A Nolte scite author profile

A 58-mer L-RNA ligand that binds to naturally occurring D-adenosine with a dissociation constant of 1.7 microM in solution was identified from a combinatorial library employing mirror-design. The corresponding D-RNA ligand shows identical binding affinity to L-adenosine. Reciprocal chiral specificity was also evident from ligand discrimination; the binding affinity of the L-RNA ligand for D-adenosine was 9000-fold greater than its affinity for L-adenosine and vice versa. While the D-RNA ligand was rapidly degraded in human serum, the L-RNA ligand displayed an extraordinary stability. This indicates the potential application of specifically designed L-RNA ligands as stable monoclonal antibody analogues and the development of highly stable L-ribozymes.

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Mirror-design of L-oligonucleotide ligands binding to L-arginine

Nolte

et al. 1996

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The high affinity and selectivity of nucleic acid ligands have clearly demonstrated that RNA can be targeted to a variety of molecules. In practice, however, the use of unmodified aptamers is impeded by the low stability of RNA in biological fluids. Here we describe the mirror-design of a stable 38-mer L-oligoribonucleotide ligand that binds to L-arginine. This L-RNA ligand was also able to bind to a short peptide containing the basic region of the human immunodeficiency virus type-1 Tat-protein. The L-RNA ligand displayed the expected stability in human serum. These findings may contribute to the identification of novel diagnostics and pharmaceuticals.

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Influence of substrate structure on in vitro ribozyme activity of a group II intron

Nolte

Chanfreau

Jacquier

1998

RNA

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Substrate sequences surrounding catalytic RNAs but not involved in specific, conserved interactions can severely interfere with in vitro ribozyme activity. Using model group II intron precursor transcripts with truncated or randomized exon sequences, we show that unspecific sequences within the 59 exon are particularly prone to inhibit both the forward and the reverse first splicing step (branching). Using in vitro selection, we selected efficient 59 exons for the reverse branching reaction. Precursor RNAs carrying these selected 59 exons reacted more homogeneously and faster than usual model precursor transcripts. This suggests that unfavorable structures induced by the 59 exon can introduce a folding step that limits the rate of in vitro self-splicing. These results stress how critical is the choice of the sequences retained or discarded when isolating folding domains from their natural sequence environments. Moreover, they suggest that exon sequences not involved in specific interactions are more evolutionarily constrained with respect to splicing than previously envisioned.

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Crystal structure of domain E of Thermus flavus 5S rRNA: a helical RNA structure including a hairpin loop

et al. 1998

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The synthetic RNA fragment 5P-CUGGGCGG(GC-GA)CCGCCUGG (nucleotides in parentheses indicate the loop region) corresponds to the natural sequence of domain E from nucleotides 79^97 of the Thermus flavus 5S rRNA including a hairpin loop. The RNA structure determined at 3.0 A î and refined to an R-value of 24.1% also represents the first X-ray structure GNRA tetraloop. The loop is in distinctly different conformation from other GNRA tetraloops analyzed by NMR. The conformation of the two molecules in the asymmetric unit is influenced and stabilized by specific intermolecular contacts. The structural features presented here give evidence for the ability of RNA molecules to adapt to specific environments.z 1998 Federation of European Biochemical Societies.

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Crystallization and preliminary diffraction studies of the structural domain E of Thermus flavus 2S rRNA

et al. 1995

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A Nolte

Mirror-image RNA that binds D-adenosine

Mirror-design of L-oligonucleotide ligands binding to L-arginine

Influence of substrate structure on in vitro ribozyme activity of a group II intron

Crystal structure of domain E of Thermus flavus 5S rRNA: a helical RNA structure including a hairpin loop

Crystallization and preliminary diffraction studies of the structural domain E of Thermus flavus 2S rRNA

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