- COMPOUNDS AND COMPOSITIONS FOR RETINAL INJURY DETECTION AND METHODS OF USING SAME
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Described are compounds, compositions, and methods suitable for diagnosing individuals with eye injuries and/or diseases. The compounds of the present disclosure have fluorescent groups and bis-dipicolylamine groups, which may be substituted or unsubstituted. The fluorescent group and bis-dipicolylamine group are connected by linking groups. The compositions may be formulated and administered as an eye drop. The methods may be used to track and/or label dying cells associated with eye injuries and/or diseases, such as, for example, retinal degenerations including, but not limited to, retinitis pigmentosa, glaucoma, diabetic retinopathy, and age-related macular degeneration.
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- Sulfo - Cy3 carboxylic acid fluorescent dye and preparation process thereof
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The invention relates to a sulfo - Cy3 carboxylic acid fluorescent dye and a preparation process thereof, wherein the synthesized sulfo - Cy3 carboxylic acid has fluorescent quantum yield. At the same time, the high-emission high-excitation wavelength and is easily dissolved in water physical and chemical property stability points, and simultaneously, a single condensation target product needs to be selectively generated when the indole α-position methyl activity is achieved through simultaneous construction of the benzylindole two-side branch chains and high in yield, and C18 column separation is avoided.
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- FLUORESCENCE COMPOUNDS AND PREPARATION METHOD THEREOF
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Provided is a fluorescent compound represented by the following [Chemical Formula 1] and a method for preparing the same: wherein each of X, Y, R1, R2, R3 and n is the same as defined in the specification.
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Paragraph 0166; 0167; 0168; 0169; 0170; 0171
(2017/11/16)
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- Cyanine compound for labeling biomolecule and preparation method thereof
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Disclosed are a novel cyanine compound, represented by the following Formula 1, for labeling biomolecules, and a method for preparing the same. wherein R1, R2, R3, R4, B, m and n are defined as above.
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- Synthesis of PEG derivatives bearing aminophenyl and their application for liquid-phase synthesis of water-soluble unsymmetrical cyanine dyes
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The synthesis and NMR characterization of soluble PEG-supported polymers were described, and their subsequent application for liquid-phase synthesis of water-soluble cyanine dyes was also studied. Nucleophilic substitution of tosylation of PEG 16 with 1,3-bis(4-nitrophenoxy)-2-propanol 15 under basic conditions, followed by nitro group reduction, gave PEG-bound aminophenyl 18. Another PEG-bound aminophenyl 28 was prepared by condensation reaction of PEG-bound pentaerythritol 25 and 4-aminobenzoic acid followed by the cleavage of BOC group. Subsequent loading and activation of sulfoindoleninium to PEG derivatives 18 or 28 were achieved via simple strategies. Cyanine dyes were released by the attack of heterocyclic carbon nucleophile and the cleavage of PEG-bound hemicyanine without the chromatographic separation. The efficient, facile, and practical approaches appear to be robust and versatile strategies to deliver not only indocyanine dyes but also benzoindocyanine dyes.
- Jiang, Lin-Ling,Li, Bao-Lin,Lv, Feng-Ting,Dou, Li-Fang,Wang, Liu-Chang
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experimental part
p. 5257 - 5264
(2009/12/01)
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- An efficient approach to the synthesis of water-soluble cyanine dyes using poly(ethylene glycol) as a soluble support
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An efficient synthesis approach to unsymmetrical water-soluble cyanine dyes has been established. Loading and activation of sulfoindolenium to poly(ethylene glycol) (PEG) have been achieved via a simple strategy. Cyanine dyes are released by the attack of heterocyclic carbon nucleophile and the cleavage of PEG-bound hemicyanine. The efficient approach delivers cyanine dyes in high purity without the nontrivial chromatographic separation.
- Jiang, Lin-Ling,Dou, Li-Fang,Li, Bao-Lin
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p. 5825 - 5829
(2008/02/09)
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