In certain aspects, the present invention provides methods for inducing a stable gene modification of a target nucleic acid via homologous recombination in a primary cell, such as a primary blood cell and/or a primary mesenchymal cell. In certain other aspects, the present invention provides methods for enriching a population of genetically modified primary cells having targeted integration at a target nucleic acid. The methods of the present invention rely on the introduction of a DNA nuclease such as a Cas polypeptide and a homologous donor adeno-associated viral (AAV) vector into the primary cell to mediate targeted integration of the target nucleic acid. Also provided herein are methods for preventing or treating a disease in a subject in need thereof by administering to the subject any of the genetically modified primary cells or pharmaceutical compositions described herein to prevent the disease or ameliorate one or more symptoms of the disease.

The present invention relates to nucleic acids and analogues thereof useful as potent and stable RNA interference agents.

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The disclosure relates to double-stranded ribonucleic acid (dsRNA) compositions targeting SCN9A, and methods of using such dsRNA compositions to alter (e.g., inhibit) expression of SCN9A.

The present invention provides oligomeric compounds. Certain such oligomeric compounds are useful for hybridizing to a complementary nucleic acid, including but not limited, to nucleic acids in a cell. In certain embodiments, hybridization results in modulation of the amount activity or expression of the target nucleic acid in a cell.

The disclosure relates to double-stranded ribonucleic acid (dsRNA) compositions targeting VEGF-A, and methods of using such dsRNA compositions to alter (e.g., inhibit) expression of VEGF-A.

Disclosed herein are embodiments of a compound useful for treating or preventing betacoronavirus infections such as SARS-Cov-2 infections. Also disclosed is a method for administering the compound to a subject, particularly a human subject, to treat or prevent a betacoronavirus infection in the subject. The compound can comprise an oligomer comprising a nucleic acid base sequence that is antisense to at least a portion of a SARS-CoV-2 genomic RNA, and can comprise a sequence present in the 5′ UTR and first 20 nt of coding sequence of the SARS-CoV-2 genomic RNA. The compound also can contain a peptide sequence. In some embodiments, the compound is a peptide-conjugated phosphorodiamidate morpholino oligomer (PPMO).

The invention relates to double-stranded ribonucleic acid (dsRNA) compositions targeting the GPAM gene, as well as methods of inhibiting expression of GPAM, and methods of treating subjects that would benefit from reduction in expression of GPAM, such as subjects having a GPAM-associated disease, disorder, or condition, using such dsRNA compositions.

The present invention relates to RNAi agents, e.g., double stranded RNAi agents, targeting a xanthine dehydrogenase (XDH) gene, and methods of using such double stranded RNAi agents to inhibit expression of an XDH gene and methods of treating subjects having an XDH-associated disease.

The present invention relates to guide RNAs having chemical modifications and their use in CRISPR-Cas systems. The chemically modified guide RNAs have enhanced specificity for target polynucleotide sequences. The present invention also relates to methods of using chemically modified guide RNAs for cleaving or nicking polynucleotides, and for high specificity genome editing.

The present invention provides oligomeric compounds. Certain such oligomeric compounds are useful for hybridizing to a complementary nucleic acid, including but not limited, to nucleic acids in a cell. In certain embodiments, hybridization results in modulation of the amount, activity, or expression of the target nucleic acid in a cell. In certain embodiments, hybridization results in selective modulation of the amount, activity, or expression of a target Huntingtin gene or Huntingtin transcript in a cell.