Abstract: Antitoxin and vaccine compositions based on nodavirus VLPs are provided. Anthrax antitoxin and vaccine compositions are provided. Methods of treating toxins with VLP-based antitoxins are provided. Methods of raising an immune response with immunogen decorated VLPs are provided.

Abstract: Disclosed herein are methods of detecting tumors, monitoring cancer therapy, and selectively inhibiting the proliferation and/or killing of cancer cells utilizing a papilloma pseudovirus or a papilloma virus-like particle (VLP).

Abstract: Monoclonal antibodies and related binding proteins that bind specifically to the envelope glycoprotein of H5 subtypes or neuraminidase glycoprotein of N1 subtypes of avian influenza virus (AIV) are provided. The monoclonal antibodies and related binding proteins are useful for the detection of H5 and N1 subtypes of AIV, including H5N1 subtypes and provide means for the diagnosis, surveillance and treatment of dangerous viral infections.

Abstract: A method of predicting the virulence of a new or uncharacterized PRRS virus strain is provided wherein the strain is injected into swine and allowed to replicate for a period of from about 3-15 days. During this period, the rate of virus growth and/or the magnitude of viremia is determined, and this data is compared with a corresponding growth rate and/or viremia magnitude of a PRRS virus strain of known virulence, as a measure of the virulence of the new or uncharacterized strain.

Abstract: A series of potent and highly specific insecticidal toxins characterized by an amino acid sequences SEQ ID NO: 2-35.

Abstract: Disclosed herein are compositions and methods for imaging nerve cells. The composition comprises a fluorescent dye; and a viral component selected from a neurotropic, replication-defective virus, a viral protein of a neurotropic virus, and a capsid of a neurotropic virus. Although the fluorescent dye in itself cannot penetrate nerve cells, the fluorescent dye is bound to the viral component to form a dye/viral component complex that is capable of penetrating nerve cells.

Abstract: The present invention provides methods and adjuvants for enhancing an immune response to RSV in a host, wherein the methods and adjuvants comprise a source of a CD40 binding protein. Preferably, the CD40 binding protein is CD40L and the source is a vector comprising a promoter operatively linked to a CD40L coding region. The enhanced immune response produced by the adjuvants and methods of the current invention includes both increased expression of Th1 cytokines and increased production of antibody.

Abstract: The present invention discloses a chimeric Chikungunya virus comprising a heterologous alphavirus cDNA fragment and a Chikungunya virus cDNA fragment. The heterologous alphavirus may include but is not limited to Sindbis virus, Eastern equine encephalitis virus or Venezuelan equine encephalitis virus. The present invention also discloses the use of this chimeric Chikungunya virus as vaccines and in serological and diagnostic assays.

Abstract: Recombinant truncated human furin was expressed in CHO cells and concentrated approximately 50-fold by ultrafiltration and diafiltration. The concentrate was purified by column chromatography on CAPTO MMC™ (mixed cation exchange/hydrophobic interaction gel) resulting in a 30-50 fold purification factor and a yield of at least 60%. The at least 20% pure preparation obtained after CAPTO MMC™ (mixed cation exchange/hydrophobic interaction gel) chromatography had already a purification degree allowing on-column maturation of pro-VWF. Then an additional Arginine Sepharose chromatography purification was carried out. This two column process for purification of truncated human furin resulted in an almost pure furin preparation with a specific activity of approximately 290,000 U furin/mg protein and a yield of about 50%.

Abstract: An aquatic subunit vaccine comprises an antigenic fusion protein and suitable carrier or adjuvant. The antigenic fusion protein sequence consists from its amino terminus to carboxyl terminus of a receptor binding motif and a translocation domain of Pseudomonas aeruginosa exotoxin A and has the amino acid sequence of SEQ ID No: 8; a viral antigenic protein affecting fish disease; and a signal peptide having the amino acid sequence of SEQ ID No: 10.

Abstract: The present invention relates to monoclonal antibodies that bind or neutralize dengue type 1, 2, 3, and/or 4 virus. The invention provides such antibodies, fragments of such antibodies retaining dengue virus-binding ability, fully human or humanized antibodies retaining dengue virus-binding ability, and pharmaceutical compositions including such antibodies. The invention further provides for isolated nucleic acids encoding the antibodies of the invention and host cells transformed therewith. Additionally, the invention provides for prophylactic, therapeutic, and diagnostic methods employing the antibodies and nucleic acids of the 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: The present invention provides a vector for expressing at least a first and a second nucleic acid molecules which exhibit a percentage of homology of approximately 80% or greater than 80% over a portion of 40 or more continuous nucleotides and wherein said first nucleic acid molecule and/or said second nucleic acid molecule is modified so as to reduce said percentage of homology to less than 75%. The present invention also relates to substantially isolated nucleic acid molecules comprising a nucleotide sequence as defined in any of SEQ ID NO: 9-15 and 66-69. It also provides a host cell and a pharmaceutical composition comprising such a nucleic acid molecule or vector as well as their use for therapeutic or preventive purposes.

Abstract: Antigenic isolates and vaccines for Infectious Bursal Disease Virus include variants of the molecular Group 6 family of IBDV isolates, in particular the 28-1 isolate.

Abstract: An injectable composition, capable of preventing or controlling parasitic, viral, or bacterial infections or diseases, for example scours, in pregnant cows and viral infections or diseases in neonatal calves by parenterally administering to each cow in a herd of pregnant cows, a dose of a combination composition comprising: (a) at least one inactivated viral component derived from rotavirus and/or coronavirus; (b) a macrocyclic lactone active compound; and (c) a pharmaceutically acceptable parenteral carrier and preservative. The injectable compositions which include eprinomectin result in extremely low milk residues.

Abstract: The present invention is based on the development of a dual promoter system (preferably a RNA pol I-pol II system) for the efficient intracellular synthesis of viral RNA. The resultant minimal plasmid-based system may be used to synthesize any RNA virus, preferably viruses with a negative single stranded RNA genome. The viral product of the system is produced when the plasmids of the system are introduced into a suitable host cell. One application of the system is production of attenuated, reassortant influenza viruses for use as antigens in vaccines. The reassortant viruses generated by cotransfection of plasmids may comprise genes encoding the surface glycoproteins hemagglutinin and neuraminidase from an influenza virus currently infecting the population and the internal genes from an attenuated influenza virus. An advantageous property of the present invention is its versatility; the system may be quickly and easily adapted to synthesize an attenuated version of any RNA virus.

Abstract: The present invention relates to a method for detecting an avian influenza virus by an immunological assay using an anti-influenza virus antibody being unreactive to human influenza type-A virus subtypes H1, H2 and H3 and a human influenza type-B virus and being reactive to plural subtypes of avian influenza viruses, and an immunochromatographic test tool for use in the method. According to the present invention, an avian influenza virus can be detected specifically, rapidly and in a simple manner, as distinguishing an avian influenza virus from a human influenza virus.

Abstract: The invention provides a packaging (incorporation) signal for influenza virus vectors, and methods of using the signal to transmit and maintain influenza viral and foreign nucleic acid in virus and cells.

Abstract: This invention provides methods and compositions to preserve bioactive materials, such as viruses, bacteria, cells, or liposomes, in freeze dried particles suitable for pulmonary administration. Methods provide spray freeze drying of formulations to form stable freeze dried particles.

Abstract: The present invention provides mutant viruses with a decreased ability to block nuclear transport of mRNA or protein in an infected cell which are attenuated in vivo. The mutant viruses of the present invention may also be capable of triggering the anti-viral systems of normal host cells while remaining sensitive to the effects of these systems. The present invention further provides for the use of the mutant viruses in a range of applications including, but not limited to, as therapeutics for the treatment of cancer and infections, as vaccines and adjuvants, as viral vectors, and as oncolytic and cytolytic agents for the selective lysis of malignant or infected cells.