The present invention provides a mutant Pestivirus comprising a chimeric Erns gene, which provides the mutant Pestivirus with the capacity to evade serologic detection, but maintains good vaccine properties, and viral replication.

A recombinant vector for transforming a plant, a plant transformed with the recombinant vector, a plant-made classical swine fever virus antigen pmE2 protein expressed in the plant and uses thereof is provided. By using a recombinant vector having a polynucleotide encoding a GP55 protein of CSFV according to the present invention; and a polynucleotide encoding a cellulose-binding domain protein; and a plant transformed with the recombinant vector, a plant-made classical swine fever virus antigen pmE2 protein may be produced with high efficiency, and has higher safety and stability than those achieved by other production methods. Also, since the plant-derived classical swine fever virus antigen protein pmE2 has a cellulose-binding domain (CBD) protein, it may be usefully used as an effective marker to determine a virus exposure pathway and an antibody producing pathway.

The present disclosure relates to a mammalian cell line and a method for producing soluble E2 recombinant antigen of classical swine fever virus using the same. A mammalian cell expression system with different cell passage numbers can stably express a large amount of soluble CSFV-E2 recombinant protein, effectively reducing the production cost of CSFV-E2 recombinant protein, and then applied to the production of CSFV-E2 protein subunit vaccines.

This invention relates to adjuvant formulations comprising various combinations of triterpenoids, sterols, immunomodulators, polymers, and Th2 stimulators; methods for making the adjuvant compositions; and the use of the adjuvant formulations in immunogenic and vaccine compositions with different antigens. This invention further relates to the use of the formulations in the treatment of animals.

This invention relates to adjuvant formulations comprising various combinations of triterpenoids, sterols, immunomodulators, polymers, and Th2 stimulators; methods for making the adjuvant compositions; and the use of the adjuvant formulations in immunogenic and vaccine compositions with different antigens. This invention further relates to the use of the formulations in the treatment of animals.

A recombinant baculovirus displaying on its envelop a fusion protein is disclosed. The fusion protein comprises a heterologous antigen, and a C-terminal region of baculovirus envelope GP64 protein, which has at least 100 amino acid residues in length and lacks a B12D5 binding epitope located within the central basic region of the GP64 protein. The genome of the recombinant baculovirus comprises a transgene encoding a fusion protein that comprises a signal peptide, the heterologous antigen, and the C-terminal region of the baculovirus envelope GP64 protein, in which the antigen is located between the signal peptide and the C-terminal region of the GP64 protein. Methods for eliciting an antigen-specific immunogenic response in a subject in need thereof are also disclosed.

The application describes recombinant BoHV-1 triple mutant viruses that express protective antigens of other bovine respiratory viruses associated with Bovine respiratory disease complex (BRDC).

A recombinant vector for transforming a plant, a plant transformed with the recombinant vector, a plant-made classical swine fever virus antigen pmE2 protein expressed in the plant and uses thereof is provided. By using a recombinant vector having a polynucleotide encoding a GP55 protein of CSFV according to the present invention; and a polynucleotide encoding a cellulose-binding domain protein; and a plant transformed with the recombinant vector, a plant-made classical swine fever virus antigen pmE2 protein may be produced with high efficiency, and has higher safety and stability than those achieved by other production methods. Also, since the plant-derived classical swine fever virus antigen protein pmE2 has a cellulose-binding domain (CBD) protein, it may be usefully used as an effective marker to determine a virus exposure pathway and an antibody producing pathway.

The present invention relates to a porcine bivalent subunit vaccine composition in a single dose. The porcine bivalent subunit vaccine composition includes porcine bivalent antigen, CpG adjuvant and a dual phase adjuvant. The porcine bivalent antigen consists of a classical swine fever virus (CSFV)-E2 recombinant protein and a porcine circovirus type 2 (PCV2)-ORF2 recombinant protein, both of which are produced by a mammalian cell expression system. The porcine bivalent subunit vaccine composition in a single dose can confer effectively immune protection against CSFV and PCV2 via a single vaccination without boost vaccination.

The application relates to a pestivirus, designated PMC virus, that is associated with porcine myocarditis syndrome, and the gene and protein sequences derived therefrom. The application further relates to detection methods, vaccine therapeutics, and diagnostic methods using the PMC virus or gene/protein sequences derived therefrom.