The present disclosure provides a test kit for simultaneously detecting a plurality of analytes, in which the test kit includes a lysis solution and a test strip. The lysis solution includes a salt, a surfactant, a stabilizer, and a buffer solution. The test strip includes a sample pad, a conjugation pad, a cellulose membrane, and a water-absorbing pad sequentially arranged on a support plate. The conjugation pad includes a conjugation pad solution and a plurality of antibody-conjugated microspheres, and the antibody-conjugated microspheres recognize plurality of analytes. The test kit of the present disclosure achieves an effect of simultaneously detecting more than or equal to four analytes even though the conjugation pad has a limited capacity of the antibody by preparing the lysis solution with appropriate ingredients and improving a formulation of the solution contained in the test strip.

This disclosure provides methods for identifying a subject suitable for an adeno associated vims (AAV) therapy. In some embodiments, the method comprises measuring a titer of an antibody or antigen-binding portion thereof that specifically binds to an AAV (“anti-AAV antibody”) in a biological sample obtained from the subject using an enzyme-linked immunosorbent assay (ELISA).

A method for preventing obesity related to infection by an adipogenic adenovirus includes obtaining a sample from a person, assaying the sample to determine whether the person has been previously infected with an adipogenic adenovirus, and if the person has not been previously infected, providing the person with at least one sensor positioned to detect when a person's hand approaches a predetermined distance from the person's face. By warning the person of undesired hand-to-face contacts, the person is able to reduce the incidence of obesity related infections. Other embodiments are directed to a kit for preventing obesity caused by infection with an adipogenic adenovirus, such kit including a container for assaying an agent indicating the presence of antibodies to Ad-36, and a sensor positioned on an item selected from the group consisting of one of a hat, a writing instrument, eye glasses, a belt, sunglasses, a bra, a shirt, and a tie.

Provided herein are methods for determining the serotype of a virus particle and/or or determining the heterogeneity of a virus particle (e.g., an AAV particle). In other embodiments, the invention provides methods to determine the heterogeneity of AAV particles. In some aspects, the invention provides viral particles (e.g., rAAV particles) with improved stability and/or improved transduction efficiency by increasing the acetylation and/or deamidation of capsid proteins.

The present disclosure provides methods and compositions to develop AAV capsids with a desired characteristic compared to a natural AAV serotype. These capsids are useful, for example, for the delivery of genome engineering molecules and gene therapy molecules for the treatment of a subject in need thereof.

Provided herein are methods of producing an adeno-associated virus (AAV) product and methods of purifying adeno-associated virus. AAV is loaded onto an affinity resin, wash steps are undertaken, and AAV is eluted from the affinity resin. Various buffers are disclosed for use in the wash steps and elution.

A method for preventing obesity related to infection by an adipogenic adenovirus includes obtaining a sample from a person, assaying the sample to determine whether the person has been previously infected with an adipogenic adenovirus, and if the person has not been previously infected, providing the person with at least one sensor positioned to detect when a person's hand approaches a predetermined distance from the person's face. By warning the person of undesired hand-to-face contacts, the person is able to reduce the incidence of obesity related infections. Other embodiments are directed to a kit for preventing obesity caused by infection with an adipogenic adenovirus, such kit including a container for assaying an agent indicating the presence of antibodies to Ad-36, and a sensor positioned on an item selected from the group consisting of one of a hat, a writing instrument, eye glasses, a belt, sunglasses, a bra, a shirt, and a tie.

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.

Peptide-based molecules for modulating expression or accessibility to the coxsackievirus and adenovirus receptor (CAR) are disclosed. Cell-permeable peptide-based molecules having a PDZ-decoy domain or PDZ-binding domain are used to modulate the expression or accessibility of CAR molecules, thereby affecting the ability of viral molecules, or molecules containing viral sequences or proteins able to bind CAR, to enter host cells.

The present invention is intended to provide an immunoassay method that enables an immunoassay with high sensitivity at a high development rate without causing aggregation of insoluble carriers or non-specific reaction while improving test efficiency and reducing labor. The present invention relates to an immunoassay method that uses a test device, and the method includes: extracting an antigen of a detection target in an analyte with an extraction agent; and detecting the detection target with a detection reagent capable of binding the antigen. The extraction agent is a nitrous acid generated on the test device by a contact reaction between a nitrite salt and a heterocyclic compound having at least one skeleton selected from the group consisting of a cyclic ester, a cyclic amide, and a cyclic imide.