Abstract: This disclosure provides attenuated swine influenza strains, particularly those produced via a reverse genetics approach, compositions comprising same, and methods of production and use thereof. The attenuated strains are engineered to encode HA proteins having additional glycosylation sites, relative to the HA proteins encoded by the corresponding virulent parental viruses. Advantageously, the attenuated influenza strains may be administered.

Abstract: This disclosure provides attenuated swine influenza strains, particularly those produced via a reverse genetics approach, compositions comprising same, and methods of production and use thereof. The attenuated strains are engineered to encode HA proteins having additional glycosylation sites, relative to the HA proteins encoded by the corresponding virulent parental viruses.

Abstract: A novel influenza C virus with only low homology to any influenza C virus previously characterized. Challenge studies show that the virus can infect pigs and be transmitted between pigs. Additionally, influenza C is commonly thought of as a human pathogen and serological studies have been performed, looking at the incidence of antibodies against this virus in both pigs and humans. Approximately 10% of pigs and 30% of humans have antibodies to this virus. Additional experimental data show that the virus can infect and transmit in ferrets (a surrogate for human infection studies). In a third aspect, the present invention is the partial genome of this novel influenza C virus. In another aspect, the present invention is a method of detection in animals of this novel influenza C virus.

Abstract: This disclosure provides attenuated swine influenza strains, particularly those produced via a reverse genetics approach, compositions comprising same, and methods of production and use thereof. The attenuated strains are engineered to encode HA proteins having additional glycosylation sites, relative to the HA proteins encoded by the corresponding virulent parental viruses. Advantageously, the attenuated influenza strains may be administered.

Abstract: This disclosure provides attenuated swine influenza strains, particularly those produced via a reverse genetics approach, compositions comprising same, and methods of production and use thereof. The attenuated strains are engineered to encode HA proteins having additional glycosylation sites, relative to the HA proteins encoded by the corresponding virulent parental viruses.

Abstract: A novel influenza C virus with only low homology to any influenza C virus previously characterized. Challenge studies show that the virus can infect pigs and be transmitted between pigs. Additionally, influenza C is commonly thought of as a human pathogen and serological studies have been performed, looking at the incidence of antibodies against this virus in both pigs and humans. Approximately 10% of pigs and 30% of humans have antibodies to this virus. Additional experimental data show that the virus can infect and transmit in ferrets (a surrogate for human infection studies). In a third aspect, the present invention is the partial genome of this novel influenza C virus. In another aspect, the present invention is a method of detection in animals of this novel influenza C virus.

Abstract: A protein (xylanase) has been identified that produces a strong immune response in pigs when added to a vaccine. The protein is added to vaccines at a particular concentration. The protein is delivered to the animal as part of the vaccine and elicits an immune reaction (antibodies are generated by the animal against the compliance marker protein). The antibodies are then detected in sera samples by a diagnostic test, enzyme-linked immunosorbent assay (ELISA). In the ELISA compliance marker assay, the marker protein (antigen) in coated onto polystyrene plates and is used to detect antibodies against the marker in sera samples. This combination of marker protein added to vaccines and the ELISA to detect antibodies raised against the marker protein can be used to determine whether a particular animal(s) has been vaccinated. The selected protein is commercially-available, identified as Generally Recognized as Safe by the FDA, and does not cause adverse reactions in animals.