Dirk Bebenroth scite author profile

Dirk Bebenroth

4Publications

113Citation Statements Received

86Citation Statements Given

How they've been cited

107

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Affiliations

Heidelberg University, Freie Universität Berlin

Publications

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Architecture of a Diels-Alderase Ribozyme with a Preformed Catalytic Pocket

Keiper

Bebenroth

Seelig

et al. 2004

Chemistry & Biology

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Artificial ribozymes catalyze a variety of chemical reactions. Their structures and reaction mechanisms are largely unknown. We have analyzed a ribozyme catalyzing Diels-Alder cycloaddition reactions by comprehensive mutation analysis and a variety of probing techniques. New tertiary interactions involving base pairs between nucleotides of the 5' terminus and a large internal loop forming a pseudoknot fold were identified. The probing data indicate a preformed tertiary structure that shows no major changes on substrate or product binding. Based on these observations, a molecular architecture featuring a Y-shaped arrangement is proposed. The tertiary structure is formed in a rather unusual way; that is, the opposite sides of the asymmetric internal loop are clamped by the four 5'-terminal nucleotides, forming two adjacent two base-pair helices. It is proposed that the catalytic pocket is formed by a wedge within one of these helices.

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Three critical hydrogen bonds determine the catalytic activity of the Diels–Alderase ribozyme

Kraut¹,

Bebenroth²,

Nierth³

et al. 2011

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Compared to protein enzymes, our knowledge about how RNA accelerates chemical reactions is rather limited. The crystal structures of a ribozyme that catalyzes Diels–Alder reactions suggest a rich tertiary architecture responsible for catalysis. In this study, we systematically probe the relevance of crystallographically observed ground-state interactions for catalytic function using atomic mutagenesis in combination with various analytical techniques. The largest energetic contribution apparently arises from the precise shape complementarity between transition state and catalytic pocket: A single point mutant that folds correctly into the tertiary structure but lacks one H-bond that normally stabilizes the pocket is completely inactive. In the rate-limiting chemical step, the dienophile is furthermore activated by two weak H-bonds that contribute ∼7–8 kJ/mol to transition state stabilization, as indicated by the 25-fold slower reaction rates of deletion mutants. These H-bonds are also responsible for the tight binding of the Diels–Alder product by the ribozyme that causes product inhibition. For high catalytic activity, the ribozyme requires a fine-tuned balance between rigidity and flexibility that is determined by the combined action of one inter-strand H-bond and one magnesium ion. A sharp 360° turn reminiscent of the T-loop motif observed in tRNA is found to be important for catalytic function.

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Ribozyme-catalysed carbon-carbon bond formation

Jäschke

Stuhlmann

Bebenroth

et al. 2002

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Numerous RNA molecules with new catalytic properties have been isolated from synthetic combinatorial libraries. A broad range of chemical reactions is catalysed, and nucleic acids can accelerate bond formation between small organic substrates. This review focuses on carbon-carbon bond formation accelerated by in vitro selected ribozymes. Mechanistic investigations and structure-function relationships are discussed.

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RNA As a Catalyst: The Diels–Alderase Ribozyme

Keiper

Bebenroth

Stuhlmann³

et al. 2004

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Dirk Bebenroth

Architecture of a Diels-Alderase Ribozyme with a Preformed Catalytic Pocket

Three critical hydrogen bonds determine the catalytic activity of the Diels–Alderase ribozyme

Ribozyme-catalysed carbon-carbon bond formation

RNA As a Catalyst: The Diels–Alderase Ribozyme

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