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Polypeptides and Methods for Enhancing and Balancing Monovalent or Multivalent Flavivirus Vaccines
CDC researchers have developed a potent immunogenic enhancer polypeptide useful for improving flavivirus vaccines. Flaviviruses such as dengue virus (1, 2, 3 and 4), Japanese encephalitis virus, Murray Valley encephalitis virus, St. Louis encephalitis virus, yellow fever virus and tick-borne encephalitis virus are a great burden on public health. ...
Published: 7/25/2024   |   Inventor(s): Holly Hughes, Gwong-Jen Chang
Keywords(s): ADJUSTMENT, adjuvant, Adjuvant-like, BCXXXX, Boost, BOOSTING, CD4, CDC Docket Import, CDC Docket Import CDC Prosecuting, Cell, DB4BXX, DB4XXX, DC1XXX, DC5BXX, DC5XXX, DCXXXX, DDXXXX, DENGUE, DENGUE FEVER, Dengue Vaccine, Dengue-1, Dengue-2, Dengue-Like, DXXXXX, Epitope, Flavivirus, FLAVIVIRUSES, Identification, in vivo, JAPANESE ENCEPHALITIS VIRUS, Listed LPM Houze as of 4/15/2015, Mosquito, Mosquitoes, Nile, OID-NCEZID-DVBD, Post LPM Assignment Set 20150420, Pre LPM working set 20150418, PRIMER, T, THEREOF, Tick-Bone, TICK-BORNE, UBXXXX, Vaccine, Vaccine Design, VACCINE DEVELOPMENT, VBXXXX, Vector-borne, Vector-borne diseases, virus, VLXXXX, VOXXXX, WAXXXX, West, WIXXXX, WJXXXX, WMXXXX, XCXXXX, YBXXXX, YCXXXX
Category(s): Collaboration Sought > Licensing, Application > Diagnostics, TherapeuticArea > Rare / Neglected Diseases, Application > Vaccines, Application > Therapeutics, Application > Research Materials, Application > Consumer Products, TherapeuticArea > Infectious Disease
Synergistic Internal Ribosomal Entry Site (IRES)—MicroRNA-Based Approach for Attenuation of Flaviviruses and Live Vaccine Development
Many members of the Flaviviridae family are emerging and reemerging human pathogens that have caused outbreaks of devastating and often fatal diseases and represent a serious public health problem on a global scale. There is no single attenuation strategy that exists which is sufficient to prepare a safe, efficacious and immunogenic live attenuated...
Published: 7/25/2024   |   Inventor(s): Konstantin Tsetsarkin, Alexander Pletnev
Keywords(s): Approach, ATTENUATION, DC1XXX, DC5BXX, DC5XXX, DC6XXX, DCXXXX, DD1XXX, DDXXXX, Development, DEXXXX, DXXXXX, ENTRY, FLAVIVIRUSES, INTERNAL, Live, Pnd, RIBOSOME, Site/microRNA-based, Synergistic, Vaccine, Zika
Category(s): Collaboration Sought > Collaboration, TherapeuticArea > Infectious Disease, Application > Research Materials, Application > Vaccines
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