Provided herein are processes for preparing an oligomer (e.g., a morpholino oligomer). The synthetic processes described herein may be advantageous to scaling up oligomer synthesis while maintaining overall yield and purity of a synthesized oligomer.

The present specification provides an antisense oligomer capable of causing simultaneous skipping of a plurality of exons in pre-mRNA of interest, and a pharmaceutical composition comprising the oligomer. The present specification also provides an antisense oligomer or a pharmaceutically acceptable salt thereof, or hydrate thereof which causes simultaneous skipping of two or more numerically consecutive exons from pre-mRNA of interest, the antisense oligomer comprising a base sequence complementary to a base sequence of a region including the vicinity of a donor of any intron in the pre-mRNA of interest, or a region including the vicinity of an acceptor of any intron in the pre-mRNA of interest, or a partial base sequence thereof.

Described are compositions and methods for inhibition of Hepatitis B virus gene expression. RNA interference (RNAi) agents for inhibiting the expression of Hepatitis B virus gene are described. The HBV RNAi agents disclosed herein may be targeted to cells, such as hepatocytes, for example, by using conjugated targeting ligands. Pharmaceutical compositions comprising one or more HBV RNAi agents optionally with one or more additional therapeutics are also described. Delivery of the described HBV RNAi agents to infected liver in vivo provides for inhibition of HBV gene expression and treatment of diseases and conditions associated with HBV infection.

Recent advancements in LNA oligonucleotides include the use of amine linkers to link an LNA antisense oligonucleotide to a conjugate group. For example please see WO2014/I18267. The present invention originates from the identification of a problem when de-protecting LNA oligonucleotides which comprise an aliphatic amine group and DMF protected LNA G nucleoside, which results in the production of a +28 Da impurity. This problem is solved by using acyl protection groups on the exocyclic nitrogen of the LNA-G residue, rather than the standard DMF protection group.

Disclosed herein are STMN2 oligonucleotides with one or more spacers. In various embodiments, STMN2 oligonucleotides with spacer(s) reduce STMN2 transcripts with cryptic exon and increase full length STMN2 transcripts, thereby imparting therapeutic efficacy against neurological diseases such as amyotrophic lateral sclerosis (ALS), frontotemporal dementia (FTD), or Alzheimer's disease (AD).

Provided are a double-stranded siRNA analogue embedded with a ribavirin derivative, a conjugate containing same, and a salt and the use thereof. The provided double-stranded siRNA analogue, the conjugate containing same and the salt thereof can effectively inhibit multiple viral indicators such as hepatitis B virus DNA, pgRNA, S antigen, and E antigen, which provide an effective and feasible method for treating hepatitis B.

Among other things, the present disclosure provides oligonucleotides and compositions thereof. In some embodiments, provided oligonucleotides and compositions are useful for adenosine modification. In some embodiments, the present disclosure provides methods for treating various conditions, disorders or diseases that can benefit from adenosine modification.

The present disclosure relates to multimeric oligonucleotides comprising subunits, each of the subunits independently comprises a single-stranded or double-stranded oligonucleotide. Each of the subunits is joined to another subunit by a covalent linker, and at least one subunit comprises at least one partial single-stranded oligonucleotide. The present disclosure also relates to methods of synthesizing the multimeric oligonucleotides and the methods of using the multimeric oligonucleotides disclosed herein.

It is provided the synthesis of an aptamer-like encoded oligomer (ALEnOmer), method of producing same and method of preparing a library of ALEnOmes. More particularly, the method of preparing ALEnOmer comprises coupling at least one phosphoramidite monomer with an orthogonal protecting group, and the ALEnOmer produces comprises a DNA coding strand covalently attached to an oligomer through a branching unit, wherein the oligomer has a degree of polymerization at least 5 and is an aptamer.

The present invention relates to G-quadruplex forming iso-RNA oligomers and a process for the preparation thereof. The present invention further relates to a stable, guanine rich 2′-5′-linked iso-RNA selected from 2′-5′-linked iso-RNA. The instant 2′-5′-linked isoRNA oligomer of the thrombin binding aptamer (iso-rTBA) is highly resistant to RNase A and also resistant to other nucleases, including snake venom phosphodiesterase (SVPD) and forms a thermally stable functional G-quadruplex.