Methods of treating or preventing a disease or disorder are disclosed comprising administering to a subject in need thereof an effective amount of a nucleic acid compound comprising, or consisting of, a nucleic acid sequence capable of binding to a transferrin receptor (TfR) and an effective amount of an inhibitor of DNA synthesis. Also disclosed is a nucleic acid compound comprising, or consisting of, a nucleic acid sequence having at least 85% sequence identity to SEQ ID NO: 1, wherein said nucleic acid sequence is at least 30 nucleotides in length and at most 50 nucleotides in length, and wherein the nucleic acid sequence is capable of binding to a transferrin receptor (TfR).

The present invention provides a method for producing a nucleic acid molecule that can obtain a nucleic acid molecule that binds to a target and does not inhibit a function of the target. The production method for a nucleic acid molecule of the present invention is a method for producing a nucleic acid molecule that binds to a first biological molecule and does not inhibit a function of the first biological molecule, the method including the steps of: (A) bringing a candidate nucleic acid molecule into contact with the first biological molecule to select a nucleic acid molecule that has bound to the first biological molecule as a first selected nucleic acid molecule; and (B) selecting the first selected nucleic acid molecule as an intended nucleic acid molecule.

The present invention relates functional ligands to target molecules, particularly to functional nucleic acids and modifications thereof, and to methods for simultaneously generating, for example, numerous different functional biomolecules, particularly to methods for generating numerous different functional nucleic acids against multiple target molecules simultaneously. The present invention further relates to functional ligands which bind with affinity to targets, such as viruses (e.g. Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)), and/or antigens thereof (e.g. Spike protein and/or its subunits).

Complexes comprising a nucleic acid-guided endonuclease, a sequence-specific targeting nucleic acid and an amphipathic helical peptide are provided. Compositions and methods for delivery of complexes comprising a nucleic acid-guided endonuclease, a sequence-specific targeting nucleic acid and an amphipathic helical peptide to mammals for both research and therapeutic use are provided. Methods of treating or reducing one or more symptoms of type 2 diabetes, prediabetes and/or gestational diabetes are provided.

Provided herein are DNA aptamers targeting AXL receptor kinase. The DNA aptamers may comprise a thiophosphate backbone and be chemically modified. Further provided herein are methods of use thereof for the treatment of a disease or disorder, such as cancer.

The present disclosure relates to in vitro experiments and in silico computation and machine-learning based techniques to iteratively improve a process for identifying binders that can bind any given molecular target. Particularly, aspects of the present disclosure are directed to obtaining sequence data for aptamers that bind to a target, where the sequence data has a first signal to noise ratio, generating, by a search process, a first set of aptamer sequences derived from the sequence data, obtaining subsequent sequence data for subsequent aptamers that bind to the target, where the subsequent aptamers includes aptamers synthesized from the first set of aptamer sequences, and the subsequent sequence data has a second signal to noise ratio greater than the first signal to noise ratio, generating, by a linear machine-learning model, a second set of aptamer sequences derived from the subsequent sequence data, and outputting the second set of aptamer sequences.

The present disclosure provides oligonucleotide compositions comprising (1) an oligonucleotide of the present disclosure, e.g., an ASO, siRNA, shRNA, DNA or RNA aptamer, gene therapy vector, miRNA, miRNA mimic, antimiR, DNA or RNA decoy, CpG oligonucleotide, or any therapeutic or diagnostic oligonucleotide known in the art, and (ii) a caprylic acid derivative, e.g., 5-CNAC. In some aspects, the oligonucleotide composition is formulated for delivery to the gastrointestinal tract. Thus, some aspects, the present disclosure provides oligonucleotide compositions for oral delivery comprising a therapeutic or diagnostic oligonucleotide (e.g., an ASO) and a caprylic acid derivative (e.g., 5-CNAC or de derivative thereof).

The invention provides polynucleotide constructs for the regulation of gene expression by aptamer-based modulation of self-cleaving ribozymes and methods of using the constructs to regulate gene expression in response to the presence or absence of a ligand that binds the aptamer. The invention further provides methods for making and using riboswitches that decrease target gene expression in response to an aptamer ligand as well as riboswitches that increase target gene expression in response to an aptamer ligand.

Compositions and methods disclosed herein can help provide improved delivery of non-natural therapeutic nucleotides for the treatment of diseases such as cancer. An example composition includes an assembly of amphiphilic polynucleotides, where each amphiphilic polynucleotide includes an aptamer portion, a first nucleotide portion, and a second nucleotide portion.

It is an object of the present invention to provide an RNA aptamer that specifically binds histamine. The present invention is related to an nucleic acid aptamer that binds to histamine, comprising the base sequence (i) or (ii) below: (i) the base sequence of SEQ ID NO: 1; (ii) the base sequence comprising substitution(s), deletion(s), and/or addition(s) of 1 to 3 base(s) in the base sequence of SEQ ID NO: 1.