The present invention relates to the use of NS1/2 region of murine norovirus MNV or a corresponding region from a member of the Caliciviridae family or a protein encoded by any one of those regions, for treating dysbiosis, immune system dysregulation and various disorders, as well as for enhancing mucosal integrity and stimulating IFN-induced genes.

The present invention relates to a cyclic peptide, a conjugate comprising said cyclic peptide and a lipopeptide building block, a bundle of said conjugates, a synthetic virus-like particle comprising at least one bundle of conjugates and pharmaceutical compositions comprising the same. The present invention further relates to said cyclic peptide, said conjugate said bundle of conjugates, said synthetic virus-like particle and said pharmaceutical compositions for use as a medicament, preferably for use in a method for preventing of an infectious disease or reducing the risk of an infectious disease, more preferably for use in a method for preventing or reducing the risk of an infectious disease associated with or caused by a respiratory syncytial virus.

The present invention relates to a cyclic peptide, a conjugate comprising said cyclic peptide and a lipopeptide building block, a bundle of said conjugates, a synthetic virus-like particle comprising at least one bundle of conjugates and pharmaceutical compositions comprising the same. The present invention further relates to said cyclic peptide, said conjugate said bundle of conjugates, said synthetic virus-like particle and said pharmaceutical compositions for use as a medicament, preferably for use in a method for preventing of an infectious disease or reducing the risk of an infectious disease, more preferably for use in a method for preventing or reducing the risk of an infectious disease associated with or caused by a respiratory syncytial virus.

The invention relates to a bonding and forming device for an inner box of a paper box and surface paper. The bonding and forming device comprises a stand, a lifting platform, a paper box inner support member, a flanging pressing plate, an ejector pin, a left hairbrush, a right hairbrush, a first pushing part, a front hairbrush, a rear hairbrush and a second pushing part and also comprises a driving device, a first control device a second control device, a third control device, a fourth control device and a fifth control device, wherein the driving device is used for driving the ejector pin to rise or fall; the first control device is used for controlling the paper box inner support member to rise or fall; the second control device is used for controlling the left hairbrush and the right hairbrush to stretch; the third control device is used for controlling the first pushing part to stretch; the fourth control device is used for controlling the front hairbrush and the rear hairbrush to stretch; the fifth control device is used for controlling the second pushing part to stretch; an inhibiting device is arranged between the first control device and the driving device; and the paper box inner support member and the flanging pressing plate are respectively provided with a through hole for the ejector pin to pass through. By adopting the technical scheme, according to the bonding and forming device for the inner box of the paper box and the surface paper, provided by the invention, the inner box and other surfaces of the surface paper can be automatically bonded to be formed after a bottom plate of the inner box and the bottom surface of the surface paper are bonded. The degree of automation is high and the production efficiency is high.

The invention relates to a bonding and forming device for an inner box of a paper box and surface paper. The bonding and forming device comprises a stand, a lifting platform, a paper box inner support member, a flanging pressing plate, an ejector pin, a left hairbrush, a right hairbrush, a first pushing part, a front hairbrush, a rear hairbrush and a second pushing part and also comprises a driving device, a first control device a second control device, a third control device, a fourth control device and a fifth control device, wherein the driving device is used for driving the ejector pin to rise or fall; the first control device is used for controlling the paper box inner support member to rise or fall; the second control device is used for controlling the left hairbrush and the right hairbrush to stretch; the third control device is used for controlling the first pushing part to stretch; the fourth control device is used for controlling the front hairbrush and the rear hairbrush to stretch; the fifth control device is used for controlling the second pushing part to stretch; an inhibiting device is arranged between the first control device and the driving device; and the paper box inner support member and the flanging pressing plate are respectively provided with a through hole for the ejector pin to pass through. By adopting the technical scheme, according to the bonding and forming device for the inner box of the paper box and the surface paper, provided by the invention, the inner box and other surfaces of the surface paper can be automatically bonded to be formed after a bottom plate of the inner box and the bottom surface of the surface paper are bonded. The degree of automation is high and the production efficiency is high.

According to some embodiments, a carrier for reducing a likelihood of a pathogen binding to cell structures of a host comprises a core, surface features extending from an exterior surface of the core, wherein the surface features are configured to bind to target areas of cell structures of the host to at least partially block the pathogen from binding to said target areas as a result of competitive inhibition, and a plurality of binding sites along the exterior surface, wherein the binding sites are configured to attract at least one portion of the pathogen, wherein the binding sites are recognizable by the pathogen and are able to be bound by the pathogen, thereby at least partially immobilizing the pathogen and reducing the likelihood of the pathogen binding to target areas of cell structures of the host.

According to some embodiments, a carrier for reducing a likelihood of a pathogen binding to cell structures of a host comprises a core, surface features extending from an exterior surface of the core, wherein the surface features are configured to bind to target areas of cell structures of the host to at least partially block the pathogen from binding to said target areas as a result of competitive inhibition, and a plurality of binding sites along the exterior surface, wherein the binding sites are configured to attract at least one portion of the pathogen, wherein the binding sites are recognizable by the pathogen and are able to be bound by the pathogen, thereby at least partially immobilizing the pathogen and reducing the likelihood of the pathogen binding to target areas of cell structures of the host.

The invention pertains to a vaccine for use in protecting a pig against an infection with porcine endemic diarrhea virus (PEDV), the vaccine comprising non-live PEDV antigen and a non-metabolizable oil containing adjuvant, wherein the total amount of oil in the vaccine is less than 50% v/v, by administration of a dose of the antigen corresponding to at least 3.0E6 TCID50 killed whole PEDV. The invention also pertains to a method of protecting a pig against an infection with porcine endemic diarrhea virus.

The present invention relates to an improved filovirus vaccine comprising a recombinant modified vaccinia virus Ankara-based (MVA-based) vaccine against filovirus infection and to related products, methods and uses. Specifically, the present invention relates to genetically engineered (recombinant) MVA and FPV vectors comprising at least one heterologous nucleotide sequence encoding an antigenic determinant of a Marburg virus (MARV) or Ebola virus glycoprotein. Specifically, the invention relates to recombinant MVA comprising Ebola virus glycoprotein and virion protein 40. The invention also relates to products, methods and uses thereof as well as prime/boost regimens of MVA and genetically engineered (recombinant) FPV, e.g., suitable to induce a protective immune response in a subject.

An object of the present invention is to optimize, and to increase the accumulation amount of, GP5 antigen, in order to enhance the performance of a PRRS vaccine. The present invention provides a fusion protein comprising an ectodomain (ectGP5) of Glycoprotein 5 (GP5) of porcine reproductive and respiratory syndrome (PRRS) virus, and an adjuvant protein.