Patent application number | Description | Published |
20080281531 | Method for Diagnosing Depression - This invention relates to a method for diagnosing whether or not a subject suffers from depression in a simple manner with high accuracy using the peripheral whole blood sample of the subject. Specifically, the present invention relates to a method for diagnosing depression comprising the steps of: measuring expression levels of 18 genes selected from the group consisting of FASLG; CX3CR1, TBX21, ID2, SLAMF7, PRSS23, YWHAQ, TARDBP, ADRB2, PPP1R8, MMAA, SQLE, PDHA1, HAVCR2, RACGAP1, AHNAK, EDG8, and DUSP5, in peripheral blood isolated from a subject; and determining whether or not the subject suffers from depression based on the expression levels of the 18 genes. | 11-13-2008 |
20090023202 | NUCLEIC ACID ANALYSIS DEVICE AND NUCLEIC ACID ANALYZER USING THE SAME - The present invention relates to a nucleic acid analysis device for analysis of nucleic acid in a sample through fluorometry, in which a localized surface plasmon by light irradiation, and in which a nucleic acid probe or a nucleic acid synthase for the analysis of the nucleic acid in the sample is disposed in a region of generation of the surface plasmon. The present invention allows the fluorescence intensifying effect of the surface plasmon to be produced efficiently and also enables the immobilization of a DNA probe or the nucleic acid synthase in a region on which the fluorescence intensifying effect is exerted, thus making it possible to carry out a measurement on the base elongation reaction without having to remove the unreacted substrate with the fluorescent molecule. | 01-22-2009 |
20090079988 | APPARATUS AND METHOD FOR DETECTING TARGET SUBSTANCE, OR DEVICE USED FOR THESE APPARATUS AND METHOD - An object of the present invention relates to detecting a target substance with high contrast. The invention relates to analysis of a target substance using a light-transmitting substrate and a metal for inducing plasmon resonance, and further using a low refractive index layer with an opening portion, which forms an interface with the substrate, and which has a lower refractive index than the substrate. Light emitted from a substrate side is totally reflected at the interface to irradiate the metal arranged in the opening portion with evanescent light. Light generated from the target substance by plasmon resonance of the evanescent light is detected. According to the invention, the radiation of evanescent light to a martial other than the target substance can be reduced, and thereby light emission from the martial other than the target substance, e.g., a molecule floating around the target substance, can be reduced. | 03-26-2009 |
20090245604 | NUCLEIC ACID ANALYZING APPARATUS - The present invention provides a nucleic acid analyzing apparatus which achieves highly accurate analytical ability even in single molecule DNA analysis. The nucleic acid analyzing apparatus detects locations of fluorescent bright spots in image information about light emission, deletes defective bright spots, and thereby creates intensity trace data about proper bright spots. | 10-01-2009 |
20110081655 | NUCLEIC ACID ANALYZING DEVICE AND NUCLEIC ACID ANALYZER - An object of the present invention relates to distinguishing, from a fluorophore of an unreacted substrate, a single fluorophore attached to a nucleotide that is incorporated into a probe by a nucleic acid synthesis. The present invention relates to a nucleic acid analyzing device that analyzes a nucleic acid in sample by fluorescence, wherein a localized surface plasmon is generated by illumination, and a probe for analyzing the nucleic acid in the sample is on the site where the surface plasmon is generated. According to the present invention, since it is possible to efficiently produce fluorescence intensifying effects due to the surface plasmon and to immobilize the probe to a region within the reach of the fluorescence intensifying effects, it becomes possible to measure a nucleic acid synthesis without removing unreacted nucleotide to which fluorophores are attached. | 04-07-2011 |
20120130050 | BIOMOLECULE FIXING BOARD AND METHOD OF MANUFACTURING THE SAME - This invention provides a biomolecule modifying substrate comprising biomolecules selectively fixed to given regions thereon. The biomolecule modifying substrate comprises: a substrate at least comprising a first surface and a second surface; a first linker molecule comprising a hydrocarbon chain and a functional group capable of selectively binding to the first surface at one end of the hydrocarbon chain, which is bound to the first surface via such functional group; a second linker molecule comprising a reactive group capable of binding to the hydrocarbon chain of the first linker molecule, which is bound to the first linker molecule via a bond between the reactive group and the hydrocarbon chain; and a biomolecule bound thereto via the second linker molecule. | 05-24-2012 |
20120316087 | Nucleic Acid Analyzer, Reaction Device for Nucleic Acid Analysis and Substrate of Reaction Device for Nucleic Acid Analysis - Provided is a reaction device for nucleic acid analysis wherein microparticles, which carry a nucleic acid to be detected having been immobilized thereon, are aligned in a lattice form on a substrate according to the pixel size of a two-dimensional sensor. By this reaction device for nucleic acid analysis which is provided with a channel-forming reaction chamber on the substrate ( | 12-13-2012 |
20130053280 | NUCLEIC ACID ANALYSIS DEVICE, METHOD FOR PRODUCING SAME, AND NUCLEIC ACID ANALYZER - Disclosed is a technique for binding microparticles to patterned bonding pads of a metal (e.g., gold) formed on a support. The microparticles each carry a nucleic acid synthetase or DNA probe immobilized thereon for capturing a nucleic acid sample fragment. The technique involves forming, on a support surface, a film having a thickness equivalent to that of the bonding pads; controlling the size of microparticles with respect to the size of bonding pads; and thereby immobilizing microparticles each bearing a single nucleic acid sample fragment to the bonding pads in a one-to-one manner in a grid form. This allows high-density regular alignment and immobilization of many types of nucleic acid fragment samples on a support and enables high-throughput analysis of nucleic acid samples. Typically, immobilization of microparticles at 1-micrometer intervals easily provides a high density of 10 | 02-28-2013 |
20130157264 | NUCLEIC ACID ANALYSIS DEVICE, NUCLEIC ACID ANALYSIS APPARATUS, AND NUCLEIC ACID ANALYSIS METHOD - In a nucleic acid analysis device which detects a fluorescent dye on a nucleic acid sample immobilized on a surface of a substrate by exciting the fluorescent dye with an evanescent wave, the detection of a fluorescence signal with a high SN ratio is realized even for a long nucleic acid sample. | 06-20-2013 |
20130309675 | Microparticle having single-molecule nucleic acid probe, method for producing same, method for analyzing nucleic acid using same, device for nucleic acid analysis, and apparatus for analyzing nucleic acid - A microparticle having a probe molecule able to capture a specific nucleic acid group to be analyzed is used to extract only the specific nucleic acid group to be analyzed from a nucleic acid sample and the microparticle is thereafter directly immobilized on a smooth plate, whereby a device for nucleic acid analysis is rapidly prepared. Immobilizing a single capture probe molecule onto an individual microparticle in advance and forming, at regular positions on the smooth substrate, an adhesion pad on which a functional group that binds to the microparticle has been introduced makes it possible to readily and rapidly prepare the device for nucleic analysis, where the nucleic acid sample to be analyzed is arranged molecule by molecule in a lattice shape on the smooth substrate. | 11-21-2013 |
20130338041 | NUCLEIC ACID ANALYSIS DEVICE AND NUCLEIC ACID ANALYZER - In the conventional nucleic acid analysis devices and nucleic acid analyzers, there was no technique available for sequencing a single nucleic acid molecule easily and highly efficiently. The present invention enabled a highly efficient single molecule immobilization of nucleic acid with good reproductivity in a short time at a low price by providing small metallic bonding pads at predetermined positions on a support substrate, firmly fixing a hydrophobic linker on the bonding pads, and bonding on to the linker bulky microparticles onto which a single molecule of a nucleic acid sample fragment is immobilized. According to the present invention, in the nucleic acid analysis device which uses a nucleic acid analyzer, the nucleotide read length can be extended and many types of nucleic acid molecule to be analyzed can be analyzed at one time. | 12-19-2013 |