The present invention provides compositions and methods related to equine live-attenuated influenza vaccines.

The subject invention pertains to isolated influenza virus that is capable of infecting canids and causing respiratory disease in the canid. The subject invention also pertains to compositions and methods for inducing an immune response against an influenza virus of the present invention. The subject invention also pertains to compositions and methods for identifying a virus of the invention and diagnosing infection of an animal with a virus of the invention.

A medication for preventing or treating influenza, said medication including an inactivated influenza virus or a recombinant vaccinia virus that includes, within the genome of the vaccinia virus DIs strain, an expression promoter and all or a portion of DNA coding for an influenza virus-derived protein.

This invention provides new compositions comprising nucleotide sequence(s) encoding alphaherpesvirus glycoprotein D protein(s) (gDP(s)) and antigen(s) that induce immune responses. Such sequences typically encode gDP:antigen fusion proteins and typically also include feature(s) that significantly enhance immune responses such as (a) sequences encoding ITIC signal transducing adaptor proteins, e.g., SLAM-associated proteins (SAPs), Ewing's sarcoma-associated transcript 2 proteins, or both, or non-gDP checkpoint inhibitor(s); (b) sequences encoding antigen-associated targeting sequences, e.g., polyubiquitin sequences; (c) deimmunized/modified antigen-encoding sequences; (d) gDP(s) with modified sequence(s); (e) expression-enhancing introns; (f) transfection-facilitating agents; or (g) combinations thereof. Methods of using such constructs to induce immune responses and other methods and compositions also are provided, including methods of using such constructs in animals not known to express Herpesvirus entry mediator (HVEM) receptors (e.g., pigs), animals not under disease agent-associated checkpoint inhibition, and other contexts.

The present invention relates to influenza A virus variants, particularly variants that are resistant to a polymerase inhibitors. Also provided are methods and compositions related to the influenza A virus variants. Further provided are methods of isolating, identifying, and characterizing multiple viral variants from a patient.

The present invention relates to influenza A virus variants, particularly variants that are resistant to a polymerase inhibitors. Also provided are methods and compositions related to the influenza A virus variants. Further provided are methods of isolating, identifying, and characterizing multiple viral variants from a patient.

Provided is an application of a label gene sequence in the preparation of an H9 avian influenza vaccine strain which differentiates influenza A virus infection from vaccination, the label gene sequence containing a DNA sequence for coding an influenza B virus NA protein extracellular region amino acid sequence. Also provided are an H9 avian influenza vaccine strain which differentiates influenza A virus infection from vaccination, a preparation method therefor, and an application.

Modified influenza virus neuraminidases are described herein that have stabilized NA tetramers which may improve vaccine production efficiency, thus improving the yield of vaccine viruses.

Disclosed herein are compositions and methods related to mutant viruses, and in particular, mutant influenza viruses. The mutant viruses disclosed herein include a mutant BM2 sequence, and are useful in immunogenic compositions, e.g., as vaccines. Also disclosed herein are methods, compositions and cells for propagating the viral mutants, and methods, devices and compositions related to vaccination.

Provided are an H5 avian influenza vaccine strain which differentiates infected from vaccinated animals, a preparation method therefor, and an application. The vaccine strain uses an NA protein of influenza B as a label, and has application value and public health significance for the prevention, control and decontamination of H5 avian influenza.