Polynucleotides, such as aptamers, comprising at least first one 5-position modified pyrimidine and at least one second 5-position modified pyrimidine are provided, wherein the first and second 5-position modified pyrimidines are different. Methods of selecting and using such polynucleotides, such as aptamers, are also provided.

Disclosed herein are compositions that comprise engineered polynucleotides, pharmaceutical compositions comprising the same, methods of making the same, and methods of treatment comprising the compositions that comprise the engineered polynucleotides.

CRISPR/Cas-related compositions and methods which provide for efficient gene editing of eukaryotic cells using modified gRNAs.

The present invention relates to RNA, particularly an immunostimulatory RNA (isRNA), a coding RNA or a combination thereof, for use in the treatment or prophylaxis of a disease, in particular a tumor and/or cancer disease. The present invention also provides pharmaceutical compositions, and a kit comprising the RNA(s). Further, the invention also comprises medical uses of the RNA(s) and compositions comprising the RNA(s).

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.

Described herein are methods and compositions that provide highly efficient nucleic acid amplification. In some embodiments, this allows a 3-fold or greater increase of amplification product for each amplification cycle and therefore increased sensitivity and speed over conventional PCR. Modified bases can be employed in primers to provide this base-3 or greater amplification with satisfactory PCR cycle times, which are improved, as compared to those observed in the absence of modified bases.

Provided is a method for high-efficiently reading through a nonsense mutation site in a pathogenic gene in a monogenic hereditary disease and restoring the normal structure and function of a mutant protein, by using a genetic code expanded non-natural amino acid system. By modifying a tRNA of Methanosarcina barkeri (tRNAPyl), an all-new UAA and UGA encoded non-natural amino acid system that has high read-through efficiency is obtained, and the range of using the orthogonal pair of tRNAPyl and pyrrolysyl-tRNA synthetase (PylRS) is expanded. A plasmid mimicking the endogenous premature termination codon is constructed, so as to evaluate the efficiency of reading through the endogenous premature termination codon. Also provided is a system mainly comprising pathogenic genes of monogenic hereditary diseases and tumor inhibitory genes in tumor cells.

The present disclosure features useful compositions and methods to treat disorders for which deamination of an adenosine in an mRNA produces a therapeutic result,

Provided are peptide nucleic acid derivatives targeting a 3′ splice site of the human tyrosinase pre-mRNA. The peptide nucleic acid derivatives potently induce a splice variant of the human tyrosinase mRNA in cells, and are useful to safely treat dermatological indications or conditions involving the human tyrosinase protein upon topical administration.

Provided are peptide nucleic acid derivatives targeting a 3′ splice site of the human tyrosinase pre-mRNA. The peptide nucleic acid derivatives potently induce a splice variant of the human tyrosinase mRNA in cells, and are useful to safely treat dermatological indications or conditions involving the human tyrosinase protein upon topical administration.