Excitation method for multiple fluorescent dyes

A fluorescent dye and excitation light technology, applied in the field of fluorescent dyes, can solve problems such as difficult and simultaneous considerations, and achieve the effect of reducing the cost of light source, reducing the cost of excitation, and reducing the degree of dependence

Inactive Publication Date: 2013-04-24
THE FIRST RES INST OF MIN OF PUBLIC SECURITY +1
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Problems solved by technology

However, a current solid-state laser can only emit light of one wavelength. It is difficult for a single wavelength of a solid-state laser to take into account the excitation of each dye at the same time when realizing multicolor fluorescence spectrum excitation, so it is difficult for a solid-state laser to excite fluorescent dyes field promotion

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  • Excitation method for multiple fluorescent dyes

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[0026] The present invention will be further described below in conjunction with the accompanying drawings and specific embodiments, but the protection scope of the present invention is not limited thereto.

[0027] Fluorescent dyes are used as markers in biometric technology. The spectral bandwidths of fluorescent dyes found and used are all above 20nm. In the selection and combination design of fluorescent dyes, in order to improve the detection throughput, multi-fluorochrome combinations are usually used. Perform material characterization. Since the wavelengths of the absorption spectra of different fluorescent dyes are different, the wavelengths of the corresponding stimulated emission emission spectra are also different. In order to improve the inhomogeneity of the emission spectrum intensity distribution of different fluorescent dyes, the present invention proposes a A method in which monochromatic laser beams combine to excite multiple fluorescent dyes. In this method,...

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Abstract

The invention discloses an excitation method for multiple fluorescent dyes, which is used for exciting multiple fluorescent dyes. The total exciting light intensity required by the multiple fluorescent dyes is W, and the wavelengths of the optimal exciting light required by all the multiple fluorescent dyes are X, Y and the like. The multiple fluorescent dyes are excited by more than two kinds of monochrome laser beams, the total intensity of the more than two kinds of monochrome laser beams is W, and the wavelengths of the more than two kinds of monochrome laser beams are X, Y and the like. According to the excitation method, the multiple fluorescent dyes are excited by the more than two kinds of monochrome laser beams, and the cost of light sources is greatly reduced, so that the excitation cost of the fluorescent dyes is reduced, and the popularization and the application of a fluorescent dye excitation technology are facilitated.

Description

technical field [0001] The present invention relates to fluorescent dyes, in particular to the excitation of multiple fluorescent dyes. Background technique [0002] DNA sequencing is an important technology in modern molecular biology research, and automatic high-speed DNA sequencing is one of the main goals pursued by this technology. In 1986, Smith proposed a four-color fluorescent marker automatic sequencing method: four fluorescent dyes with different emission wavelengths marked a series of termination fragments produced by polymerase chain reaction, separated by polyacrylamide or capillary electrophoresis, and separated by laser pair The fluorescent signals carried by the DNA fragments are excited, the fluorescent signals of different emission wavelengths are detected and recorded, processed by a computer, and finally the sequence information is obtained. Fluorescence-based detection and analysis techniques are widely used in forensic laboratories due to their advanta...

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Application Information

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IPC IPC(8): G01N21/64
Inventor 陈学亮李彬张涛贾二惠庞晓东赵怡鹤赵颖王守山
Owner THE FIRST RES INST OF MIN OF PUBLIC SECURITY
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