Provided are antisense molecules capable of binding to a selected target site in the human dystrophin gene to induce exon skipping, and methods of use thereof to treat muscular dystrophy.

The present invention relates to a nucleic acid complex having a novel structure, which may introduce a bioactive nucleic acid into cells, a composition for treating or diagnosing disease comprising the same, and a method of regulating target gene expression using the same, and more particularly to a nucleic acid complex in which a bioactive nucleic acid, which comprises a material for facilitating endosomal escape, and a carrier peptide nucleic acid, are complementarily bound to each other, a composition for treating or diagnosing disease comprising the same, a composition for regulating target gene expression using the same, and a method of regulating target gene expression using the same.

A nucleic acid complex of Structural Formula (1) according to the present invention, which comprises a bioactive nucleic acid and a carrier peptide nucleic acid, may increase the stability of the bioactive nucleic acid, reduce loss of the bioactive nucleic acid, such as precipitation caused by self-aggregation, increase the intracellular delivery efficiency of the bioactive nucleic acid, and easily regulate target gene expression.

The current invention provides an improved oligonucleotide and its use for treating, ameliorating, preventing and/or delaying DMD or BMD.

The current invention provides an improved oligonucleotide and its use for treating, ameliorating, preventing and/or delaying DMD or BMD.

The invention relates to RNAi agents, e.g., double-stranded RNAi agents, targeting the Serpina1 gene, and methods of using such RNAi agents to inhibit expression of Serpina1 and methods of treating subjects having a Serpina1 associated disease, such as a liver disorder.

The present disclosure relates to, inter alia, RNA molecules (e.g., RNA hairpin agonists) that bind to and agonize RIG-I-like receptors (RLRs), and to use of the molecules in methods for treating, or ameliorating one or more symptoms of, a disorder (e.g., cancer).

The present disclosure relates to, inter alia, RNA molecules (e.g., RNA hairpin agonists) that bind to and agonize RIG-I-like receptors (RLRs), and to use of the molecules in methods for treating, or ameliorating one or more symptoms of, a disorder (e.g., cancer).

Provided are methods and compositions for activating oligonucleotide aptamer-deactivated DNA polymerases, comprising cleaving the aptamer by endonuclease V enzymatic activity to reduce or eliminate binding of the oligonucleotide aptamer to the DNA polymerase, thereby activating DNA synthesis activity of the DNA polymerase in a reaction mixture. Mixtures for use in methods of the invention are also provided. In some aspects, the oligonucleotide aptamer comprises one or more deoxyinosine nucleotides providing for aptamer-specific recognition and cleavage of the aptamer by the endonuclease V enzymatic activity. Exemplary oligonucleotide aptamers, mixtures and methods employing endonuclease V enzymatic activity are provided. The methods can be practiced using kits comprising a DNA polymerase-binding oligonucleotide aptamer and at least one endonuclease V enzymatic activity having oligonucleotide aptamer-specific recognition to provide for specific cleavage of the aptamer by the endonuclease V enzymatic activity.

The present invention provides methods of enhancing the efficacy and specificity of RNA silencing. The invention also provides compositions for mediating RNA silencing. In particular, the invention provides siRNAs, siRNA-like molecules, shRNAs, vectors and transgenes having improved specificity and efficacy in mediating silencing of a target gene. Therapeutic methods are also featured.

The invention provides an oligonucleotide comprising an inosine, and/or a nucleotide containing a base able to form a wobble base pair or a functional equivalent thereof, wherein the oligonucleotide, or a functional equivalent thereof, comprises a sequence which is complementary to at least part of a dystrophin pre-m RNA exon or at least part of a non-exon region of a dystrophin pre-m RNA said part being a contiguous stretch comprising at least 8 nucleotides. The invention further provides the use of said oligonucleotide for preventing or treating DMD or BMD.