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Quantum dot labeled antibody multicomponent non-competitive homogeneous immunoassay method for small-molecule organic matter

A technology for labeling antibodies and immunoassays, applied in analytical materials, material excitation analysis, measurement devices, etc., can solve the problems of difficulty in adapting to a large number of samples and rapid on-site detection, incompatible reaction conditions and detection methods, and high processing requirements. The effect of fast phase immune reaction, high development and application value, and excellent fluorescence performance

Inactive Publication Date: 2014-01-29
YANGZHOU UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The use of these methods requires expensive instruments and equipment, specialized laboratories, and well-trained professionals. The sample pretreatment requires high requirements, the process is complicated, the speed is slow, the detection cost is high, and the specificity is not strong. It is difficult to adapt to a large number of samples and on-site rapid Testing requirements
Existing multi-component immunoassays for small molecule organics usually use different antibodies or antigens to be immobilized on different parts of polystyrene microwell plates, and different immune reactions are carried out through spatial resolution. Realize solid-liquid separation, complex operation; or use different markers, such as enzymes, fluoresceins, etc. to label different antibodies or antigens, the reaction conditions and detection methods are difficult to be compatible
Therefore, the true multi-component immunoassay technology for small molecule organics has yet to be established.

Method used

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  • Quantum dot labeled antibody multicomponent non-competitive homogeneous immunoassay method for small-molecule organic matter
  • Quantum dot labeled antibody multicomponent non-competitive homogeneous immunoassay method for small-molecule organic matter
  • Quantum dot labeled antibody multicomponent non-competitive homogeneous immunoassay method for small-molecule organic matter

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Embodiment 1

[0012] The high-efficiency water-soluble quantum dots with fluorescence emission wavelengths of 545nm, 625nm, and 705nm were combined with the carbodiimide method (Greg T. Hermanson, Bioconjugate Techniques, 2ed 2008, p495-496) with anti-uniconazole antibodies, anti-cypermethrin antibodies, and Carbofuran antibodies were covalently coupled to prepare quantum dot-labeled anti-uniconazole antibodies with a fluorescence emission wavelength of about 545nm, quantum dot-labeled anti-cypermethrin antibodies with a fluorescence emission wavelength of about 625nm, and quantum dots with a fluorescence emission wavelength of about 705nm The labeled anti-Carbofuran antibody was purified by ultrafiltration and dissolved in 0.05mol / L borate buffer pH8.3, containing 0.5g / L sodium azide and 1mol / L betaine, and the volume was adjusted to 1μmoL / L. Store at 4℃ for later use. Dilute the quantum dot-labeled anti-uniconazole antibody, quantum dot-labeled anti-cypermethrin antibody, and quantum dot-la...

Embodiment 2

[0018] The high-efficiency water-soluble quantum dots with fluorescence emission wavelengths of 545nm, 625nm, and 705nm were combined with the carbodiimide method (Greg T. Hermanson, Bioconjugate Techniques, 2ed 2008, p495-496) with anti-chloramphenicol antibodies, anti-diethylstilbestrol antibodies, and Clenbuterol antibodies were covalently coupled to prepare quantum dot-labeled anti-chloramphenicol antibodies with a fluorescence emission wavelength of about 545nm, quantum dot-labeled anti-diethylstilbestrol antibodies with a fluorescence emission wavelength of about 625nm, and quantum dots with a fluorescence emission wavelength of about 705nm. Dot-labeled anti-clenbuterol antibody. The quantum dot-labeled antibody purified by ultrafiltration is dissolved in a 0.05mol / L borate buffer containing 0.5g / L sodium azide and 1mol / L betaine, pH 8.3 Dilute to 1μmoL / L and store at 4℃ for later use. Immediately before use, the quantum dot-labeled anti-chloramphenicol antibody, quantum ...

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Abstract

The invention discloses a quantum dot labeled antibody multicomponent non-competitive homogeneous immunoassay method for a small-molecule organic matter, and relates to a quantum dot labeled antibody multicomponent non-competitive homogeneous immunoassay technology for the small-molecule organic matter. Fluorescent light emits high-efficiency water-soluble quantum dots with different wavelengths to label antibodies resisting different target analytes. Different quantum dot labeled antibodies are dispersed into a phosphate buffering solution, and a sample solution containing the corresponding target analytes is added into the phosphate buffering solution and uniformly mixed with the phosphate buffering solution, so that non-competitive homogeneous immunoassay reaction is performed; respective labeled samples, samples and a blank contrast system which are subjected to reaction and balanced are directly subjected to fluorescent scanning or multi-wavelength detection under the excitation of ultraviolet light with the same wavelength; and the high-sensitivity quantum dot labeled antibody multicomponent non-competitive homogeneous immunoassay technology for quickly detecting various target small-molecule organic matters is constructed according to a rule that a ratio of the characteristic fluorescent light intensity of the blank contrast system to the characteristic fluorescent light intensity of a sample system is in direct proportion to the concentration of the corresponding target analytes in a certain range.

Description

Technical field [0001] The invention relates to a quantum dot-labeled antibody multi-component non-competitive homogeneous immunoassay technique for small molecular organics (pesticides, drugs, environmental endocrine disruptors). Background technique [0002] The residues of pesticides, drugs, and environmental endocrine disruptors in the environment and agricultural and livestock products exceed the standard, posing a certain threat to the environment and environmental organisms, and affecting food safety and human health. Enhancing environmental and food safety monitoring requires efficient and rapid analysis techniques. [0003] At present, the methods for detecting multiple residues of pesticides, drugs, and environmental endocrine disruptors that have been reported mainly include chromatography and color-mass spectrometry. The use of these methods requires expensive equipment, specialized laboratories, and well-trained professionals. The sample preparation requirements are h...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N33/542G01N21/64
Inventor 刘曙照冯大和徐科
Owner YANGZHOU UNIV
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