The present invention relates to the field of veterinary diagnostics, specifically to a test for the detection of antibodies against CSFV. In particular the invention relates to a method for detecting antibodies against wild type CSFV in a test sample, characterized in that the method comprises co-incubating with a carrier comprising a mutated TAVSPTTLR epitope of CSFV E2 protein. Further, the invention relates to a diagnostic test kit, and to the use of the method according to the invention. In addition the invention relates to a method for differentiating between animals infected with wild type CSFV and animals that were vaccinated against CSFV with a CSFV (marker) vaccine, and to a method for controlling an infection with wild type CSFV in a population of porcine animals, by the combined use of a CSFV (marker) vaccine and the diagnostic test kit of the invention.

The invention relates to modified HPV particles that can be used therapeutically. Modified HPV particles may be used to deliver therapeutic agents, including siRNA molecules. Modified HPV particles may be used for the treatment of diseases or conditions of mucosal tissue, including HPV (human papilloma virus) infection and HPV-related tumors.

The present invention relates to methods for the production of biopharmaceuticals implementing a baculovirus-based system. These methods advantageously allow the production of biopharmaceuticals with a reduced number of or without contaminating baculoviral virions.

An optimized coding sequence of human blood clotting factor eight (VIII) and a promoter may be used in vectors, such as rAAV, for introduction of factor VIII, and/or other blood clotting factors and transgenes. Exemplary of these factors and transgenes are alpha-1-antitrypsin, as well as those involved in the coagulation cascade, hepatocye biology, lysosomal storage, urea cycle disorders, and lipid storage diseases. Cells, vectors, proteins, and glycoproteins produced by cells transformed by the vectors and sequence, may be used in treatment.

The present invention refers to a dual vector system for production of one or more recombinant proteins in cells of insect origin comprising a first viral vector comprising a T7 promoter operably linked to a targeting sequence comprising a non-coding sequence and which expression can suppress one or more proteins essential for virus production, followed by a T7 termination sequence, and a second viral vector comprising a promoter operably linked to a T7 RNA polymerase encoding sequence, and at least one gene sequence located on the first and/or second vector encoding one or more recombinant proteins of interest. The invention further refers to recombinant insect cells comprising the dual vector system and methods for producing recombinant proteins using said dual vector CA system.

The application describes ceDNA vectors having linear and continuous structure for delivery and expression of a transgene. ceDNA vectors comprise an expression cassette flanked by two ITR sequences, where the expression cassette encodes a transgene. Some ceDNA vectors further comprise cis-regulatory elements, including regulatory switches. Further provided herein are methods and cell lines for reliable gene expression in vitro, ex vivo and in vivo using the ceDNA vectors. Provided herein are method and compositions comprising ceDNA vectors useful for the expression of an antibody or fusion protein in a cell, tissue or subject. Such antibodies or fusion proteins can be expressed for treating disease or alternatively, for the production of antibodies or fusion proteins in a commercial setting.

This invention discloses a method of increasing production of virus-like particles comprising expressing an avian influenza matrix protein. The invention also comprises methods of making and using said VLPs.

The present disclosure describes methods and systems for use in the production of adeno-associated virus (AAV) particles, including recombinant adeno-associated virus (rAAV) particles. In certain embodiments, the production process and system use Baculoviral Expression Vectors (BEVs) in the production of AAV particles. In certain embodiments, the production process and system use Spodoptera frugiperda insect cells (such as Sf9 or Sf21) as viral production cells. In certain embodiments, the production process and system use BEVs which lacks a portion or an entirety of the v-cath gene or includes a mutationally inactivated version of the v-cath gene.

Disclosed herein are recombinant baculoviruses suitable for detecting the presence of arthropod-borne viruses in a biological sample of a test subject. The information derived from the detection may also be used to render a diagnosis on whether the test subject is infected with the arthropod-borne viruses or not, so that proper course of treatment may be assigned to the subject.

Disclosed herein are nanoparticles suitable for use in vaccines. The nanoparticles present antigens from pathogens surrounded to and associated with a detergent core resulting in enhanced stability and good immunogenicity. Dosages, formulations, and methods for preparing the vaccines and nanoparticles are also disclosed.