Provided herein are, inter alia, antibodies, antigen-binding antibody fragments, cells, polynucleotides, compositions, kits, and methods relating to the detection of HBV protein X (HBx), e.g., in vitro and in vivo. Included are antibodies and fragments thereof that bind HBx, as well as kits, cells, and compositions comprising such antibodies and fragments.

The present invention aims at providing a specific antibody that can simply and rapidly detect Mycoplasma pneumoniae which is a causative bacterium of mycoplasma pneumonia, with high sensitivity, and also an immunological detection method and a kit containing the same antibody. The present invention makes it possible to diagnose infection with Mycoplasma pneumoniae more rapidly and specifically than the conventional method, by producing an antibody recognizing a specific epitope of P30 protein of Mycoplasma pneumoniae and performing an immunological detection using the antibody. Also, the present invention enables easy and rapid detection of Mycoplasma pneumoniae and diagnosis of infection with the same at a hospital or the like without need of specialized instruments or skilled techniques.

A method for evaluating a biological material for unassociated virus-like particles virus size having a particular epitope uses a fluorescent antibody stain specific for binding with the epitope and a fluid sample with the virus-size particles and fluorescent antibody stain is subjected to flow cytometry with identification of fluorescent emission detection events indicative of passage through a flow cell of a flow cytometer of unassociated labeled particles of virus size including such a virus-like particle and fluorescent antibody stain.

The present invention aims at providing a specific antibody that can simply and rapidly detect Mycoplasma pneumoniae which is a causative bacterium of mycoplasma pneumonia, with high sensitivity, and also an immunological detection method and a kit containing the same antibody. The present invention makes it possible to diagnose infection with Mycoplasma pneumoniae more rapidly and specifically than the conventional method, by producing an antibody recognizing a specific epitope of P30 protein of Mycoplasma pneumoniae and performing an immunological detection using the antibody. Also, the present invention enables easy and rapid detection of Mycoplasma pneumoniae and diagnosis of infection with the same at a hospital or the like without need of specialized instruments or skilled techniques.

Provided herein are methods of screening for agents that can partition in viral condensates and therefore may be effective anti-viral agents. Also disclosed are methods of optimizing the activity and reducing the side effects of known or suspected anti-viral agents by screening the portioning of modified known or suspected anti-viral agents in viral condensates and other condensates occurring in cells (e.g., transcriptional condensates).

Disclosed herein is a novel class of isolated binding molecules including monoclonal antibodies that targets a broadly conserved epitope within the marburgvirus species. Certain aspects provide an effective treatment option for hemorrhagic fever caused by marburgviruses.

The virus test device encompasses a pseudo-receptor film having pseudo-receptors mimicking a structure of a host-cell receptor, which binds specifically to a target virus, a virus introducing-tube for sucking down an air-under-test (AUT) containing the target viruses, to compress the AUT into a high-speed air-flow of aerosols-under-test, concentrating the target viruses contained in the AUT, and to eject the high-speed air-flow to the pseudo-receptor film, a signal conditioner for converting physical signals, which represent alterations of physical states of the pseudo-receptor film ascribable to specific bindings of the pseudo-receptors with the target viruses, to electric signals.

Provided are an anti-RS virus antibody with high sensitivity and a test reagent using the antibody.

An anti-RS virus N protein monoclonal antibody, comprising a heavy chain variable region consisting of the amino acid sequence as set forth in SEQ ID NO: 1, and a light chain variable region consisting of the amino acid sequence as set forth in SEQ ID NO: 2, 3 or 4, or an antigen-binding fragment thereof.

The present disclosure provides methods and kits for detecting Group A Streptococcus in biological samples. More particularly, the present disclosure provides methods for enhancing the specificity and sensitivity of Group A Streptococcus immunoassays by including N-propionyl-D-glucosamine, 2-N-butanoyl-D-glucosamide, Bis-(2-(D-2-deoxy-glucosaminyl))-PEG3-amide, m-PEG4-glucosamine, m-PEG6-glucosamine, or m-PEG10-glucosamine. The methods and kits disclosed herein are thus useful for reliable and early diagnosis of streptococcal infections in a subject.

The present invention is directed to particular monoclonal antibodies and fragments thereof that find use in the detection, prevention and treatment of Streptococcus pneumoniae infections. In particular, these antibodies may kill Streptococcus pneumoniae or limit the replication of Streptococcus pneumoniae. Also disclosed are improved methods for producing such monoclonal antibodies.