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.

Kits and methods for the detection and enrichment of RNA viruses of the family Coronaviridae. The detection method comprises the steps of (a) coupling a binding agent that specifically recognizes and binds to a virus component to a carrier material, (b) incubating the carrier material with the thereon coupled binding agent with a virus-containing sample, (c) staining the viruses immobilised on the carrier material with a staining agent, and (d) detecting stained virus particles via a physical, chemical or biological detection means. The methods may be suitable for the rapid and efficient detection of coronaviruses, such as SARS-CoV-2. With the methods and kits, it is possible to perform rapid high-throughput tests in a large population. At the same time, the enrichment procedure makes it possible to enrich viral samples, e.g. from a throat swab of a patient, for use in a subsequent PCR.

A system configured to determine the load in a liquid sample of predetermined antigens is provided. The system comprises a measurement chamber configured for receipt therein of the liquid sample, a sensor circuit, and an analysis unit. The sensor circuit comprises a plurality of working electrodes, each comprising antibodies on its surface associated with one of the predetermined antigens, at least one reference electrode, and at least one counter electrode. Proximal ends of the electrodes are disposed on a reading zone of the sensor circuit, the reading zone being disposed within the measurement chamber. The analysis unit is configured to facilitate the determination of the load of each of the antigens by measuring electrical properties of the electrodes.

There are provided a sample solution concentration method that makes it possible to obtain a sample solution concentrated solution having a desired concentration fold ratio and a sample solution examination method using the sample solution concentration method. The sample solution concentration method includes, in the following order, a sample solution injection step of injecting a sample solution, which is an aqueous solution containing a high-molecular-weight molecule, into a cylinder accommodating a particulate super absorbent polymer, a water absorption step in which water contained in the sample solution injected into the cylinder is absorbed by the super absorbent polymer accommodated in the cylinder to generate a sample solution concentrate which is a concentrate of the sample solution, in the cylinder, a liquid addition step of adding a liquid having an amount smaller than an amount of the sample solution injected into the cylinder in the sample solution injection step, to the sample solution concentrate, and a taking-out step of inserting, into the cylinder, a piston insertable into the cylinder, the piston including a tip part having holes smaller than a particle diameter of the super absorbent polymer after water absorption, to take out a sample solution concentrated solution, which is a concentrated solution of the sample solution, through the holes in the tip part of the piston.

The instant invention provides various formulations comprising combinations of immunostimulating oligonucleotides, polycationic carriers, sterols, saponins, quaternary amines, TLR-3 agonists, glycolipids, and MPL-A or analogs thereof in oil emulsions, use thereof in preparations of immunogenic compositions and vaccines, and use thereof in the treatment of animals.

An example biosensor includes a substrate, a graphene layer disposed on the substrate, and a binding site bonded to the graphene. The binding site includes an antibody configured to bind a SARS-CoV-2 spike glycoprotein.

Aspects relate to devices, systems, and methods for non-invasive testing. The device may include a cartridge that analyzes a nasopharyngeal swabbing sample. The device may also include first and second waveguides, where each waveguide is configured to propagate an electromagnetic (EM) wave.

Disclosed herein are anti-SARS-CoV-2 spike protein antibodies and methods of using such for therapeutic and/or diagnostic purposes. Also provided herein are methods for producing such antibodies.

Disclosed herein is a method of detecting the presence of a target analyte in a sample. Disclosed herein are also a system, an article, and a kit for detecting the presence of a target analyte in a sample. Disclosed herein is also the use of the system, or the article, or the kit for biomolecule, bioorganelle, bioparticle, cell and microorganism detection.

The present invention is directed to particular monoclonal antibodies and fragments thereof that find use in the detection, prevention and treatment of Streptococcus pneumoniae infections. In particular, these antibodies may kill Streptococcus pneumoniae or limit the replication of Streptococcus pneumoniae. Also disclosed are improved methods for producing such monoclonal antibodies.