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Capillary array electrophoresis detection method based on spatial correction and spectral correction

A technology of capillary array and detection method, applied in the field of capillary array electrophoresis detection, can solve the problems of capillary electrophoresis analysis error, qualitative and quantitative analysis error, failure to eliminate mature technology, etc. Effect

Active Publication Date: 2014-07-09
THE FIRST RES INST OF MIN OF PUBLIC SECURITY +1
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  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, due to the uncertainty of the positional relationship between the capillaries, there are errors in the qualitative and quantitative analysis of micro reagents by the capillary array.
In addition, for the simultaneous detection of multicolor fluorescent dyes in a single capillary, since the fluorescent bands of the fluorescent markers are relatively wide, resulting in a large overlap between different fluorescent spectra, it is difficult to distinguish them well through ordinary spectroscopy. Also caused a large error in capillary electrophoresis analysis
At present, there is no mature technology to eliminate these errors

Method used

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  • Capillary array electrophoresis detection method based on spatial correction and spectral correction
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Embodiment Construction

[0043] The method of the present invention will now be described in further detail in conjunction with the accompanying drawings and embodiments.

[0044] The realization of the method of the present invention is divided into three steps: the first step is to realize the position recognition of the capillary array through spatial correction; the second step is to realize the despectralization of multicolor fluorescent dyes in a capillary through spectral correction; the third step is to analyze DNA fragments .

[0045] refer to figure 1 , use the laser beam 1 to shine on the detection window of the capillary bundle 2, the laser light is scattered by the quartz of the single capillary 3 or the water in the solution in the tube, and emits Raman light 4, which passes through the light-taking slit, the grating splits the light, and the lens is focused and imaged on the On the CCD 5, analyze the spectrogram on the CCD 5 to locate the position of the capillary bundle.

[0046] re...

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Abstract

The invention provides a capillary array electrophoresis detection method based on spatial correction and spectral correction, and the method comprises the following steps: (1) utilizing a Raman spectrum to position imaging positions of all capillaries in a capillary array on a charge coupled element; (2) performing spectrum unscrambling on multi-color fluorescent dyes in each capillary through the spatial correction; and (3) performing analysis on DNA (deoxyribonucleic acid) fragments of electrophoresis of the capillary array. In the method, the Raman spectrum of laser excitation capillary quartz or solvent water in the capillaries is adopted for realizing spectral imaging, thereby realizing the position positioning and parallelism adjustment of the capillaries on a CCD (charge coupled device); a fluorescent dye combined matrix is adopted for realizing simultaneous detection of the multi-color fluorescent dyes in the single capillary and the pixel combination way is adopted for improving the stability of a distribution matrix, reducing the amount of calculation and improving the detection stability; and a device for implementing the method is simple in structure and easy to operate.

Description

technical field [0001] The invention relates to a capillary array electrophoresis detection method, which belongs to the technical field of high-throughput microanalysis. Background technique [0002] DNA sequencing is an important technology in modern molecular biology research, and electrophoresis technology is an indispensable technical means in DNA sequencing. Because the capillary has good heat dissipation performance, it is allowed to apply a voltage as high as 30kV at both ends of the capillary, and the longitudinal electric field strength of the separation capillary can reach more than 400V / cm, so the separation operation can be completed in a short time, reaching a very high Separation efficiency (the number of theoretical plates reaches more than 400000 / m, up to 107 / m order of magnitude). Because the inner diameter of the capillary is very small (generally <100 μm), for a capillary with an inner diameter of 50 μm and a length of 50 cm, the volume is less than 1...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N27/447G01N27/453G01N21/64G01N21/65
Inventor 李彬张涛贾二惠陈学亮赵怡鹤
Owner THE FIRST RES INST OF MIN OF PUBLIC SECURITY
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