The present disclosure provides systems and methods that can provide portable, real-time accessible DNA memories. An example DNA-based data storage system includes a loading region configured to receive a plurality of DNA-based data storage elements in a suspension fluid and a plurality of microtubes disposed in a capture/release region. The microtubes are configured to capture and release the DNA-based data storage elements. The DNA-based data storage system also includes a linearization region configured to linearize the DNA-based data storage elements and a readout region with a readout device configured to provide information indicative of the respective DNA-based data storage elements.

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.

The present inventions relates to systems, methods and compositions for the rational design of a new classes of antibiotics targeting non-traditional pathways and genes including metabolism, cell signaling, and stress response using sequence-specific peptide nucleic acids (PNAs). The invention further includes systems, methods and compositions for the efficient delivery of PNAs to intracellular pathogens through a novel use of the bacterial secretion system in combination with a cell lysis switch.

The invention provides means and methods for alleviating one or more symptom(s) of Duchenne Muscular Dystrophy and/or Becker Muscular Dystrophy. Therapies using compounds for providing patients with functional muscle proteins are combined with at least one adjunct compound for reducing inflammation, preferably for reducing muscle tissue inflammation, and/or at least one adjunct compound for improving muscle fiber function, integrity and/or survival.

Compositions and methods of use thereof for delivering nucleic acid cargo into cells are provided. The compositions typically include (a) a 3E10 monoclonal antibody or an antigen binding, cell-penetrating fragment thereof; a monovalent, divalent, or multivalent single chain variable fragment (scFv); or a diabody; or humanized form or variant thereof, and (b) a nucleic acid cargo including, for example, a nucleic acid encoding a polypeptide, a functional nucleic acid, a nucleic acid encoding a functional nucleic acid, or a combination thereof. Elements (a) and (b) are typically non-covalently linked to form a complex.

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 (LGMD2C) 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 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 is a highly multiplex approach to disease condition diagnostics that combines nanopore sensing and nucleic acid nanoparticle (NANP) design and synthesis to detect multiple biomarkers to diagnose diseases. The system works by taking a sample containing biomarkers that is mixed with a plurality of nucleic acid nanoparticle (NANP) populations, with each population designed and synthesized to be able to detect a particular biomarker. Upon incubation, the mixture is used with nanopore measurements, with recordings of the ionic current through the nanopore. The ionic current recordings are analyzed, which determines the presence and/or concentration of biomarkers in the sample.

The invention provides compositions and methods of making and using effector oligonucleotides, including effector oligonucleotides with greater than one mismatch as compared to its target sequence. These effector oligonucleotides are useful for improving the efficiency of genomic editing as well as providing therapeutic benefits to individuals in need thereof.

The invention relates a method wherein a molecule is used for inducing and/or promoting skipping of at least one of exon 43, exon 46, exons 50-53 of the DMD pre-mRNA in a patient, preferably in an isolated cell of a patient, the method comprising providing the cell and/or the patient with a molecule. The invention also relates to the molecule as such.

The present disclosure features useful compositions and methods to treat disorders for which deamination of an adenosine in an mRNA produces a therapeutic result, e.g., in a subject in need thereof.