摘要:
The present invention has objects to provide a thermostable cellobiose 2-epimerase, its preparation and uses. The present invention attains the above objects by providing a thermostable cellobiose 2-epimerase, a DNA encoding the enzyme, a recombinant DNA and transformant comprising the DNA, a process for producing the enzyme, and a process for producing isomerized saccharides using the enzyme.
摘要:
Prior to recording, the gap between ink nozzles and a sheet is set to a first gap and a humidified gas is supplied in a short time. After that, the gap is varied from the first gap to a second gap smaller than the first gap and recording is then started.
摘要:
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)-[α-D-Glcp-(1→4)]n-α-D-Glcp-(1→} General Formula 1 (In General Formula 1, “n” means a number of 4 or 5).
摘要:
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)-α-D-glucopyranosyl-(1→4)-α-D-glucopyranosyl-(1→6)-α-D-glucopyranosyl-(1→4)-α-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.
摘要:
An object of the present invention is to provide novel saccharides, 3-α-glycosyl α,α-trehalose having a 3-α-glucosyl α,α-trehalose structure represented by the chemical formula 1 within their molecules, their preparation and use. The present invention attains the above object by providing 3-α-glycosyl α,α-trehaloses having a 3-α-glucosyl α,α-trehalose structure represented by the chemical formula 1 within their molecules, their preparation and use. O-α-D-Glcp-(1→3)-O-α-D-Glcp-(1→1)-α-D-Glcp Chemical formula 1
摘要:
A part of bent end sections of a slot is configured to overlap with a waveguide inner wall when seen from the normal direction of a narrow wall surface of a waveguide at which the slot is provided. Thus, the conductance of a single slot can be reduced by adjusting the joined amount of a tip section of the slot and the inner wall of the waveguide. As a result, even in the case where the number of slots provided per waveguide is increased while a waveguide width is restricted to be short with respect to a slot length, impedance matching with a waveguide bonding section can be taken.
摘要:
A non-reducing saccharide by providing a novel non-reducing saccharide composed of glucose as constituents, 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 are provided by use of an isocyclomaltooligosaccharide(s) having a structure represented by Formula 1, Cyclo{→6)-[α-D-Glcp-(1→4)]n-α-D-Glcp-(1→}, wherein “n” is 4 or 5.
摘要:
According to one embodiment, an information recording device includes: a recording controller configured to control recording of information on a magnetic recording medium having tracks by a recording method; a managing module configured to manage two or more counters corresponding to each of plural track groups that are adjacent to each other; an updating module configured to update a count of one of the two or more counters corresponding to a second track group that is adjacent to a first track group of the plural track groups when information has been recorded on the first track group; a determining module configured to determine an attribute of the second track group based on the updated count of the one counter; and a rewriting module configured to rewrite information recorded in the second track group based on the determined attribute.
摘要:
The present invention is related to a sample and hold circuit and an A/D converter, and prevents an output saturation for an input voltage over a power supply voltage range in the sample and hold circuit. A first switch which is turned on when an input voltage is to be sampled; a sampling capacitor configured to sample the input voltage input via the first switch when the first switch is turned on, and sample a predetermined reference voltage when the first switch is turned off; an adding/subtracting part configured to perform an addition or a subtraction between the input voltage sampled by the sampling capacitor and the predetermined reference voltage sampled by the sampling capacitor; and a hold part configured to hold and output a voltage obtained by the addition or the subtraction by the adding/subtracting part are provided.
摘要:
A sample and hold circuit includes an operational amplifier; a sampling capacitor configured to sample input voltages at a plurality of different timings; an adding/subtracting unit configured to perform an adding or subtracting operation of the input voltages sampled by the sampling capacitor; and an offset voltage removing unit configured to remove an input offset voltage component of the operational amplifier from a voltage obtained by the adding or subtracting operation. The operational amplifier is configured to produce an output by holding the voltage from which the input offset voltage component of the operational amplifier has been removed by the offset voltage removing unit.