Abstract: The present invention provides monoclonal antibodies for human TrkB. In certain embodiments the inventive antibodies bind and activate human TrkB. In certain embodiments the inventive antibodies are selective for human TrkB in that they do not bind (or activate) human TrkA or human TrkC. In some embodiments the inventive monoclonal antibodies cross-react with murine TrkB. Humanized or veneered versions of the inventive antibodies are also encompassed. Pharmaceutical compositions that comprise inventive antibodies are provided as are methods for preparing the inventive antibodies and methods of using these for treatment, detection or purification purposes.

Abstract: The present invention relates to the use of a pneumovirus NS1 protein and/or NS2 protein or a nucleic acid encoding pneumovirus NS1 protein and/or NS2 protein for the preparation of a pharmaceutical formulation for reducing the immune response mediated by interferon (IFN). The invention further relates to recombinant pneumoviruses, in particular respiratory syncytial viruses (RSV), having an increased, reduced, or lacking a resistance to the interferon (IFN) mediated immune response, recombinant viruses having an increased resistance to the interferon (IFN) mediated immune response, and the use of the viruses in pharmaceutical applications, e.g. as vaccines.

Abstract: The present invention provides novel isolated BFLP1698 polynucleotides and polypeptides encoded by the BFLP1698 polynucleotides. Also provided are the antibodies that immunospecifically bind to a BFLP1698 polypeptide or any derivative (including fusion derivative), variant, mutant or fragment of the BFLP1698 polypeptide, polynucleotide or antibody. The invention additionally provides methods in which the BFLP1698 polypeptide, polynucleotide and antibody are utilized in the detection and treatment of a broad range of pathological states, as well as to other uses.

Abstract: The present invention provides a safe and effective vaccine composition against West Nile virus disease. An immunogenically active component of West Nile virus or plasmid DNA, an adjuvant such as a metabolizable oil, and a pharmacologically acceptable carrier are formulated into an immunizing vaccine. The invention also provides a method for the prevention or amelioration of West Nile disease, such as encephalitis, in equidae by administering the vaccine composition herein set forth.

Abstract: The present invention provides a safe and effective vaccine composition against West Nile virus disease. An immunogenically active component of West Nile virus or plasmid DNA, an adjuvant such as a metabolizable oil, and a pharmacologically acceptable carrier are formulated into an immunizing vaccine. The invention also provides a method for the prevention or amelioration of West Nile disease, such as encephalitis, in equidae by administering the vaccine composition herein set forth.

Abstract: A genetic deletion mutant live E. coli vaccine suitable for mass application to poultry, including chickens, is provided. Also provided is a safe and effective method to protect poultry against the ravages of Escherichia coli bacillosis infection and disease in which a live mutant aroA-gene deleted E. coli immunogen is administered to chickens, turkeys and the like via mass application routes such as coarse sprays and drinking water.

Abstract: The present invention provides novel isolated BFLP0169 polynucleotides and polypeptides encoded by the BFLP0169 polynucleotides. Also provided are the antibodies that immunospecifically bind to a BFLP0169 polypeptide or any derivative (including fusion derivative), variant, mutant or fragment of the BFLP0169 polypeptide, polynucleotide or antibody. The invention additionally provides methods in which the BFLP0169 polypeptide, polynucleotide and antibody are utilized in the detection and treatment of a broad range of pathological states, as well as to other uses.

Abstract: The present invention discloses methods for activating Caspase 9 in such a way that it can be used in assays to discover modulators of Caspase 9.

Abstract: This invention provides compositions, organisms and methodologies employing a novel human protein kinase, HPK3P23. The novel human kinase has sequence homology to the catalytic domains of several protein kinases. The gene encoding this novel protein kinase is localized in or near the 3p23 locus of the human chromosome 3. The sequence similarity between the novel human protein and the catalytic domain of protein kinases indicates that the novel human protein may function as a protein kinase.