The present invention provides high growth influenza reassortant virus and high growth influenza reassortant virus vectors comprising amino acid modifications in the PB2, PB1, M1 and/or NS2 proteins which exhibit highly increased growth rates compared to unmodified influenza virus. Further provided are pharmaceutical compositions comprising reassortant virus and viral vectors comprising said modifications and their use for vaccination purposes.

Recombinant expression of influenza virus surface proteins in the fungus Myceliophthora thermophila strain C1 is provided. The recombinant proteins are for use in influenza vaccine compositions.

A method of producing a virus like particle (VLP) in a plant comprising modified H3 hemagglutinin is provided. The method comprises introducing a nucleic acid comprising a regulatory region active in the plant and operatively linked to a nucleotide sequence encoding a modified influenza hemagglutinin (HA) protein into the plant, or portion of the plant, the modified HA protein comprises a modified proteolytic loop. Followed by incubating the plant or portion of the plant under conditions that permit the expression of the nucleic acids, thereby producing the VLP. The modified proteolytic loop may comprise one or more protease cleavage sites exhibiting reduced or abolished cleavage by a protease. Also described is a virus like particle (VLP) produced by the method, and plants expressing the VLP. The virus like particle (VLP) may comprise plant-specific N-glycans, or modified N-glycans.

Provided is a method for efficiently proliferating an influenza virus serving as a material for vaccine in a host.

A method for proliferating an influenza virus in a host, comprising a step of inhibiting transfer of Bax in a host cell to the inner mitochondrial membrane.

Compositions and methods to prepare influenza virus-like particles (VLPs) are provided.

Provided herein is a method of functionalizing a particle, as well as methods of optically tracking a particle, isolating enveloped viral particles from a sample, quantifying enveloped virus particles in a sample and assessing enveloped viral aggregation in a sample. Kits are also provided. The particle is typically a viral particle.

Disclosed herein are nanoparticles suitable for use in vaccines. The nanoparticles present antigens from pathogens surrounded to and associated with a detergent core resulting in enhanced stability and good immunogenicity. Dosages, formulations, and methods for preparing the vaccines and nanoparticles are also disclosed.

Recombinant expression of influenza virus surface proteins in the fungus Myceliophthora thermophila strain C1 is provided. The recombinant proteins are for use in influenza vaccine compositions.

A method of producing a virus like particle (VLP) in a plant is provided. The method comprises introducing a first nucleic acid and a second nucleic acid into the plant, or portion of the plant. The first nucleic acid comprises a first regulatory region active in the plant and operatively linked to a nucleotide sequence encoding a structural virus protein. The second nucleic acid comprises a second regulatory region active in the plant and operatively linked to a nucleotide sequence encoding a channel protein, for example but not limited to a proton channel protein. The plant or portion of the plant is incubated under conditions that permit the expression of the nucleic acids, thereby producing the VLP.

A fabric top for a convertible vehicle includes, in sequence: an outer cover layer, an insulating layer, an absorber layer and an inner cover layer. The absorber layer at 500 hz has an absorption coefficient of 10 to 65%, at 1000 hz has an absorption coefficient of 15 to 110%, at 2000 hz has an absorption coefficient of 33 to 115%, at 4000 hz has an absorption coefficient of 60 to 110% at 8000 hz has an absorption coefficient of 85 to 120%.