Abstract: The present invention provides a method for detecting fluorescence by using a solid support to which a probe molecule to be detected is fixed, wherein background is reduced by using a quenching agent. By using present invention, detection sensitivity of a DNA chip can be increased and stable data can be obtained.

Abstract: An object of the present invention is to provide a means for simply performing a gene analysis without performing complicated operations. The present invention provides a method for the detection of a nucleic acid, comprising the steps of: performing a PCR reaction or a reverse transcription reaction by adding a template nucleic acid to a solid support on which a nucleic acid is fixed; and hybridizing the nucleic acid fixed on said solid support with the nucleic acid synthesized by the PCR reaction or the reverse transcription reaction.

Abstract: According to the present invention, there is provided a fluorescent nucleotide represented by the formula: A-B-C, wherein A represents a residue of natural or synthetic nucleotide, oligonucleotide, polynucleotide, or derivative thereof, and binds to B at a base moiety in said residue; B represents a divalent linking group or a single bond; and C represents a monovalent group derived from a fluorescent dye having 0 or 1 sulfonic acid group or phosphoric acid group in a molecule. The present invention provides useful fluorescent nucleotides for labeling nucleic acids, specifically, fluorescent nucleotides of which uptake ratio is high in synthetic reaction of nucleic acids.

Abstract: A reactive solid carrier favorably employable for manufacturing DNA chip is composed of a solid carrier and a plurality of vinylsulfonyl groups or their reactive precursors each of which is fixed onto a surface of the solid carrier by covalent bonding via a linking group, and a method for producing a DNA chip is performed by bringing the reactive solid carrier into contact with nucleotide derivatives or their analogues having a reactive group which is reactive with the vinylsulfonyl group or reactive precursor fixed to the solid carrier.

Abstract: An agglutination assay method for quantitatively determination of an analyte in a liquid sample using particles bearing an anti-analyte. A non-fluid substance which retains the particles while suppressing the diffusion of the particles therein is used as a medium which is to be a place where the agglutination of the particles takes place. Upon analysis, a solation agent is added to the non-fluid substance medium to increase the fluidity of the non-fluid substance, thereby the particles bearing the anti-analyte can diffuse in the medium to cause the agglutination with the analyte. Preferably, the solation agent is added to the non-fluid medium together with the sample. The non-fluid substance medium containing the particle-labeled anti-analyte can be stored with a higher stability in the dry state. A dry analysis element for enabling such analysis method is also provided.

Abstract: A process for blocking a device for detection of biochemically active molecules is performed by the steps of: bringing in the presence of an aqueous medium a detection device having probe molecules, ionic reactive groups, and non-ionic reactive groups on its surface, into contact with compounds which react with the non-ionic reactive groups to produce covalent bondings and compounds which form electrostatic bondings with the ionic reactive groups, simultaneously or separately; and washing the surface of the detection device with an aqueous solvent or a water-miscible solvent.

Abstract: A micro-array for analysis of DNA is prepared by the steps of spotting onto a solid carrier in its predetermined area in which plural reactive groups are fixed an aqueous solution which contains a thickening agent and probe molecules (e.g., DNA fragments) having a group reactive with the reactive group of the solid carrier to produce covalent bonding; spotting onto the solid carrier in a different area having the same reactive groups an aqueous solution (same or different); incubating the aqueous solution-spotted solid carrier to produce the covalent bondings; and washing the solid carrier with an aqueous medium to remove the thickening agent from the solid carrier. An electrostatic bonding can be utilized in place of the covalent bonding.

Abstract: A modified solid carrier composed of a solid carrier and a group of compounds having a vinylsulfonyl group which are fixed to the solid carrier with non-covalent bonding is favorably employed for preparing a device for detection of oligonucleotide or polynucleotide.

Abstract: An analytical element (typically DNA chip) composed of a solid carrier and a group of nucleotide derivatives or their analogues fixed to the solid carrier via covalent bonding can be favorably prepared by bringing in a liquid phase a group of nucleotide derivatives or their analogues having at one end or its vicinity a reactive group into contact with a solid carrier having on its surface a reactive group, so as to produce between these reactive groups an irreversible addition reaction, an cyclizing addition reaction, or a coupling reaction.

Abstract: An analytical element (typically DNA chip) composed of a solid carrier and a group of nucleotide derivatives or their analogues fixed to the solid carrier can be produced by bringing nucleotide derivatives or the analogues having an alkyne group at one terminal into contact with a zero-valent metal film (e.g., silver metal film or copper metal film) placed on the solid carrier.

Abstract: The present invention provides a structure comprising a vorticosely fixed string-like support, and plural regions on said string-like support to which a biological material is fixed. By using the structure according to the present invention, a target oligonucleotide having complementarity to an oligonucleotide can efficiently be detected.

Abstract: An object of the present invention is to provide a means for simply performing a gene analysis without performing complicated operations. The present invention provides a method for the detection of a nucleic acid, comprising the steps of: performing a PCR reaction or a reverse transcription reaction by adding a template nucleic acid to a solid support on which a nucleic acid is fixed; and hybridizing the nucleic acid fixed on said solid support with the nucleic acid synthesized by the PCR reaction or the reverse transcription reaction.

Abstract: The present invention provides a measurement chip for a surface plasmon resonance biosensor, which comprises a transparent substrate, a metal membrane located on the transparent substrate and an organic silicon membrane immobilized on the metal membrane and in which the organic silicon membrane is immobilized on the metal membrane via a functional group capable of binding with atoms on the surface of a metal. The measurement chip for a biosensor of the present invention can easily be produced. Using the measurement chip of the present invention, a target substance can be measured with good sensitivity, even if only a small amount of physiologically active substance is immobilized.

Abstract: A DNA chip or its analogue composed of nucleotide derivatives attached to a solid carrier is prepared by method of bringing nucleotide derivatives having a reactive group at each one terminal into contact with a solid carrier having thereon reactive groups in an aqueous phase in the presence of a transferase which is capable of producing a covalent bond by rearrangement of the reactive group of the nucleotide derivative and the reactive group of the solid carrier.

Abstract: The present invention provides a fluorescent substance which is represented by a formula: A-B-C wherein A is a residue of natural or synthetic nucleotide, oligonucleotide, polynucleotide, or derivative thereof, and binds to B at a base moiety in said residue, or A is a residue of avidin or streptavidin; B is a divalent linking group or a single bond; and C is a monovalent group derived from a general formula (I) and binds to B at a reactive group present in R1 or R2: wherein R1 and R2 each independently represent an alkyl group that may be substituted with a reactive group capable of covalently bonding to A-B-; R3, R4, R5, and R6 each independently represent an alkyl group, and R3 and R4, and/or R5 and R6 may bind to each other to form a saturated carbon-ring together with a carbon atom(s) to which they bind; V1, V2, V3, V4, V5, V6, V7, V8, V9 and V10 each independently represent a hydrogen atom or a monovalent substituent, and two adjacent groups thereof may bind to form a ring; L1, L2,

Abstract: An immunoassay element for quantitatively analyzing a macromolecular antigen by determining the change in enzymatic activity caused by a reaction between the macromolecular polymer antigen and an enzyme-labelled antibody. The immunoassay element comprises a substrate layer containing a non-diffusible substrate which forms a diffusible material in the presence of the enzyme, and a reagent layer containing a fragmenting enzyme for further fragmenting the diffusible material into a lower molecular weight product. Also provided is a process for quantitatively analyzing a macromolecular antigen in a sample by the use of the immunoassay element.

Abstract: An analytical element (typically DNA chip) composed of a solid carrier and a group of nucleotide derivatives or their analogues fixed to the solid carrier via covalent bonding containing a boron-containing ring structure can be favorably prepared by bringing in a liquid phase a group of nucleotide derivatives or their analogues having at one end or its vicinity a boron-containing group or a divalent group reactive to the boron-containing group to produce a boron-containing ring structure into contact with a solid carrier having on its surface a divalent group reactive to the boron-containing group or a boron-containing group, respectively.

Abstract: According to the present invention, there is provided a reactive solid support having a porous substrate wherein the porous region has a fine pore diameter of about 2 nm to about 1000 nm, a porosity of about 10% to about 90% and a thickness of about 0.01 &mgr;m to about 70 &mgr;m, to the surface of which a group of vinyl sulfonyl groups or their reactive precursor groups are fixed by covalent bond via a linking group, respectively. According to the present invention, a probe of a nucleotide derivative or its analog nucleotide such as an oligonucleotide, a polynucleotide, or a peptide nucleic acid can be fixed in high density with high stability on the surface of a solid support having a porosity.

Abstract: An analytical element (typically DNA chip) composed of a solid carrier and a group of nucleotide derivatives or their analogues fixed to the solid carrier can be produced by bringing nucleotide derivatives or the analogues having an alkyne group at one terminal into contact with a zero-valent metal film (e.g., silver metal film or copper metal film) placed on the solid carrier.

Abstract: A reactive solid carrier favorably employable for manufacturing DNA chip is composed of a solid carrier and a plurality of vinylsulfonyl groups or their reactive precursors each of which is fixed onto a surface of the solid carrier by covalent bonding via a linking group, and a method for producing a DNA chip is performed by bringing the reactive solid carrier into contact with nucleotide derivatives or their analogues having a reactive group which is reactive with the vinylsulfonyl group or reactive precursor fixed to the solid carrier.