is eliminated by preincubation of the ribozyme with 2 mM and higher [Mg2+] and by UCGA. At constant ionic strength, the Mg2+ dependence of steady-state rates exhibits a sharp maximum near 5 mM Mg2+. Pre-steady-state and steady-state kinetics, along with active-site titrations, explain the Mg2+ profile: the rate of reaction up to and including chemistry increases with Mg2+ concentration, while the fraction of active ribozyme and the rate of postchemistry steps decrease with Mg2+ concentration. The rate-limiting step at 5 mM Mg2+ for the reaction mimicking the second step of splicing is either chemistry or a conformational change before chemistry involving ribozyme bound with substrates. The rate-limiting step at 50 mM Mg2+ appears to be a postchemistry conformational change of the ribozyme or product release. At 50 mM Mg2+, single-turnover experiments support ordered binding of substrates with 5'-exon mimic binding before 3'-splice site mimic. Moreover, the 3'-splice site mimic binds and reacts in the presence of 5'-exon mimics predocked into the catalytic core. Results also indicate that Mg2+ ions associate with the ribozyme upon docking.

PMID:
8555239
[PubMed - indexed for MEDLINE]
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