The present disclosure is related generally to systems and methods for high level expression of recombinant proteins from baculovirus in insect cells. In particular, the methods and systems described herein allow for high levels of baculovirus production in insect cells and/or high levels of protein production in insect cells using a chemically-defined, yeast lysate-free insect cell medium. The disclosure also relates to compositions and kits for culturing, transfecting, and/or producing recombinant protein in insect cells.

Methods of purifying virus-like particles (VLPs) that are substantially free of process contaminants and infectious agents. The methods incorporate, for example, low-pH treatment during harvest and/or inactivation by a solvent and/or detergent during VLP capture.

The present disclosure is directed to antibodies binding previously undefined epitopes on influenza A virus hemagglutinin and methods for use thereof.

The present invention relates to recombinantly constructed proteins useful for analytical assays, in particular for determining in a biological sample obtained from an individual the presence of antibodies specific for a rhabdovirus. More particular, the present invention relates to a polypeptide comprising an ectodomain of a rhabdovirus glycoprotein and a heterologous multimerization domain linked to said ectodomain. In one example, a fusion protein of the formula x-y-z is provided, wherein x consists of or comprises such an ectodomain being optionally free of a furin cleavage site, y is a linker moiety, and z is a heterologous multimerization domain optionally selected from the group consisting of immunoglobulin sequence, coiled coil sequence, streptavidin sequence, fibritin sequence, and avidin sequence.

The present disclosure provides vaccine compositions for prophylaxis and treatment of Zika virus infections comprising Zika virus antigens in immunogenic compositions, and in combination of Zika antigens with one or more arbovirus antigens such as Chikungunya virus and Japanese encephalitis virus antigens, methods of preparation and production of such compositions for use as vaccines for eliciting immune response in mammals against the above mentioned pathogens.

The present invention relates nucleic acid constructs for the production of recombinant parvoviral (e.g. adeno-associated viral) vectors in insect cells, to insect cells comprising such constructs and to methods wherein the cells are used to produce recombinant parvoviral virions. The insect cells preferably comprise a first nucleotide sequence encoding the parvoviral rep proteins whereby the initiation codon for translation of the parvoviral Rep78 protein is a suboptimal initiation codon that effects partial exon skipping upon expression in insect cells. The insect cell further comprises a second nucleotide sequence comprising at least one parvoviral (AA V) inverted terminal repeat (ITR) nucleotide sequence and a third nucleotide sequence comprising a sequences coding for the parvoviral capsid proteins.

The present invention relates to the use of an immunogenic composition that comprises a porcine circovirus type 3 (PCV3) antigen for treatment of several clinical manifestations (diseases). Preferably, the clinical manifestations are associated with a PCV3 infection.

The present invention discloses a SmartBac baculovirus expression system and application thereof. The system can comprise a acceptor plasmid (containing fragment A or fragments B and C) and a donor plasmid (containing fragment D); the fragment A contains a promoter, a sequence encoding a protease, a protease cleavage site, an insertion region of a gene encoding a target object to be expressed and a termination sequence; the fragment B contains a promoter, a sequence encoding a protease and a termination sequence; the fragment C contains a promoter, an insertion region of a gene encoding a target object to be expressed and a termination sequence; the fragment D contains a promoter, an insertion region of a gene encoding a target object to be expressed and a termination sequence. The present invention also provides three cloning strategies to achieve the expression of protein complexes with molecular weights of less than 600 kDa and the expression of protein complexes with molecular weights of no less than 600 kDa and efficient screening of a subunit most suitable for adding a purification tag. The present invention is of great significance for recombinantly expressing protein complexes with complex components and large molecular weights in insect cells.

Provided herein are lipid nanoparticle formulations that comprise an ionizable lipid and non-viral, capsid-free DNA vectors with covalently-closed ends.

The application describes ceDNA vectors having linear and continuous structure for insertion of a transgene into a gene safe harbor (GSH) in a genome, e.g., mammalian genome. ceDNA vectors can comprise at least one ITR sequence, or two ITR sequences, a transgene, and at least one nucleic acid sequence that specifically binds to, or hybridizes to a GSH locus. Some ceDNA vectors comprise at least one GSH homology arm (GSH HA), e.g., a 5 GSH HA, and/or a 3 GSH HA, and some ceDNA vectors comprise a guide RNA (gRNA) or guide DNA (gDNA) that specifically targets a region in the GSH locus and/or a 5 or 3 GSH HA herein. Some ceDNA vectors also comprise a gene editing cassette that encodes a gene editing molecule. Some ceDNA vectors further comprise cis-regulatory elements, including regulatory switches for regulation of the transgene expression after its insertion at a GSH