Near infrared boron fluoride complexed dipyrrolyl methine fluorescent dye for biological analysis

A technology of dipyrrole methine and fluorescent dyes, applied in the field of fluorescent dyes, can solve the problems of unsatisfactory degree of red shift, poor photostability, and poor conjugation of phenyl and naphthyl groups with dye precursors, and achieves protonation process. reversible effect

Inactive Publication Date: 2007-04-11
DALIAN UNIV OF TECH
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Problems solved by technology

However, the currently developed near-infrared cyanine dyes still have fatal shortcomings: poor photostability, short fluorescence lifetime, low fluorescence quantum yield, frequent accumulation in solution, etc.
[0010] Kevin Burgess et al. introduced phenyl and naphthyl at the 3-position and 5-position of the boron fluoride-complexed dipyrromethene fluorescent dye parent to red-shift the spectral wavelength of the dye, but the degree of red-shift is not ideal, generally red shifted around 50nm [BurghartA., Kim H., Welch M.B., Thoresen L. H., Reibenspies J. and K. Burgess, 3, 5-Diaryl-4, 4-difluoro-4-bora-3a, 4a-diaza-s- indacene (BODIPY) Dyes: Synthesis, Spectroscopic, Electrochemical, and Structural Properties.J.Org.Chem.1999, 64, 7813-7819], which shows that phenyl and naphthyl are not well conjugated with the dye parent, and There is a certain angle, and the crystal structure of the naphthyl-substituted dye also proves this
In order to enhance the rigidity of dye molecules, Kevin Burgess et al. designed the reaction of conjugated heterocyclic pyrrole and acid chloride to generate new dyes [Chen, J.; Burghart, A.; Derecskei-Kovacs, A. and Burgess, K., 4, 4-Difluoro-4-bora-3a, 4a-diaza-s-indacene (BODIPY) Dyes Modified for Extended Conjugation and Restricted Bond Rotations.J.Org.Chem.2000, 65, 2900-2906.], the result is the spectrum The red shift is nearly 120nm, and the improvement of molecular planarity promotes the occurrence of this spectral red shift, but the quantum yield is not high and remains below 0.4
Erick M. Carreira et al. still used conjugated heterocyclic pyrrole as the reaction substrate, and introduced two benzene rings at the 1 and 7 positions of the parent dye, and synthesized an aza-boron fluoride complexed dipyrromethene fluorescent dye [Zhao, W. and Carreira, E.M. Conformationally Restricted Aza-Bodipy: A Highly Fluorescent, Stable, Near-Infrared-Absorbing Dye. Angew. Chem. Int. Ed. 2005, 44, 1677-1679.], the absorption spectrum reached 740nm , unfortunately the quantum yield is lower than 0.3, and the synthesis steps are very cumbersome

Method used

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  • Near infrared boron fluoride complexed dipyrrolyl methine fluorescent dye for biological analysis
  • Near infrared boron fluoride complexed dipyrrolyl methine fluorescent dye for biological analysis
  • Near infrared boron fluoride complexed dipyrrolyl methine fluorescent dye for biological analysis

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Experimental program
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Effect test

Embodiment 1

[0072] The synthetic route of intermediate 2,4-dimethylpyrrole:

[0073]

[0074] Take 120ml of ethyl acetoacetate and 400ml of glacial acetic acid, add them to a 1000ml three-necked flask, control the temperature below 25°C, and stir mechanically. Weigh 100g of sodium nitrite and dissolve it in 120ml of water to make an aqueous solution. Use a dropping funnel to slowly add it dropwise to the above-mentioned mixed solution. After 4 hours of dripping, the temperature is controlled at room temperature and stirred for 5 hours. Weigh 136g zinc powder, heat the temperature of the above reaction solution to 60℃, gradually add zinc powder, and at the same time measure 136ml ethyl acetoacetate slowly dropwise into a three-necked flask with a dropping funnel, the dropwise addition is completed within two hours, the reaction time Heat, produce red nitrogen dioxide gas, while flocculent solids appear in the reaction liquid, the solids gradually increase, and finally can not stir completely...

Embodiment 2

[0077] R 1 Synthesis and characterization of the parent dye that is methyl:

[0078]

[0079] The synthesis of the parent dye can be carried out continuously in a one-pot reaction, and the intermediate product does not need to be separated and purified. The operation steps are as follows: Take a 500mL single-mouth flask, dissolve 2mmol 2,4-dimethylpyrrole and 1mmol p-methylbenzaldehyde in 200mL dichloromethane, replace the air in the flask with argon, and bubbling with argon The air in the solution was driven out, and then a drop of trifluoroacetic acid left catalyst was added dropwise. The reaction system was continuously stirred under the protection of argon, and the reaction temperature was room temperature (25°C). The reaction was terminated after 2 hours. The reaction solution was washed twice with 100 mL of 0.1 mol / L NaOH solution, then the organic layer was dried with anhydrous sodium sulfate, and the solvent methylene chloride was distilled off under argon protection, an...

Embodiment 3

[0081] Synthesis of compound IIa:

[0082]

[0083] 0.1mmol (approximately 33.8mg) of the dried parent compound (product of Example 2) was added to a 25ml round-bottomed flask, all dissolved with 10ml of anhydrous o-dichlorobenzene, and 5 dried molecular sieves were added, using a micro-injector 0.12 mmol (about 14.4 mg) of p-tolualdehyde purified by distillation was added dropwise, and finally 0.1 ml of piperidine was added as a catalyst. The entire reaction system was stirred uniformly under the protection of argon, heated to 120°C and continued to react for 10 hours, and the progress of the reaction was tracked by TLC every 3 hours, and the fluorescence intensity was observed under a 365nm ultraviolet lamp until there was no more The product appeared. The reaction system was gradually cooled to room temperature, the reaction mixture was diluted with 50 ml of dichloromethane, washed twice with 40 ml of water, the organic layer was dried with anhydrous sodium sulfate, concentra...

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Abstract

The new type of styryl radical substituted boron fluoride complexed dipyrrolyl methane fluorescent dyes are prepared through complexing boron fluoride and dipyrrolyl methane fluorescent dye and further reaction with benzaldehyde compound. Partial single styryl radical substituted dyes have absorption spectrum and emission spectrum in near infrared region, while all double styryl radical substituted dyes have absorption spectrum and emission spectrum in near infrared region. When the dye structure has amino radical, it will produce ICT under the excitation of light to raise fluorescent quantum efficiency rapidly. Therefore, the present invention may be used as pH probe in testing pH value and in designing high sensitivity ion probe and sugar probe.

Description

Technical field [0001] The invention belongs to a fluorescent dye used in the technical field of biological fluorescence analysis. Background technique [0002] Fluorescence analysis technology is currently one of the most important biological analysis and detection methods. It has been widely and in-depth applications in DNA sequencing, drug metabolism analysis, and determination of intracellular tissue components. Fluorescent dyes are an important part of the fluorescence analysis system. Its properties will affect or even determine the sensitivity and practical value of the entire fluorescence detection. Even if different fluorescent dyes are used in the analysis of the same substance, their detection results may have greater results. The difference, which mainly depends on the physicochemical properties of the fluorescent dye itself. A fluorescent dye with excellent performance and suitable for fluorescence analysis applications usually has the following main characteristics:...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09B23/00G01N33/52G01N21/64
Inventor 彭孝军崔爱军王东川樊江莉孙世国
Owner DALIAN UNIV OF TECH
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