Abstract: Polypeptides, polynucleotides, methods, compositions, and vaccines comprising influenza hemagglutinin and neuraminidase variants are provided.

Abstract: The present invention relates to a beta-herpesvirus, preferably a recombinant beta-herpesvirus, wherein the beta-herpesvirus comprises at least one heterologous nucleic acid, wherein the at least one heterologous nucleic acid comprises a gene encoding a cellular ligand.

Abstract: The invention relates to a marker vaccine for prophylactic treatment of classical swine fever comprising modified live attenuated classical swine fever virus. The viral amino acid sequence of the TAV-epitope of the E2 protein comprises a different sequence from that of a wild-type classical swine fever virus. The invention relates to pharmaceutical compositions of the marker vaccine. The invention also relates to a method of manufacturing marker vaccines for prevention of classical swine fever using selective antibody pressure.

Abstract: Provided herein are modified infectious largotracheitis viruses (ILTVs) and methods of using the same. For example, provided are attenuated ILTVs. The attenuated ILTVs can be used to illicit immune responses in avian species. Optionally, the attenuated ILTVs can be used to vaccinate an avian subject or a population of avian subjects. Optionally, an attenuated ILTV is administered in ovo to an avian egg. One or more such in ovo administration can be used to increase the immunity of an avian herd.

Abstract: A recombinant varicella-zoster virus; a process for producing the same; a pharmacological composition containing recombinant varicella-zoster virus; a vector containing a genomic gene of varicella-zoster virus and BAC vector sequence; cells containing the above vector; a fragment capable of homologous recombination with a genome of varicella-zoster virus; and a nucleic acid cassette containing the BAC vector sequence. For these, there is provided a process for producing recombinant varicella-zoster virus, comprising use of the BAC vector sequence.

Abstract: The present invention discloses an attenuated recombinant alphavirus that is incapable of replicating in mosquito cells and of transmission by mosquito vectors. These attenuated alphavirus may include but is not limited to Western Equine Encephalitis virus, Eastern equine encephalitis virus, Venezuelan equine encephalitis virus or Chikungunya virus. The present invention also discloses the method of generating such alphaviruses and their use as immunogenic compositions.

Abstract: The invention relates generally to the field of virology. More particularly, the present invention relates to methods for determining the permissiveness of a cell for a virus that is a member of the family Arteriviridae or Coronaviridae or Asfarviridae, in particular for Porcine Reproductive and Respiratory Syndrome Virus (PRRSV). The invention further provides methods and compositions related to the generation of host cells permissive for a virus that is a member of the family Arteriviridae or Coronaviridae or Asfarviridae, in particular for Porcine Reproductive and Respiratory Syndrome Virus (PRRSV). Methods of using said cells thus identified or thus generated, in preparing a culture of a virus that is a member of the family Arteriviridae or Coronaviridae or Asfarviridae, as well as the use of said virus for the purpose of vaccine production or diagnosis, are also provide by the present invention.

Abstract: The invention is related to a dengue virus or chimeric dengue virus that contains a mutation in the 3? untranslated region (3?-UTR) comprising a ?30 mutation that removes the TL-2 homologous structure in each of the dengue virus serotypes 1, 2, 3, and 4, and nucleotides additional to the ?30 mutation deleted from the 3?-UTR that removes sequence in the 5? direction as far as the 5? boundary of the TL-3 homologous structure in each of the dengue virus serotypes 1, 2, 3, and 4, or a replacement of the 3?-UTR of a dengue virus of a first serotype with the 3?-UTR of a dengue virus of a second serotype, optionally containing the ?30 mutation and nucleotides additional to the ?30 mutation deleted from the 3?-UTR; and immunogenic compositions, methods of inducing an immune response, and methods of producing a dengue virus or chimeric dengue virus.

Abstract: It is intended to provide a vaccinia virus that specifically proliferates in a cancer cell and destroys the cancer cell and to provide use of the virus in cancer treatment. The present invention provides a microRNA-controlled vaccinia virus, in which a target sequence of a microRNA less expressed in a cancer cell than in a normal cell is inserted in a 3? untranslated region of B5R gene associated with viral proliferation in a vaccinia virus, wherein the microRNA-controlled vaccinia virus specifically proliferates in the cancer cell and has an oncolytic property that destroys the cancer cell.

Abstract: Isolated a Turkey Viral Hepatitis picomavirus-like viruses associated with Turkey viral hepatitis, and isolated nucleic acid sequences and polypeptides are disclosed. Antibodies against antigens from Turkey Viral Hepatitis picornavirus-like viruses, iRNAs which target nucleic acid sequences of the Turkey Viral Hepatitis picornavirus-like virus, methods for detecting the presence or absence of Turkey Viral Hepatitis picomavirus-like viruses in an animal, and immunogenic compositions for inducing an immune response against Turkey Viral Hepatitis picomavirus-like viruses in an animal are also disclosed.

Abstract: The present invention discloses a novel apathogenic viral strain useful in the treatment of viral hepatitis infections. The preferred viral strain of Infectious Bursal Disease Virus (IBDV) is specifically characterized in terms of structure and biological activities. The invention also provides recombinant IBDV viral vectors for the inclusion of exogenous nucleic acid sequences enhancing the viral replication inhibitory effect of the virus of the invention. Preferably, the viral vector comprises a nucleic acid sequence encoding a cytokine. A method of treating viral hepatitis in a host comprising administering an anti-hepatitis effective amount of the IBDV strain of the present invention also provided.

Abstract: The invention is directed to immunogenic compositions and methods for inducing an immune response against Piscine reoviruses in an animal. In another aspect, the invention relates to antibodies that bind Piscine reovirus poplypeptides. In yet another aspect, the invention relates to methods for preventing, or reducing PRV infection in an animal.

Abstract: The invention relates generally to methods of concentrating mixtures including shear sensitive biopolymers, such as von Willebrand Factor. Conventional methods of concentrating biopolymers impart too much shear stress, which causes the degradation of shear sensitive biopolymers. The methods disclosed herein reduce the shear stress while maintaining a high rate of filtrate flux. Disclosed herein is a method for concentrating shear sensitive biopolymers including flowing a mixture with a shear sensitive biopolymer into a hollow fiber dialysis module to form a retentate having a shear sensitive biopolymer concentration that is greater than that of the mixture. Hollow fiber dialysis modules have high filtrate fluxes and low shear rates at low flow rates. This ensures a high product yield and minimal loss of shear sensitive biopolymers.

Abstract: The present invention, in some embodiments thereof, relates to methods of producing adenoviruses such as pro- and anti-angiogenic adenovirus vectors and preparations generated thereby. Particularly, in some embodiments, the viral vectors comprise a heterologous pro- or anti-angiogenic gene under the transcriptional control of the murine pre-proendothelin promoter (e.g. PPE-1-3X), for targeted expression of in angiogenic endothelium.

Abstract: A method for producing an ?-Gal-expressing virus having enhanced immune response to viruses, without requiring the use of any enzyme; an influenza virus vaccine having a high effect (antigenicity), which is produced using an ?-Gal-expressing virus produced by the method; and others. Specifically disclosed are: a method for producing an ?-galactose epitope (Gal?1-3Gal?1-4GlcNAc-R: ?-Gal hereinafter)-expressing virus, which comprises the steps of: (1) introducing an ?1,3- galactosyltransferase gene in an expressible condition into a cell line that does not express ?-Gal to obtain a cell line capable of expressing ?-Gal; (2) inoculating a virus into the cell line capable of expressing ?-Gal to obtain a cell line infected with a virus; and (3) culturing the cell line infected with the virus to obtain a virus expressing ?-Gal from the culture medium..

Abstract: Described is a process for producing poliovirus, the process comprising: a) providing a serum-free suspension culture of cells, which are primary human retina (HER) cells that have been immortalized by expression of adenovirus E1 sequences, b) infecting the cells with poliovirus, at a cell density of between 2×106 cells/ml and 150×106 cells/ml, and c) harvesting poliovirus at a time of between 12 and 48 hours after infection.

Abstract: Described herein are i-DNA™ vectors and vaccines and methods for using the same. The i-DNA™ generates live attenuated vaccines in eukaryotic cells in vitro or in vivo for pathogenic RNA viruses, particularly chikungunya virus (CHIKV). When iDNA is injected into the vaccine recipient, RNA of live attenuated virus is generated by in vivo transcription in the recipient's tissues. This initiates production of progeny attenuated viruses in the tissues of the vaccine recipient, as well as elicitation of an effective immune response protecting against wild-type, non-attenuated virus.

Abstract: The invention provides self replicating infectious recombinant paramyxoviruses. The recombinant paramyxovirus preferably have one or more attenuating mutations. In some embodiments, the recombinant paramyxovirus has a separate variant polynucleotide encoding a P protein and a separate monocistronic polynucleotide encoding a V protein. In some embodiments, recombinant paramyxovirus have at least one temperature sensitive mutation and one non-temperature sensitive mutation. Also provided are compositions and methods for using the recombinant paramyxoviruses as described herein.

Abstract: The present invention is related to a composition comprising an agent selected from the group comprising HCMV virions, HCMV dense bodies and HCMV NIEP, whereby the composition is capable of elucidating an immune response while the virions, the NIEP and/or the dense bodies being non-fusiogenic.

Abstract: A method for inactivating an orthomyxovirus propagated in cell culture and/or inactivating contaminating adventitious agents, comprising at least the following steps: (a) treating an orthomyxovirus-containing fluid with an alkykating agent, and (b) irradiating the orthomyxovirus-containing fluid with UV light.

Abstract: The present invention relates generally to the fields of immunology and vaccine technology. More specifically, the present invention relates to methods for vitrifying biological preparations, including peptides, antigens, antibodies, cells, and the like.

Abstract: Attenuated pestiviruses, in particular attenuated BVDV, wherein at least one mutation is in the coding sequence for glycoprotein Ems and at least another mutation in the coding sequence for Npro which preferably leads to combined inactivation of the RNase activity residing in glycoprotein Ems in addition to the inactivation of the (hypothesized) immunomodulating activity residing in Npro. Methods for attenuating pestiviruses such as BVDV, nucleic acids encoding the pestiviruses, in particular BVDV, compositions and vaccines comprising the attenuated pestiviruses, in particular BVDV, of the invention.

Abstract: The invention relates inter alia to a method for inducing a long-term protection in an animal against foreign antigens and tumor antigens comprising the step of administering to the animal at least one factor selected from type I interferons and Flt-3, and to a method for inducing a long-term increase of the number of dendritic cells in an animal comprising the step of administering to the animal a factor selected from type I interferon and Flt-3 and to a method of inducing or enhancing the maturation and/or for the activation of the immune system of an animal comprising the step of administering to the animal a factor selected from type I interferon and Flt-3.

Abstract: The present invention relates, in general, to attenuated swine influenza viruses having an impaired ability to antagonize the cellular interferon (IFN) response, and the use of such attenuated viruses in vaccine and pharmaceutical formulations. In particular, the invention relates to attenuated swine influenza viruses having modifications to a swine NS1 gene that diminish or eliminate the ability of the NS1 gene product to antagonize the cellular IFN response. These viruses replicate in vivo, but demonstrate decreased replication, virulence and increased attenuation, and therefore are well suited for use in live virus vaccines, and pharmaceutical formulations.

Abstract: The present invention relates to an avirulent, oncolytic herpes simplex virus modified from a wild-type herpes simplex virus so that both ?134.5 genes of the virus have been deleted and each replaced with an interferon-resistance gene that is expressed as an immediate-early gene. The present invention also relates to a pharmaceutical composition that includes the modified herpes simplex virus of the present invention and a pharmaceutically acceptable vehicle for in situ administration to tumor cells. Also provided in the present invention are methods for killing tumor cells in a subject and for immunizing a subject against an infectious disease, cancer, or an autoimmune disease that involve administering to a subject the modified avirulent, oncolytic herpes simplex virus of the present invention.

Abstract: The present invention relates to the field of attenuated live viruses useful as vaccine or medicament for preventing or treating Porcine Reproductive and Respiratory Syndrome (PRRS) in swine, and is based on the surprising finding of a PRRS virus which is able to induce the interferon type I response of a cell infected by said virus. In one embodiment, the PRRS virus according to the invention is a PRRS virus mutant comprising, in comparison with the genome of a wild type strain, a mutation in the gene encoding the non structural protein 1 (nsp1) of said virus.

Abstract: The invention is directed to an improved method to manufacture virus for use in vaccine by culturing infected cells that have been modified to overexpress miR-144. The invention is also directed to manipulating the activity or level of miR-144 in subjects in order to modulate the antiviral and immune response systems.

Abstract: The disclosure relates to methods and reagents for analyzing samples for the presence of JC virus antibodies. Disclosed is a method that includes obtaining a biological sample from a subject (e.g., plasma, serum, blood, urine, or cerebrospinal fluid), contacting the sample with highly purified viral-like particles (HPVLPs) under conditions suitable for binding of a JCV antibody in the sample to an HPVLP, and detecting the level of JCV antibody binding in the sample to HPVLP. In one embodiment, determining the level of anti-JCV antibodies in the subject sample provides a method of identifying PML risk in a subject.

Abstract: Methods of thermally inactivating a rotavirus are provided according to the present invention which include exposing the rotavirus to a temperature in the range of about 50° C.-80° C., inclusive, for an incubation time sufficient to render the rotavirus incapable of replication or infection. The thermally inactivated rotavirus is antigenic and retains a substantially intact rotavirus particle structure. Vaccine compositions and methods of vaccinating a subject against rotavirus are provided which include generation and use of thermally inactivated rotavirus.

Abstract: Nucleic acid molecules comprising a nucleotide sequence encoding RANTES and fragments and variants thereof are disclosed. Additionally, nucleic acid molecules and compositions comprising the nucleotide sequence encoding RANTES and fragments and variants thereof in combination with nucleic acid sequences encoding immunogens are provided. Recombinant viral vectors comprising the nucleotide sequence encoding RANTES and fragments and variants thereof with or without a nucleic acid sequence encoding immunogens are also provided as are live attenuated pathogens comprising a nucleotide sequence encoding RANTES and fragments and variants thereof. Methods of modulating immune responses and of inducing an immune response against an immunogen are also disclosed.

Abstract: Improved anti-HIV immunogens and nucleic acid molecules that encode them are disclosed. Immunogens disclosed include those having consensus sequences for HIV Subtype A Envelope protein, those having consensus sequences for HIV Subtype B Envelope protein, those having consensus sequences for HIV Subtype C Envelope protein, those having consensus sequences for HIV Subtype D Envelope protein, those having consensus sequences for HIV Subtype B consensus Nef-Rev protein, and those having consensus sequences form HIV Gag protein subtypes A, B, C and D. Improved anti-HPV immunogens and nucleic acid molecules that encode them; improved anti-HCV immunogens and nucleic acid molecules that encode them; improved hTERT immunogens and nucleic acid molecules that encode them; and improved anti-Influenza immunogens and nucleic acid molecules that encode them are disclosed as well methods of inducing an immune response in an individual against HIV, HPV, HCV, hTERT and Influenza are disclosed.

Abstract: The invention is in the field of virus vaccines for protecting animals against infection by parvovirus, their production and use. More in particular, the invention is related to a vaccine comprising an attenuated parvovirus comprising a capsid protein or fragment thereof derivable from another parvovirus. Surprisingly it was found that such a vaccine was capable of inducing higher titers of protecting antibodies against a challenge with the second type of parvovirus strains while maintaining good immunity against the first type of parvovirus. Recombinant virus strains also remained attenuated.

Abstract: The invention is related to a dengue virus or chimeric dengue virus that contains a mutation in the 3? untranslated region (3?-UTR) comprising a ?30 mutation that removes the TL-2 homologous structure in each of the dengue virus serotypes 1, 2, 3, and 4, and nucleotides additional to the ?30 mutation deleted from the 3?-UTR that removes sequence in the 5? direction as far as the 5? boundary of the TL-3 homologous structure in each of the dengue virus serotypes 1, 2, 3, and 4, or a replacement of the 3?-UTR of a dengue virus of a first serotype with the 3?-UTR of a dengue virus of a second serotype, optionally containing the ?30 mutation and nucleotides additional to the ?30 mutation deleted from the 3?-UTR; and immunogenic compositions, methods of inducing an immune response, and methods of producing a dengue virus or chimeric dengue virus.

Abstract: The present invention is directed to novel nucleotide and amino acid sequences of Torque teno virus (“TTV”), including novel genotypes thereof, all of which are useful in the preparation of vaccines for treating and preventing diseases in swine and other animals. Vaccines provided according to the practice of the invention are effective against multiple swine TTV genotypes and isolates. Diagnostic and therapeutic polyclonal and monoclonal antibodies are also a feature of the present invention, as are infectious clones useful in the propagation of the virus and in the preparation of vaccines. Particularly important aspects of the invention include vaccines that provide TTV ORF1 protein, or peptide fragments thereof, as antigen.

Abstract: The present invention relates to a cell for the production of an antibody molecule such as an antibody useful for various diseases having high antibody-dependent cell-mediated cytotoxic activity, a fragment of the antibody and a fusion protein having the Fc region of the antibody or the like, a method for producing an antibody composition using the cell, the antibody composition and use thereof.

Abstract: The present invention relates to genetically engineered recombinant respiratory syncytial viruses and viral vectors which contain deletions of various viral accessory gene(s) either singly or in combination. In accordance with the present invention, the recombinant respiratory syncytial viral vectors and viruses are engineered to contain complete deletions of the M2-2, NS1, NS2, or SH viral accessory genes or various combinations thereof. In addition, the present invention relates to the attenuation of respiratory syncytial virus by mutagenisis of the M2-1 gene.

Abstract: Clonal strains of vaccinia viruses are provided. Also provided are methods of identifying and isolating attenuated and oncolytic clonal strains from virus preparations. Modified recombinant forms of the clonal strains also are provided. The clonal strains and virus preparations can be used for diagnostic and therapeutic methods, in particular for therapy and diagnosis or monitoring treatment of proliferative disorders, including neoplastic diseases, such as, but are not limited to, solid tumors and blood cancers.

Abstract: Polypeptides, polynucleotides, methods, compositions, and vaccines comprising influenza hemagglutinin and neuraminidase variants are provided.

Abstract: The invention provides chimeric flavivirus vectors encoding one or more structural proteins from a first flavivirus with a low level of replication in a cell, such as dengue virus and yellow fever virus, and a backbone from a second flavivirus with a high level of replication in the cell, such as the Rio Bravo virus or the Uganda S virus. The chimeric flaviviruses encoded by the chimeric flavivirus vectors of the invention can be used to vaccinate subjects to prevent infection from infectious flaviviruses, including dengue viruses and yellow fever viruses.

Abstract: Provided are newly identified pneumoviruses that can infect mammals, including dogs cats and potentially humans. Isolated polynucleotides and proteins of the viruses, as well as the isolated viruses themselves are provided. The invention includes compositions and methods for detecting the viruses, methods and compositions for prophylaxis and/or therapy of disease signs that are positively correlated with the presence of the viruses, and isolated cells comprising the viruses. Intact virions, viral proteins, and fragments thereof are also provided.

Abstract: The invention provides recombinant flavivirus vaccines that can be used in the prevention and treatment of flavivirus infection. The vaccines of the invention contain recombinant flaviviruses including attenuating mutations.

Abstract: The present invention provides recombinant respiratory syncytial viruses that have an attenuated phenotype and that comprise one or more mutations in the viral P, M2-1 and/or M2-2 proteins, as well as live attenuated vaccines comprising such viruses and nucleic acids encoding such viruses. Recombinant RSV P, M2-1 and M2-2 proteins are described. Methods of producing attenuated recombinant RSV, and methods of quantitating neutralizing antibodies that utilize recombinant viruses of family Paramyxoviridae, are also provided.

Abstract: The present invention relates to compositions and pharmaceutical compositions comprising poxviruses and more particularly extracellular enveloped viruses. The present invention also relates to a process for producing poxviruses and poxviruses obtained thereof. Moreover, the present invention also relates to the use of said poxvirus and said composition for the preparation of a medicament.

Abstract: Embodiments of the invention include compositions and methods related to Maraba virus and their use as anti-cancer therapeutics. Such rhabdoviruses possess tumor cell killing properties in vitro and in vivo.

Abstract: The present provides attenuated influenza viruses comprising a modified viral genome containing a plurality of nucleotide substitutions. The nucleotide substitutions result in the rearrangement of preexisting codons of one or more protein encoding sequences and changes in codon pair bias. Substitutions of non-synonymous and synonymous codons may also be included. The attenuated influenza viruses enable production of improved vaccines and are used to elicit protective immune responses.

Abstract: The present disclosure relates generally to systems and methods for the photo-inactivation of microorganisms. More specifically, the present invention is directed towards the photo-inactivation of microorganisms, such as viruses, using at least one furanocoumarin and broad spectrum pulsed light. For example, an aspect of the present invention includes a method for inactivating a herpesvirus, such as herpes B virus or herpes virus papio 2 using a psoralen and broad spectrum pulsed light.

Abstract: The present invention relates to recombinant modified vaccinia Ankara (MVA) virus containing restructured sites useful for the integration of heterologous nucleic acid sequences into an intergenic region (IGR) of the virus genome, where the IGR is located between two adjacent, essential open reading frames (ORFs) of the vaccinia virus genome, wherein the adjacent essential ORFs are non-adjacent in a parental MVA virus used to construct the recombinant MVA virus, and to related nucleic acid constructs useful for inserting heterologous DNA into the genome of a vaccinia virus, and further to the use of the disclosed viruses as a medicine or vaccine.

Abstract: The present invention relates, in general, to attenuated negative-strand RNA viruses having an impaired ability to antagonize the cellular interferon (IFN) response, and the use of such attenuated viruses in vaccine and pharmaceutical formulations. The invention also relates to the development and use of IFN-deficient systems for selection of such attenuated viruses. In particular, the invention relates to attenuated influenza viruses having modifications to the NS1 gene that diminish or eliminate the ability of the NS1 gene product to antagonize the cellular IFN response. The mutant viruses replicate in vivo but demonstrate reduced pathogenicity, and therefore are well suited for live virus vaccines, and pharmaceutical formulations.

Abstract: The cold-adapted master strain A/Ann Arbor/6/60 7PI (H2N2) and progenitor wild type E2(3) viral strains have been deposited and their genomic sequences identified. Seven nucleotide differences were found between the sequences identified herein and the previously published sequences for cold-adapted A/Ann Arbor/6/60 genes. The cold-adapted live influenza virus of the present invention can be reasserted with a variety of epidemic wild type influenza viruses and used to produce vaccines to prophylactically and therapeutically treat influenza.

Abstract: Described herein are modified influenza virus NS gene segments and nucleic acid sequences encoding such modified influenza virus NS gene segments. In certain embodiments, a modified influenza virus NS gene segment described herein comprises an influenza virus NS 1 open reading frame (ORF) lacking a stop codon, a heterologous nucleotide sequence, a 2A autoproteolytic cleavage site or another cleavage site, an NEP ORF, wherein the gene segment has one or more mutations in either the splice acceptor site, splice donor site, or both the splice acceptor and splice donor sites that prevents splicing of mRNA. Also described herein are recombinant influenza viruses comprising a modified influenza virus NS gene segment and the use of such viruses. The recombinant influenza viruses may be use in the prevention and/or treatment of influenza virus disease or as a delivery vector.