Abstract: A microbead automatic recognition method includes the steps of: acquiring an image of a circular surface of a cylindrical microbead having a recognition pattern created on the circular surface and a plurality of reference points also created on the circular surface; and acquiring information on the rear/front and/or orientation of the cylindrical microbead from the acquired image on the basis of the positions of the reference points.

Abstract: In one example embodiment, a method fabricates microbeads, which can supply a bead set containing a various types of microbeads and having distinct populations of the respective types of microbeads. In one example embodiment, the method includes forming a hydrophilic layer made of a hydrophilic organic material on a substrate. In one example embodiment, the method includes laminating on the hydrophilic layer a thin film capable of being peeled off in the form of microbeads. In one example embodiment, the method includes forming the thin film in a given configuration by photolithography. In one example embodiment, the method includes solid-phasing a given substance on the post-formed thin films. In one example embodiment, the method includes peeling off the post-formed thin films, which have been solid-phased with the substance, from the substrate along with at least a part of the hydrophilic layer to obtain microbeads.

Abstract: The present application provides a process for the preparation of microbeads, including the steps of: patterning a thin film, which has been formed on a substrate, into microbead regions of at least one predetermined shape by photolithography; immobilizing a predetermined substance on the thus-patterned microbead regions; and stripping off, from the substrate, the thus-patterned microbead regions with the substance immobilized thereon.

Abstract: A microbead automatic recognition method includes the steps of: acquiring an image of a circular surface of a cylindrical microbead having a recognition pattern created on the circular surface and a plurality of reference points also created on the circular surface; and acquiring information on the rear/front and/or orientation of the cylindrical microbead from the acquired image on the basis of the positions of the reference points.

Abstract: A microbead automatic recognition method includes the steps of: acquiring an image of a circular surface of a cylindrical microbead having a recognition pattern created on the circular surface and a plurality of reference points also created on the circular surface; and acquiring information on the rear/front and/or orientation of the cylindrical microbead from the acquired image on the basis of the positions of the reference points.

Abstract: There is provided a method that achieves the prediction of a biological rhythm with high precision while minimizing the number of times a biological specimen is collected from a subject. There is also provided a method for predicting a biological rhythm of a subject on the basis of time series expression level data obtained by measuring expression levels of two clock genes in biological specimens collected from the subject three times within 24 hours, the clock genes having different phases of circadian cycles of a change in expression levels. In this method for predicting a biological rhythm, a biological rhythm can be predicted with particularly high precision by collecting a biological specimen from a subject three times within 24 hours at eight-hour intervals.

Abstract: In one example embodiment, a method fabricates microbeads, which can supply a bead set containing a various types of microbeads and having distinct populations of the respective types of microbeads. In one example embodiment, the method includes forming a hydrophilic layer made of a hydrophilic organic material on a substrate. In one example embodiment, the method includes laminating on the hydrophilic layer a thin film capable of being peeled off in the form of microbeads. In one example embodiment, the method includes forming the thin film in a given configuration by photolithography. In one example embodiment, the method includes solid-phasing a given substance on the post-formed thin films. In one example embodiment, the method includes peeling off the post-formed thin films, which have been solid-phased with the substance, from the substrate along with at least a part of the hydrophilic layer to obtain microbeads.

Abstract: Disclosed herein is a method for extracting a biosubstance from a root of a hair, including the step of using as the hair a hair that has pulling force of at least a predetermined reference value to pull out the hair.

Abstract: Disclosed herein is a cell for testing microbeads, used for testing microbeads each formed in a cylindrical shape having an upper surface and a lower surface opposite to and substantially parallel to each other and a side surface continuous with the upper and lower surfaces, at least one of the upper surface and the lower surface being provided with an identification pattern, the cell including: a support substrate; and a cover disposed opposite to the support substrate, wherein a space between the support substrate and the cover forms a containing space in which to dispose the microbeads, and the distance between the support substrate and the cover is greater than the thickness of the microbeads and smaller than twice the thickness of the microbeads.

Abstract: Provided is a microbead analysis method for a microbead. The microbead is formed in a columnar shape having a top surface and a bottom surface facing each other, as placed almost in parallel, and a side surface extending therefrom, and carries an identification pattern formed on at least one of the top surface and the bottom surface and a substance immobilized on a surface thereof having affinity to an analyte substance. The method includes detecting fluorescence emitted from the microbead surface due to interaction of the analyte substance with the substance having affinity to the analyte substance from a region including a region of the top surface and the bottom surface where there is no identification pattern formed and the side surface.

Abstract: Disclosed herein is a method for extracting a biosubstance from a root of a hair, including the step of using as the hair a hair that has pulling force of at least a predetermined reference value to pull out the hair.

Abstract: Disclosed herein is a method for extracting a biosubstance from a root of a hair, including the step of using as the hair a hair that has pulling force of at least a predetermined reference value to pull out the hair.

Abstract: An object is to provide an image display device which exercises a function of adjusting a biological clock without changing a visibility of an image. An image display device (A) for displaying an image by radiating a light from a light source (1) to a display portion (2) includes: the light source (1) having a radiation emitter for emitting a light having a wavelength band of 445 to 480 nm; and control means (3) for controlling an intensity of the light having the wavelength band; in which a display portion includes an area (21) on which a predetermined image is displayed; and an area (22) on which an image for which the intensity of the light having the wavelength band is controlled by the control means (3) separately, independently of each other.

Abstract: Information on the position and displacement of a detection-subject substance T can be presented by adoption an evanescent light illumination technology. An evanescent light beam PE has a property that the intensity thereof abruptly attenuates in accordance with an exponential function with increases in distance Z from a boundary surface S capable of generating the evanescent light beam PE. The detection-subject substance T fixed on the boundary surface S is excited by the evanescent light beam PE having the property described, generating the original fluorescent light beam f of the detection-subject substance T. On the basis of the intensity I of the fluorescent light beam f, information Z on the position of the detection-subject substance T and information ?z on the displacement of the detection-subject substance T can be acquired.

Abstract: To provide a simple and low-invasive method for obtaining information on a biorhythm of an individual organism. Provided is a method for obtaining information on a biorhythm of an individual organism based on variations over time in an expression level of a clock gene in a hair follicle cell of the individual organism. According to this method, a phase shift of the biorhythm of the individual organism can be detected by preparing a plurality of times about the individual organism and conducting a collation. Further, a phase shift of the biorhythm of the individual organism can also be detected by collating an expression level of the clock gene at a predetermined time with the molecular clock table.

Abstract: A hybridization detecting unit which includes a reaction region in which hybridization takes place, a plurality of sites (e.g., the surface of electrodes) arranged in the reaction region to which is fixed a nucleic acid for detection, and means for sequentially moving by dielectrophoresis the target nucleic acid introduced into the reaction region according to the order of arrangement of the sites to which is fixed a nucleic acid for detection. A sensor chip provided with the hybridization detecting unit. The detecting unit compulsorily moves the target nucleic acid into the region where a probe nucleic acid for detection exists, thereby increasing the probability of hybridization taking place.

Abstract: A microbead automatic recognition method includes the steps of: acquiring an image of a circular surface of a cylindrical microbead having a recognition pattern created on the circular surface and a plurality of reference points also created on the circular surface; and acquiring information on the rear/front and/or orientation of the cylindrical microbead from the acquired image on the basis of the positions of the reference points.

Abstract: The present invention provides a method for producing a carrier for nucleic acid separation, the method including a step of: immobilizing capturing chains onto a porous carrier having cation-exchangeable groups thereon by ion exchange bonding, the capturing chains having a base sequence complementary to target nucleic acid chains and being modified with functional groups having positive charges.

Abstract: The present application provides a process for the preparation of microbeads, including the steps of: patterning a thin film, which has been formed on a substrate, into microbead regions of at least one predetermined shape by photolithography; immobilizing a predetermined substance on the thus-patterned microbead regions; and stripping off, from the substrate, the thus-patterned microbead regions with the substance immobilized thereon.

Abstract: A reversible multicolor thermal recording medium which is free from fogging and has sharp contrast even after recording and erasing are performed repeatedly, and a recording method using the same are provided. A reversible multicolor recording medium is provided, which includes recording layers each containing a plurality of reversible thermal coloring compositions having different coloring tones, formed to be separated from and stacked on a surface direction of a supporting substrate; and the plurality of reversible thermal coloring compositions containing light-to-heat transforming materials which absorb infrared rays having different wavelength ranges to generate heat, respectively; wherein an absorption peak wavelength of the light-to-heat transforming material contained in the recording layers becomes the longest wavelength at the layer formed nearest the supporting substrate, and becomes a shorter wavelength as the layer is closer to the surface layer in the stacked order.