Metagenome sequencing quality control prediction evaluation method and model

A technology of metagenomics and evaluation modules, which is applied in the field of metagenomics sequencing quality control prediction and evaluation methods and models, and can solve problems such as not being fully applicable, unable to calculate theoretical detection performance, and lacking theoretical support.

Active Publication Date: 2020-01-03
广州微远医疗器械有限公司 +3
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AI Technical Summary

Problems solved by technology

[0003] However, in conventional metagenomic testing projects, setting key quality control indicators, such as: Q20, sequencing data volume, sequencing fragment length, etc., is usually set a relatively common value based on experience, and does not combine the actual situation of the project (sequencing platform, expected detection performance, etc.) to carry out systematic theoretical modeling evaluation, resulting in the lack of corresponding theoretical support for setting the threshold, and is usually not fully applicable
[0004] Moreover, when evaluating the detection performance of a metagenomic detection project, it is usually to accumulate a certain sample size, and then review the historical samples for statistics, resulting in no theoretical expectations for the detection performance at the beginning of the project, and it is impossible to base the threshold on the set threshold. To calculate the theoretical detection performance that can be achieved, there is no way to set the relevant threshold according to the desired detection performance

Method used

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  • Metagenome sequencing quality control prediction evaluation method and model
  • Metagenome sequencing quality control prediction evaluation method and model
  • Metagenome sequencing quality control prediction evaluation method and model

Examples

Experimental program
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Embodiment 1

[0107] A metagenomic sequencing quality control prediction evaluation method, comprising the following steps:

[0108] 1. Q20 Threshold System Evaluation Process.

[0109] Construct a Q20 threshold model, obtain sequencing parameters in the scheduled sequencing process, input the sequencing parameters into the Q20 threshold model for solution, and obtain the relationship between the ratio of Q20 and the correct rate.

[0110] The specific process is as follows:

[0111] 1. Get parameters

[0112] 1) Load the model calculation function to the R environment.

[0113]source("Q20.r")

[0114] 2) According to the scheduled sequencing process, set the parameters (values ​​corresponding to the parameters are set according to actual requirements), run the loaded function, and obtain the result.

[0115] In this embodiment, parameter 1: the amount of sequencing data is set to 20M (a=20)

[0116] Parameter 2: The length of the sequencing fragment is set to 50bp (b=50)

[0117] Par...

Embodiment 2

[0187] A metagenomic sequencing quality control prediction evaluation model, including:

[0188] Data input module: used to obtain sequencing parameters, data parameters and strain mutation parameters in the scheduled sequencing process;

[0189] Model calculation module: perform evaluation and analysis according to the metagenomic sequencing quality control prediction evaluation method in Example 1;

[0190] Result output module: used to output the evaluation and analysis results of the model calculation module.

Embodiment 3

[0192] Verification test analysis and comparison.

[0193] 1. Comparison of Q20 threshold system.

[0194] Dilute Streptococcus agalactiae to 6 different concentrations with primary water: 10cfu / ml, 10 2 cfu / ml,10 3 cfu / ml, 10 4 cfu / ml,10 5 cfu / ml,10 6 cfu / ml, 6 samples were obtained.

[0195] Carry out NGS sequencing and data analysis according to the predetermined sequencing process in Example 1, and calculate the relationship between the Q20 ratio and "correct rate" of the 6 samples, and compare the theoretical data, the results are as follows Figure 10 shown.

[0196] It can be seen from the figure that, considering that there is a certain proportion of sudden changes in the actual data, the theoretical value obtained from the above analysis is basically consistent with the actual performance.

[0197] 2. Comparison of sequencing data volume threshold systems.

[0198] Continuing to use the above Streptococcus agalactiae for comparison, the main parameters of this...

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Abstract

The invention relates to a metagenome sequencing quality control prediction evaluation method and model, and belongs to the technical field of gene detection. The method comprises the following steps:a Q20 threshold system evaluation process: obtaining sequencing parameters, constructing a Q20 threshold model, and inputting the sequencing parameters into the Q20 threshold model for solving to obtain a relationship between Q20 proportion and correct rate; a sequencing data volume threshold system evaluation process: acquiring data parameters, constructing a sequencing data volume threshold model, and inputting the data parameters into the sequencing data volume threshold model for solving to obtain a relationship between the sequencing data volume and the detected strain unique region; anda sequencing fragment length threshold system evaluation process: acquiring strain mutation parameters, constructing a sequencing fragment length threshold model, and inputting the strain mutation parameters into the sequencing fragment length threshold model for solving to obtain a relationship between the sequencing fragment length and the strain reduction accuracy. The method can be applied tometagenome detection as preset quality control standard evaluation.

Description

technical field [0001] The invention relates to the technical field of gene detection, in particular to a metagenomic sequencing quality control prediction and evaluation method and model. Background technique [0002] The concept of metagenomics (Metagenomics) was first proposed in 1998. It refers to the use of genomics technology to perform indiscriminate and non-selective sequencing of nucleic acid molecules in the environment or biological samples. The sequencing results are consistent with known microbial sequences. Database comparison analysis is a technique for qualitative or quantitative analysis of microorganisms contained in samples. With the birth and development of next-generation sequencing technology (Next-Generation Sequencing, NGS), the cost of whole-genome sequencing has dropped by 10,000 times in ten years, and the coverage of pathogens by metagenomic NGS (mNGS) based on NGS It is extremely comprehensive, does not require microbial culture, does not need t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G16B20/00G16B30/00G16B50/30
CPCG16B20/00G16B30/00G16B50/30
Inventor 许腾刘足李永军王小锐苏杭
Owner 广州微远医疗器械有限公司
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