L. Lundberg scite author profile

Incorporation of two alpha-L-LNA/LNA nucleotides into each of the two binding arms of a "10-23" DNAzyme has been accomplished and the RNA cleavage with these novel LNAzymes studied. In comparison with the unmodified DNAzyme, the LNAzymes show significantly improved cleavage of the phosphodiester backbone at the target nucleotide in a small RNA substrate (58n RNA) under single-turnover conditions. The LNAzymes show efficient multiple turnover. With the LNAzymes, efficient cleavage was accomplished also of a naturally occurring ribosomal RNA at a target site within a highly structured region. The reference DNAzyme was ineffective at cleaving the ribosomal RNA target.

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Vester

Hansen

Lundberg

et al. 2006

BMC Mol Biol

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Background: DNAzymes cleave at predetermined sequences within RNA. A prerequisite for cleavage is that the DNAzyme can gain access to its target, and thus the DNAzyme must be capable of unfolding higher-order structures that are present in the RNA substrate. However, in many cases the RNA target sequence is hidden in a region that is too tightly structured to be accessed under physiological conditions by DNAzymes.

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Improved RNA cleavage by LNAzyme derivatives of DNAzymes

Vester

Lundberg

Sorensen

et al. 2004

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Specific cleavage of RNA is catalysed by short oligodeoxynucleotides termed DNAzymes. DNAzymes consist of two binding arms that hybridize to a predetermined RNA sequence and a catalytic core that cleaves a phosphodiester bond held between the binding arms. DNAzymes are exemplified by the well-studied 10-23 DNAzyme, which compared with protein ribonucleases is highly specific, albeit slow. Here we report a significant improvement in cleavage kinetics, while maintaining specificity, by incorporation of LNA (locked nucleic acid) and alpha-L-LNA nucleotides into the binding arms of 10-23 DNAzyme. DNAzymes modified in this way (LNAzymes) enhance cleavage of a phosphodiester bond presented in a short RNA substrate as well as in longer and highly structured substrates, and efficient cleavage is maintained from single- to multiple-turnover conditions. Analysis of the cleavage reaction indicates that substrate hybridization is boosted by the presence of the locked residues within the LNAzymes, while no apparent change occurs in the catalytic strand-scission step.

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LNA and α-L-LNA: Towards Therapeutic Applications

Wengel

Vester

Lundberg

et al. 2003

Nucleosides, Nucleotides and Nucleic Acids

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LNA and alpha-L-LNA are promising candidates for the development of efficient oligonucleotide-based therapeutic agents. Here, we report dose-dependent inhibition of HIV-1 Tat-dependent trans activation by a 12-mer chimeric alpha-L-LNA/DNA oligomer. This oligomer exhibits a dose-dependency similar to that of the corresponding 12-mer chimeric LNA/2'-O-Me-RNA oligomer. In addition, we show that incorporation of alpha-L-LNA or LNA monomers into each of the two binding arms of a "10-23" DNAzyme markedly increases cleavage of the target RNA.

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L. Lundberg

LNAzymes: Incorporation of LNA-Type Monomers into DNAzymes Markedly Increases RNA Cleavage

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Improved RNA cleavage by LNAzyme derivatives of DNAzymes

LNA and α-L-LNA: Towards Therapeutic Applications

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