The present disclosure is directed to antibodies binding to and neutralizing hantavirus and methods for use thereof.

The invention relates to methods and kits for determining a SARS-CoV-2 strain in a sample. The invention further provides methods and kits for detecting a single nucleotide polymorphism (SNP) in a target nucleic acid, wherein the target nucleic acid is a SARS-CoV-2 nucleic acid. The invention further provides methods and kits for detecting one or more antibody biomarkers in a sample.

The present invention relates to a method for virus assay. More closely the invention relates a method for total quantification of adenovirus in a sample as well as total and functional (active) adenovirus in a sample. The method for determining adenovirus concentration in a sample comprises subjecting said sample to SPR (surface plasmon resonance) assay with immobilized FX (Factor X) and/or immobilized CAR (coxsackievirus and adenovirus receptor) on a sensor surface, wherein the adenovirus concentration is determined from sample binding to immobilized FX and/or immobilized CAR. CAR can be replaced by an ligand binding to adenovirus fiber, such as an anti-adenovirus fiber antibody. FX can be replaced by a ligand binding to adenovirus hexon, such as an anti-adenovirus hexon antibody. The method can be used for quality control in an adenovirus purification process, for example for gene therapy.

Embodiments described herein generally relate to: sensing and/or authentication using luminescence imaging; diagnostic assays, systems, and related methods; temporal thermal sensing and related methods; and/or to emissive species, such as those excitable by white light, and related systems and methods.

The presently-disclosed subject matter relates to crosslinkers, compositions, and methods for trapping a target of interest on a substrate of interest. The methods may be used to inhibit and treat pathogen infection and provide contraception. The methods may be used to trap or separate particles and other substances. The subject matter further relates to methods of identifying and preparing optimal crosslinkers and methods for manipulating targets of interest.

The present disclosure describes methods of detecting viral biomolecules such as viruses through frequency response. A method (200) of detecting a vims includes exposing (210) a sensor surface to a fluid sample containing a suspected virus. The sensor surface can be a surface of a resonator having a clean resonant frequency from about 1 MHz to about 1 GHz. The surface can be modified with molecular recognition groups selective for binding to the viral biomolecule. A resonant frequency of the resonator can be measured (220) after exposing the sensor surface to the fluid sample. The measured resonant frequency can be compared (230) with a clean resonant frequency indicating the presence of the viral biomolecule bound to the molecular recognition groups and then outputted (240) as a detection signal.

Provided are a recombinant N protein of SARS-CoV-2 and methods for preparing the same and for purifying the same. The recombinant N protein of SARS-CoV-2 has an N protein sequence, wherein each of both ends of the N protein sequence are linked to an oligolysine fragment. An expression method for the recombinant N protein includes: a. providing a sample including the recombinant N protein; and b. performing cation exchange chromatography resin purification treatment at least once, and collecting breakthrough substance. The method may effectively improve the expression purity of the recombinant N protein.

The present invention provides a method of immunologically detecting SARS-CoV-2, the method comprising detecting a SARS-CoV-2 N protein in a specimen taken from a subject by using the following antibodies (1) and (2): (1) a first antibody to a first epitope in a 306th to 339th amino acid region in the SARS-CoV-2 N protein, and (2) a second antibody to a second epitope in a 365th to 419th amino acid region in the SARS-CoV-2 N protein.

Methods and techniques are described for analyzing test fluids to determine presence, absence, or concentration of analytes in the test fluids. The methods may correspond to diagnostic testing, such as quickly (within 5 minutes) identifying whether or not an individual may have a particular disease or condition, such as infection by SARS-CoV-2 or a SARS-CoV-2 variant or vaccine-induced immunity or natural immunity to infection by SARS-CoV-2 or a SARS-CoV-2 variant, or whether an individual would benefit from a vaccine booster. The test results can be used for a variety of applications including facilitating or controlling access at events, venues, or transportation systems, or generating exposure notifications.

The present invention provides antibodies that neutralize MERS-CoV and methods of use thereof. The invented antibody is used to treat MERS-CoV infections and symptoms thereof.