The present invention is related to a method for treating cancer by using siRNA nanocomplex consisting of a nucleic acid molecule, a monocationic drug and a biocompatible polymer surfactant. The present nanocomplex can deliver an active ingredient (for example, a nucleic acid molecule and monocationic drug) into a cell/tissue of interest in a stable manner, and may be effectively applied for treating or detecting diverse disorders (practically, cancers).

The subject invention provides materials and methods for single-step fluorescence and electrochemical detection of small molecules, e.g., fentanyl and its analogs, in a sample. The subjection invention provides nucleic acids materials, e.g., aptamers (nucleic acid oligonucleotides) that can bind to fentanyl and its analogs with nanomolar affinity and high specificity against illicit drugs, adulterants, and cutting agents commonly existing in seized samples. The method for detecting fentanyl and/or its analogs in a sample comprises contacting the sample with an aptamer-based sensor selective for fentanyl and its analogs, and sensitively, specifically, and rapidly detecting fentanyl and/or its analogs in the sample.

The invention relates to a fiber-optic wave guide sensor of aptamers having functions of in situ target enrichment and purification, and a method for detection of small molecules to realize the quantitative detection of small molecules targets based on that small molecules targets and the aptamers complementary short strand DNA competitively bind with aptamers tethered on the fiber surface. It synchronously realized specifically binding aptamers with targets and in situ target enrichment and purification of targets by modifying aptamers and solid micro extraction layer with silica fibers of the fiber-optic wave guide sensor, which can achieve the ultrasensitive and ultrahigh specific quick detection for all types of small molecule targets regardless of any signal amplification reaction based on enzyme. The detection limitation is very low with good generalizability.

The present disclosure methods for identifying binding partners using cell surface display libraries, where the cells of the library display engineered peptides on their cell surfaces for identification of peptides that bind to targets of interest. The engineered peptides are preferably expressed in the cells under conditions that provide both secretion and display of the engineered peptides on the cell surfaces, thus providing access of the engineered peptides to identify potential binding pairs. The cell libraries cab be engineered using an automated editing system that provides for one or more targeted edits per cell.

Disclosed are methods of detecting and treating suspected B-cell lymphoma.

The present disclosure provides oligomeric compounds. The present disclosure provides metabolically stable linkers that do not rapidly degrade in vivo. In certain embodiments, the present disclosure provides metabolically stable linkers for use in attaching a conjugate group to an oligonucleotide.

Provided herein are imaging agents, antidotes to the imaging agents and methods of using the same to image a thrombus or blood clot or thrombin including sites of thrombin accumulation and to diagnose and treat thrombosis. The imaging agents include an aptamer capable of binding the thrombus or thrombin in particular linked to a reporter moiety. The imaging agents may be used to label the thrombus or sites of thrombin accumulation. Antidotes capable of binding to the aptamer in the imaging agent are also provided. The antidotes may further be linked to a quencher capable of quenching the reporter moiety.

In some embodiments, the invention is directed to a method for diagnosing fibrosis and/or fibrosis related diseases and to a method for screening a pharmaceutically active compound for the treatment of fibrosis and/or fibrosis related diseases. The present invention further relates to compositions for use in the treatment, amelioration, and/or prevention of fibrosis. In certain embodiments, the compositions modulate the activity of a miRNA for the treatment, amelioration, and/or prevention of fibrosis. In certain embodiments, the compositions inhibit the activity of miR-21 for the treatment, amelioration, and/or prevention of fibrosis.

Provided herein are methods of characterising a target polypeptide as it moves with respect to a nanopore. Also provided are related kits, systems and apparatuses for carrying out such methods.

The invention relates to one or more aptamers isolated against the SARS-CoV-2 spike protein and methods of using the same. Certain embodiments of the invention relate to methods of detecting the presence, absence or amount of SARS-CoV-2 in a sample using the one or more aptamers described herein. In certain embodiments, the invention relates to one or more aptamers that are capable of specifically binding to SARS-CoV-2 proteins, including aptamers that are capable of specifically binding to the S1 subunit (including the receptor binding domain (RBD)) and/or the S2 subunit within their native conformation as part of the SARS-CoV-2 spike protein in its trimeric form or as separate monomers.