Provided are an artificial multi-antigen fusion protein and a preparation method thereof. The fusion protein can effectively stimulate CD8+T and CD4+ T cell immunities, and can be applied to immunodiagnostics or serve as a prophylactic or therapeutic vaccine.

Provided are an artificial multi-antigen fusion protein and a preparation method thereof. The fusion protein can effectively stimulate CD8+T and CD4+ T cell immunities, and can be applied to immunodiagnostics or serve as a prophylactic or therapeutic vaccine.

The present invention provides new feline calicivirus vaccines, including multivalent vaccines. The present invention also provides methods of making and using the vaccines.

The present invention provides new feline calicivirus vaccines, including multivalent vaccines. The present invention also provides methods of making and using the vaccines.

Disclosed are compositions, kits, and methods for enhancing growth in an animal in need thereof. The methods typically comprise administering orally to the animal a composition comprising biodegradable particles, the biodegradable particles comprising a polymer or a co-polymer comprising polymerized lactic acid and having an effective average diameter of 0.5-5 μm. In the methods, the animal is administered a dose of the biodegradable particles that is effective for improving feed conversion rate in the animal in comparison to an animal that is not administered the composition.

Disclosed are compositions, kits, and methods for enhancing growth in an animal in need thereof. The methods typically comprise administering orally to the animal a composition comprising biodegradable particles, the biodegradable particles comprising a polymer or a co-polymer comprising polymerized lactic acid and having an effective average diameter of 0.5-5 μm. In the methods, the animal is administered a dose of the biodegradable particles that is effective for improving feed conversion rate in the animal in comparison to an animal that is not administered the composition.

The present invention describes an efficient vaccine against a Chlamydia trachomatis (Ct). The vaccine is based on recombinant fusion molecules that are capable of generating a high titered neutralizing antibody response that is protective against various Ct serovars. Our invention furthermore describe the combination of these antibody promoting fragments with Ct antigens that are targets for T cells with the aim to provide a vaccine that activate both arms of the immune system.

The present invention describes an efficient vaccine against a Chlamydia trachomatis (Ct). The vaccine is based on recombinant fusion molecules that are capable of generating a high titered neutralizing antibody response that is protective against various Ct serovars. Our invention furthermore describe the combination of these antibody promoting fragments with Ct antigens that are targets for T cells with the aim to provide a vaccine that activate both arms of the immune system.

The present invention provides novel, recombinant Gram-negative bacteria. In particular, the invention provides recombinant Gram-negative bacteria (e.g., E. coli) lacking genes involved in lipopolysaccharide (LPS, endotoxin) biosynthesis (e.g., lacking genes required for core oligosaccharide biosynthesis) and also provides recombinant Gram-negative bacteria lacking genes involved in LPS biosynthesis that contain one or more exogenous KDO transferases and/or one or more exogenous heptosyltransferases (e.g., from one or more types and/or strains of bacteria). The invention further provides methods of generating and utilizing (e.g., as or in an immunogenic composition (e.g., as or in an adjuvant and/or vaccine)) the recombinant Gram-negative bacteria therapeutic, preventative, and/or research applications.

The present invention provides novel, recombinant Gram-negative bacteria. In particular, the invention provides recombinant Gram-negative bacteria (e.g., E. coli) lacking genes involved in lipopolysaccharide (LPS, endotoxin) biosynthesis (e.g., lacking genes required for core oligosaccharide biosynthesis) and also provides recombinant Gram-negative bacteria lacking genes involved in LPS biosynthesis that contain one or more exogenous KDO transferases and/or one or more exogenous heptosyltransferases (e.g., from one or more types and/or strains of bacteria). The invention further provides methods of generating and utilizing (e.g., as or in an immunogenic composition (e.g., as or in an adjuvant and/or vaccine)) the recombinant Gram-negative bacteria therapeutic, preventative, and/or research applications.