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Biomarker for detection or auxiliary detection of proton ray radiation, kit and detection method and application of biomarker

A technology for biomarkers and auxiliary detection, applied in biochemical equipment and methods, microbial determination/inspection, DNA/RNA fragments, etc., can solve problems such as lack of proton radiation detection methods

Active Publication Date: 2022-01-21
ACADEMY OF MILITARY MEDICAL SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there is a lack of simple and fast detection methods for proton radiation in the prior art

Method used

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  • Biomarker for detection or auxiliary detection of proton ray radiation, kit and detection method and application of biomarker
  • Biomarker for detection or auxiliary detection of proton ray radiation, kit and detection method and application of biomarker
  • Biomarker for detection or auxiliary detection of proton ray radiation, kit and detection method and application of biomarker

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0041] Utilizing Microbiome Biomarkers Cyanophyta Cyanobacteria , ε Proteus Epsilonbacteraeota , Anaerovorax , Helicobacter Helicobacter At least one method of detecting whether a sample has been irradiated with proton rays:

[0042] 1. Experimental procedure

[0043] 1.1 Microbiome total DNA extraction

[0044] The CTAB method was used to extract the total DNA of the microbiome from the mouse feces samples, and the quality of the DNA extraction was detected by agarose gel electrophoresis, and the DNA was quantified by an ultraviolet spectrophotometer.

[0045] 1.2 PCR amplification

[0046] The DNA obtained in step 1.1 was amplified using the primer set in Table 1, wherein the PCR reaction system and conditions are shown in Table 3 and Table 4, respectively.

[0047] Table 3 PCR reaction system

[0048] PCR Reaction Components PCR reaction volume Phusion Hot start flex 2X Master Mix 12.5 µl Forward Primer 2.5 µl Reverse Primer 2.5 µl...

Embodiment 2

[0058] Bioinformatics analysis process

[0059] 1. Data splitting

[0060] For the paired-end data obtained by sequencing, it is first necessary to split the data of the sample according to the barcode information, and remove the adapter and barcode sequence.

[0061] 2. Data stitching and filtering

[0062] The specific steps are:

[0063] 1) Remove the primer sequence and balanced base sequence of RawData; where the software used is cutadapt (v1.9), parameters: '-g R1 -G R2 -n 1 -O 17 -m 100';

[0064] 2) Merge each pair of paired-end reads into a longer tag according to the overlap region; the software used is FLASH (v1.2.8), parameters: '-m 10 -M 100 -x 0.25 -t 1 -z';

[0065] 3) Perform window quality scanning on the sequencing reads. The scanning window defaults to 100bp. When the average quality value in the window is lower than 20, the part of the read from the beginning of the window to the end of 3' is cut off; the software used is fqtrim , parameters: '-P 33 -w...

Embodiment 3

[0078] 1. Select male mice aged 6-8 weeks, and raise them in an SPF animal room for 1 week before irradiating proton rays to adapt to the environment. They are given sufficient water and feed, and the light time is 12:12 hours. The animal ethics conforms to military medical research. The relevant regulations of the Institute of Radiation Medicine of the Chinese Academy of Sciences. Among them, the mice are Balb / c mice and C57BL / 6 mice, which were purchased from SPEF.

[0079] Put the mouse into the device and perform 5Gy whole body irradiation sequentially. After 3 days, take about 5 pieces of mouse feces under aseptic conditions and put them into cryopreservation tubes. Immediately freeze them with liquid nitrogen for 1 hour and store them at -80°C. ,stand-by. Among them, the proton radiation source comes from 90 MeV monoenergetic protons produced by the 100 MeV proton cyclotron of China Institute of Atomic Energy.

[0080] 2. Using the method described in Example 1 to dete...

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Abstract

The invention relates to a biomarker for detection or auxiliary detection of proton ray radiation, a kit and a detection method and application of the biomarker, and belongs to the technical field of biology. The invention provides a microbial flora biomarker for detection or auxiliary detection of proton ray radiation. The microbial flora comprises at least one of cyanobacteria, Epsilonbacteroides, Anerovorax and Helicobacter. According to the invention, by detecting the expression quantity or the relative expression quantity of DNA of the microbial flora, whether a to-be-detected object is subjected to proton ray radiation or not is determined, accident rescue, wounded personnel treatment and clinical treatment application are carried out in time, and the biomarker has important significance on radiation treatment.

Description

technical field [0001] The invention relates to the field of biotechnology, in particular to a biomarker for detecting or assisting in the detection of proton ray radiation, a kit, a detection method and application thereof. Background technique [0002] With the rapid development of my country's manned spaceflight and space laboratory construction, the implementation of the moon landing and deep space exploration plans will promote the development of my country's cutting-edge science and technology and the improvement of national defense strength, and will also lay the foundation for China's development and utilization of new resources in the future world. , lunar resource control, and the status and role of space exploration and research. During the implementation of projects such as spacecraft interactive docking, out-of-cabin activities, establishment of space stations, long-term manned space missions, and manned moon landings, astronauts will face health hazards from exp...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12Q1/6883C12Q1/689C12Q1/6851C12Q1/04C12N15/11
CPCC12Q1/6883C12Q1/689C12Q1/6851C12Q2600/158C12Q2531/113C12Q2535/122C12Q2537/165
Inventor 关华高山山周平坤白琛俊黎雨尘赵红玲章雯刘晓畅
Owner ACADEMY OF MILITARY MEDICAL SCI
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