Patent application number | Description | Published |
20110020528 | YEAST MUTANT AND YEAST EXTRACT - A natural yeast extract which is rich in glutamic acid and therefore has an impact at first taste. Further, provided is a yeast extract which is also rich in 5′-guanylic acid or 5′-inosinic acid and therefore has strong umami. Further, provided is a yeast mutant capable of accumulating a large amount of glutamic acid, glutamine and ribonucleic acid for obtaining such a yeast extract. A yeast mutant to which resistance to organic acids and analogues thereof has been imparted by inducing spontaneous mutation, accumulates a significant amount, i.e., 10% by weight or more of the total of free glutamic acid and glutamine in the cell, and further accumulates 5% by weight or more of a ribonucleic acid. The yeast extract produced by using this strain contains 20% by weight or more of L-glutamic acid, and further contains 3% by weight or more of 5′-IG. | 01-27-2011 |
20150225690 | YEAST MUTANT AND YEAST EXTRACT - A natural yeast extract which is rich in glutamic acid and therefore has an impact at first taste. Further, provided is a yeast extract which is also rich in 5′-guanylic acid or 5′-inosinic acid and therefore has strong umami. Further, provided is a yeast mutant capable of accumulating a large amount of glutamic acid, glutamine and ribonucleic acid for obtaining such a yeast extract. A yeast mutant to which resistance to organic acids and analogues thereof has been imparted by inducing spontaneous mutation, accumulates a significant amount, i.e., 10% by weight or more of the total of free glutamic acid and glutamine in the cell, and further accumulates 5% by weight or more of a ribonucleic acid. The yeast extract produced by using this strain contains 20% by weight or more of L-glutamic acid, and further contains 3% by weight or more of 5′-IG. | 08-13-2015 |
Patent application number | Description | Published |
20110002312 | COMMUNICATION METHOD AND CELL STATION USING THE SAME - A radio controller, which prescribes repetition of a frame formed by a plurality of downlink time slots and a plurality of uplink time slots, and which allocates a first data to be broadcast and a second data to be transmitted to a personal station with switching to the downlink time slots corresponding to each other in each frame. Further, the radio controller allocates a third data, which should be received from the personal station, to the uplink time slot corresponding to the downlink time slot allocated to the first data and to the uplink time slot corresponding to the downlink time slot allocated to the second data. | 01-06-2011 |
20120020281 | METHOD FOR CHANGING MODULATION SCHEME AND BASE STATION APPARATUS USING SAID METHOD - An EVM measurement unit measures the EVM of received signals, and performs a weighted average on them so as to derive MSE. A frequency acquiring unit acquires the change frequency of modulation scheme and the occurrence frequency of data retransmission. A moving status acquiring unit acquires the variation situation in moving velocity of a terminal apparatus or positional relationship between a base station apparatus and the terminal apparatus. A threshold modifying unit determines the modulation scheme used for the next communication, based on the value of MSE and other pieces of information described above. | 01-26-2012 |
20120149426 | COMMUNICATION DEVICE - A communication device and method are disclosed. Transmitted signals are transmitted from antennas. A beam is formed based on known-received signals by controlling a transmission directionality of the antennas. Transmitted power of the transmitted signals is controlled based on a time interval between a reception time during which the known-received signals are received and a transmission time during which the transmitted signals are transmitted. | 06-14-2012 |
Patent application number | Description | Published |
20100037329 | Development of sensitive fret sensors and methods of using the same - Intramolecular biosensors are disclosed, including PBP-based biosensors, comprising a ligand binding domain fused to donor and fluorescent moieties that permit detection and measurement of Fluorescence Resonance Energy Transfer upon binding ligand. At least one of the donor and fluorescent moieties may be internally fused to the biosensor such that both ends of the internally fused fluorophore are fixed. In addition, methods of improving the sensitivity of terminally fused biosensors are provided. The biosensors of the invention are useful for the detection and quantification of ligands in vivo and in culture. | 02-11-2010 |
20110289609 | Neurotransmitter Sensors and Methods of Using the Same - Neurotransmitter biosensors are disclosed, including YbeJ-based glutamate binding biosensors, comprising a neurotransmitter binding domain conjugated to donor and fluorescent moieties that permit detection and measurement of Fluorescence Resonance Energy Transfer upon binding neurotransmitter. Such biosensors are useful for the detection of neurotransmitter concentrations in vivo and in culture. | 11-24-2011 |
20140323692 | Development of Sensitive FRET Sensors and Methods of Using the Same - Intramolecular biosensors are disclosed, including PBP-based biosensors, comprising a ligand binding domain fused to donor and fluorescent moieties that permit detection and measurement of Fluorescence Resonance Energy Transfer upon binding ligand. At least one of the donor and fluorescent moieties may be internally fused to the biosensor such that both ends of the internally fused fluorophore are fixed. In addition, methods of improving the sensitivity of terminally fused biosensors are provided. The biosensors of the invention are useful for the detection and quantification of ligands in vivo and in culture. | 10-30-2014 |
Patent application number | Description | Published |
20110224936 | THERMOMETER AND TEMPERATURE MEASUREMENT METHOD - A thermometer includes a first surface temperature measurement unit; a first reference temperature measurement unit; a second surface temperature measurement unit; a second reference temperature measurement unit; a temperature correction unit that calculates a mounting positional difference between the first and second surface temperature measurement units from a measurement subject and a mounting positional difference between the first and second reference temperature measurement units from the measurement subject in terms of temperature differences that compensate for temperature dependence, thus correcting the first surface temperature and first reference temperature, or the second surface temperature and second reference temperature; and a core temperature calculation unit that calculates a core temperature of the measurement subject using the first surface temperature and first reference temperature or the second surface temperature and second reference temperature corrected by the temperature correction unit. | 09-15-2011 |
20120109571 | TEMPERATURE MEASUREMENT DEVICE - A temperature measurement device includes a temperature measurement part, a calculation part, and a control part for controlling the operation of the temperature measurement part and the calculation part; wherein the temperature measurement part has a substrate having a first surface as a contact surface with a measured body, and a second surface as an environment-lateral surface which is opposite the first surface; a first temperature sensor; a second temperature sensor; and a third temperature sensor; and the first temperature sensor, the second temperature sensor, and the third temperature sensor measure a first temperature, a second temperature, and a third temperature a plurality of times under conditions in which the temperature of the environment varies; and the calculation part calculates a deep temperature in a deep part of the measured body by using the measured temperatures. | 05-03-2012 |
20120109572 | TEMPERATURE MEASUREMENT DEVICE AND TEMPERATURE MEASURING METHOD - A temperature measurement device includes a temperature measurement part, a calculation part, and a control part for controlling the operation of the temperature measurement part and the calculation part; wherein the temperature measurement part has a substrate having a first surface as a contact surface with a measured body, and a second surface as an environment-side surface which is opposite the first surface; a first temperature sensor; a second temperature sensor; and an environment temperature acquiring part; and the first temperature sensor and the second temperature sensor measure a first temperature and a second temperature a plurality of times under conditions in which a third temperature varies; and the calculation part calculates a deep temperature in a deep part of the measured body, on the basis of a deep temperature calculation equation, by using the measured temperatures. | 05-03-2012 |
20140233604 | THERMOMETER AND TEMPERATURE MEASUREMENT METHOD - A thermometer includes first and second surface temperature measurement units, first and second reference temperature measurement units, a storage unit, a temperature correction unit, and a temperature calculation unit. The first reference temperature measurement unit measures a temperature at an opposite side of the first surface temperature measurement unit as a first reference temperature through a first heat insulating portion having a first thermal resistance value. The second reference temperature measurement unit measures a temperature at an opposite side of the second surface temperature measurement unit as a second reference temperature through a second heat insulating portion having a second thermal resistance value. The temperature correction unit corrects the first surface temperature and the first reference temperature based on the second surface temperature and the second reference temperature. The temperature calculation unit calculates a core temperature using the first surface temperature and the first reference temperature. | 08-21-2014 |
20140278201 | TEMPERATURE MEASUREMENT DEVICE AND TEMPERATURE MEASUREMENT METHOD - A temperature measurement device | 09-18-2014 |
20140343887 | TEMPERATURE MEASUREMENT DEVICE AND TEMPERATURE MEASURING METHOD - A temperature measurement device includes a temperature measurement part, a heat insulator, and a calculation part. The temperature measurement part is disposed among the heat insulator and has a substrate as a heating medium having a first surface as a contact surface configured to contact a measured body, a first temperature sensor configured to measure, as a first temperature, the temperature at a first measurement point of the substrate, and a second temperature sensor for measuring, as a second temperature, the temperature at a second measurement point different from the first measurement point of the substrate. The first measurement point and the second measurement point are positioned on an external surface of the substrate or inside of the substrate. The calculation part calculates a deep temperature in a deep part of the measured body distant from the first surface on the basis of the first temperature and the second temperature. | 11-20-2014 |
20160097712 | SIGNAL DETECTION METHOD, CALIBRATION CURVE CREATION METHOD, QUANTIFICATION METHOD, SIGNAL DETECTION DEVICE, MEASURING DEVICE, AND GLUCOSE CONCENTRATION MEASURING DEVICE - A signal detection method includes acquiring a measurement signal including a first signal, which is a signal of a target component, and a second signal, which is a signal of an interference component; and performing an orthogonal operation for adjusting the measurement signal such that the measurement signal is orthogonal to the second signal. | 04-07-2016 |
Patent application number | Description | Published |
20130272502 | RADIOGRAPHIC IMAGING APPARATUS, CONTROL METHOD THEREFOR, AND STORAGE MEDIUM HAVING STORED PROGRAM - A radiographic imaging apparatus for acquiring a radiographic image includes: a detecting unit configured to detect a position of a receiving unit, in which the receiving unit is configured to receive a radiant ray radiated by a radiating unit, which radiates a radiant ray, and output an electrical signal in accordance with the received radiant ray; and a display control unit configured to display, on a displaying unit, image data pertaining to the receiving unit and image data pertaining to a radiating area of the radiant ray of the radiating unit, overlapped with each other based on the position of the receiving unit detected by the detecting unit. | 10-17-2013 |
20140114170 | OBJECT INFORMATION ACQUIRING APPARATUS AND COVER FOR PHOTOACOUSTIC PROBE - There is used an object information acquiring apparatus that has a light source; a photoacoustic probe including an emission end that emits light from the light source to an object and a reception section that receives an acoustic wave generated from the object to which the light is emitted; a cover covering at least the emission end of the photoacoustic probe; a light-shielding member provided inside the cover and filling a gap formed between the photoacoustic probe and the cover when the photoacoustic probe is inserted into the cover; and a processor acquiring information on the inside of the object based on the acoustic wave. | 04-24-2014 |
20150272502 | PROBE SUPPORT APPARATUS - Employed is a probe support apparatus having: a base stand; an arm connected to an upper end of the base stand so that the arm can be tilted and rotated in a horizontal direction; and a probe support section connected to a distal end of the arm at a side opposite that of a portion connected to the base stand. The probe support section is constituted by a deformable section and a non-deformable section, and the non-deformable section is connected to a distal end of the arm so that the non-deformable section can rotate about an axis parallel to a rotation axis about which the arm is tilted. | 10-01-2015 |
20150342458 | OPHTHALMIC APPARATUS - An ophthalmic apparatus includes an image-capturing unit that captures an image of an eye to be examined, a main body having in a rod-like shape and that accommodates the image-capturing unit, an eyepiece portion that is positioned at a first end of the main body in an axial direction of the main body and that is brought into contact with a portion around the eye to be examined, and a display that is positioned at a second end of the main body in the axial direction of the main body and that displays an image of the eye to be examined. The main body includes a holding portion that is to be held by a hand of an examiner and that extends in the axial direction of the main body. | 12-03-2015 |
20150351623 | OPHTHALMOLOGIC MEASUREMENT APPARATUS, METHOD AND PROGRAM OF CONTROLLING THE SAME - An ophthalmologic measurement apparatus includes a measurement unit that acquires an image of an eye to be inspected, a main unit in which the measurement unit is placed and which includes a holding part for holding the main unit with a hand, an eyepiece part having a shape asymmetric about a measurement optical axis of the measurement unit and capable of being in contact with an area around an eye to be inspected, a position detection unit that detects a position of the eyepiece part, an acquisition unit that acquires eye distinguishing information indicating whether the eye is a right eye or a left eye, and a display control unit that controls a display unit to display an image of the eye such that the image of the eye is rotated in a clockwise or counterclockwise direction based on the eye distinguishing information and a resultant image is displayed. | 12-10-2015 |