Abstract: Biotin derivatives, methods of using the biotin derivatives and kits comprising the biotin derivatives.

Abstract: Biotin derivatives, methods of using the biotin derivatives and kits comprising the biotin derivatives.

Abstract: Biotin derivatives, methods of using the biotin derivatives and kits comprising the biotin derivatives.

Abstract: Biotin derivatives, methods of using the biotin derivatives and kits comprising the biotin derivatives.

Abstract: Biotin derivatives, methods of using the biotin derivatives and kits comprising the biotin derivatives.

Abstract: Lipophilic fluorescent substances can be used to detect surface defects in materials having hydrophilic (e.g., inorganic) coatings. Use of the described methods makes surface defects appear fluorescent, while the remaining surfaces are not labeled. The disclosed methods are inexpensive, rapid, and easy alternatives to existing approaches.

Abstract: Lipophilic fluorescent substances can be used to detect surface defects in materials having hydrophilic (e.g., inorganic) coatings. Use of the described methods makes surface defects appear fluorescent, while the remaining surfaces are not labeled. The disclosed methods are inexpensive, rapid, and easy alternatives to existing approaches.

Abstract: Biotin derivatives, methods of using the biotin derivatives and kits comprising the biotin derivatives.

Abstract: Lipophilic fluorescent substances can be used to detect surface defects in materials having hydrophilic (e.g., inorganic) coatings. Use of the described methods makes surface defects appear fluorescent, while the remaining surfaces are not labeled. The disclosed methods are inexpensive, rapid, and easy alternatives to existing approaches.

Abstract: Fluorescent microspheres for the measurement of blood flow are provided. The microspheres are substantially uniform in diameter and have a hydrophobic surface, which allows them to circulate more freely throughout bloodstream, while reducing immunogenicity, particle aggregation and bioaccumulation. The hydrophobic surface on each microsphere is generally comprised of polymeric material having a limited surface charge.

Abstract: Lipophilic fluorescent substances can be used to detect surface defects in materials having hydrophilic (e.g., inorganic) coatings. Use of the described methods makes surface defects appear fluorescent, while the remaining surfaces are not labeled. The disclosed methods are inexpensive, rapid, and easy alternatives to existing approaches.

Abstract: Provided is an optical in vivo contrast agent comprising a fluorescent polymeric microsphere, wherein the micro-sphere is impregnated with a dye having an excitation and emission spectrum compatible with in vivo imaging, and wherein the microsphere is coated with a block copolymer.

Abstract: Fluorescent microspheres for the measurement of blood flow are provided. The microspheres are substantially uniform in diameter and have a hydrophobic surface, which allows them to circulate more freely throughout bloodstream, while reducing immunogenicity, particle aggregation and bioaccumulation. The hydrophobic surface on each microsphere is generally comprised of polymeric material having a limited surface charge.

Abstract: Lipophilic fluorescent substances can be used to detect surface defects in materials having hydrophilic (e.g., inorganic) coatings. Use of the described methods makes surface defects appear fluorescent, while the remaining surfaces are not labeled. The disclosed methods are inexpensive, rapid, and easy alternatives to existing approaches.

Abstract: Microplates containing spherical “microsphere” fluorescence standards are disclosed. The microplates can be prepared using several methods including airbrushing, application with an inkjet printer, or controlled evaporation. Spherical bead standards containing two or more regions stained with dyes of different fluorescence lifetimes, and methods for their preparation are also disclosed. The microplates can be used as calibration standards for fluorescence and confocal microscopes, and as calibration tools for microscope-based high content screening (“HCS”) instruments.

Abstract: Provided is an optical in vivo contrast agent comprising a fluorescent polymeric microsphere, wherein the microsphere is impregnated with a dye having an excitation and emission spectrum compatible with in vivo imaging, and wherein the microsphere is coated with a block copolymer.

Abstract: Fluorescent microspheres for the measurement of blood flow are provided. The microspheres are substantially uniform in diameter and have a hydrophobic surface, which allows them to circulate more freely throughout bloodstream, while reducing immunogenicity, particle aggregation and bioaccumulation. The hydrophobic surface on each microsphere is generally comprised of polymeric material having a limited surface charge.

Abstract: Microplates containing spherical “microsphere” fluorescence standards are disclosed. The microplates can be prepared using several methods including airbrushing, application with an inkjet printer, or controlled evaporation. Spherical bead standards containing two or more regions stained with dyes of different fluorescence lifetimes, and methods for their preparation are also disclosed. The microplates can be used as calibration standards for fluorescence and confocal microscopes, and as calibration tools for microscope-based high content screening (“HCS”) instruments.

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: 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.