The present invention relates to immortalised chicken embryo fibroblasts, to cell cultures comprising such immortalised cells, to vaccines comprising such cells, to methods for the propagation of avian viruses on such cells, and to methods for the preparation of such cells and such vaccines.

The present invention relates to immortalised chicken embryo fibroblasts, to cell cultures comprising such immortalised cells, to vaccines comprising such cells, to methods for the propagation of avian viruses on such cells, and to methods for the preparation of such cells and such vaccines.

The present invention provides cells which have a high ability to propagate influenza virus, are suitable for use in production of an influenza virus for preparing a vaccine, and are able to be cultured in vitro, and a method for producing an influenza virus using the cells. That is, the present invention provides cells for producing an influenza virus in which expression of one or more genes that encode proteins involved in an effect of suppressing influenza virus production in a cell is suppressed and the gene is at least one selected from the group including ACTG1 gene and the like, and a method for producing an influenza virus that includes infecting the cells for producing an influenza virus with an influenza virus and then culturing.

The present invention provides cells which have a high ability to propagate influenza virus, are suitable for use in production of an influenza virus for preparing a vaccine, and are able to be cultured in vitro, and a method for producing an influenza virus using the cells. That is, the present invention provides cells for producing an influenza virus in which expression of one or more genes that encode proteins involved in an effect of suppressing influenza virus production in a cell is suppressed and the gene is at least one selected from the group including ACTG1 gene and the like, and a method for producing an influenza virus that includes infecting the cells for producing an influenza virus with an influenza virus and then culturing.

An object of the present invention is to provide a polydimethylsiloxane substrate to which a peptide having an affinity for polydimethylsiloxane (PDMS) is bound; a method for immobilizing a target protein on a polydimethylsiloxane substrate; a peptide having an affinity for PDMS; a polynucleotide encoding a peptide having an affinity for PDMS; and a vector using thereof. A polydimethylsiloxane substrate to which a peptide having an affinity for polydimethylsiloxane is bound, the peptide comprising the following peptide (1a) or (1b), or a fragment thereof: (1a) a peptide comprising an amino acid sequence represented by at least one member selected from the group consisting of SEQ ID NOs: 1 to 9; and (1b) a peptide comprising the amino acid sequence of (1a) in which one or more amino acids are deleted, substituted, and/or added, the peptide having an affinity for polydimethylsiloxane.

An object of the present invention is to provide a polydimethylsiloxane substrate to which a peptide having an affinity for polydimethylsiloxane (PDMS) is bound; a method for immobilizing a target protein on a polydimethylsiloxane substrate; a peptide having an affinity for PDMS; a polynucleotide encoding a peptide having an affinity for PDMS; and a vector using thereof. A polydimethylsiloxane substrate to which a peptide having an affinity for polydimethylsiloxane is bound, the peptide comprising the following peptide (1a) or (1b), or a fragment thereof: (1a) a peptide comprising an amino acid sequence represented by at least one member selected from the group consisting of SEQ ID NOs: 1 to 9; and (1b) a peptide comprising the amino acid sequence of (1a) in which one or more amino acids are deleted, substituted, and/or added, the peptide having an affinity for polydimethylsiloxane.

A viral inactivation device including at least one experimental continuous viral inactivation reactor having at least an inlet, an outlet, and a tubular flow path and a computer system that, based on the experimental continuous viral inactivation reactor can design, select, make, and/or manufacture a scaled actual reactor. The tubular flow path includes a set of alternating turns that form a serpentine or an interwoven pattern between the inlet and the outlet.

A viral inactivation device including at least one experimental continuous viral inactivation reactor having at least an inlet, an outlet, and a tubular flow path and a computer system that, based on the experimental continuous viral inactivation reactor can design, select, make, and/or manufacture a scaled actual reactor. The tubular flow path includes a set of alternating turns that form a serpentine or an interwoven pattern between the inlet and the outlet.

This invention provides a method of attenuating porcine pseudorabies virus, which can effectively and reproducibly attenuate porcine pseudorabies virus. The attenuated strain of porcine pseudorabies virus by use of said method can provide effective immunization for pigs.

This invention provides a method of attenuating porcine pseudorabies virus, which can effectively and reproducibly attenuate porcine pseudorabies virus. The attenuated strain of porcine pseudorabies virus by use of said method can provide effective immunization for pigs.