Abstract: The present invention has objects to provide a method of inhibiting the 2,3-butanedione formation in order to produce a satisfactorily flavorful processed cacao bean product and an agent for inhibiting the 2,3-butanedione formation which is used for the method, and solves the above objects by providing a method of inhibiting the 2,3-butanedione formation during the process and/or preservation, and an agent for inhibiting the 2,3-butanedione formation which comprises one or more members selected from the group consisting of maltitol, ?,?-trehalose and saccharide derivatives of ?,?-trehalose as effective ingredients.

Abstract: The present invention have objects to provide an option of non-reducing saccharide by providing a novel non-reducing saccharide composed of glucose as constituents and to provide a novel enzyme forming the non-reducing saccharide, a method and process for producing the same, a DNA encoding the enzyme, a recombinant DNA and transformant comprising the DNA, a composition comprising the non-reducing saccharide, and uses thereof. The present invention solves the above objects by providing an isocyclomaltooligosaccharide(s) having a structure represented by General Formula 1, a novel isocyclomaltooligosaccharide-forming enzyme, a method and process for producing the same, a DNA encoding the enzyme, a recombinant DNA and transformant comprising the DNA, a composition comprising the isocyclomaltooligosaccharide(s) or a saccharide composition comprising the same, and uses thereof. Cyclo{?6)-[?-D-Glcp-(1?4)]n-?-D-Glcp-(1?}??General Formula 1 (In General Formula 1, “n” means a number of 4 or 5).

Abstract: The object of the present invention is to provide an ?-isomaltosylglucosaccharide-forming enzyme, process of the same, cyclotetrasaccharide, and saccharide composition comprising the saccharide which are obtainable by using the enzyme; and is solved by establishing an ?-isomaltosylglucosaccharide-forming enzyme which forms a saccharide, having a glucose polymerization degree of at least three and having both the ?-1,6 glucosidic linkage as a linkage at the non-reducing end and the ?-1,4 glucosidic linkage other than the linkage at the non-reducing end, by catalyzing the ?-glucosyl-transfer from a saccharide having a glucose polymerization degree of at least two and having the ?-1,4 glucosidic linkage as a linkage at the non-reducing end without substantially increasing the reducing power; ?-isomaltosyl-transferring method using the enzyme; method for forming ?-isomaltosylglucosaccharide; process for producing a cyclotetrasaccharide having the structure of cyclo{66)-?-D-glucopyranosyl-(163)-?-D-glucopyranosyl-

Abstract: A novel process for producing isomaltose and uses thereof and comprising the steps of contacting saccharides, which have a glucose polymerization degree of at least two and ?-1,4 glucosidic linkage as a linkage at the non-reducing end, with an ?-isomaltosylglucosaccharide-forming enzyme, in the presence or the absence of ?-isomaltosyl-transferring enzyme to form a-isomaltosylglucosaccharides, which have a glucose polymerization degree of at least three, ?-1,6 glucosidic linkage as a linkage at the non-reducing end, and ?-1,4 glucosidic linkage as a linkage other than the non-reducing end, and/or to form cyclo{?6)-?-D-glucopyranosyl-(1?3)-?-D-glucopyranosyl-(1?6)-?-D-glucopyranosyl-(1?3)-?-D-glucopyranosyl-(1?}; contacting the saccharides so formed with isomaltose-releasing enzyme to release isomaltose; and collecting the released isomaltose; and uses thereof.

Abstract: A gas leak detecting system for a gas cooler, which can detect gas leakage continuously by a simple-structured system, and can ensure a fail-safe backup system against troubles by such a simple system, is provided. The gas leak detecting system comprises a gas cooler (1) for cooling a gas, which is supplied to and discharged from the interior of a cooler water chamber (2) via piping, with a coolant supplied to and discharged from the interior of the cooler water chamber; an automatic exhaust valve (12) for automatically discharging the gas, which has leaked into the cooler water chamber, to the outside; a gas leak detecting vessel (8) for accumulating a leakage gas discharged from the automatic exhaust valve; and a gas detecting device (13) for detecting the leakage gas within the gas leak detecting vessel.

Abstract: An object of the present invention is to provide an option of non-reducing saccharide by providing a novel non-reducing saccharide composed of glucose as constituents and to provide a novel enzyme forming the non-reducing saccharide, a method and process for producing the same, a DNA encoding the enzyme, a recombinant DNA and transformant comprising the DNA, a composition comprising the non-reducing saccharide, and uses thereof. The present invention solves the above object by providing a novel cyclic saccharide having a structure of cyclo{>6)-?-D-glucopyranosyl-(1>4)-?-D-glucopyranosyl-(1>6)-?-D-glucopyranosyl-(1>4)-?-D-glucopyranosyl-(1>}, cyclic maltosylmaltose, novel cyclic maltosylmaltose-forming enzyme, a method and process for producing the same, a DNA encoding the enzyme, a recombinant DNA and transformant comprising the DNA, a composition comprising the cyclic maltosylmaltose or a saccharide composition comprising the same, and uses thereof.

Abstract: The present invention aims to provide a novel process for producing isomaltose and isomaltitol, and uses thereof, and it solves the object by establishing a process for producing isomaltose comprising a step of contacting a saccharide, having the ?-1,4 glucosidic linkage as the linkage of non-reducing end and a glucose polymerization degree of at least two, with an ?-isomaltosyl-transferring enzyme and an ?-isomaltosylglucosaccharide-forming enzyme derived from a specific microorganism; a process for producing isomaltitol using the isomaltose produced by the above process; saccharide compositions comprising the isomaltose and/or the isomaltitol produced by the above processes; and uses thereof.

Abstract: A non-reducing saccharide-forming enzyme and a trehalose-releasing enzyme, which have an optimum temperature in a medium temperature range, i.e., a temperature of over 40 or 45° C. but below 60° C.; and an optimum pH in an acid pH range, i.e., a pH of less than 7. The two-types of enzymes can be obtained in a desired amount, for example, by culturing in a nutrient culture medium microorganisms capable of producing the enzymes or by recombinant DNA technology.

Abstract: A non-reducing saccharide-forming enzyme and a trehalose-releasing enzyme, which have an optimum temperature in a medium temperature range, i.e., a temperature of over 40 or 45° C. but below 60° C.; and an optimum pH in an acid pH range, i.e., a pH of less than 7. The two-types of enzymes can be obtained in a desired amount, for example, by culturing in a nutrient culture medium microorganisms capable of producing the enzymes or by recombinant DNA technology.

Abstract: The present invention has an object to provide an ophthalmic pharmaceutical composition, particularly, an ophthalmic solution, ophthalmic ointment, ophthalmic wash, intraocular infusion solution, wash for anterior chamber, internal medicine, injection, or preservative for extracted cornea, which has improved therapeutic and/or prophylactic effects on the swelling, edema and walleye/cloudiness in the lens and/or the cornea induced by ophthalmic diseases including cataract and which is safe and successively used for a relatively long period of time. The present invention solves the above object by providing an ophthalmic pharmaceutical composition incorporated with a saccharide having a basic structure consisting of four glucose molecules bound together in a cyclic manner via a specific binding fashion.

Abstract: A novel process for producing isomaltose and uses thereof and comprising the steps of contacting saccharides, which have a glucose polymerization degree of at least two and ?-1,4 glucosidic linkage as a linkage at the non-reducing end, with an ?-isomaltosylglucosaccharide-forming enzyme, in the presence or the absence of ?-isomaltosyl-transferring enzyme to form a-isomaltosylglucosaccharides, which have a glucose polymerization degree of at least three, ?-1,6 glucosidic linkage as a linkage at the non-reducing end, and ?-1,4 glucosidic linkage as a linkage other than the non-reducing end, and/or to form cyclo{?6)-?-D-glucopyranosyl-(1?3)-?-D-glucopyranosyl-(1?6)-?-D-glucopyranosyl-(1?3)-?-D-glucopyranosyl-(1?}; contacting the saccharides so formed with isomaltose-releasing enzyme to release isomaltose; and collecting the released isomaltose; and uses thereof.

Abstract: The object of the present invention is to provide a lipid-regulating agent or a composition for regulating the amount of lipids comprising the agent. The present invention solves the above object by providing a lipid-regulating agent comprising a cyclic tetrasaccharide and/or its saccharide-derivative(s) and a composition for regulating the amount of lipids comprising the lipid-regulating agent.

Abstract: The present invention have objects to provide an option of non-reducing saccharide by providing a novel non-reducing saccharide composed of glucose as constituents and to provide a novel enzyme forming the non-reducing saccharide, a method and process for producing the same, a DNA encoding the enzyme, a recombinant DNA and transformant comprising the DNA, a composition comprising the non-reducing saccharide, and uses thereof. The present invention solves the above objects by providing an isocyclomaltooligosaccharide(s) having a structure represented by General Formula 1, a novel isocyclomaltooligosaccharide-forming enzyme, a method and process for producing the same, a DNA encoding the enzyme, a recombinant DNA and transformant comprising the DNA, a composition comprising the isocyclomaltooligosaccharide (s) or a saccharide composition comprising the same, and uses thereof.

Abstract: The present invention has an object to provide an accelerator for mineral absorption and a composition containing the accelerator. The object is solved by providing an accelerator for mineral absorption comprising cyclic tetrasaccharide and/or saccharide derivatives thereof and a composition containing the accelerator.

Abstract: The object of the present invention is to provide an ?-isomaltosylglucosaccharide-forming enzyme, process of the same, cyclotetrasaccharide, and saccharide composition comprising the saccharide which are obtainable by using the enzyme; and is solved by establishing an ?-isomaltosylglucosaccharide-forming enzyme which forms a saccharide, having a glucose polymerization degree of at least three and having both the ?-1,6 glucosidic linkage as a linkage at the non-reducing end and the ?-1,4 glucosidic linkage other than the linkage at the non-reducing end, by catalyzing the ?-glucosyl-transfer from a saccharide having a glucose polymerization degree of at least two and having the ?-1,4 glucosidic linkage as a linkage at the non-reducing end without substantially increasing the reducing power; ?-isomaltosyl-transferring method using the enzyme; method for forming ?-isomaltosylglucosaccharide; process for producing a cyclotetrasaccharide having the structure of cyclo{66)-?-D-glucopyranosyl-(163)-?-D-glucopyranosyl-

Abstract: An object of the present invention is to provide a lactosucrose high content saccharide which comprises 70% or more of lactosucrose, on a saccharide composition basis, with a lower content of 1-kestose and fructosyl lactosucrose as by-products. Another object of the present invention is to provide processes for producing a lactosucrose high content saccharide and high purity lactosucrose containing 90% or more of lactosucrose, on a saccharide composition basis, which are feasible for industrial production. Further object of the present invention is to provide a solid lactosucrose with low hygroscopicity and a solid composition comprising the same.

Abstract: The object of the present invention is to provide an ?-isomaltosylglucosaccharide-forming enzyme, process of the same, cyclotetrasaccharide, and saccharide composition comprising the saccharide which are obtainable by using the enzyme; and is solved by establishing an ?-isomaltosylglucosaccharide-forming enzyme which forms a saccharide, having a glucose polymerization degree of at least three and having both the ?-1,6 glucosidic linkage as a linkage at the non-reducing end and the ?-1,4 glucosidic linkage other than the linkage at the non-reducing end, by catalyzing the ?-glucosyl-transfer from a saccharide having a glucose polymerization degree of at least two and having the ?-1,4 glucosidic linkage as a linkage at the non-reducing end without substantially increasing the reducing power; ?-isomaltosyl-transferring method using the enzyme; method for forming ?-isomaltosylglucosaccharide; process for producing a cyclotetrasaccharide having the structure of cyclo{66)-?-D-glucopyranosyl-(163)-?-D-glucopyranosyl-

Abstract: An object of the present invention is to provide an option of non-reducing saccharide by providing a novel non-reducing saccharide composed of glucose as constituents and to provide a novel enzyme forming the non-reducing saccharide, a method and process for producing the same, a DNA encoding the enzyme, a recombinant DNA and transformant comprising the DNA, a composition comprising the non-reducing saccharide, and uses thereof. The present invention solves the above object by providing a novel cyclic saccharide having a structure of cyclo{?6)-?-D-glucopyranosyl-(1?4)-?-D-glucopyranosyl-(1?6)-?-D-glucopyranosyl-(1?4)-?-D-glucopyranosyl-(1?6}, cyclic maltosylmaltose, novel cyclic maltosylmaltose-forming enzyme, a method and process for producing the same, a DNA encoding the enzyme, a recombinant DNA and transformant comprising the DNA, a composition comprising the cyclic maltosylmaltose or a saccharide composition comprising the same, and uses thereof.

Abstract: A non-reducing saccharide-forming enzyme and a trehalose-releasing enzyme, which have an optimum temperature in a medium temperature range, i.e., a temperature of over 40 or 45° C. but below 60° C.; and an optimum pH in an acid pH range, i.e., a pH of less than 7. The two-types of enzymes can be obtained in a desired amount, for example, by culturing in a nutrient culture medium microorganisms capable of producing the enzymes or by recombinant DNA technology.

Abstract: Disclosed are a reduction inhibitory agent for active oxygen eliminating activity, comprising: (a) at least 10% (w/w) of a cyclotetrasaccharide having a basic cyclic structure in Chemical Formula 1, on a dry solid basis; and (b) at least one member selected from the group consisting of saccharides and edible fibers; a method for inhibiting the reduction of active oxygen eliminating activity, comprising a step of incorporating at least one percent (w/w) of a cyclotetrasaccharide having a basic cyclic structure in Chemical Formula 1 to a plant substance, on a dry solid basis, into said plant substance with active oxygen eliminating activity in an aqueous system; and a composition obtainable by incorporating at least one percent (w/w) of a cyclotetrasaccharide having a basic cyclic structure in Chemical Formula 1 to said plant substance, on a dry solid basis, into a plant substance with active oxygen eliminating activity to inhibit the reduction of the activity of said plant substance.