A method for detecting a disease marker using self-amplification of a detection signal is disclosed. The method can include (a) a step of simultaneously inducing an antigen-antibody immune response and an Au particle formation reaction by reduction of Au ions in an assay solution prepared by, to a pre-assay solution in which all of an antibody or antigen for detection of a disease-specific marker, free Au ions, and adsorbed Au ions are present, adding a sample, which contains a disease-specific antigen or antibody binding specifically to the antibody or the antigen, and a reducing agent; and (b) a step of confirming the presence or absence of a disease-specific marker by a chromogenic reaction through the Au particle formation.

The present invention provides compositions and methods of use comprising a chimeric dengue virus E glycoprotein comprising a dengue virus E glycoprotein backbone, which comprises amino acid substitutions that introduce a dengue virus E glycoprotein domain I and domain II hinge region from a dengue virus serotype that is different from the dengue virus serotype of the dengue virus E glycoprotein backbone.

The present invention provides soluble truncated peptides of CDHR3, recombinant variants thereof and methods of making these peptides. The present invention also provide methods of inhibiting rhinovirus C infection and an in vitro assay for screening for anti-viral agents against rhinovirus C.

A method includes attaching two or more beads to each unit of one or more units of a chemical component in a sample, to form, for each unit of the chemical component, a multi-bead complex including two or more beads and the unit of the chemical component; placing the sample on a surface of an image sensor; at the image sensor, receiving light originating at a light source, the received light including light reflected by, refracted by, or transmitted through the beads of the multi-bead complexes; at the image sensor, capturing one or more images of the sample from the received light; and identifying, in at least one of the images of the sample, separate multi-bead complexes, the identifying of the separate multi-bead complexes including associating the two or more beads of each of the multi-bead complexes based on proximity to one another.

Disclosed herein are isolated humanized monoclonal antibodies that specifically bind Japanese encephalitis virus (JEV) with a binding affinity of about 1.0 nM or less. Nucleic acids encoding these antibodies, expression vectors including these nucleic acid molecules, and isolated host cells that express the nucleic acid molecules are also disclosed. Methods of treating, preventing, and/or ameliorating JEV infection in a subject with JEV also are disclosed. Additionally, the antibodies can be used to detect JEV in a sample, and methods of diagnosing JEV infection, or confirming a diagnosis of JEV infection in a subject, are disclosed herein that utilize these antibodies.

The invention provides broadly neutralizing antibodies directed to epitopes of Human Immunodeficiency Virus, or HIV. The invention further provides compositions containing HIV antibodies used for prophylaxis, and methods for diagnosis and treatment of HIV infection.

Monoclonal neutralizing antibodies are disclosed that specifically bind to the HIV-1 gp41 membrane-proximal external region (MPER). Also disclosed are compositions including the disclosed antibodies that specifically bind gp41, nucleic acids encoding these antibodies, expression vectors including the nucleic acids, and isolated host cells that express the nucleic acids. The antibodies and compositions disclosed herein can be used for detecting the presence of HIV-1 in a biological sample, or detecting an HIV-1 infection or diagnosing AIDS in a subject. In additional, the broad neutralization breadth of the disclosed antibodies makes them ideal for treating a subject with an HIV infection. Thus, disclosed are methods of treating and/or preventing HIV infection.

The present disclosure provides assays, such as lateral flow assays, and components thereof for detection of an analyte, e.g., a neutralizing antibody, that blocks binding of a first molecular component and a second molecular component of a molecular binding pair. In some embodiments, the disclosed assays and components thereof enable the rapid detection of a SARS-CoV-2 neutralizing antibody in a sample from an individual. Also provided in other aspects of the disclosure are devices, methods of making and using, and kits of the assays described herein.

Disclosed are compositions and methods for the use of lipoplex nanoparticle chips and arrays in the detection of/diagnosis of a disease or condition.

Discloses are a method for detecting Norovirus using a Norovirus animal model, a method for screening an antivial agent against Norovirus, and a composition for neutralizing the infection with an enteric virus, containing concanavalin A as an active ingredient, so that the method for detecting Norovirus can allow the distinction between infectious Norovirus and non-infectious Norovirus, and the composition can neutralize a virus causing food poisoning.