Patent application number | Description | Published |
20080211831 | Portable communication terminal - There is provided a portable communication terminal capable of switching between icon display and non-display. Processes executed by a control unit of a portable phone which is an aspect of the portable communication terminal comprises the steps of detecting, during the execution of an icon-bar displaying process, a press of an operation key, terminating outputting icon data if the operation key is associated with the icon-bar non-display function and if there is already no icon bar being displayed, detecting a press of the operation key, and executing the icon-bar displaying process if the operation key is associated with the icon-bar display function and if there is no icon bar being displayed. | 09-04-2008 |
20090051830 | MOBILE TERMINAL UNIT, DISPLAY METHOD, DISPLAY PROGRAM, AND RECORDING MEDIUM - A flexible LCD ( | 02-26-2009 |
20100140978 | VEHICLE BODY STRUCTURE AND MANUFACTURING METHOD OF VEHICLE BODY - In a vehicle body structure in which a vehicle-body frame of front side frames with a flangeless structure having a rectangular closed cross section and a vehicle-body panel of a dash panel are welded, a concave portion is formed at a specified portion of the vehicle-body panel to which the vehicle-body frame is welded so as to be concaved toward one side which is opposite to a disposition side of the vehicle-body frame and extends in its longitudinal direction, a temporary connection portion which temporarily connects the vehicle-body frame to a side of the concave portion is formed, and a lazar welding portion which connects the vehicle-body frame to the vehicle-body panel is formed near the temporary connection portion so as to extend along the longitudinal direction of the vehicle-body frame. | 06-10-2010 |
20100244497 | CONNECTION STRUCTURE AND ASSEMBLY METHOD OF TUBE-SHAPED FRAMES - A first split-bracket is joined to a first tube-shaped frame by lazar welding. A second split-bracket is joined to an end portion of a second tube-shaped frame by the lazar wielding. The second tube-shaped frame equipped with the second split-bracket is assembled to the first tube-shaped frame equipped with the first split-bracket. A second flange of the first split-bracket and a second flange of the second split-bracket are joined temporarily by spot welding. The second flange of the first split-bracket and the second flange of the second split-bracket are joined by continuous welding with lazar welding. Accordingly, the tube-shaped frames can be connected properly without forming any hole at a wall of the tube-shaped frame, ensuring the rigidity of the connection portion of the tube-shaped frames. | 09-30-2010 |
20110006560 | FRAME STRUCTURE FOR VEHICLE - A frame body comprises a first face portion on which a compressive force acts in case a load is applied, a second face portion on which a tensional force acts, and third and fourth face portions which connect the first and second face portions. The third and fourth face portions are respectively equipped with a reinforcing member which comprises a base portion which is away from the frame body and plural base portions which project from the base portion and are joined to the frame body. The convex portions have plural convexities which are arranged so as to extend both in the longitudinal and sectional directions of a frame. | 01-13-2011 |
20120098299 | FRAME FOR VEHICLE - A frame for a vehicle which is formed to have a closed cross section and constitutes part of a vehicle body, comprising a first face portion on which a compressive force acts when a load acts from an outside, a second face portion on which a tensional force acts when the load acts from the outside, a pair of third face portions which are located between the first face portion and the second face portion and form ridgelines together with the first face portion, and a lateral reinforcement potion which is provided at least one of the third face portions and extending in a line shape from the first face portion toward the second face portion. Accordingly, the frame for a vehicle which can increase the bending strength of the frame is provided. | 04-26-2012 |
20120119546 | FRAME STRUCTURE FOR VEHICLE - In a frame structure for a vehicle having a reinforcement body provided inside a frame body, the frame body comprises a first face portion and a second face portion extending in a direction substantially perpendicular to a rotational-axis direction of a bending moment occurring when a torsional load acts on a vehicle body, and third face portions positioned between the first and second face portions, and the reinforcement body comprises third-face connection portions connected to the third face portions, a first-face connection portion connected to the first face portion at a corner portion, a first-face non-contact portion provided away from the first face portion, a second-face connection portion connected to the second face portion at a corner portion, and a second-face non-contact portion provided away from the second face portion. | 05-17-2012 |
Patent application number | Description | Published |
20100323378 | MODIFIED GLUCOSE DEHYDROGENASE GENE - [Object] To provide an FAD-conjugated glucose dehydrogenase having a higher specificity for glucose. | 12-23-2010 |
20110033880 | FAD-CONJUGATED GLUCOSE DEHYDROGENASE GENE - An object of the present invention is to provide: a novel gene (polynucleotide) encoding an FAD-conjugated glucose dehydrogenase having excellent properties that it has excellent reactivity to glucose, excellent thermal stability, and excellent substrate-recognition performance and also has a low activity for maltose; a process for the production of the enzyme using a transformant cell transfected with the gene; and a method for the determination of glucose, a reagent composition for use in the determination of glucose, a biosensor for use in the determination of glucose and others, each characterized by using the enzyme obtained. The invention relates to a polynucleotide encoding an FAD-conjugated glucose dehydrogenase, comprising a polypeptide containing an amino acid sequence: X1-X2-X3-X4-X5-X6 (wherein X1 and X2 independently represent an aliphatic amino acid residue; X3 and X6 independently represent a branched amino acid residue; and X4 and X5 independently represent a heterocyclic amino acid residue or an aromatic amino acid residue); and others. | 02-10-2011 |
20110045513 | PROTEIN ELECTRON MEDIATOR - The problem to be resolved is to provide an electron mediator and a fusion body with high affinity with an enzyme, a measuring method using extracellular secretion type cytochrome and an enzyme, an electrode, and a sensor. | 02-24-2011 |
20110136158 | PROTEIN ELECTRON MEDIATOR - The problem to be resolved is to provide an electron mediator and a fusion body with high affinity with an enzyme, a measuring method using extracellular secretion type cytochrome and an enzyme, an electrode, and a sensor. | 06-09-2011 |
20130065261 | MODIFIED GLUCOSE DEHYDROGENASE GENE - The purpose of the present invention is to provide an FAD-conjugated glucose dehydrogenase that is hard to be inhibited by the inhibitors such as 1,10-phenanthroline. | 03-14-2013 |
20140027280 | FAD-CONJUGATED GLUCOSE DEHYDROGENASE GENE - Disclosed herein are a gene (polynucleotide) encoding an FAD-conjugated glucose dehydrogenase which can be characterized by reactivity to glucose, thermal stability, substrate-recognition performance, and low activity for maltose; a process for the production of the enzyme using a transformant cell transfected with the gene; a method for the determination of glucose; a reagent composition for use in the determination of glucose; and a biosensor for use in the determination of glucose. An embodiment is a polynucleotide encoding an FAD-conjugated glucose dehydrogenase, comprising a polypeptide whose amino acid sequence comprises X1-X2-X3-X4-X5-X6, wherein X1 and X2 independently represent an aliphatic amino acid residue; X3 and X6 independently represent a branched amino acid residue; and X4 and X5 independently represent a heterocyclic amino acid residue or an aromatic amino acid residue. | 01-30-2014 |
20150031060 | FAD-CONJUGATED GLUCOSE DEHYDROGENASE GENE - Disclosed herein are a gene (polynucleotide) encoding an FAD-conjugated glucose dehydrogenase which can be characterized by reactivity to glucose, thermal stability, substrate-recognition performance, and low activity for maltose; a process for the production of the enzyme using a transformant cell transfected with the gene; a method for the determination of glucose; a reagent composition for use in the determination of glucose; and a biosensor for use in the determination of glucose. An embodiment is a polynucleotide encoding an FAD-conjugated glucose dehydrogenase, comprising a polypeptide whose amino acid sequence comprises X1-X2-X3-X4-X5-X6, wherein X1 and X2 independently represent an aliphatic amino acid residue; X3 and X6 independently represent a branched amino acid residue; and X4 and X5 independently represent a heterocyclic amino acid residue or an aromatic amino acid residue. | 01-29-2015 |