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.

The present invention provides compositions and methods for treating cancer with peptide nucleic acid agents. In some embodiments, the present invention provides methods and compositions relating to peptide nucleic acid agents that target oncogenes. For example, the present invention provides compositions, including pharmaceutical compositions, comprising agents specific for BRAF V600E inhibition, or fragments or characteristic portions thereof. The present invention further provides various therapeutic and/or diagnostic methods of using BRAF V600E specific peptide nucleic acid agents and/or compositions.

An antisense molecule capable of binding to a selected target site to induce exon skipping in the dystrophin gene, as set forth in SEQ ID NO: 1 to 59.

A method of reducing the level of a transcription product in a cell comprising contacting with the cell a composition comprising a double-stranded nucleic acid complex comprising a first nucleic acid strand annealed to a second nucleic acid strand, wherein: (i) the first nucleic acid strand hybridizes to the transcription product and comprises (a) a region consisting of at least 4 consecutive nucleotides that are recognized by RNase H when the strand is hybridized to the transcription product, (b) one or more nucleotide analogs located on 5 terminal side of the region, (c) one or more nucleotide analogs located on 3 terminal side of the region and (d) a total number of nucleotides and nucleotide analogs ranging from 8 to 35 nucleotides and (ii) the second nucleic acid strand comprises (a) nucleotides and optionally nucleotide analogs and (b) at least 4 consecutive RNA nucleotides.

A method of treating an osmidrosis condition in a subject can include administering a therapeutic agent in an amount that is effective to inhibit expression of an ABCC11 gene in a target cell of the subject to an osmidrosis-reducing level. A therapeutic composition for treating an osmidrosis condition in a subject can include a therapeutically effective amount of an ABCC11 gene-inhibiting agent and a pharmaceutically acceptable carrier.

A method of reducing the level of a transcription product in a cell comprising contacting with the cell a composition comprising a double-stranded nucleic acid complex comprising a first nucleic acid strand annealed to a second nucleic acid strand, wherein: (i) the first nucleic acid strand hybridizes to the transcription product and comprises (a) a region consisting of at least 4 consecutive nucleotides that are recognized by RNase H when the strand is hybridized to the transcription product, (b) one or more nucleotide analogs located on 5 terminal side of the region, (c) one or more nucleotide analogs located on 3 terminal side of the region and (d) a total number of nucleotides and nucleotide analogs ranging from 8 to 35 nucleotides and (ii) the second nucleic acid strand comprises (a) nucleotides and optionally nucleotide analogs and (b) at least 4 consecutive RNA nucleotides.

The disclosure provides novel methods and compositions for gene editing. In particular, the disclosure relates to compositions and methods of making modified nucleic acid donor templates for highly efficient and precise gene editing.

The invention is directed to one or more antisense polynucleotides and their use in pharmaceutical compositions in a strategy to induce exon skipping in the -sarcoglycan gene in patients suffering from Limb-Girdle Muscular Dystrophy-2C (LGM-D2C) or in patients at risk of such a disease. The invention also provides methods of preventing or treating muscular dystrophy. e.g., LGMD2C, by exon skipping in the gamma sarcoglycan gene using antisense polynucleotides. Accordingly, in some aspects the invention provides an isolated antisense oligonucleotide, wherein the oligonucleotide specifically hybridizes to an exon target region of a -sarcoglycan RNA. In another aspect, the invention provides a method of inducing exon-skipping of a gamma sarcoglycan RNA, comprising delivering an antisense oligonucleotide or a composition to a cell.

Provided are compounds, methods, and pharmaceutical compositions for reducing the amount or activity of ATXN3 mRNA in a cell or animal, and in certain instances reducing the amount of Ataxin-3 protein in a cell or animal. Such compounds, methods, and pharmaceutical compositions are useful to prevent or ameliorate at least one symptom or hallmark of a neurodegenerative disease. Such symptoms and hallmarks include ataxia, neuropathy, and aggregate formation. Such neurodegenerative diseases include SCA3.

The invention provides a method for generating an oligonucleotide with which an axon may be skipped in a pre-mRNA and thus excluded from a produced mRNA thereof. Further provided are methods for altering the secondary structure of an mRNA to interfere with splicing processes and uses of the oligonucleotides and methods in the treatment of disease. Further provided are pharmaceutical compositions and methods and means for inducing skipping of several axons in a pre-mRNA.