Abstract: This invention relates to methods for the cultivating cells, and in particular to methods for propagating viruses.

Abstract: The nonstructural protein 4 (NSP4) in the SA11 ATCC rotavirus strain has a histidine at amino acid position 47. This substituted form is more cytotoxic than the NSP4 of the Australia rotavirus strain, which has an asparagine at amino acid position 47. The histidine at amino acid position 47 is mutagenized to another amino acid to produce an alternative form of NSP4 which has reduced toxicity, while retaining its antigenicity and immunogenicity. NSP4 having a glutamic acid at amino acid position 48 is more cytotoxic than NSP4 having a lysine at amino acid position 48. The lysine at amino acid position 48 is mutagenized to another amino acid other than glutamic acid to produce an alternative form of NSP4 which has reduced toxicity, while retaining its antigenicity and immunogenicity.

Abstract: An altered G protein or portion thereof of RSV which retains immunogenicity and which, when incorporated into an immunogenic composition or vaccine and administered to a vertebrate, does not induce enhanced disease (e.g., atypical pulmonary inflammation such as pulmonary eosinophilia) upon subsequent infection with RSV, is disclosed. In a particular embodiment, the altered G protein comprises an alteration in one or more regions selected from the group consisting of the region from amino acid 159 to amino acid 198, the region from amino acid 159 to amino acid 174, the region from amino acid 171 to amino acid 187, the region from amino acid 176 to amino acid 190, and the region from amino acid 184 to amino acid 198 of the RSV G protein. Immunogenic compositions and vaccines comprising the altered RSV G protein, and optionally comprising RSV F protein, are also disclosed.

Abstract: The present invention provides isolated mammalian GalR3 receptors, isolated or recombinant nucleic acids and recombinant vectors encoding the same, host cells comprising the nucleic acids and vectors, and methods for making the receptors using the host cells. This invention further provides antibodies and antigen binding fragments thereof which specifically bind to the receptors and are useful for treating medical conditions caused or mediated by galanin. Also provided are screening methods for identifying specific agonists and antagonists of the mammalian GalR3 receptors.

Abstract: The invention relates to the purification and crystallization of hepatitis C virus (HCV) NS3/NS4A polypeptide complex. Also, crystallization conditions for NS3/NS4A are provided. Further, the atomic coordinates for the NS3/NS4A protein are disclosed. Examples of its use for the determination of the three-dimensional atomic structures of HCV NS3/NS4A with substrate(s) or substrate analog(s) or inhibitor complexes are also provided.

Abstract: A monoclonal antibody is provided which specifically binds to human interleukin-5. Also provided are a hybridoma which produces the monoclonal antibody; complementary DNAs which encode the heavy and light chain variable regions of the monoclonal antibody and CDRs therefrom; humanized monoclonal antibodies; and pharmaceutical compositions comprising the monoclonal antibody or anti-idiotypic antibodies directed against it, humanized monoclonal antibodies, binding fragments, binding compositions or single-chain binding proteins derived from the antibody and a physiologically acceptable carrier.

Abstract: The invention relates to the purification, crystallization of and structure of hepatitis C virus (HCV) NS5B RNA-dependent RNA polymerase. Also, crystallization conditions for NS5B are provided. Further, the atomic coordinates for the NS5B protein are disclosed. Examples of its use for the determination of the three-dimensional atomic structures of HCV NS5B or HCV NS5B in complex with substrates or substrate analogs or inhibitors are also provided.