The present application relates to a method for producing a reassortant Reoviridae virus and a vector library for the same, and provides: a method for producing a reassortant Reoviridae virus by using a cell line into which an RNA polymerase is introduced and an expression vector library according to an aspect; a reassortant Reoviridae virus produced by the method; and an expression vector library for producing reassortant rotavirus.

Disclosed are methods for production of inactivated rotavirus directly from cell culture supernatants containing active or infectious rotavirus (e.g., bovine rotavirus), without prior isolation or purification of the rotavirus from the cell culture supernatants. In some embodiments, inactivated rotavirus (e.g., bovine rotavirus) is produced by heating a volume of culture supernatant to at least a temperature at which the rotavirus is inactivated. In some embodiments, the rotavirus (e.g., bovine rotavirus) is inactivated once the entire volume is heated to at least a temperature at which the rotavirus is inactivated. In some embodiments, the temperature of the cell culture supernatant is maintained for a suitable amount of time, which may be determined using any of the tests described herein. Inactivated rotavirus (e.g., bovine rotavirus) may then be isolated from the culture supernatant.

It is disclosed herein that viruses coated in silica retain infectivity and the capacity to induce an immune response in an infected host. In addition, silicified virus is remarkably resistant to desiccation. Provided herein are methods of inducing a virus-specific immune response in a subject by administering to the subject an effective amount of silicified virus or silicified virus particles. Methods of enhancing a virus-specific cell-mediated immune response (such as a T cell-mediated immune response) in a subject by administering to the subject a silicified virus or silicified virus particles are also described herein. Further provided are immunogenic compositions comprising silicified virus or silicified virus particles, such as compositions useful as vaccines. The immunogenic compositions include a pharmaceutically acceptable carrier and/or an adjuvant.

The present invention relates to a composition comprising a probe for detecting six representative causative viruses of acute enteritis (norovirus genogroup I and genogroup II, rotavirus, hepatitis A virus, coxsackievirus, astrovirus, and adenovirus), and a DNA microarray, a kit, and a detection method comprising the composition. The present invention is effective due to high specificity and sensitivity to viruses. In addition, since the causative viruses can simply be detected at low cost compared to conventional detection methods, without expensive diagnosis devices or specialists, the present invention may be effectively used as a method for diagnosing viruses causing acute enteritis.

The present disclosure relates generally to the field of viral vaccines. Particularly, the present disclosure provides a modified Vero-adapted human rotavirus strain and a culturing method to produce high titer virus, a rotavirus vaccine, vaccination protocols and diagnostic and prognostic assays.

Embodiments herein report compositions, methods, uses and manufacturing procedures for rotavirus constructs and immunogenic compositions thereof. Some embodiments concern compositions that include, but are not limited to, chimeric rotaviruses of use in immunogenic compositions against rotavirus infection as well as against other pathogenic virus infection in a subject. In certain embodiments, constructs of use herein can be generated and used where a rotavirus expression system further includes one or more nucleic acid molecules encoding one or more polypeptides of another pathogen (e.g. another enteric or mucosal pathogen).

The present invention pertains to a novel rotavirus, especially an isolated virus, which is a member of the sub-species of porcine group B rotavirus (porcine RVB), causing diarrheal disease in pigs, to DNA fragments and corresponding proteins of the said virus, to vaccines on the basis of said virus, DNA and/or protein and to antibodies reactive with said virus and/or protein and diagnostic test kits for the detection of said virus.

The present invention relates to a thermostable freeze dried rotavirus vaccine formulation and the process of preparing the same. More specifically the present invention discloses multivalent thermostable liquid, powder or cake based rotavirus vaccine formulation prepared using the freeze drying process, such that the said vaccine formulation possess improved heat-stability, easy to use and transport and highly affordable thereby meeting the requirements of developing and low income country's vaccination program. The said freeze dried rotavirus vaccine formulation along with reconstitution buffer is so engineered to be suitable for filling in appropriate packaging containers/ closures so designed such that they reduce the logistics requirement for storage.

The present invention pertains to a novel rotavirus, especially an isolated virus, which is a member of the sub-species of porcine group B rotavirus (porcine RVB), causing diarrheal disease in pigs, to DNA fragments and corresponding proteins of the said virus, to vaccines on the basis of said virus, DNA and/or protein and to antibodies reactive with said virus and/or protein and diagnostic test kits for the detection of said virus.

Provided is a method for producing an artificial recombinant RNA virus stably expressing a foreign gene, comprising the steps of: (1) obtaining a foreign gene having a modified codon composition similar to that of an RNA virus gene; (2) inserting the foreign gene obtained in step (1) into an RNA virus genome; and (3) artificially synthesizing an artificial recombinant RNA virus using reverse genetics.