Proteins, protein fragments, nucleic acids and vectors derived from Neisseria gonorrhoeae, as well as to methods of inducing immunity against N. gonorrhoeae. Also disclosed are antibodies binding to the proteins and protein fragments.

A method for screening substances for their ability to reduce malodours from emanations from an animal, said method comprising determining the effect of said substances on the C-S lyase activity of bacteria that emit volatile sulphuric compounds (VSCs), by contacting a test substance with a sample comprising said bacteria or a supernatant obtainable from a culture of said bacteria in the presence of a substrate for a C-S lyase, detecting the levels of thiol production from said bacteria, and comparing the results with those obtained from similar bacteria in the absence of said substance.

Compositions consisting of bioactive molecules derived from the microbiota of a mammal are provided herein. When administered orally with a colonic delivery system, the compositions are useful for the prophylaxis and treatment of diseases, in particular inflammatory, autoimmune and infectious diseases. The compositions comprise combinations of small molecules and bacterial antigens formulated in colonic delivery systems. Use of the compositions results in any or all of: induction of immune tolerance; strengthening of the gut mucosal barrier integrity; reduction of inflammation; and amelioration of a disease state caused by inflammation, an autoimmune reaction or an infectious agent.

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.

The present invention is directed generally to eukaryotic cells comprising single-celled organisms that are introduced into the eukaryotic cell through human intervention and which transfer to daughter cells of the eukaryotic cell, and methods of introducing such single-celled organisms into eukaryotic cells. The invention provides single-celled organisms that introduce a phenotype to eukaryotic cells that is maintained in daughter cells. The invention additionally provides eukaryotic cells containing magnetic bacteria. The invention further provides eukaryotic cells engineered with single-celled organisms to allow for multimodal observation of the eukaryotic cells. Each imaging method (or modality) allows the visualization of different aspects of anatomy and physiology, and combining these allows the imager to learn more about the subject being imaged.

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.

The object is to provide a lysis method, lysis treatment solution, detection method using an immunochromatographic device, and detection kit comprising an immunochromatographic device for detecting whether causative bacteria of mastitis are coliform bacteria or not by using milk of a livestock animal. There is provided a method for lysing coliform bacteria, which comprises the step of mixing a lysis agent containing a lytic enzyme, and at least one kind of anionic surfactant, and preferably further containing at least one kind of nonionic surfactant, with milk obtained form a livestock animal to lyse coliform bacteria existing in the milk. The lytic enzyme is preferably lysozyme.

In a general aspect, an apparatus can include a first carbon nanotube array that is patterned to define a first electrode having a first plurality of electrode segments. The apparatus can also include a second carbon nanotube array that is patterned to define a second electrode having a second plurality of electrode segments. The second plurality of electrode segments can be interdigitated with the first plurality of electrode segments. The apparatus can further include a biorecognition agent disposed on a surface of the first electrode and disposed on a surface of the second electrode. The first plurality of electrode segments can each have a height-to-width aspect ratio of at least 1 to 1.

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 diagnostic device (1) for detecting a first member of a reporter-analyte pair. The diagnostic device comprises an inlet for receiving a liquid, biological sample and a porous membrane element (10) comprising a detection portion. The detection portion is in liquid communication with the inlet and a second member of the reporter-analyte pair is immobilised on the detection portion. One of the first or second member of the reporter-analyte pair comprises a biological antigen and the other of the first or second member of the reporter-analyte pair comprises an antibody specific for the biological antigen. The biological antigen comprises a spike protein, or a fragment thereof, of COVID-19. The device is for independent detection of the spike protein, or the fragment thereof, or of an antibody specific for the spike protein, or the fragment thereof, in the biological sample.