Using human B cell hybridoma creation, and antibody engineering technologies, Dr. James E Crowe Jr.'s laboratory has developed an array of antibodies from full length human antibodies to Fab fragments and diabodies. Many of these antibodies are ready for a cooperate partner who can further develop these antibodies into biologic herapeutics. The table below is a sample of the antibodies they are currently researching and have available. In addition to these areas of research, Dr. Crowe is actively seeking collaborative opportunities to identify new interesting targets for future antibody engineering projects.
The present invention is directed to particular human monoclonal antibodies and fragments thereof that find use in the detection, prevention and treatment of respiratory syncytial virus infections. In particular, these antibodies may neutralize RSV. Also disclosed are improved methods for producing monoclonal antibodies.
Scientists at Vanderbilt have developed an entirely plasmid-based system to better utilize reoviruses as a research tool. The system allows for generating a reovirus entirely from cloned cDNAs comprising three steps involving fairly well-known techniques.
The present invention is directed live, attenuated coronavirus vaccines. The vaccine comprises a viral genome encoding a p59 protein having at mutation at a specific tyrosine residue, and may include other attenuating mutations. Such viruses show reduced growth and pathogenicity in vivo.