Abstract: A single-chain probe of the present invention for detecting a ligand, comprises: a ligand binding protein for binding the ligand; a recognition protein for recognizing that the ligand is bound by the ligand binding protein; and C— and N-terminal fragments, generated by dissecting an enzyme, between the ligand binding protein and the recognition protein, wherein a carboxy terminal end of the C-terminal fragment is located upstream of an amino terminal end of the N-terminal fragment, and the C— and N-terminal fragments vary the enzyme activity via complementation in case where the recognition protein recognizes that the ligand is bound by the ligand binding protein. This makes it possible to achieve detection of a target protein-specific ligand using the single chain with a high efficiency.

Abstract: At each lattice point of pantographs, a capillary is held perpendicular to the pantograph lattice. The pantograph includes: rings to serve as lattice points; and shafts linking the rings with one another. Each of the capillaries is supported by the two rings. The shafts are free to rotate about an intersection. The ring is fixed to the capillary, but the ring is a movable ring being moveable freely up and down in the axial direction of the capillary in conjunction with the pantograph. The lattice distance can be determined accomplished by moving up or down the movable ring at an arbitrarily-chosen lattice point in a pantograph. Accordingly, all the capillaries move in parallel to one another, and the ends of all the capillaries always stay within a single plane.

Abstract: To provide an inductively-coupled plasma torch capable of realizing a GC analysis or the like and a solution analysis by the same torch without removing a capillary tube, etc. The injector tube of the inductively-coupled plasma torch includes an outer injector tube 11 for introducing an atomized solution sample or the like into the inductively-coupled plasma, and an inner injector tube 12 for introducing gaseous molecules into the inductively-coupled plasma, housed in the outer injector tube as integrated and coaxially with it. The inner injector tube is able to convey make-up gas, and has a capillary tube 4 for conveying gaseous molecules and carrier gas together. For sample introduction in analyzing a gaseous sample, the inner injector tube 12 is used, and for sample introduction in analyzing an aerosol sample, the outer injector tube 11 is used.

Abstract: In a dispensing apparatus for dispensing a liquid, such as a sample solution, on a substrate, such as a glass slide, the dispensing apparatus includes a capillary provided with a distal end and a proximal end, a pump unit configured to pump an operating liquid into the capillary and to pump the operating liquid out of the capillary, and a controller configured to control the pump unit so as to change a position of a liquid surface of the operating liquid in the capillary so that a predetermined volume of liquid is suctioned from the distal end into the capillary and the liquid suctioned in the capillary is discharged from the distal end. As a result, it is possible to precisely dispense extremely small volume amounts of liquids such as a nanoliter.

Abstract: The present invention provides an “in vivo and in vitro real-time bioluminescence imaging means,” which can transmit a detection signal promptly in response to an external signal, while taking advantage of a single-molecule-format luminescent probe as a bioluminescent means. The present invention is characterized by using, as a single-molecule-format luminescent probe utilizing the increase and decrease of a second messenger level as an index, a fusion protein including a single-chain protein containing a second messenger recognition protein and optionally a peptide which is capable of binding with the protein, and linked respectively to the N-terminus and the C-terminus thereto, an N-terminal fragment (N-LE) and a C-terminal fragment (C-LE) generated by dissecting a luminescent enzyme (LE).

Abstract: The present invention provides ligand detection means capable of exhibiting two-dimensional information (wavelength and intensity of luminescent signal) responding to multiple signals triggered by a ligand via a target protein, while taking advantage of the merit of the single-molecule-format bioluminescent probe. The present invention could provide a luminescent probe set which is comprised of a fusion protein comprising a ligand recognition protein and a molecular recognition domain to which the ligand recognition protein bind upon conformational change, wherein the fusion protein is sandwiched between split Lighting Enzyme fragments, the probe set can emit multiple luminescence by utilizing Lighting Enzymes emitting lights with multiple wavelength, wherein these multiple components can be tandemly arranged by using C-terminal fragment of the Lighting Enzyme.

Abstract: Provided are a laser desorption ionization mass spectrometry sample plate for a soft LDI-MS measurement, in which when a laser beam is irradiated, a correct measurement of high sensitivity can be made without generation of any disturbance peak and uniform coating of a sample can be made on a sample plate in fabrication of the sample, and a measurement apparatus using the sample plate. A specified ionization element having a dot structure is used as an ionization medium which is used in laser desorption ionization mass spectrometry and absorbs a laser beam.

Abstract: To provide an inductively-coupled plasma torch capable of holding a capillary tube coaxially with a make-up gas tube stably and easily, smoothly conveying make-up gas and easily adjusting the axial position of the capillary tube downstream end portion. An inductively-coupled plasma torch assembly comprising a make-up gas tube (3) accepting a capillary tube (4) for introducing a gaseous sample so as to surround the capillary tube to allow the make-up gas to pass the space between the capillary tube and the make-up gas tube, a cylindrical member externally heating the make-up gas tube, and torch bodies (7, 8) for supporting the cylindrical member, and being provided with a positioning member (15) for positioning the capillary tube in the radial direction on the downstream end portion side of the cylindrical member, wherein the positioning member is fixed to the downstream end portion of the cylindrical member.

Abstract: Provided are a laser desorption ionization mass spectrometry sample plate for a soft LDI-MS measurement, in which when a laser beam is irradiated, a correct measurement of high sensitivity can be made without generation of any disturbance peak and uniform coating of a sample can be made on a sample plate in fabrication of the sample, and a measurement apparatus using the sample plate. A specified ionization element having a dot structure is used as an ionization medium which is used in laser desorption ionization mass spectrometry and absorbs a laser beam.

Abstract: To provide an inductively-coupled plasma torch capable of realizing a GC analysis or the like and a solution analysis by the same torch without removing a capillary tube, etc. The injector tube of the inductively-coupled plasma torch includes an outer injector tube 11 for introducing an atomized solution sample or the like into the inductively-coupled plasma, and an inner injector tube 12 for introducing gaseous molecules into the inductively-coupled plasma, housed in the outer injector tube as integrated and coaxially with it. The inner injector tube is able to convey make-up gas, and has a capillary tube 4 for conveying gaseous molecules and carrier gas together. For sample introduction in analyzing a gaseous sample, the inner injector tube 12 is used, and for sample introduction in analyzing an aerosol sample, the outer injector tube 11 is used.

Abstract: An inductively-coupled plasma torch capable of holding a capillary tube coaxially with an injector tube and conveying make-up gas smoothly is provided. The inductively-coupled plasma torch of the present invention includes a guide which is held near the end portion of the injector tube, and has a through hole for holding the capillary tube coaxially with the injector tube, and means for conveying make-up gas.

Abstract: An inductively-coupled plasma torch capable of holding a capillary tube coaxially with an injector tube and conveying make-up gas smoothly is provided. The inductively-coupled plasma torch of the present invention includes a guide which is held near the end portion of the injector tube, and has a through hole for holding the capillary tube coaxially with the injector tube, and means for conveying make-up gas.

Abstract: A light emitting device having a lamp for producing light when supplied with electric current, and an elongated optical material having a portion disposed within the lamp and one end located outside the lamp and serving as an outlet of emitted light. The optical material may be (a) a light transmissive, fluorescent or phosphorescent adapted to emit fluorescent or phosphorescent light upon being excited by irradiation with the light of the lamp so that the fluorescent or phosphorescent light is transmitted to the outlet, (b) a rod transparent to the light of the lamp so that the light from the lamp entering the rod is transmitted to the outlet, or (c) a light transmissive, laser generating optical material adapted to emit a laser beam upon being excited with the light of the lamp so that the laser beam is transmitted to the outlet.

Abstract: A light emitting device having a lamp for producing light when supplied with electric current, and an elongated optical material having a portion disposed within the lamp and one end located outside the lamp and serving as an outlet of emitted light. The optical material may be (a) a light transmissive, fluorescent or phosphorescent adapted to emit fluorescent or phosphorescent light upon being excited by irradiation with the light of the lamp so that the fluorescent or phosphorescent light is transmitted to the outlet, (b) a rod transparent to the light of the lamp so that the light from the lamp entering the rod is transmitted to the outlet, or (c) a light transmissive, laser generating optical material adapted to emit a laser beam upon being excited with the light of the lamp so that the laser beam is transmitted to the outlet.

Abstract: In a method of analyzing a concentration of a target substance contained in a fluid using a quartz oscillator having a surface covered with a layer capable of absorbing the target substance, the temperature of the fluid and the quartz oscillator is controlled at substantially the same predetermined temperature selected according to the concentration of the target substance in said fluid, so that the analysis can be made with optimum sensitivity. A device for analyzing a concentration of a target substance contained in a fluid, includes a contacting chamber accommodating a quartz oscillator, a temperature controller, disposed in a feed passage for feeding the fluid into said contacting chamber, for adjusting a temperature of the fluid at a desired predetermined temperature; and a detector of a frequency of the quartz oscillator.

Abstract: A photochemical reactor including a lamp for producing light when supplied with electric current; and a transparent pipe secured to and extending through the lamp and having both ends protruding from the lamp so that a reactant feed can be fed from one end of the pipe, irradiated with light from the lamp and discharged from the other end of the pipe.

Abstract: The concentration of an organic chlorine compound contained in a gaseous medium is measured in situ by feeding the gaseous medium to a reaction zone and oxidizing the chlorine compound to produce a reactive gas capable of reacting with a chemiluminescent compound to cause chemiluminescence. The reactive gas is contacted with the chemiluminescent compound contained in a cell to cause chemiluminescence whose intensity is proportional to the amount of the reactive gas produced by the oxidation of the organic compound. The concentration of an organic chlorine compound contained in an aqueous medium may also be measured by the similar method after separating the organic chlorine compound as vapors from the aqueous medium. A device suitable for the above measurement is also disclosed.

Abstract: A very sensitive and reliable analytical method is proposed for the concentration determination of silane SiH.sub.4 in a gaseous mixture. In the method, the sample gas is admixed with ozone and irradiated with ultraviolet of a wave length of 200 to 320 nm so that a silicic aerosol is formed in the sample gas and the concentration of the silicic aerosol suspended in the sample gas is determined by the measurement of light scattering. Instead of the admixture of ozone, the sample gas containing or admixed with oxygen is first irradiated with ultraviolet of shorter than 200 nm wave length to convert the oxygen into ozone in situ and then the photochemical formation of silicic aerosol and light scattering measurement are undertaken as mentioned above.

Abstract: Metal ions contained in trace in an aqueous solution are extracted, for quantitative analysis by an ICP emission spectrometer, with an organic solvent supplemented by chelate compounds in an extraction vessel having a thin cylindrical upper portion, to form an organic layer containing the extracted metal ions over an aqueous layer. After extraction, water is supplied from the bottom of the vessel in an amount so that the interface between the organic and aqueous layers is positioned at a predetermined position of the thin, upper portion where a liquid withdrawal port is provided. The organic layer is recovered from the withdrawal port.

Abstract: A gas concentration measuring method comprises irradiating a sample gas with ultraviolet light in the presence of oxygen, thereby converting a specific gas for detection contained in the sample gas into fine oxide particles by photochemical reaction, irradiating the sample gas having the fine oxide particles contained therein with light, and detecting scattered light emitted from the fine oxide particles contained in the sample gas.