Abstract: The invention relates to oligonucleotides labeled with an energy transfer acceptor useful in conjunction with fluorescent nucleic acid stains. The resulting oligonucleotides are useful for decreasing background fluorescence during amplification assays and in ligation assays, and for detecting hybridization.

Abstract: The invention relates to dipyrrometheneboron difluoride-substituted nucleotides substituted by a dipyrrometheneboron difluoride label on a phosphate moiety. The nucleotides of the invention are useful in fluorescence assays, including protein binding assays and assays for hydrolase enzymes.

Abstract: The family of dyes of the invention are fluoresceins and rhodols that are directly substituted on one or more aromatic carbons by fluorine. These fluorine-substituted fluorescent dyes possess greater photostability and have lower sensitivity to pH changes in the physiological range of 6-8 than do non-fluorinated dyes, exhibit less quenching when conjugated to a substance, and possess additional advantages. The dyes of the invention are useful as detectable tracers and for preparing conjugates of organic and inorganic substances.

Abstract: The present invention describes xanthene dyes, including rhodamines, rhodols and fluoresceins that are substituted one or more times by a sulfonic acid or a salt of a sulfonic acid. The dyes of the invention, including chemically reactive dyes and dye-conjugates are useful as fluorescent probes, particularly in biological samples.

Abstract: The present invention describes a family of fluorescent indicators for metal cations. The indicators are fluorophore conjugates of pyridyl-based metal ion chelators. The indicators are very sensitive detection as quantification reagents for a variety of metals, in a variety of oxidation states, even in the presence of high concentrations of Ca.sup.2+, Na.sup.+, or K.sup.+ or other ions, such as is found in seawater, making them highly useful for assaying physiological samples, biological samples, or environmental samples.

Abstract: The present invention relates to a family of cyanine dyes possessing lipophilic alkyl chains and either one or more reactive functional groups, bromo or chloro, or phenyl, sulfophenyl or polysulfophenyl substituents or combinations thereof. The dyes of the invention are useful for staining membranes in cells or isolated from cells, and are well-retained therein. Additionally, the reactive dyes of the invention are useful for preparing dye-conjugates, thereby conferring the membrane staining ability of the subject dye onto the resulting dye-conjugate.

Abstract: The invention relates to fluorescent dyes that are substituted or unsubstituted derivatives of 1-(isoindolyl)methylene-isoindole that are bound through both isoindole nitrogens to a boron difluoride moiety, forming a fluorescent dibenzopyrrometheneboron difluoride compound ##STR1## that is further substituted by bathochromic substituents that are aryl or heteroaryl moieties further substituted by an additional aryl or heteroaryl, that is itself optionally further substituted by an additional aryl or heteroaryl. These aryl and heteroaryl groups are separated by a covalent bond, or by an ethenyl, butadienyl or hexatrienyl linkage. The dyes of the invention are particularly useful as labels for carriers, particularly polymeric microparticles. The resulting microparticles have a long-wavelength fluorescence emission, and possess utility for tracing flow in biological systems, particularly in tracing blood flow.

Abstract: The present invention describes a family of photolabile caged ionophores. The compounds of the present invention are photolytically cleavable esters of nigericin, ionomycin, A-23187, 4-Br-A-23187 and monensin. The photolysis of the present compounds allows the release of the free ionophore in vivo or in vitro with precise spatial and temporal control. The compounds are useful in the study of ion transport and control in cells and across membranes.

Abstract: The present invention describes a family of photolabile caged nucleotides, including cyclic nucleotides. The compounds of the present invention are caged analogs and derivatives of NAD.sup.+, NADH, NADP, NADPH, NAADP and cADPR. The photolysis of the present compounds allows the release of the free nucleotide in vivo or in vitro with precise spatial and temporal control. The compounds are useful for the photolytic generation of free nucleotides in aqueous samples, for example, in the study of calcium mobilization in cells and cell homogenates.

Abstract: The invention generally features a rapid, quantitative method of diagnosing multi-drug resistance in a patient. The method involves (a) exposing cells of a biological specimen to a calcein compound, the calcein compound becoming fluorescent in the cell; and (b) measuring calcein compound accumulating in the specimen cells relative to control cells, reduced calcein accumulation in specimen cells relative to control cells indicating the presence of multi-drug resistance in the biological specimen. The method is useful for diagnosing multi-drug resistance in patients undergoing drug therapy, e.g., chemotherapeutic or antibiotic therapy.

Abstract: Dipyrrometheneboron difluoride dyes possessing a covalently attached basic amine moiety are described that have utility for staining acidic organelles. Samples comprising isolated acidic organelles, or a cell or cells containing acidic organelles, are stained by preparing an aqueous labeling solution of the dye and incubating the sample in the labeling solution for a time sufficient to produce fluorescent labeled acidic organelles.

Abstract: The invention comprises cyanine dyes, in particular chemically reactive dyes, conjugates of reactive cyanine dyes, the non-covalent complexes of nucleic acids with the dyes and dye-conjugates of the invention, and a method of forming a nucleic acid complex with the dyes and dye-conjugates of the present invention. The dyes of the invention are useful for the preparation of dye-conjugates. The presence of a reactive group on the unsymmetrical cyanine dyes of the invention facilitates their covalent conjugation to a variety of substances, both biological and synthetic.

Abstract: The invention describes useful conjugates of sulforhodamine, wherein the conjugated substance and the fluorophore are separated by an alkanoic acid spacer that is attached to the fluorophore via a sulfonamide bond. The increased length of the covalent linkage due to the spacer results in dye-conjugates having a number of surprisingly advantageous properties relative to previous sulforhodamine-labeled conjugates, including increased fluorescence.

Abstract: The present invention comprises 6,8-difluoro-7-hydroxycoumarins and derivatives of 6,8-difluoro-7-hydroxycoumarins, including reactive dyes, dye-conjugates and enzyme substrates. These fluorine-substituted fluorescent dyes typically possess greater photostability and lower pH sensitivity in the physiological pH range than their nonfluorinated analogs, exhibit less fluorescence quenching when conjugated to a substance, possess absorption and emission spectra that closely match those of their nonfluorinated analogs, and also exhibit higher quantum yields than their nonfluorinated analogs.

Abstract: The invention describes reactive dyes having an alkyl spacer attached via a sulfonamide bond to a sulforhodamine 101 fluorophore, and a variety of useful conjugates prepared therefrom. The increased length of the covalent linkage due to the alkyl spacer results in dye-conjugates having a number of surprisingly advantageous properties relative to previous sulforhodamine 101-labeled conjugates, including enhanced solubility and increased fluorescence. The reactive dyes of the present invention are more stable than the known compound sulforhodamine 101 sulfonyl chloride. Novel reactive dyes are described for selective modification of groups other than amines, including thiols and photoreactive derivatives.

Abstract: The invention describes novel fluorescently labeled microspheres, where the microspheres possess at least one internal fluorescent spherical zone. The invention also describes the method of preparing the novel microspheres, the method of calibrating microscopy instrumentation using the novel microspheres, the method of using the novel microspheres as distinct labels for combinatorial analysis and the use of the labeled microspheres as tagging agents and tracers.

Abstract: This invention describes bifunctional polysaccharides conjugated to both a chelating group suitable for the selective complexation of metal cations, and a targeting peptide specific for a cellular substructure. These bifunctional polysaccharides are primarily useful for the regulation, detection and quantification of metal ion levels, such as Ca.sup.2+, Mg.sup.2+, Na.sup.+, K.sup.+, or Li.sup.+, in specific cellular structures. Localization within the cellular structure is accomplished by the targeting peptide, whereupon the large, water-soluble polysaccharide prevents diffusion of the chelating group from the targeted site. When the target cell structure is the nucleus of a fertilized egg cell, the polysaccharide-chelator conjugate remains sequestered within the nucleus until the breakdown of the nuclear envelope, whereupon the reagent becomes sequestered into both daughter nuclei. This means of tracking daughter cells is practical even through several cell divisions.

Abstract: The subject invention describes compounds containing a polyhalogenated aryl moiety. The compounds of the invention are particularly useful for the assay of a variety of enzymes, including intracellular enzymes. The subject invention also describes assays for glutathione and/or glutathione transferase enzymes. Selected compounds of the invention are particularly useful for improving the retention of fluorescent products of enzyme metabolism in cells.

Abstract: The invention is a novel fluorescently labeled microparticle, where the microparticle internally incorporates at least one dipyrrometheneboron difluoride dye. Appropriate selection of substituents results in dipyrrometheneboron difluoride derivatives that, when incorporated into polymer microparticles, give the desired excitation and emission wavelengths. The spectral characteristics of the labeling dyes in liquid are not greatly changed when the dye is incorporated into the particles, and the spectral excitation and emission wavelengths are compatible with commonly used filter sets. Other embodiments of the fluorescent microparticles include additional dyes and/or bioreactive substances.

Abstract: This invention relates to polymers labeled with fluorescent dye to the point that significant fluorescence quenching occurs, such that degradation of the polymer results in fluorescence enhancement. The resulting fluorescence enhancement is useful for measuring the degradation of such polymers, for example as a result of enzymatic hydrolyis of a protein, carbohydrate, nucleic acid, or other natural or synthetic polymer.