Abstract: Described herein are methods and compositions for treating viral infections.

Abstract: An antibody against spike protein of SARS-CoV-2 is provided, the antibody having a specific heavy chain variable region and a specific light chain variable region, or a fragment of the antibody, the antibody or fragment thereof inhibiting the binding between the spike protein of SARS-CoV-2 and ACE2, the antibody or fragment thereof inhibiting SARS-CoV-2 infection; and a pharmaceutical composition including the antibody or fragment thereof and a pharmaceutically acceptable carrier, the pharmaceutical composition including two or more kinds of the antibody or fragment thereof.

Abstract: Provided is a method for producing an influenza HA split vaccine which produces an antibody that binds to a HA stem region of influenza, the HA stem region being less likely to cause antigenic variation, An influenza HA split vaccine is subjected to an acidic treatment. Through the acidic treatment, an influenza HA split vaccine which produces an antibody that binds to a LAH of the HA stem region is obtained. This influenza HA split vaccine has an excellent protective ability against infection of other influenza viruses of different antigenicity.

Abstract: The present invention provides a method for amplifying a sequence adjacent to a specific sequence, comprising the steps of: annealing a first forward primer to the specific sequence to synthesize a complementary strand; sequentially polymerically adding a first deoxynucleotide and a second deoxynucleotide to a 3?-end of the complementary strand; annealing a first reverse primer to a binding site between the 3?-end of the complementary strand and a polydeoxynucleotide strand composed of the first deoxynucleotide to synthesize a double-stranded DNA; performing a PCR with the double-stranded DNA as a template by using a second forward primer complementary to the specific sequence and a first reverse primer; and further performing a PCR by using a third forward primer complementary to the specific sequence and a second reverse primer.

Abstract: Provided is a flavivirus cross neutralizing antibody which has an excellent ability to control infection with suppressed ADE. This is a flavivirus cross neutralizing antibody that specifically binds to domains of E protein of flavivirus and thereby has an ability to control infection with at least two viruses included in the flavivirus. The domains of E protein include a plurality of domains including domain III. The flavivirus includes, for example, Zika virus, dengue virus types 1-4, and Japanese encephalitis virus.

Abstract: The present invention addresses the issue of providing a norovirus component vaccine for subcutaneous, intradermal, percutaneous, or intramuscular administration which vaccine can readily immunize the target cells, an associated product of a molecular needle serving as an active ingredient of the vaccine, and a production method for the associated product. The invention provides a norovirus component vaccine containing, as an active ingredient, an associated product including a hexamer formed through bonding of two molecules of a trimer of a molecular needle represented by the following formula (1). W-L1-Xn—Y (1) [wherein W represents an amino acid sequence of P domain of the capsid protein of norovirus as an immunogen; L1 represents a first linker sequence having 0 to 100 amino acids; X represents an amino acid sequence represented by SEQ ID NO: 1; Y represents an amino acid sequence of a cell introduction domain; n is an integer of 1 to 3].

Abstract: The present invention relates to a hepatitis B vaccine composition for spray-administration to nasal mucosa for preventing and treating hepatitis B, which comprises hepatitis B antigen and carboxy vinyl polymer.

Abstract: Provided is a polymer having antimicrobial and disinfecting properties against a wide range of kinds of germs. A polymer, including: a polymer chain having a repeating unit represented by the following formula (1); and a partial structure (excluding the polymer chain) derived from a compound containing a group represented by —NH—. [In formula (1), R1 represents a hydrogen atom or a methyl group, Z represents a group forming an organic ammonium salt, —NR5R6 (where R5 and R6 each independently represent a hydrogen atom, or a substituted or unsubstituted hydrocarbon group), or a substituted or unsubstituted nitrogen-containing heterocyclic group, and X represents a single bond, or a divalent linking group.

Abstract: An object of the present invention is to solve problems in terms of stagnation of research on norovirus by providing a cultured transgenic cell or a transgenic animal in which murine norovirus (MNV) can be grown across the barrier of host specificity in mammalian cells, and providing a screening method that uses the cultured transgenic cell or the transgenic animal. The present inventors have found that MNV infection is determined in a cultured transgenic mammalian cell or a mammal possessing the cultured transgenic mammalian cell as its own cell, the cultured transgenic mammalian cell containing one or more species selected from the entirety or a portion of the murine CD300F gene and/or a CD300 family gene having an extracellular domain nucleotide sequence similar to that of the murine CD300F gene. The present inventors have solved the aforementioned problems by providing, for example, a norovirus-related drug screening method on the basis of this finding.

Abstract: The present invention addresses the problem of finding a new gene detection primer capable of more accurately detecting genotypes of rotavirus A and a detection means using the gene detection primer, and provides a rotavirus genotype detection method, a gene amplification primer set used in this method, and a genotype detection kit.

Abstract: The present invention addresses the issue of providing a norovirus component vaccine for subcutaneous, intradermal, percutaneous, or intramuscular administration which vaccine can readily immunize the target cells, an associated product of a molecular needle serving as an active ingredient of the vaccine, and a production method for the associated product. The invention provides a norovirus component vaccine containing, as an active ingredient, an associated product including a hexamer formed through bonding of two molecules of a trimer of a molecular needle represented by the following formula (1). W-L1-Xn—Y (1) [wherein W represents an amino acid sequence of P domain of the capsid protein of norovirus as an immunogen; L1 represents a first linker sequence having 0 to 100 amino acids; X represents an amino acid sequence represented by SEQ ID NO: 1; Y represents an amino acid sequence of a cell introduction domain; n is an integer of 1 to 3].

Abstract: In this invention, a non-infectious particle has been produced, comprising a pathogen antigen protein caused to be expressed on the surface of a virus particle having at least one species of paramyxovirus envelope protein missing from the particle. This particle has been found to hold within the particle a large amount of antigen protein compared to an infectious particle, and to be capable of eliciting a host immune response with extremely high efficiency. The non-infectious particle according to the present invention is useful as a vaccine against a pathogenic virus, or the like.

Abstract: A drug administration device includes a substrate having a first surface, a projection extending from the first surface, and a solid drug. One direction that intersects with the first surface is a first direction, and one direction that extends along the first surface is a second direction. A groove serving as a receiving section is formed in the projection. The groove defines a cavity recessed in the first direction toward the substrate and extends in the second direction to open to a section of the peripheral surface of the projection. The drug is received in the groove.

Abstract: Disclosed is a vaccine which has a high therapeutic effect on mycoplasma infection and is highly safe. For the purpose of developing effective therapeutic methods for mycoplasma infection, mycoplasma-mimic particles which are effective as a vaccine for mycoplasma infection are provided, and also provided are bacterium-mimic particles including common bacteria. Bacterium-mimic particles such as mycoplasma-mimic particles can be provided by producing liposome particles in which a lipid antigen specific to a pathogenic bacterium such as mycoplasma is contained as a liposome-constituting lipid component. The administration of the mycoplasma-mimic particles enables the induction of a potent immunological activity in living bodies. The mycoplasma-mimic particles can be used as an excellent vaccine for the prevention or treatment of mycoplasma infection.

Abstract: An object of the present invention is to solve problems in terms of stagnation of research on norovirus by providing a cultured transgenic cell or a transgenic animal in which murine norovirus (MNV) can be grown across the barrier of host specificity in mammalian cells, and providing a screening method that uses the cultured transgenic cell or the transgenic animal. The present inventors have found that MNV infection is determined in a cultured transgenic mammalian cell or a mammal possessing the cultured transgenic mammalian cell as its own cell, the cultured transgenic mammalian cell containing one or more species selected from the entirety or a portion of the murine CD300F gene and/or a CD300 family gene having an extracellular domain nucleotide sequence similar to that of the murine CD300F gene. The present inventors have solved the aforementioned problems by providing, for example, a norovirus-related drug screening method on the basis of this finding.

Abstract: Provided is a polymer having antimicrobial and disinfecting properties against a wide range of kinds of germs. A polymer, including: a polymer chain having a repeating unit represented by the following formula (1); and a partial structure (excluding the polymer chain) derived from a compound containing a group represented by —NH—. [In formula (1), R1 represents a hydrogen atom or a methyl group, Z represents a group forming an organic ammonium salt, —NR5R6 (where R5 and R6 each independently represent a hydrogen atom, or a substituted or unsubstituted hydrocarbon group), or a substituted or unsubstituted nitrogen-containing heterocyclic group, and X represents a single bond, or a divalent linking group.

Abstract: Disclosed is an adapted Madin-Darby canine kidney cell line capable of suspension culture in the absence of serum, and a chemically-defined medium for culture of the adapted MDCK cell line. Further disclosed are culture methods for growing the adapted MDCK cell line and methods for producing a vaccine from the adapted MDCK cell line grown in the chemically-defined medium.

Abstract: The present invention is directed to a sequence modification of the H7 hemagglutinin glycoprotein of the Influenza A/Shanghai/2/2013 H7 sequence together with vaccines derived therefrom. In addition, the invention further comprises method for improving the efficacy of vaccine antigens by modifying T cell epitopes.

Abstract: The invention provides a method for the prophylaxis or treatment of hepatitis C in a mammal with a peptide-bound liposome wherein the peptide contains a partial amino acid sequence having a length of not less than 9 amino acids in the amino acid sequence of hepatitis C virus NS3 protein, has a length of 9 to 11 amino acids, and is capable of inducing cytotoxic T lymphocytes; the liposome contains a phospholipid containing an acyl group having 14 to 24 carbon atoms and one unsaturated bond or a hydrocarbon group having 14 to 24 carbon atoms and one unsaturated bond, and a liposome stabilizer; and the peptide is bound to the surface of the liposome. The invention also provides a cytotoxic T lymphocyte activator containing the peptide-bound liposome, as well as a hepatitis C virus vaccine.

Abstract: Disclosed is a vaccine which has a high therapeutic effect on mycoplasma infection and is highly safe. For the purpose of developing effective therapeutic methods for mycoplasma infection, mycoplasma-mimic particles which are effective as a vaccine for mycoplasma infection are provided, and also provided are bacterium-mimic particles including common bacteria. Bacterium-mimic particles such as mycoplasma-mimic particles can be provided by producing liposome particles in which a lipid antigen specific to a pathogenic bacterium such as mycoplasma is contained as a liposome-constituting lipid component. The administration of the mycoplasma-mimic particles enables the induction of a potent immunological activity in living bodies. The mycoplasma-mimic particles can be used as an excellent vaccine for the prevention or treatment of mycoplasma infection.