Abstract: The present invention is intended to prove a technique useful for controlling the reaction of oxidoreductase, and to provide a reaction system allowing efficient conversion from carbon dioxide to formic acid, and an efficient methanol production system including the reaction system. The reverse redox reaction is selectively promoted by carrying out the reaction catalyzed by an oxidoreductase using an artificial electron carrier. The reaction system is used for the production of methanol.

Abstract: An object is to provide a novel enzyme that exhibits glucose dehydrogenase activity. Furthermore, another object is to provide a novel method pertaining to enzyme modification. Provided is a mutated enzyme containing an amino acid sequence wherein one or at least two amino acids selected from a group are substituted with another amino acid in the amino acid sequence of a microorganism-derived glucose oxidase.

Abstract: The present invention is intended to prove a technique useful for controlling the reaction of oxidoreductase, and to provide a reaction system allowing efficient conversion from carbon dioxide to formic acid, and an efficient methanol production system including the reaction system. The reverse redox reaction is selectively promoted by carrying out the reaction catalyzed by an oxidoreductase using an artificial electron carrier. The reaction system is used for the production of methanol.

Abstract: An object is to provide a novel enzyme that exhibits glucose dehydrogenase activity. Furthermore, another object is to provide a novel method pertaining to enzyme modification. Provided is a mutated enzyme containing an amino acid sequence wherein one or at least two amino acids selected from a group are substituted with another amino acid in the amino acid sequence of a microorganism-derived glucose oxidase.

Abstract: An object is to provide a novel enzyme that exhibits glucose dehydrogenase activity. Furthermore, another object is to provide a novel method pertaining to enzyme modification.

Abstract: The present invention is intended to provide a means for efficiently degrades exogenous opioid peptides. Provided is an exogenous opioid peptide-degrading enzyme preparation which contains one or more components selected from the group consisting of enzyme preparations from Penicillium citrinum, Aspergillus oryzae, and Aspergilius melleus, and exhibits a degradation activity for a wheat gluten-derived opioid peptide and a casein-derived opioid peptide.

Abstract: An object is to provide a novel enzyme that exhibits glucose dehydrogenase activity. Furthermore, another object is to provide a novel method pertaining to enzyme modification.

Abstract: Disclosed is a means effective for the treatment or prevention of inflammatory bowel disease. Specifically disclosed is an enzyme composition for the treatment or prevention of inflammatory bowel disease, which utilizes an enzyme capable of producing an oligosaccharide in vivo.

Abstract: A physiologically active substance of aglycon type, in particular, aglycon isoflavone, can be efficiently produced, without resort to any acid/alkali treatment or fermentation and substantially without changing the physical properties of a material, by treating the material with a sufficient amount of diglycosidase for a sufficient period of time at an appropriate temperature and pH so that a physiologically active substance of glycoside type contained in the material can be converted into the physiologically active substance of aglycon type. Moreover, by using diglycosidase and/or a specific enzyme preparation, the aglycon content in a protein or protein-containing food can be increased and the flavor thereof can be improved.

Abstract: A physiologically active substance of aglycon type, in particular, aglycon isoflavone, can be efficiently produced, without resort to any acid/alkali treatment or fermentation and substantially without changing the physical properties of a material, by treating the material with a sufficient amount of diglycosidase for a sufficient period of time at an appropriate temperature and pH so that a physiologically active substance of glycoside type contained in the material can be converted into the physiologically active substance of aglycon type. Moreover, by using diglycosidase and/or a specific enzyme preparation, the aglycon content in a protein or protein-containing food can be increased and the flavor thereof can be improved.

Abstract: A physiologically active substance of aglycon type, in particular, aglycon isoflavone, can be efficiently produced, without resort to any acid/alkali treatment or fermentation and substantially without changing the physical properties of a material, by treating the material with a sufficient amount of diglycosidase for a sufficient period of time at an appropriate temperature and pH so that a physiologically active substance of glycoside type contained in the material can be converted into the physiologically active substance of aglycon type. Moreover, by using diglycosidase and/or a specific enzyme preparation, the aglycon content in a protein or protein-containing food can be increased and the flavor thereof can be improved.

Abstract: A DNA gene which encodes transglutaminase, a plasmid in which the DNA gene is incorporated, a transformant transformed with the plasmid and a process for the production of transglutaminase that comprises culturing the transformant.