Patent application number | Description | Published |
20100317836 | NOVEL BIOLOGICAL SUBSTANCE NESFATIN AND ITS RELATED SUBSTANCES AND USES THEREOF - The present invention relates to a novel method of obtaining a factor involved in appetite control and/or body weight control, as well as genes obtained by said method, polypeptides encoded by said genes, or novel polypeptides obtained from the information on polypeptides encoded by said genes as a means for treating, controlling or diagnosing diseases associated with eating disorders and/or body weight control. Also the present invention relates to substances that inhibit the effects of said genes or said polypeptides as a means for treating, controlling or diagnosing diseases associated with appetite control and/or body weight control. By using thiazolidine diones having a PPAR γ agonist activity, genes and polypeptides involved in appetite regulation and/or body weight reduction can be obtained. NESFATIN or the like obtained by said method can be used as a means for treating, controlling or diagnosing diseases associated with eating disorders and/or body weight control. | 12-16-2010 |
20110110949 | NESFATIN-1 SPECIFIC ANTIBODY AND THE USE THEREOF, AND NESFATIN SPECIFIC ANTIBODY AND THE USE THEREOF - The present application relates to an antibody performing an antigen-antibody reaction with Nesfatin-1, but not substantially performing the antigen-antibody reaction with Nesfatin and/or NucB1, and with the use of the antibody, an immunological detection method and a detection kit of Nesfatin-1, and further, an antibody performing an antigen-antibody reaction with Nesfatin, but not substantially performing the antigen-antibody reaction with NucB1, and an immunological detection method using the antibody, and a detection kit of Nesfatin comprising the antibody. | 05-12-2011 |
Patent application number | Description | Published |
20120229953 | LEAD-FREE PIEZOELECTRIC PORCELAIN COMPOSITION, PIEZOELECTRIC CERAMIC COMPONENT FORMED USING THE COMPOSITION, AND PROCESS FOR PRODUCING PIEZOELECTRIC CERAMIC COMPONENT - Provided is an alkali-niobate-based piezoelectric porcelain composition which has a crystal-structure transition point in the range of operation guarantee temperatures and which, despite this, is inhibited from abruptly changing in capacitance. The piezoelectric porcelain composition comprises Li, Na, K, Nb, Ta, Sb, and O as major constituent elements and has an alkali-niobate-based perovskite structure. When the composition has an ABO | 09-13-2012 |
20130221807 | PIEZOELECTRIC ELEMENT AND STACKED PIEZOELECTRIC STRUCTURE - A stacked piezoelectric actuator has a laminate structure including piezoelectric layers and cover parts such that when an external electrode is applied with drive voltage, the piezoelectric layers become distorted and the entire stacked piezoelectric actuator deforms, and at that time, the cover parts become displaced, wherein the distortion difference occurring between the piezoelectric layers and the cover parts reduces, thereby inhibiting the development of cracks. Moreover, the surface area of the active region of the piezoelectric layers is the same as the surface area of the active region of the cover parts, and therefore the loss of the displacement transfer, which is produced by the piezoelectric layers, at the cover parts is reliably reduced. | 08-29-2013 |
20130320815 | PIEZOELECTRIC CERAMIC, PIEZOELECTRIC CERAMIC COMPONENT, AND PIEZOELECTRIC DEVICE USING SUCH PIEZOELECTRIC CERAMIC COMPONENT - In a piezoelectric ceramic which has an alkali-containing niobate-based perovskite structure in which constituent elements are Li, Na, K, Nb, and O, a Li | 12-05-2013 |
20140028156 | PIEZOELECTRIC ELEMENT AND METHOD OF MANUFACTURING THE SAME - A piezoelectric element includes first internal electrodes and second electrodes, as well as piezoelectric ceramic layers that are made of ceramics and arranged between the first internal electrodes and second internal electrodes. Manganese is present relatively more abundantly in the areas of the piezoelectric ceramic layers adjacent to the first internal electrodes and second internal electrodes, compared to at the centers of the piezoelectric ceramic layers. Insulation performance of the piezoelectric element is kept from dropping over the course of use. | 01-30-2014 |
Patent application number | Description | Published |
20140267930 | RECEPTION APPARATUS AND ELECTRONIC EQUIPMENT - A reception apparatus includes a plurality of reception circuits disposed in a predetermined arrangement state, a plurality of local oscillation circuits each of which supplies a local oscillation signal to each of the plurality of reception circuits, and a control unit that controls each reception circuit and each local oscillation circuit. When there is a specific reception circuit to which a local oscillation signal is supplied, of which frequency matches or is close to a passing frequency during a search of a reception signal with a tuning request, the control unit performs the search of the reception signal with the tuning request in a reception circuit disposed at a position far from the specific reception circuit. | 09-18-2014 |
20140273876 | RECEPTION APPARATUS AND ELECTRONIC EQUIPMENT - A reception apparatus includes a plurality of reception circuits that receive transmission signals, a plurality of local oscillation circuits that respectively supply the plurality of reception circuits with local oscillation signals, and a control unit that controls tunings in the plurality of reception circuits. When at least one reception circuit among the plurality of reception circuits is not used to receive the transmission signals, the control unit searches for an interference wave using the unused reception circuit. | 09-18-2014 |
20150222473 | RECEPTION DEVICE AND RECEPTION METHOD - Provided is a reception device including a high-frequency reception processing unit that converts a high frequency signal into an intermediate frequency signal or a baseband signal, and an amplitude limiting unit that limits a first amplitude to a second amplitude, the first amplitude being an amplitude of the intermediate frequency signal or the baseband signal outputted from the high-frequency reception processing unit, the second amplitude being an amplitude allowable in a demodulation unit that demodulates the intermediate frequency signal or the baseband signal. | 08-06-2015 |
20150373297 | RECEIVING DEVICE AND ELECTRONIC APPARATUS - A receiving device includes a plurality of receiving circuits, a plurality of local oscillation circuits that supply local oscillation signals to each of the plurality of receiving circuits, and a control unit that controls each receiving circuit and each local oscillation circuit. The control unit provides a plurality of search algorithms for searching for a reception frequency in each of the receiving circuits, and selects a search algorithm at the time of searching for the reception frequency of each receiving circuit according to a frequency which is handled by other receiving circuit or other local oscillation circuit. | 12-24-2015 |
20160028422 | RECEIVING DEVICE AND RECEIVING METHOD - At least one distributor that distributes a high-frequency signal received by an antenna; and a high-frequency processing unit that outputs a received signal obtained by mixing the high-frequency signal distributed by the distributor with a local oscillator frequency generated by a local oscillator that includes a voltage-controlled oscillator are included. Furthermore, a control unit that, when executing a local oscillator frequency search to investigate a correspondence between a control voltage applied to the voltage-controlled oscillator and the local oscillator frequency of the voltage-controlled oscillator, sets to a dormant state parts constituting the local oscillator that are uninvolved in operation of the local oscillator frequency search is included. | 01-28-2016 |