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Preparation and analytical application of Rosamine fluorescence probe for detecting H2S

A fluorescent probe, separation and purification technology, applied in the field of organic small molecule fluorescent probe, to achieve the effect of simple synthesis process, simple method and strong anti-interference ability

Inactive Publication Date: 2017-04-19
ZHENGZHOU UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There are few fluorescent probes for rosamine dyes currently reported, and it is of great significance to develop rosamine fluorescent probes with high sensitivity, high selectivity and good application effect

Method used

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  • Preparation and analytical application of Rosamine fluorescence probe for detecting H2S
  • Preparation and analytical application of Rosamine fluorescence probe for detecting H2S
  • Preparation and analytical application of Rosamine fluorescence probe for detecting H2S

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] Embodiment 1: Preparation of nitrogenated rhodamine Ros-N 3

[0027] Weigh 2-3g of 3-(diethylamine)phenol and 1-2g of p-nitrobenzaldehyde and dissolve it in 30-50 propionic acid, add 0.1-0.2g of p-toluenesulfonic acid, and reflux under stirring at 65°C 16 hours. After the reaction, the mixture was cooled to room temperature, added to 3mol / L sodium acetate solution, the suspension was extracted with dichloromethane solution, the organic phases were combined, and propionic acid was removed by back extraction with water. Dry over anhydrous sodium sulfate and concentrate. The obtained solid was dissolved in a mixture of methanol and dichloromethane (1:1). Add 1-1.5 g of chloro-p-benzoquinone, stir rapidly for 2 hours, and concentrate in vacuo. Gradient column purification (dichloromethane: methanol = 50:1-9:1, v / v). The purple nitrorosamine compound was obtained in 13 % yield.

[0028] Weigh 0.4-0.6g nitrorosamine compound and dissolve it in 20-40mL methanol, add 0.6-...

Embodiment 2

[0033] Embodiment 2: solution preparation

[0034] Solution preparation: All reagents used in the experiment were of analytical grade and used directly without further treatment; the water used was secondary high-purity water, which was purified by a Milli-Q pure water machine.

[0035] Preparation of 1mM ligand standard solution: accurately weigh the compound Ros-N with an analytical balance with an accuracy of one ten-thousandth of a gram 3 Dilute the solid in a 10 mL volumetric flask with methanol to make a 1mM basic solution.

[0036] Preparation of 10mM anion standard solution: similar to the preparation of ligand standard solution, use an analytical balance to accurately weigh a certain amount of sodium salts of various anions in a 10 mL volumetric flask, dilute to volume with high-purity water, and prepare a concentration of 10 mmol / L The solution.

[0037] In the recognition system, the concentration of ligand is 10 μM, and the concentration of interfering ions and N...

Embodiment 3

[0038] Embodiment 3: spectral analysis

[0039] Separate Ligand Ros-N 3 There is a maximum absorption at 564nm, when adding 10 equivalents of HS - , there is a maximum absorption at 556nm. But when adding 10 equivalents of other ions (Br - , Cl - , F – ,ClO - , AcO - , CO 3 2- , HCO 3 - ,NO 3 - , SO 4 2- , HSO 3 - , SCN - ,S 2 o 3 2- , PO 4 3- ) and thiol derivatives (Hcy, Cys, GSH), there is no particularly obvious change in UV absorption. From the above results, it can be seen that ROSN 3 HS in DMF / PB ( 6 : 4 v / v, 10 mM, pH = 7.4 ) system - It has good UV absorption selectivity, see the results figure 1 .

[0040] Probe Ros-N 3 Significant fluorescence at 589nm, when adding 10 equiv.HS - , the fluorescence is quenched. However, when other ions and small biomolecules are added, there is no particularly obvious change in fluorescence. From the above experimental results, it can be known that ROSN 3 HS in DMF / PB (6 : 4 v / v, 10 mM, pH = 7.4 ) syst...

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Abstract

The invention discloses an azidated Rosamine (Ros-N3) fluorescence inductor. A synthetic method for the Ros-N3 fluorescence inductor is simple and comprises the following steps: with N-alkyl-m-aminophenol and p-nitrobenzaldehyde as raw materials, successively carrying out nitro reduction and amino azidation so as to obtain Ros-N3. Ros-N3 can selectively recognize H2S in a mixed aqueous solution (wherein a volume ratio of DMF to PB is 6: 4); after addition of HS<->, an ultraviolet spectrum undergoes a blue shift of 8 nm, fluorescence undergoes photoinduced electron transfer (PET), and fluorescence quenching occurs; after addition of other ions and biological mercaptan molecules (Cys, GSH and Hcy), the ultraviolet spectrum and fluorescence are free of obvious changes; and a detection limit is 3.5 ppm. High-resolution mass spectrometry proves that a reaction mechanism is reduction of azide into an amino group by H2S. Moreover, Ros-N3 is successfully applied to an experiment for identification of H2S in MGC-803 cells, so real-time detection of endogenous H2S in in-vivo cells with the probe is made possible, and Ros-N3 has potential application value.

Description

technical field [0001] The invention relates to a method for detecting H 2 S azide rosamine fluorescent probe (Ros-N 3 ), and belongs to the field of small organic molecule fluorescent probes. Background technique [0002] Hydrogen sulfide (H 2 S) is a gas with a special smell, and its toxic pollution to the environment has been deeply studied. At the same time, H 2 S is the third endogenous gas signal molecule that can play a physiological role in the living body after carbon monoxide and nitric oxide. human endogenous H 2 S is mainly produced by enzymatic hydrolysis of L-cysteine. h 2 Physiologically relevant concentrations of S range from nanomolar to millimolar levels. At physiological concentrations, H 2 S is involved in a series of physiological regulation processes, such as regulation of vascular tone, myocardial contraction, nerve conduction and insulin secretion, etc. Cells that cannot maintain their normal H 2 S concentration, it will cause arterial and ...

Claims

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Application Information

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IPC IPC(8): C09K11/06C09B11/24C07D311/82G01N21/64
CPCC09K11/06C07D311/82C09B11/24C09K2211/1088G01N21/6428G01N21/6486G01N2021/6432
Inventor 叶勇牛华伟张迪程俊叶陈可可赵玉芬
Owner ZHENGZHOU UNIV