The present disclosure relates to the field of G protein coupled receptor (GPCR) structural biology and signaling. In particular, the present disclosure relates to binding domains directed against and/or specifically binding to GPCR:G protein complexes. Also provided are nucleic acid sequences encoding such binding domains and cells expressing or capable of expressing such binding domains. The binding domains of the present disclosure can be used as universal tools for the structural and functional characterization of G-protein coupled receptors in complex with downstream heterotrimeric G proteins and bound to various natural or synthetic ligands, for investigating the dynamic features of G protein activation, as well as for screening and drug discovery efforts that make use of GPCR:G protein complexes.

The present invention relates to an immunogen-carrier, wherein the immunogen-carrier is preferably a virus-like particle (VLP) composed of a plurality of a modified PCV2 ORF2 protein. In particular, the present invention belongs to the field of compliance markers and marker vaccines which allow for the differentiation between infected and vaccinated individuals. In particular, it relates to a compliance marker for vaccines including a subunit antigen, and a DIVA (Differentiating Infected from Vaccinated Animals) system which makes it possible to differentiate between animals infected with a pathogen and animals treated with a subunit antigen derived from said pathogen.

Vaccination methods to control PCV2 infection with different PCV2 subtypes are disclosed. Specifically, a PCV2 subtype b (PCV2b) ORF2 proteins or immunogenic compositions comprising a PCV2b ORF2 protein are used in a method for the treatment or prevention of an infection with PCV2 of the same PCV2b and/or different subtype; the reduction, prevention or treatment of clinical signs caused by an infection with PCV2 of the same PCV2b or a different subtype; and/or the prevention or treatment of a disease caused by an infection with PCV2 of the same PCV2b and/or a different subtype. The present invention in particular relates to PCV2 subtype b (PCV2b) ORF2 proteins characterized in that they contain at least one mutation in the BC loop that such that the expressed protein is preferably expressed in a higher amount compared to a PCV2 ORF2 protein that does not contain such mutation.

Disclosed herein are recombinant baculoviruses suitable for introducing an exogenous gene into a pest insect, particularly, disease-transmitting mosquitos. The recombinant baculovirus is characterized in having a promotor that is any of a HzNV-1 viral early expressing gene pag1, a ceropin gene b1, a defensin gene a4, or hp70 gene; and an exogenous gene operably linked thereto the promoter. Also disclosed herein is a method of introducing an exogenous gene into a pest insect. The method includes transducing the pest insect with a recombinant baculovirus without suppressing the production of microRNAs (miRNAs) in the pest insect, wherein the recombinant baculovirus comprises a promoter of pag1, cecropin b1, defensin gene a, or hp70.

The present invention is generally related to virus-like particles (VLPs) comprising rabies virus (RV) glycoproteins (G proteins) and methods for making and using them, including immunogenic compositions such as vaccines for the treatment and/or prevention of rabies virus infection.

Disclosed are universal influenza A vaccines capable of providing broader cross-protection. The vaccine contains a fusion protein comprising tandem repeats of heterologous M2e epitope sequences that have been molecularly and genetically designed to provide broad cross-protection. The fusion protein may be incorporated into virus-like particles (VLPs) or a replicating live attenuated influenza virus vaccine, and administered alone or in combination with other influenza vaccines.

Vaccination methods to control PCV2 infection with different PCV2 subtypes are disclosed. Specifically, a PCV2 subtype b (PCV2b) ORF2 proteins or immunogenic compositions comprising a PCV2b ORF2 protein are used in a method for the treatment or prevention of an infection with PCV2 of the same PCV2b and/or different subtype; the reduction, prevention or treatment of clinical signs caused by an infection with PCV2 of the same PCV2b or a different subtype; and/or the prevention or treatment of a disease caused by an infection with PCV2 of the same PCV2b and/or a different subtype. The present invention in particular relates to PCV2 subtype b (PCV2b) ORF2 proteins characterized in that they contain at least one mutation in the BC loop that such that the expressed protein is preferably expressed in a higher amount compared to a PCV2 ORF2 protein that does not contain such mutation.

The present invention relates to an immunogen-carrier, wherein the immunogen-carrier is preferably a virus-like particle (VLP) composed of a plurality of a modified PCV2 ORF2 protein. In particular, the present invention belongs to the field of compliance markers and marker vaccines which allow for the differentiation between infected and vaccinated individuals. In particular, it relates to a compliance marker for vaccines including a subunit antigen, and a DIVA (Differentiating Infected from Vaccinated Animals) system which makes it possible to differentiate between animals infected with a pathogen and animals treated with a subunit antigen derived from said pathogen.

Vaccination methods to control PCV2 infection with different PCV2 subtypes are disclosed. Specifically, a PCV2 subtype b (PCV2b) ORF2 proteins or immunogenic compositions comprising a PCV2b ORF2 protein are used in a method for the treatment or prevention of an infection with PCV2 of the same PCV2b and/or different subtype; the reduction, prevention or treatment of clinical signs caused by an infection with PCV2 of the same PCV2b or a different subtype; and/or the prevention or treatment of a disease caused by an infection with PCV2 of the same PCV2b and/or a different subtype. The present invention in particular relates to PCV2 subtype b (PCV2b) ORF2 proteins characterized in that they contain at least one mutation in the BC loop that such that the expressed protein is preferably expressed in a higher amount compared to a PCV2 ORF2 protein that does not contain such mutation.

The invention provides antibodies that specifically bind to OX40 (CD134), referred to as OX40 antibodies, anti-OX40 or anti-OX40 antibodies. Invention antibodies that specifically bind to OX40 include mammalian (human, primate, etc.), humanized and chimeric anti-OX40 antibodies. Invention antibodies and antibody subsequences (fragments) that specifically bind to OX40 include purified and isolated antibodies, as well as pharmaceutical formulations thereof, are useful in various methods including treatment, screening and detection methods.