The present invention relates to a recombinant antigen derived from Zika virus E protein and use thereof. Specifically, the present invention provides a polynucleotide encoding Zika virus E protein domain III alone or repeatedly three times, a recombinant plasmid vector comprising the polynucleotide, and a DNA vaccine composition that may induce an immune response to Zika virus by expressing a Zika virus antigen protein effectively. In addition, the present invention provides a neutralizing antibody against Zika virus obtained using the polynucleotide and a method for preparing the neutralizing antibody.

The design, assembly, and use of novel sequences comprising targeting and insertion sites for site-specific bacterial transposons are disclosed. One aspect relates to a nucleotide sequence comprising an attachment site for a site-specific transposon operably-linked to a screenable or selectable marker sequence, wherein said marker sequence encodes one or more active or inactive polypeptides capable of conferring a screenable or selectable phenotype upon a cell comprising the marker sequence, wherein insertion of the site-specific transposon into the attachment site changes the phenotype of a cell comprising the screenable or selectable marker sequence. High and low copy number vectors comprising the sequences, designated synthemids, including plasmids capable of propagating in bacteria, and shuttle vectors, capable of propagating in bacteria and a eukaryotic host cell or two types of bacteria by means of distinct replicons, are also disclosed. Related aspects include the design and assembly of synthetic insect and mammalian virus shuttle vectors, including shuttle vectors comprising segments of a double-stranded DNA virus, such as a baculovirus, which propagates in insect cells, or a herpesvirus, an adenovirus, or a pox virus, which propagate in mammalian cells. Other aspects relate to use of modified vectors to express polypeptides for use as therapeutic drug products, as vaccines, or as components of cell or gene therapy vector systems, and in model and crop plant cells, tissues, and whole plants to facilitate the basic and applied studies leading to improved food products, and as tools advancing the interests of institutions involved in industrial and environmental biotechnology.

The invention concerns a baculovirus expression vector for recombinantly expressing a Foot-and-mouth disease virus (FMDV) capsid precursor protein under control of a promoter, the expression vector comprising a nucleic acid sequence encoding the FMDV capsid precursor protein, wherein the ATG start codon of an open reading frame encoding the FMDV capsid precursor protein © is preceded at position −4 to −1 by the nucleic acid sequence 5′-AAAT-3′. The invention further relates to a host cell comprising the baculovirus expression vector, a method of producing FMDV virus-like particles (VLPs), and a method of producing a vaccine.

The Rubella Virus Spike construct comprises at least one E1 component and one E2 component, which are linked together. The E1 component consists of the E1 envelope protein, whose C-terminal transmembrane region and intravirional domain are removed and whose N-terminus comprises the ectodomain of the E1 envelope protein. The E2 component consists of the E2 envelope protein whose transmembrane regions and intravirional domain removed and whose C-terminus comprising the ectodomain of the E2 envelope protein. The C-terminus of the E2 component is connected to the N-terminus of the E1 component by direct fusion or by means of a linker to form an E1-E2 fusion protein.

The present disclosure relates to a heterologous recombinant baculovirus (rBV) expression system for the production of foreign heterologous proteins in insect cells. This system comprises a recombinant baculovirus backbone within a genome with a deletion in the cathepsin gene into which foreign gene cassettes can be integrated, and an insect cell that can be infected by the v-cath-rBV, and in which the foreign proteins and/or viral vectors or particles are expressed.

The present invention relates to recombinant measles virus expressing Zika virus proteins and their applications, in particular in inducing preventive protection against Zika virus. The present invention is directed to recombinant measles virus (MV) expressing at least (i) the precursor of membrane (prM) protein of a Zika virus (ZIKV), and the envelope (E) protein of a ZIKV or a truncated version thereof, or (ii) the E protein of a ZIKV or a truncated version thereof, and concerns recombinant infectious particles of said MV-ZIKV able to replicate in a host after an administration, and also Virus Like Particles (VLPs) that contain these ZIKV proteins at their surface. The present invention provides means, in particular nucleic acids, vectors, cells and rescue systems to produce these recombinant infectious particles and VLPs. The present invention also relates to the use of these recombinant infectious particles and/or VLPs, in particular under the form of a composition, more particularly in a vaccine formulation, for the prevention of an infection by ZIKV or for the preventive protection against clinical outcomes of ZIKV infection.

The present invention is directed to novel polynucleotides, polypeptides, and polyproteins of Mycoplasma surface proteins, all of which are useful in detecting infection and for the preparation of vaccines for treating and preventing diseases in swine and other animals. Vaccines provided according to the practice of the invention are effective against Mycoplasma infections. Detection and therapeutic polyclonal and monoclonal antibodies are also a feature of the present invention. Assays, kits, systems, and nanoparticle encapsulated compositions related to the polynucleotides, polypeptides, polyproteins, antibodies or fragments, derivatives, and variants thereof are also disclosed.

The present invention relates to a recombinant antigen derived from Zika virus E protein and use thereof. Specifically, the present invention provides a polynucleotide encoding Zika virus E protein domain III alone or repeatedly three times, a recombinant plasmid vector comprising the polynucleotide, and a DNA vaccine composition that may induce an immune response to Zika virus by expressing a Zika virus antigen protein effectively. In addition, the present invention provides a neutralizing antibody against Zika virus obtained using the polynucleotide and a method for preparing the neutralizing antibody.

Immunogenic compositions for inducing a universal immune response to influenza, and particularly influenza A, by eliciting anti-neuraminidase antibodies which provide protection against heterologous influenza infection. Compositions comprising recombinant baculovirus expression vectors expressing neuraminidase in cultured insect cells dispersed in a pharmaceutically-acceptable carrier comprising insect cell culture media, and optional adjuvant. Methods of inducing immune responses against influenza, and particularly influenza A, by eliciting anti-neuraminidase antibodies in a host animal susceptible to infection.

The present invention relates to means and methods for increasing the efficiency of recombinant protein expression and, more particularly, to means and methods for optimizing the industrial production of recombinant proteins in pyralid moths eggs (which are insect pests of stored foods), especially Mediterranean flour moth eggs (Ephestia kuehniella). Furthermore, the present invention relates to the pyralid moths eggs itself which contains a recombinant baculovirus and, infection of recombinant baculovirus into pyralid moths eggs and, transformation or transduction or transfection by recombinant baculoviruses or bacmids. In addition, it relates to an appropriate device for carrying out the method of the present invention.