The invention relates to methods of modulating immune cells in a patient by altering microbiota of the patient. The invention also relates to methods of modulating treatments or therapies in a subject organism by altering microbiota of the subject. The invention also relates to cell populations, systems, arrays, cells, RNA, kits and other means for effecting this. In an example, advantageously selective targeting of a particular species in a human gut microbiota using guided nucleic acid modification is carried out to effect the alteration.

The present invention relates to a probiotic cell transformed with a construct suitable to overexpress and display on the surface of the probiotic cell a fusion protein comprising at least a portion of a transport protein coupled to at least a portion of one or more antigenic proteins or peptides. Probiotic-derived vesicles displaying this fusion protein as well as methods of inducing an immune response using the probiotic cells or vesicles are also disclosed.

The present invention relates to a probiotic cell transformed with a construct suitable to overexpress and display on the surface of the probiotic cell a fusion protein comprising at least a portion of a transport protein coupled to at least a portion of one or more antigenic proteins or peptides. Probiotic-derived vesicles displaying this fusion protein as well as methods of inducing an immune response using the probiotic cells or vesicles are also disclosed.

Mixed allergen compositions of one, two or more different allergens are provided. In some instances, the mixed allergen compositions include: a nut allergen; an animal allergen; and at least one of: a non-nut plant allergen; a biotic agent; and a vitamin. Also provided are methods of administering the mixed allergen compositions to a subject. The mixed allergen compositions find use in a variety of applications, including health maintenance, immune balance, gut balance, immune support, health improvement and therapeutic applications.

Mixed allergen compositions of two or more different allergens are provided. In some instances, the mixed allergen compositions include: a nut allergen; an animal allergen; and at least one of: a non-nut plant allergen; a biotic agent; and a vitamin. Also provided are methods of administering the mixed allergen compositions to a subject. The mixed allergen compositions find use in a variety of applications, including health maintenance, immune balance, gut balance, immune support, health improvement and therapeutic applications.

The present invention discloses a vaccine or immunogenic composition that can be administered to latently infected individuals to prevent reactivation of latent tuberculosis infection caused by species of the tuberculosis complex microorganisms (Mycobacterium tuberculosis, M. bovis, M. africanum), The invention is based on a number of M. tuberculosis derived proteins and protein fragments which are constitutively expressed in different stages of the infection. The invention is directed to the use of these polypeptides, immunologically active fragments thereof and the genes encoding them for immunological compositions such as vaccines.

Probiotics and ways to increase their effectiveness are provided. One embodiment of the present invention relates to a combination of probiotics with SIgA and possible uses of this combination. For example a use of a composition comprising SIgA and at least one probiotic for the preparation of a product to treat or prevent inflammation is disclosed.

The objective of the present invention is to provide a peptide of which both of binding forces to a Fc region and a Fab region are superior. In addition, the objective of the present invention is to provide a DNA which encodes the peptide, a vector which contains the DNA, and a transformant which is transformed by the vector. The problem can be solved by providing the peptide having the specific sequence.

The invention generally relates to the field of veterinary medicine and can be used for bovine leukemia prevention. The invention expands the range of means of the claimed application and provides lifelong resistance of animals to the leukemia virus. The invention is aimed at solving the problem of expanding the range of preventive medications and forming new approaches to the problem of preventing bovine leukemia, which allow ensuring lifelong resistance of the animals to leukemia infection. The technical result consists in the design of a remedy and use thereof for bovine leukemia prevention, which would allow providing a targeted immune response, efficiently and with minimal costs, by activating cellular immunity against bovine leukemia virus by increasing the number of killer cells. The remedy for bovine leukemia prevention contains a water-soluble protein fraction with a molecular weight of 18-20 kDa, isolated from the tuberculosis mycobacterium destruction products, characterized by the presence of peaks at a wavelength of 214 nm in the UV region, a phosphate-buffered saline, an aqueous formaldehyde solution, and an isotonic sodium chloride solution. The use consists in administering the said remedy to 1 to 9 days old calves with a single intramuscular injection at a dose of 4.0-6.0 ml per capita.

A method for increasing the presentation of ETEC CS6 antigen on cell surface, comprising the step of contacting cells expressing said antigen with an aqueous solution comprising 0.6-2.2 percent phenol by weight, such that the presentation of said antigen is increased by at least 100%. A method for the manufacture of a killed whole cell vaccine for immunization against CS6-expressing ETC. Cells and vaccines obtainable by the above methods.