Disclosed herein is a modified ribonucleotide comprising a nucleoside comprising N4-acetylcytidine and/or 5-hydroxymethyluridine, and polyribonucleotides comprising the same. Also provided herein are compositions comprising a polyribonucleotide of the present disclosure and methods of making and using the same.

Disclosed herein is a modified ribonucleotide comprising a nucleoside comprising N4-acetylcytidine and/or 5-hydroxymethyluridine, and polyribonucleotides comprising the same. Also provided herein are compositions comprising a polyribonucleotide of the present disclosure and methods of making and using the same.

The present disclosure relates to RNA aptamers and uses thereof, in particular, aptamers which specifically bind to CD133 and which demonstrate superior tumor penetration.

The present invention relates to a pharmaceutical composition comprising a modified mRNA that is stabilised by sequence modifications and optimised for translation. The pharmaceutical composition according to the invention is particularly well suited for use as an inoculating agent, as well as a therapeutic agent for tissue regeneration. In addition, a process is described for determining sequence modifications that promote stabilisation and translational efficiency of modified mRNA of the invention.

Disclosed an improved process for synthesising a nucleic acid strand using cycles of template independent enzyme extension. Having one or more of the amino groups on the base heterocyclic groups masked with protecting groups helps to prevent secondary structure in the extended strand, thereby improving access of the enzyme to the 3′ OH terminus for extension.

The present disclosure relates to methods of treating heat stock factor 1 (HSF1)-related diseases such as cancer, autoimmune and viral diseases, using a therapeutically effective amount of a RNAi agent to HSF.

Compositions and methods for enhancing targeted gene editing and methods of use thereof are disclosed. In the most preferred embodiments, gene editing is carried out utilizing a gene editing composition such as triplex-forming oligonucleotides, CRISPR, zinc finger nucleases, TALENS, or others, in combination with a gene modification potentiating agent such as stem cell factor (SCF), a CHK1 or ATR inhibitor, or a combination thereof. A particular preferred gene editing composition is triplex-forming peptide nucleic acids (PNAs) substituted at the γ position for increased DNA binding affinity. Nanoparticle compositions for intracellular delivery of the gene editing composition are also provided and particular advantageous for use with in vivo applications.

The current invention provides an improved oligonucleotide and its use for treating, ameliorating, preventing, delaying and/or treating a human cis-element repeat instability associated genetic neuromuscular or neurodegenerative disorder.

The invention relates to single-stranded RNA editing antisense oligonucleotides (AO Ns) for binding to a target RNA molecule for deaminating at least one target adenosine present in the target RNA molecule and recruiting, in a cell, preferably a human cell, an ADAR2 enzyme, to deaminate the at least one target adenosine in the target RNA molecule. The AON according to the invention comprises a cytidine analog at the position opposite the target adenosine, wherein the cytidine analog serves as an H-bond donor at the N3 site, for more efficient RNA editing.

The present invention relates to RNA interference-inducing nucleic acid that inhibits noncanonical target genes of micro RNA, in which part of the sequence of a specific micro RNA has been modified, and by using the RNA interference-inducing nucleic acid of the present invention, the biological function micro RNA exhibits by inhibiting noncanonical target genes is effectively increased or there is the benefit of selectively exhibiting only one of the biological functions of conventional micro RNA, i.e., the function of inhibiting noncanonical target genes, and the interference-inducing nucleic acid of the present invention enables cell cycling, differentiation, dedifferentiation, formation, movement, splitting, proliferation or death adjustment, and it is expected that the invention can be used in various fields such as drugs and cosmetics.