Abstract: The invention provides compositions and methods for reducing expression of a target gene in a cell, involving contacting a cell with an isolated double stranded nucleic acid (dsNA) in an amount effective to reduce expression of a target gene in a cell. The dsNAs of the invention possess a single stranded extension (in most embodiments, the single stranded extension comprises at least one modified nucleotide and/or phosphate back bone modification). Such single stranded extended Dicer-substrate siRNAs (DsiRNAs) were demonstrated to be effective RNA inhibitory agents compared to corresponding double stranded DsiRNAs.

Abstract: The invention provides compositions and methods for reducing expression of a target gene in a cell, involving contacting a cell with an isolated double stranded nucleic acid (dsNA) in an amount effective to reduce expression of a target gene in a cell. The dsNAs of the invention possess a single stranded extension (in most embodiments, the single stranded extension comprises at least one modified nucleotide and/or phosphate back bone modification). Such single stranded extended Dicer-substrate siRNAs (DsiRNAs) were demonstrated to be effective RNA inhibitory agents compared to corresponding double stranded DsiRNAs.

Abstract: The invention provides for double stranded nucleic acid molecules comprising a 5? extension of the sense or antisense strand and further comprising a plurality of nucleotides that are conjugated to a ligand and methods of using the double-stranded nucleic acid molecules. Ligand-modified oligomers where the sense stands form a tetraloop provide new potent and stable RNA interference agents. These dsNA molecules are synthesized using a plurality of nucleotides that include ligand-modified monomers, nucleotide analog monomers, modified nucleotide monomers and the like, using standard nucleotide synthetic methods and systems.

Abstract: Provided herein are double-stranded nucleic acid inhibitor molecules having a sense strand with a stem loop structure and an antisense strand, where the stem portion of the stem loop structure contains one or more Tm-increasing nucleotides. Also provided are methods and compositions for reducing target gene expression and methods and compositions for treating a disease of interest.

Abstract: Formulations comprising anionic agents such as nucleic acids within a lipid-containing particle methods of formulating a lipid-containing particle comprising an anionic agent such as a nucleic acid, methods for preparing a lipid-containing particle comprising an anionic agent such as a nucleic acid, methods for therapeutic delivery of an anionic agent to a patient in need thereof, where the anionic agent is formulated in a lipid-containing particle as described herein.

Abstract: The present invention relates to lipid compounds and uses thereof. In particular, the compounds include a class of cationic lipids having an amine moiety, such as an amino-amine or an amino-amide moiety. The lipid compounds are useful for in vivo or in vitro delivery of one or more agents (e.g., a polyanionic payload or an antisense payload, such as an RNAi agent).

Abstract: The present invention relates to lipid compounds and uses thereof. In particular, the compounds include a class of cationic lipids having an amine moiety, such as an amino-amine or an amino-amide moiety. The lipid compounds are useful for in vivo or in vitro delivery of one or more agents (e.g., a polyanionic payload or an antisense payload, such as an RNAi agent).

Abstract: Formulations comprising anionic agents such as nucleic acids within a lipid-containing particle methods of formulating a lipid-containing particle comprising an anionic agent such as a nucleic acid, methods for preparing a lipid-containing particle comprising an anionic agent such as a nucleic acid, methods for therapeutic delivery of an anionic agent to a patient in need thereof, where the anionic agent is formulated in a lipid-containing particle as described herein.

Abstract: The invention provides compositions and methods for reducing expression of a target gene in a cell, involving contacting a cell with an isolated double stranded nucleic acid (dsNA) in an amount effective to reduce expression of a target gene in a cell. The dsNAs of the invention possess a pattern of deoxyribonucleotides (in most embodiments, the pattern comprises at least one deoxyribonucleotide-deoxyribonucleotide base pair) designed to direct the site of Dicer enzyme cleavage within the dsNA molecule. Deoxyribonucleotides of the dsNA molecules of the invention are located within a region of the dsNA that can be excised via Dicer cleavage to generate an active siRNA agent that no longer contains the deoxyribonucleotide pattern (e.g., deoxyribonucleotide-deoxyribonucleotide base pairs). Such DNA-extended Dicer-substrate siRNAs (DsiRNAs) were demonstrated to be more effective RNA inhibitory agents than corresponding double stranded RNA-extended DsiRNAs.

Abstract: The present invention is based, at least in part, upon discovery of a process for identifying phase changing peptides. Such phase changing peptides are capable of enhancing in vitro and in vivo delivery of oligonucleotides (e.g., dsRNAs) in lipidic, vesicular, micellar and/or naked oligonucleotide formulations.

Abstract: The present invention relates to lipid compounds and uses thereof. In particular, the compounds include a class of cationic lipids having an amine moiety, such as an amino-amine or an amino-amide moiety. The lipid compounds are useful for in vivo or in vitro delivery of one or more agents (e.g., a polyanionic payload or an antisense payload, such as an RNAi agent).

Abstract: The present invention relates to lipid compounds and uses thereof. In particular, the compounds include a class of cationic lipids having an amine moiety, such as an amino-amine or an amino-amide moiety. The lipid compounds are useful for in vivo or in vitro delivery of one or more agents (e.g., a polyanionic payload or an antisense payload, such as an RNAi agent).

Abstract: The present invention is based, at least in part, upon discovery of a process for identifying phase changing peptides. Such phase changing peptides are capable of enhancing in vitro and in vivo delivery of oligonucleotides (e.g., dsRNAs) in lipidic, vesicular, micellar and/or naked oligonucleotide formulations.

Abstract: Formulations comprising anionic agents such as nucleic acids within a lipid-containing particle methods of formulating a lipid-containing particle comprising an anionic agent such as a nucleic acid, methods for preparing a lipid-containing particle comprising an anionic agent such as a nucleic acid, methods for therapeutic delivery of an anionic agent to a patient in need thereof, where the anionic agent is formulated in a lipid-containing particle as described herein.

Abstract: The present invention is based, at least in part, upon discovery of a process for identifying phase changing peptides. Such phase changing peptides are capable of enhancing in vitro and in vivo delivery of oligonucleotides (e.g., dsRNAs) in lipidic, vesicular, micellar and/or naked oligonucleotide formulations.

Abstract: This invention relates to compounds, compositions, and methods useful for reducing HIF-1? target RNA and protein levels via use of dsRNAs, e.g., Dicer substrate siRNA (DsiRNA) agents.

Abstract: The invention provides compositions and methods for reducing expression of a target gene in a cell, involving contacting a cell with an isolated double stranded nucleic acid (dsNA) in an amount effective to reduce expression of a target gene in a cell. The dsNAs of the invention possess a single stranded extension (in most embodiments, the single stranded extension comprises at least one modified nucleotide and/or phosphate back bone modification). Such single stranded extended Dicer-substrate siRNAs (DsiRNAs) were demonstrated to be effective RNA inhibitory agents compared to corresponding double stranded DsiRNAs.

Abstract: The invention provides compositions and methods for reducing expression of a target gene in a cell, involving contacting a cell with an isolated double stranded nucleic acid (dsNA) in an amount effective to reduce expression of a target gene in a cell. The dsNAs of the invention possess a single stranded extension (in most embodiments, the single stranded extension comprises at least one modified nucleotide and/or phosphate back bone modification). Such single stranded extended Dicer-substrate siRNAs (DsiRNAs) were demonstrated to be effective RNA inhibitory agents compared to corresponding double stranded DsiRNAs.

Abstract: The present invention relates to lipid compounds and uses thereof. In particular, the compounds include a class of cationic lipids having an amine moiety, such as an amino-amine or an amino-amide moiety. The lipid compounds are useful for in vivo or in vitro delivery of one or more agents (e.g., a polyanionic payload or an antisense payload, such as an RNAi agent).

Abstract: The invention provides compositions and methods for reducing expression of a target gene in a cell, involving contacting a cell with an isolated double stranded nucleic acid (dsNA) in an amount effective to reduce expression of a target gene in a cell. The dsNAs of the invention possess a pattern of deoxyribonucleotides (in most embodiments, the pattern comprises at least one deoxyribonucleotide-deoxyribonucleotide base pair) designed to direct the site of Dicer enzyme cleavage within the dsNA molecule. Deoxyribonucleotides of the dsNA molecules of the invention are located within a region of the dsNA that can be excised via Dicer cleavage to generate an active siRNA agent that no longer contains the deoxyribonucleotide pattern (e.g., deoxyribonucleotide-deoxyribonucleotide base pairs). Such DNA-extended Dicer-substrate siRNAs (DsiRNAs) were demonstrated to be more effective RNA inhibitory agents than corresponding double stranded RNA-extended DsiRNAs.