Compositions for protecting subjects from diseases caused by (+) SS RNA virus are described herein. The compositions include (i) a vector containing a DNA encoding a RNA molecule of an infectious (+) SS RNA virus operably linked to a eukaryotic RNA polymerase promoter and a carrier; or (ii) (+) SS RNA viruses obtained from eukaryotic cells transfected with the vector of (i) and a carrier.

The invention relates to polynucleotides comprising the sequence of a flavivirus preceded by a sequence encoding an N terminal part of a flavivirus Capsid protein, an immunogenic protein, or a part thereof comprising a an immunogenic peptide, and a 2A cleaving peptide, and to the virus encoded by such sequences. The invention further relates to the use of such polynucleotides and viruses as vaccines.

The present invention relates to chimeric yellow feverZika strains and attenuated versions thereof, wherein the nucleotide sequence encoding the signal sequence and prME protein of said yellow virus is replaced by a nucleotide sequence encoding the signal sequence and the prME protein of a Zika virus.

Embodiments herein report compositions, uses and manufacturing of dengue virus constructs and live attenuated dengue viruses. Some embodiments concern a composition that includes, but is not limited to, a tetravalent dengue virus composition. In certain embodiments, compositions can include constructs of one or more serotypes of dengue virus, such as dengue-1 (DEN-1) virus, dengue-2 (DEN-2) virus, dengue-3 (DEN-3) or dengue-4 (DEN-4) virus constructs. In other embodiments, constructs disclosed herein can be combined in a composition to generate a vaccine against more one or more dengue virus constructs that may or may not be subsequently passaged in mammalian cells.

The present invention relates to attenuated, immunogenic West Nile virus chimeras built on a dengue virus backbone for the production of immunogenic, live, attenuated West Nile virus vaccines.

Embodiments herein report compositions, uses and manufacturing of dengue virus constructs and live attenuated dengue viruses. Some embodiments concern a composition that includes, but is not limited to, a tetravalent dengue virus composition. In certain embodiments, compositions can include constructs of one or more serotypes of dengue virus, such as dengue-1 (DEN-1) virus, dengue-2 (DEN-2) virus, dengue-3 (DEN-3) or dengue-4 (DEN-4) virus constructs. In other embodiments, constructs disclosed herein can be combined in a composition to generate a vaccine against more one or more dengue virus constructs that may or may not be subsequently passaged in mammalian cells.

The present invention relates to a vaccine for Zika virus, the vaccine comprising Zika virus membrane and envelope proteins. More specifically, the vaccine comprises nucleic acid molecules encoding modified Zika virus membrane and/or envelope proteins. When introduced into a cell, the encoded proteins are produced, which results in the production of a virus-like particle capable of eliciting an immune response against Zika virus.

Disclosed herein are compositions comprising one or more subgenomic Flavivirus RNA (sfRNA) elements and using those compositions in methods of improving mRNA transcript stability, improving mRNA transcript translation efficiency, enhancing gene therapy, and treating and/or preventing a disease or disorder.

This disclosure provides, among other things, amplifiable nucleic acid constructs for expressing a gene of interest in a cell, e.g., an erythroid cell. The amplifiable nucleic acid construct may contain the gene of interest and an RNA-dependent RNA polymerase (RdRP)-responsive 5 UTR, and may optionally further contain an RdRP-responsive 3 UTR. RdRP may also be provided, e.g., on the same construct or a different construct.

The present disclosure relates to compositions and methods for investigating Zika virus (ZIKV) biology and pathogenicity. The present disclosure provides genetically stable viral vectors to produce functional RNA transcripts of ZIKV cDNAs. In particular, the present disclosure provides full-length infectious cDNAs as bacterial artificial chromosomes for spatiotemporally distinct and genetically divergent ZIKVs. The present disclosure also provides methods of generating a genetically engineered attenuated ZIKV using the genetically stable viral vectors described herein.