Abstract: Oligonucleotides, chemically-modified oligonucleotides, and oligonucleotide-conjugate complexes for use in research, diagnostics, and/or therapeutics are described herein. In some embodiments, oligonucleotides comprising a stabilized phosphate moiety covalently attached to the 5?-terminal nucleoside are provided.

Abstract: The present embodiments provide compounds and methods for targeting cells expressing GLP-1 receptor.

Abstract: Oligonucleotides, chemically-modified oligonucleotides, and oligonucleotide-conjugate complexes for use in research, diagnostics, and/or therapeutics are described herein. In some embodiments, oligonucleotides comprising a stabilized phosphate moiety covalently attached to the 5?-terminal nucleoside are provided.

Abstract: The present disclosure pertains generally to chemically-modified oligonucleotides for use in research, diagnostics, and/or therapeutics. In certain embodiments, the present disclosure describes compounds and methods for the modulation of a target nucleic acid. In certain embodiments, the present disclosure describes compounds and methods for the modulation of Apoliprotein C-III expression.

Abstract: The present embodiments provide compounds and methods for targeting cells expressing GLP-1 receptor.

Abstract: Provided herein are improved methods for the synthesis of reactive conjugate clusters and intermediates used in such methods. In particular, improvements are provided that enhance the synthesis of reactive conjugate clusters by reducing the number of synthetic steps required. The reactive conjugate clusters prepared using the improved methods don't include any transacylation impurities that are formed using existing methods. The improved methods also provide an increase in overall yield and a cost benefit over existing methods.

Abstract: Provided herein are improved methods for the synthesis of reactive conjugate clusters and intermediates used in such methods. In particular, improvements are provided that enhance the synthesis of reactive conjugate clusters by reducing the number of synthetic steps required. The reactive conjugate clusters prepared using the improved methods don't include any transacylation impurities that are formed using existing methods. The improved methods also provide an increase in overall yield and a cost benefit over existing methods.

Abstract: Oligonucleotides, chemically-modified oligonucleotides, and oligonucleotide-conjugate complexes for use in research, diagnostics, and/or therapeutics are described herein. In some embodiments, oligonucleotides comprising a stabilized phosphate moiety covalently attached to the 5?-terminal nucleoside are provided.

Abstract: The present embodiments provide compounds and methods for targeting cells expressing GLP-1 receptor.

Abstract: The present disclosure pertains generally to chemically-modified oligonucleotides for use in research, diagnostics, and/or therapeutics. In certain embodiments, the present disclosure describes compounds and methods for the modulation of a target nucleic acid. In certain embodiments, the present disclosure describes compounds and methods for the modulation of Apoliprotein C-III expression.

Abstract: Provided herein are improved methods for the synthesis of reactive conjugate clusters and intermediates used in such methods. In particular, improvements are provided that enhance the synthesis of reactive conjugate clusters by reducing the number of synthetic steps required. The reactive conjugate clusters prepared using the improved methods don't include any transacylation impurities that are formed using existing methods. The improved methods also provide an increase in overall yield and a cost benefit over existing methods.

Abstract: Oligonucleotides, chemically-modified oligonucleotides, and oligonucleotide-conjugate complexes for use in research, diagnostics, and/or therapeutics are described herein. In some embodiments, oligonucleotides comprising a stabilized phosphate moiety covalently attached to the 5?-terminal nucleoside are provided.

Abstract: The present invention provides oligomeric compounds and uses thereof. In certain embodiments, such oligomeric compounds are useful as antisense compounds. Certain such antisense compounds are useful as RNase H antisense compounds or as RNAi compounds.

Abstract: Compounds, compositions and methods are provided for modulating the levels expression, processing and function of miRNAs. The compositions comprise oligomeric compounds targeted to small non-coding RNAs and miRNAs. The oligomeric compounds possess potent miRNA inhibitory activity, and further exhibit improved therapeutic index. Further provided are methods for selectively modulating miRNA activating in a cell.

Abstract: Provided herein are improved methods for the synthesis of reactive conjugate clusters and intermediates used in such methods. In particular, improvements are provided that enhance the synthesis of reactive conjugate clusters by reducing the number of synthetic steps required. The reactive conjugate clusters prepared using the improved methods don't include any transacylation impurities that are formed using existing methods. The improved methods also provide an increase in overall yield and a cost benefit over existing methods.

Abstract: The present disclosure pertains generally to chemically-modified oligonucleotides for use in research, diagnostics, and/or therapeutics. In certain embodiments, the present disclosure describes compounds and methods for the modulation of a target nucleic acid. In certain embodiments, the present disclosure describes compounds and methods for the modulation of Apoliprotein C-III expression.

Abstract: Compounds, compositions and methods are provided for modulating the levels expression, processing and function of miRNAs. The compositions comprise oligomeric compounds targeted to small non-coding RNAs and miRNAs. The oligomeric compounds possess potent miRNA inhibitory activity, and further exhibit improved therapeutic index. Further provided are methods for selectively modulating miRNA activating in a cell.

Abstract: The present invention provides double stranded compositions wherein the first strand is modified to have a particular motif and the second strand is modified a selected motif. The motifs are defined by positioning of differentially modified nucleosides wherein at least the sugar moieties are different. More particularly, the present compositions comprise an antisense strand that is modified to have a positional/full motif and the sense strand is modified to have an alternating motif, a hemimer motif, a blockmer motif, a gapped motif, a positional motif, a positional/full motif or a fully modified motif. Each strand further comprises one or more phosphorothioate internucleoside linkage. The compositions are useful for targeting selected nucleic acid molecules and modulating the expression of one or more genes. In preferred embodiments the compositions of the present invention hybridize to a portion of a target RNA resulting in loss of normal function of the target RNA.

Abstract: Compounds, compositions and methods are provided for modulating the levels expression, processing and function of miRNAs. The compositions comprise oligomeric compounds targeted to small non-coding RNAs and miRNAs. The oligomeric compounds possess potent miRNA inhibitory activity, and further exhibit improved therapeutic index. Further provided are methods for selectively modulating miRNA activing in a cell.

Abstract: The present invention provides oligomeric compounds and uses thereof. In certain embodiments, such oligomeric compounds are useful as antisense compounds. Certain such antisense compounds are useful as RNase H antisense compounds or as RNAi compounds.