Abstract: Embodiments described herein include full-length infectious cDNA clones of Langat tick-borne flavivirus.

Abstract: Embodiments described herein include full-length infectious cDNA clones of Langat tick-borne flavivirus.

Abstract: A method for providing passive immmunotherapy to respiratory syncytial virus (RSV) disease in a host is disclosed. The method includes administering to a host a human monoclonal antibody Fab fragment that neutralizes both antigenic subgroup A and subgroup B of respiratory syncytial virus (RSV), or a monoclonal antibody comprising the fragment.

Abstract: The invention includes a chimeric virus for use in a vaccine preparation having a genome comprising nucleic acid sequences encoding at least one structural protein from one flavivirus and nucleic acid sequences encoding nonstructural protein from another flavivirus. The genome preferably includes mutations within the viral genome that reduce virus virulence and in a particularly preferred embodiment these vaccines are directed to flaviviruses such as dengue virus, tick-borne encephalitis virus and Japanese encephalitis virus. The invention also includes a baculovirus having a recombinant dengue cDNA sequence which encodes: (1) dengue virus capsid protein, pre-matrix protein, envelope glycoprotein and NS1 and NS2a nonstructural proteins or (2) dengue envelope glycoprotein or (3) dengue non-structural proteins NS1 and NS2a.

Abstract: The present invention relates to the identification and cloning of a novel neutralizing human monoclonal antibody to the Respiratory Syncytial Virus. The invention provides such antibodies, fragments of such antibodies retaining RSV-binding ability, chimeric antibodies retaining RSV-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. Finally, the invention provides for diagnostic and therapeutic methods employing the antibodies and nucleic acids of the invention.

Abstract: The present invention provides vaccine compositions of attenuated human rotavirus. More particularly, the attenuated human rotavirus is produced by cold passage and thus contains attenuating mutations which produce virus having a cold-adapted (ca) and temperature sensitive (ts) phenotype. The attenuated strains are used in methods for stimulating the immune system of an individual to induce protection against human rotavirus by administration of the ca attenuated rotavirus.

Abstract: The respiratory syncytial virus (RSV) is a major cause of lower respiratory tract disease in infants and children throughout the world. RSV is a major cause of pneumonia and bronchiolitis in infants under one year of age, and is a major cause of fatal respiratory tract disease in these infants. The treatment and prevention of RSV infection has been problematic. However, the present invention addresses some of these concerns by providing attenuated RSV strains that are suitable for inclusion in immunizing compositions. Specifically, the present invention is directed toward the introduction of growth restriction mutations into incompletely attenuated host range-restricted cold-passaged respiratory syncytial virus (cpRSV) strains by further passage of the strains at increasingly reduced temperatures to produce derivative strains which are more satisfactorily attenuated.

Abstract: The invention includes a chimeric virus for use in a vaccine preparation having a genome comprising nucleic acid sequences encoding at least one structural protein from one flavivirus and nucleic acid sequences encoding nonstructural protein from another flavivirus. The genome preferably includes mutations within the viral genome that reduce virus virulence and in a particularly preferred embodiment these vaccines are directed to flaviviruses such as dengue virus, tick-borne encephalitis virus and Japanese encephalitis virus. The invention also includes a baculovirus having a recombinant dengue cDNA sequence which encodes: (1) dengue virus capsid protein, pre-matrix protein, envelope glycoprotein and NS1 and NS2a nonstructural proteins or (2) dengue envelope glycoprotein or (3) dengue non-structural proteins NS1 and NS2a.

Abstract: The invention described herein provides a method for selecting a novel African Green monkey kidney (AGMK) cell substrate, its cultivation and serial passage and its subsequent characterization. The invention provides a method for the use of the cell substrate in the isolation, growth and serial passage of a large number of viruses, particularly rotaviruses, enteroviruses, respiratory viruses and hepatitis A virus. The invention provides a method for the utilization of this AGMK cell substrate for the production of live and killed virus vaccines.

Abstract: A method for producing novel African Green Monkey Kidney (AGMK) cell lines is taught. These cell lines which are free of viable adventitious microbial agents are useful as substrates for viruses and for the preparation of viral vaccines.

Abstract: The present invention provides vaccine compositions of attenuated respiratory syncytial virus (RSV). More particularly, the attenuated virus may be a derivative of RSV which has been incompletely attenuated by cold-passage or introduction of mutations which produce virus having a temperature sensitive (ts) or cold adapted (ca) phenotype. The invention also provides methods for stimulating the immune system of an individual to induce protection against respiratory syncytial virus by administration of attenuated RSV. The invention also provides pure cultures of attenuated RS virus, wherein the virus has been more completely attenuated by the further derivatization of previously identified incompletely attenuated ts or cp mutants.

Abstract: A method for producing novel African Green Monkey Kidney (AGMK) cell lines is taught. These cell lines which are free of viable adventitious microbial agents are useful as substrates for viruses and for the preparation of viral vaccines.

Abstract: The present invention provides vaccine compositions of attenuated respiratory syncytial virus (RSV). More particularly, the attenuated virus may be a derivative of RSV which has been incompletely attenuated by cold-passage or introduction of mutations which produce virus having a temperature sensitive (ts) or cold adapted (ca) phenotype. The invention also provides methods for stimulating the immune system of an individual to induce protection against respiratory syncytial virus by administration of attenuated RSV. The invention also provides pure cultures of attenuated RS virus, wherein the virus has been more completely attenuated by the further derivatization of previously identified incompletely attenuated ts or cp mutants.

Abstract: Human monoclonal antibodies and fragments thereof which bind and neutralize respiratory syncytial virus (RSV) antigenic subgroups A and B are disclosed. Also disclosed are diagnostic and immunotherapeutic methods of using the monoclonal antibodies as well as cell lines producing the monoclonal antibodies.

Abstract: A novel African Green Monkey Kidney (AGMK) cell line is taught as well as a method for the preparation thereof. The cell line which is free of viable adventitious microbial agents is useful as a substrate for viruses and for the preparation of viral vaccines.

Abstract: A new method for producing live, attenuated rotavirus strains suitable for preparing a vaccine is described. It is demonstrated that a naturally attenuated rotavirus recovered from newborns or other individuals whos have undergone asymptomatic infection can be used for immunization or that a virulent rotavirus can be converted into an attenuated strain by substituting the conserved fourth rotavirus gene segments of a naturally attenuated rotavirus in the genome of the virulent rotavirus.

Abstract: The present invention discloses a vaccine for the prevention of rotavirus caused diseases in humans. The vaccine is prepared from attenuated, immunogenic rhesus rotavirus which has been characterized to be antigenically similar, if not identical, to human rotavirus serotype 3.

Abstract: The present invention discloses a vaccine for the prevention of rotavirus caused diseases in humans. The vaccine is prepared from attenuated, immunogenic rhesus rotavirus which has been characterized to be antigenically similar, if not identical, to human rotavirus serotype 3.

Abstract: This invention relates to processes which are used to produce, isolate, and characterize human rotavirus/animal rotavirus reassortants and to produce live attenuated vaccines and vaccine precursors. In the present strategy there is involved the new use of either (1) high titer hyperimmune antisera or (2) monoclonal antisera to select reassortants with the desired human phenotype. A point of novelty is the finding that antiserum or monoclonal antisera alone, so long as it possesses high titer neutralizing activity against only the 34-38Kd glycoprotein or of the animal parent, is sufficient to use for selection of reassortant rotaviruses with human phenotype. Also, the novel products are live attenuated vaccine precursors and vaccines.

Abstract: A method of producing a vaccine useful in animals which comprises producing a reassortment by gene exchange from an avian influenza A virus parent and an animal influenza A virus parent and then selecting for the reassortant containing two animal surface antigen genes and six avian internal genes by temperature and antibodies.