A novel technique for label-free, rapid detection of ultra-low concentrations of virus specific antibodies is described. We have developed a simple, robust capacitive biosensor using microwires coated with Zika or Chikungunya virus envelope antigen. With little discernable nonspecific binding, the sensor can detect as few as 10 antibody molecules in a small volume (10 molecules/30 L) within minutes. It can also be used to rapidly, specifically, and accurately determine the isotype of antigen-specific antibodies. Finally, we demonstrate that anti-Zika virus antibody can be sensitively and specifically detected in dilute mouse serum and can be isotyped using the sensor. Overall, our findings indicate that our microwire sensor platform can be used as a reliable, sensitive, and inexpensive diagnostic tool to detect immune responses at the point of care.

The present application relates to composition of matter, processes and use of composition of matter relating to flavivirus peptides and epitopes, for example, for therapeutic or preventative vaccination against a flavivirus, and/or for inducing, enhancing, or sustaining an immune response against a flavivirus, and/or for detecting an infection with or an exposure to a flavivirus in a subject. The flavivirus may be for example the Zika and/or Dengue virus.

Disclosed are methods for identifying desired members from a display libraries, including bacteriophage display libraries. Display library members can be amplified in the presence of a target compound so that cycles of selection can be rapidly completed.

Systems, methods, and devices for detecting infections in a clinical sample are provided. Small-volume clinical samples obtained at a point-of-service (POS) location and may be tested at the POS location for multiple markers for multiple diseases, including upper and lower respiratory diseases. Samples may be tested for cytokines, or for inflammation indicators. Dilution of samples, or levels of detection, may be determined by the condition or past history of a subject. Test results may be obtained within a short amount of time after sample placement in a testing device, or within a short amount of time after being obtained from the subject. A prescription for treatment of a detected disorder may be provided, and may be filled, at the POS location. A bill may be automatically generated for the testing, or for the prescription, may be automatically sent to an insurance provider, and payment may be automatically obtained.

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 an epitope that is recognized by an antibody from a dengue virus serotype that is different from the dengue virus serotype of the dengue virus E glycoprotein backbone.

A pathogen detection system includes pathogen detectors disposed in different locations, and a controller. The pathogen detectors include a first pathogen detector and a second pathogen detector. The first pathogen detector transmits a first detection result obtained as a result of pathogen detection to the controller, and the second pathogen detector transmits a second detection result obtained as a result of pathogen detection to the controller. In a case where the first detection result satisfies a predetermined condition, the controller causes the second pathogen detector to change a mode related to the pathogen detection from a first mode to a second mode.

The present invention relates to a method for screening a compound useful for treating or preventing a viral infection or a virus-related condition in an individual, comprising at least the steps of: a) determining the ability of a candidate compound to promote the interaction between CBP20 and CBP80 in a sample, and b) selecting the candidate compound that is determined to promote said interaction at step a). The present invention further relates to a method for screening a compound useful for treating or preventing a viral infection or virus-related condition in an individual, comprising at least the steps of: a) determining the ability of a candidate compound to interact with CBP20 or CBP80 in a sample, and b) selecting the candidate compound that is determined to interact with CBP20 or CBP80 at step a).

Disclosed herein are recombinant baculoviruses suitable for detecting the presence of arthropod-borne viruses in a biological sample of a test subject. The information derived from the detection may also be used to render a diagnosis on whether the test subject is infected with the arthropod-borne viruses or not, so that proper course of treatment may be assigned to the subject.

Provided herein are antibodies that bind to neuraminidase (NA) of different strains of influenza B virus, host cells for producing such antibodies, and kits comprising such antibodies. Also provided herein are compositions comprising antibodies that bind to NA of different strains of influenza B virus and methods of using such antibodies to diagnose, prevent or treat influenza virus disease.

Assays, arrays, and methods for distinguishing a bacterial infection from a viral infection are disclosed. The antibiotic crisis is in part driven by over prescription of antibiotics. There is a tendency, particular in pediatrics, to give an antibiotic even for viral infections. Thus, embodiments herein are directed to the problem of distinguishing a bacterial infection from a viral infection to reduce unnecessary antibiotic usage.