The present invention relates to nucleic acids for inhibiting expression of a target gene in a cell, comprising at least one duplex region that comprises at least a portion of a first strand and at least a portion of a second strand that is at least partially complementary to the first strand, wherein said first strand is at least partially complementary to at least a portion of RNA transcribed from said target gene to be inhibited. The first strand of the nucleic acid has a terminal 5′(E)-vinylphosphonate nucleotide that is linked to the second nucleotide in the first strand by a phosphodiester linkage.

Described are RNAi agents, compositions that include RNAi agents, and methods for inhibition of a double homeobox 4 (DUX4) gene. The DUX4 RNAi agents and RNAi agent conjugates disclosed herein inhibit the expression of a DUX4 gene. Pharmaceutical compositions that include one or more DUX4 RNAi agents, optionally with one or more additional therapeutics, are also described. Delivery of the described DUX4 RNAi agents to skeletal muscle cells in vivo, provides for inhibition of DUX4 gene expression and a reduction in DUX4 levels, which can provide a therapeutic benefit to subjects, including human subjects, suffering from certain skeletal muscle-related diseases or disorders including Facioscapulohumeral Muscular Dystrophy (FSHD).

Described are RNAi agents, compositions that include RNAi agents, and methods for inhibition of a matrix metallopeptidase 7 (MMP7) gene. The MMP7 RNAi agents and RNAi agent conjugates disclosed herein inhibit the expression of an MMP7 gene. Pharmaceutical compositions that include one or more MMP7 RNAi agents, optionally with one or more additional therapeutics, are also described. Delivery of the described MMP7 RNAi agents to pulmonary cells, in vivo, provides for inhibition of MMP7 gene expression, which can provide a therapeutic benefit to subjects, including human subjects, for the treatment of various diseases including pulmonary inflammation diseases such as idiopathic pulmonary fibrosis (IPF).

The present disclosure provides oligomeric compound comprising a modified oligonucleotide having a central region comprising one or more modifications. In certain embodiments, the present disclosure provides oligomeric compounds having an improved therapeutic index or an increased maximum tolerated dose.

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.

A compound for forming a conjugate with an active agent such as an oligonucleotide having a structure represented by Formula (321). The present disclosure also provides a corresponding conjugate. The conjugate of the present disclosure can specifically target hepatocytes, thereby effectively solve the problems associated with delivery of oligonucleotide drugs in vivo, and have low toxicity and excellent delivery efficiency while maintaining high stability for the delivered oligonucleotide.

##STR00001##

The invention relates to nucleic acid products that interfere with or inhibit PROS1 gene expression. It further relates to therapeutic uses of PROS1 inhibition for the treatment of bleeding disorders.

The invention relates to editing oligonucleotides (EONs) for binding to a target nucleic acid and recruiting an enzyme with nucleotide deamination activity to edit the target nucleic acid. The EONs carry phosphonoacetate internucleotide linkage modifications and/or unlocked nucleic acid (UNA) ribose modifications at specified positions and do not carry such modifications on positions that would lower nucleic acid editing efficiency. The selection of positions that should or should not carry a modification is based on computational modelling that revealed incompatibilities of the modifications with the enzyme with nucleotide deamination activity.

The invention relates to a method of gene silencing, comprising administering to a cell or a subject in need thereof a therapeutically effective amount of the lipophilic moieties-conjugated double-stranded iRNAs at one or more internal positions on at least one strand, optionally via a linker or carrier.

The present invention relates to RNAi agents, e.g., dsRNA agents, targeting the coronavirus genome. The invention also relates to methods of using such RNAi agents to inhibit expression of a coronavirus genome and to methods of treating or preventing a coronavirus-associated disease in a subject.