The present invention relates to a method for reducing the occurrence and/or severity of viral infections. The method embodies procedures for expanding HIV from the blood of HIV antibody negative donors and deriving a non-infectious virus particle product that is antigenic. The procedures for deriving the antigenic, non-infectious virus particle product are optimally designed to maintain the integrity of the envelope proteins while maximizing the depletion of capsid proteins and RNA. The resulting virus particle product, when introduced into humans or non-human animals, enables the production of antibodies that target the natural envelope macromolecular structure that is required for infectivity. The present invention can be applied to producing virus stocks from the blood of HIV-seronegative donors, for deriving non-infectious virus particles that retain intact envelope proteins, for producing anti-viral antibodies, and for administering anti-virus antibodies to patients.

The invention is a self-administered urine based lateral flow immunoassay that detects the presence of an HPV oncogene and thus the presence in a test subject of HPV.

The present invention relates to novel strains of avian reovirus that were isolated from clinical cases of viral arthritis/tenosynovitis in chickens in the southeast United States. The invention is directed to these novel group 1 and group 2 avian reoviruses, diagnostic assays using antibodies and/or nucleotide- or amino acid-specific components of such viruses, such as the S1 gene encoding the sigma C protein, and to vaccines that protect chickens from disease caused by such viruses.

Disclosed is a method for the detection of an IgM antibody specific for a flavivirus in a sample, comprising the steps of (a) contacting the sample with a solid support comprising immobilised IgM-binding molecules, (b) allowing binding of IgM antibodies in the sample to the IgM binding molecules on the solid support so that the IgM antibodies are also immobilised on the solid support, and (c) detecting IgM antibodies specific for a flavivirus by allowing binding of a complex comprising (i) an antiparallel dimer of soluble flavivirus Protein E (sE) and (ii) a marker and identifying the binding of the complex to the specific flavivirus IgM antibody by detecting the marker; and a kit suitable for performing the method.

The present invention provides an improvement method and a system for decreasing the limit of detection of the presence of an analyte in a sample. In particular, the present invention provides an article or a system, such as a diagnostic kit, for detecting the presence of an analyte in a sample, comprising (i) a microsphere coated with an affinity ligand, or a spore or bacterium expressing one or more proteins on the surface thereof, (ii) a signal-producing substances, and (iii) a binding agent, wherein the signal-producing substance is conjugated with the binding agent and an antibody specific to the affinity ligand on the microsphere or the protein expressed by the spore or bacterium, wherein the signal-producing substances are conjugated to the microsphere, spore or bacterium through the binding of the antibodies specific to the affinity ligand or the protein.

The present disclosure relates to methods for biosensing using one-dimensional conducting polymer systems. The present disclosure also relates to one-dimensional sensors having substrates coated with conducting polymers such as polyaniline. The geometry of the substrates is configured to maximize the geometrical probability of detecting pathogens, aerosols, etc.

A method of analyzing biological data containing expression values of a plurality of polypeptides in the blood of a subject. The method comprises: calculating a distance between a segment of a curved line and an axis defined by a direction, the distance being calculated at a point over the curved line defined by a coordinate along the direction. The method further comprises correlating the distance to the presence of, absence of, or likelihood that the subject has, a bacterial infection. The coordinate is defined by a combination of the expression values, wherein at least 90% of the segment is between a lower bound line and an upper bound line.

Disclosed are methods, systems and devices for detection of biomarkers. In certain embodiments, the methods and/or devices and/or systems may be used for the detection of biomarkers characteristic of disease. For example, disclosed are methods, systems and devices that may be used to detect and distinguish a biomarker profile indicative of the presence of COVID-19 as either an active infection, or a subject in remission, or a subject who has not been exposed to the virus.

Compositions and methods are provided for detection, diagnosis and prognosis of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) disease (COVID-19) and for characterization of SARS-CoV-2 antigen-specific T-cell immune responsiveness in COVID-19 patient samples, including in secondary in vitro immune response assays for long-lived anamnestic (memory) T-cell responses. Disclosed compositions and methods include a method that comprises contacting, in vitro, whole blood samples from subjects suspected of having COVID-19 or who have previously been exposed to SARS-CoV-2, with synthetic peptides comprising T-cell epitope-containing regions derived from SARS-CoV-2 Spike proteins; and indirectly detecting SARS-CoV-2-specific activated T-cells by determining production of a T-cell immune response indicator (e.g., interferon-) in response to stimulation by the Spike protein-derived peptides.

The present technology relates to cell-free systems, methods, and kits for expressing proteins in vitro and evaluating the expressed proteins. In particular, the technology relates to cell-free systems, methods, and kits for expressing antibodies, antigen-binding fragment thereof, and antibody derivatives in vitro and evaluating the expressed antibodies, antigen-binding fragment thereof, and antibody derivatives.