Abstract: The present invention relates to novel virus-like particles (VLPs) comprising a matrix protein derived from a first plant enveloped virus and a surface polypeptide. The surface polypeptide comprises (a) a surface exposed portion derived from a target polypeptide (b) a transmembrane domain, and (c) a cytosolic tail derived from a transmembrane (e.g., glycoprotein) of a second plant enveloped virus. The target polypeptide may be antigenic or therapeutic. The first and the second plant enveloped viruses may be the same. Either plant enveloped virus may be a plant rhabdovirus. Also provided are methods of making and using the VLPs.

Abstract: The present disclosure provides a method to prepare purified enveloped viral particle preparations employing ion exchange chromatography and tangential flow filtration.

Abstract: Methods for purifying human Calciviruses are disclosed, including Noroviruses and Sapoviruses.

Abstract: A composition comprising an isolated fowl adenovirus (FAdV), wherein the FAdV is a strain selected from FAdV-2, FAdV-7, FAdv-8a, FAdV-8b, FAdV-8a/8b or FAdV-11 serotype strains; and a suitable carrier and methods for inducing protective immunity in a subject and/or its progeny.

Abstract: The invention relates to an infectious arenavirus particle that is engineered to contain a genome with the ability to amplify and express its genetic information in infected cells but unable to produce further infectious progeny particles in normal, not genetically engineered cells. One or more of the four arenavirus open reading frames glycoprotein (GP), nucleoprotein (NP), matrix protein Z and RNA-dependent RNA polymerase L are removed or mutated to prevent replication in normal cells but still allowing gene expression in arenavirus vector-infected cells, and foreign genes coding for an antigen or other protein of interest or nucleic acids modulating host gene expression are expressed under control of the arenavirus promoters, internal ribosome entry sites or under control of regulatory elements that can be read by the viral RNA-dependent RNA polymerase, cellular RNA polymerase I, RNA polymerase II or RNA polymerase III.

Abstract: The present invention relates to antigenic and vaccine compositions comprising Norovirus antigens and adjuvants, in particular, mixtures of monovalent VLPs and mixtures of multivalent VLPs, and to a process for the production of both monovalent and multivalent VLPs, the VLPs comprising capsid proteins from one or more Norovirus genogroups.

Abstract: The present invention provides methods and compositions for protein delivery. The invention features virus like particles, methods of making virus like particles and methods of using virus like particles to deliver proteins to a cell, to provide protein therapy and to treat diseases or disorders. The invention also features methods of targeting a protein to a cell, methods of protein therapy and methods of treating diseases or disorders using a TUS protein, a NLS or NES identified from full length TUS.

Abstract: Influenza vaccines include hemagglutinin from at least one influenza A virus strain and at least one influenza B virus strain. They also include an oil-in-water emulsion adjuvant with submicron oil droplets, comprising squalene. In some embodiments the hemagglutinin concentration is >12 ?g/ml per strain. In some embodiments the squalene concentration is <19 mg/ml. In some embodiments the vaccine is mercury-free. In some embodiments the vaccine has a unit dose volume between 0.2-0.3 mL. In some embodiments the squalene concentration is 9.75 mg/mL or 4.88 mg/mL. In some embodiments the vaccine includes antigens from two influenza A virus strains and two influenza B virus strains.

Abstract: The present invention relates to antigenic and vaccine compositions comprising Norovirus antigens and adjuvants, in particular, mixtures of monovalent VLPs and mixtures of multivalent VLPs, and to a process for the production of both monovalent and multivalent VLPs, the VLPs comprising capsid proteins from one or more Norovirus genogroups.

Abstract: Provided is a Titi Monkey Adenovirus (TMAdV) that can infect both human and non-human primates. Further provided are nucleic acid sequences, proteins, expression vectors and host cells, anti-TMAdV antibodies, vaccines, compositions, methods of detecting TMAdV, methods for assaying for anti-TMAdV compounds, and methods for treating or preventing a TMAdV infection.

Abstract: The present disclosure provides immunogenic compositions for the prevention and/or treatment of disease caused by dengue virus.

Abstract: We have developed DNA and viral vectors that can be used, alone or in combination, as a vaccine against one HIV clade, subtype, or recombinant form of HIV or against multiple HIV clades, subtypes, or recombinant forms. Moreover, the vectors can encode a variety of antigens, which may be obtained from one clade or from two or more different clades, and the antigens selected and/or the manner in which the vectors are formulated (e.g., mixed) can be manipulated to generate a protective immune response against a variety of clades (e.g., the clades to which a patient is most likely to be exposed; with the proportions of the components of the vaccine tailored to the extent of the patient's risk to a particular clade or clades).

Abstract: An anti-human-norovirus GII antibody which responds to substantially all genotypes of the human noroviruses belonging to GII and which can comprehensively detect such human noroviruses GII. The anti-human-norovirus GII antibody that binds to at least one of epitopes which are contained in amino acid regions represented by the following formulas (1) and (2): P-X1-X2-P-G-E??(1) (SEQ ID NO: 2) X3-X4-X5-F-Y-X6-L-X7-P-X8??(2) (SEQ ID NO: 3) (wherein, X1 represents L, V, N, T, S, M, or R; X2 represents F, Y, or M; X3 represents V or G; X4 represents N or S; X5 represents Q, P, or S; X6 represents S, T, or I; X7 represents A or S; and X8 represents M or V), and of an epitope formed of amino acid 483 of the amino acid sequence represented by SEQ ID NO: 1, or an epitope formed of an amino acid corresponding to amino acid 483, the regions and the amino acids being present in the P domain of a capsid structural protein of a human norovirus GII.

Abstract: Disclosed herein are chimeric TBEV/DEN4 flaviviruses including a first nucleic acid molecule including a 5? non-coding region (NCR) from a DEN4 virus, a nucleic acid encoding a C protein and non-structural proteins from a DEN4 virus, and a 3? NCR from a DEN4 virus, wherein nonstructural protein NS4B includes a phenylalanine at amino acid position 112, nonstructural protein NS5 includes an alanine at amino acid position 654 and an alanine at amino acid position 655, and the 3? NCR includes a deletion of nucleotides 10478-10507. The chimeric construct also includes a second nucleic acid molecule, which is operably linked to the first nucleic acid molecule, encoding a prM protein and an E protein from a TBEV, wherein the E protein includes an amino acid substitution that differs from the wild type TBEV at amino acid position 315 and a tryptophan at amino acid position 240.

Abstract: The present invention relates to methods and compositions for enhancing delivery of vaccine antigens to the mucosal epithelium, the composition comprising an antigen from an infectious agent fused with an Fc fragment of an immunoglobulin recognized by the neonatal receptors (FcRn). The composition is effective in eliciting a protective long-term memory T cell immune response against infection at a distant mucosal site.

Abstract: The present invention relates to oncolytic adenoviruses having therapeutic applications. Recombinant chimeric adenoviruses, and methods to produce them are provided. The chimeric adenoviruses of the invention comprise nucleic acid sequences derived from adenoviral serotypes classified within the subgroups B through F and demonstrate an enhanced therapeutic index.

Abstract: Described herein are chimeric Newcastle disease viruses engineered to express a heterologous interferon antagonist and compositions comprising such viruses. The chimeric Newcastle disease viruses and compositions are useful in the treatment of cancer.

Abstract: The present invention shows that intranasal administration of E1/E3-defective adenovirus particles may confer rapid and broad protection against viral and bacterial pathogens in a variety of disease settings. Protective responses lasted for many weeks in a single-dose regimen in animal models. When a pathogen-derived antigen gene was inserted into the E1/E3-defective adenovirus genome, the antigen-induced protective immunity against the specific pathogen was elicited before the adenovirus-mediated protective response declined away, thus conferring rapid, prolonged, and seamless protection against pathogens. In addition to E1/E3-defective adenovirus, other bioengineered non-replicating vectors encoding pathogen-derived antigens may also be developed into a new generation of rapid and prolonged immunologic-therapeutic (RAPIT).

Abstract: The invention relates to the discovery that mutations of serine residues of an AAV capsid results in significantly greater transfection efficiency than the wild type AAV2 virus. In one embodiment, the present invention provides a method of improving efficiency of gene transfer and/or gene therapy to a cell by inhibiting phosphorylation of one or more serine residues of a virus capsid protein, where the inhibition of the phosphorylation of one or more serine residues results in a decrease of ubiquitination of the virus capsid protein in the cell. In another embodiment, one of the one or more serine residues is Serine 264. In another embodiment, the Serine 264 residue is mutated to Alanine (S 264 A).

Abstract: The present invention relates to oncolytic adenoviruses having therapeutic applications. Recombinant chimeric adenoviruses, and methods to produce them are provided. The chimeric adenoviruses of the invention comprise nucleic acid sequences derived from adenoviral serotypes classified within the subgroups B through F and demonstrate an enhanced therapeutic index.