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Immunological group library method for discriminating cross reaction between samples and self-cross-reaction of independent sample

A technology of cross-reaction and immune group library, which is applied in the field of immune group library for screening cross-reaction between samples and independent samples, which can solve the problems of incomplete capture of alleles, sample sequence interference, and inability to achieve equivalent amplification by multi-primer reactions. Addition problem

Pending Publication Date: 2019-09-17
NANFANG HOSPITAL OF SOUTHERN MEDICAL UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Although next-generation sequencing technology can quickly and high-throughput scan the immune repertoire in a panoramic manner, there are still obvious shortcomings in the two current methods.
1. The multiplex PCR method uses a variety of primers, and the reaction system is extremely complicated; the design of multiplex primers can only be designed based on known reference sequences, and cannot completely capture all alleles in the human immune repertoire; multiple primer reactions cannot To achieve equivalent amplification, the different amplification efficiencies between different primers lead to the existence of PCR bias, which makes the results quite different from the real situation
2. Although the simple 5`RACE method can achieve equivalent amplification, it cannot distinguish cross-reactions from sequences in independent samples when building a library
3. Existing sequencing analysis methods and experimental techniques have not mitigated the impact of chimera sequence products produced in the late stage of PCR, and these products will exist in both amplification methods and affect the diversity of samples. The quantitative analysis of sex has caused great interference, and the existing technology and analysis methods cannot identify most of the cross-product sequences, which will interfere with our sample sequences and generate sequence errors between samples

Method used

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  • Immunological group library method for discriminating cross reaction between samples and self-cross-reaction of independent sample
  • Immunological group library method for discriminating cross reaction between samples and self-cross-reaction of independent sample
  • Immunological group library method for discriminating cross reaction between samples and self-cross-reaction of independent sample

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0163] Example 1 1ml Human Peripheral Blood Sample Immune Repertoire High-throughput Sequencing Library Construction Method

[0164] 1. Preparation of cDNA template

[0165] (1) Collect 1ml of human peripheral blood with EDTA anticoagulant tube, separate mononuclear cells in the blood by density gradient centrifugation, add 600ul cell lysate for cell lysis, and use RNA extraction kit for RNA extraction.

[0166] (2) Detect the integrity of RNA and measure the concentration of RNA.

[0167] (3) Configure the mixed system according to the following Table 9, and carry out the reaction on the PCR instrument. The reaction program is: 70°C, 1 min. After the reaction program is completed, immediately put the product on ice for 3 min. Table 9

[0168]

[0169] (4) Configure the mixing system in Table 10 below, mix it with the product of step (3) and put it on the PCR instrument for reaction. The reaction program is: 42°C, 90min, 75°C, 15min, 4°C, ∞. The product after the reactio...

Embodiment 2

[0200] Example 2: Construction of high-throughput sequencing library of immune repertoire of 1mg human breast cancer tissue sample

[0201] 1. Preparation of cDNA template

[0202] (1) Take out human breast cancer tissue samples from liquid nitrogen or -80°C refrigerator, weigh 1 mg, grind the tissue into powder by liquid nitrogen grinding method, add 600ul cell lysate for cell lysis, use RNA extraction kit for RNA extraction.

[0203] (2) Detect the integrity of RNA and measure the concentration of RNA.

[0204] (3) Configure the mixed system according to the following Table 18, and carry out the reaction on the PCR instrument. The reaction program is: 70°C, 1 min. After the reaction program is completed, immediately put the product on ice for 3 min. Table 18

[0205]

[0206] (4) Configure the mixing system in Table 19 below, mix it with the product of step (3) and put it on the PCR instrument for reaction. The reaction program is: 42°C, 90min, 75°C, 15min, 4°C, ∞. Th...

Embodiment 3

[0242] Through the combined application of double-ended barcode and double-ended UMI, we can perform more accurate calibration and screening of sequencing samples, remove PCR and sequencing errors, and improve the accuracy of sample sequences. The data of the 14 libraries used for testing are as follows Table 29 and attached image 3 and Figure 4 shown. Table 29:

[0243]

[0244] As shown in Table 29, image 3 , 4 As shown, we have greatly reduced the impact of PCR errors and sequencing errors through the combined application of double-ended barcode and double-ended UMI technology, and alleviated the error results caused by data analysis. Analysis has laid a solid foundation.

[0245] 7. Schematic diagram of cDNA preparation and PCR, such as figure 2 shown.

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Abstract

The invention relates to an immunological group library method for discriminating cross reaction between samples and self-cross-reaction of an independent sample. The method is characterized in that with a principle of RACE is utilized to perform template conversion when RNA is reversely transcribed into cDNA. two pre-amplification experiments are performed before PCR amplification, the first pre-amplification makes the 5' end of an original template take UMI, the second pre-amplification makes the 3' end of the template take UMI, the product with UMI at double ends is used as a template for PCR amplification, and a finally obtained product is purified and ligated to a sequencing linker sequence to obtain a final sequencing library. Two ends of each cDNA are labeled with different and unique UMI sequences, after the PCR amplification is completed, multiple samples can be combined to construct a library, which can solve the cross-reaction problem generated by similar sequences in the PCR amplification reaction in a sample; for samples with different cell receptor sources, PCR amplification can be performed by using only one pair of primers, thus achieving equivalent amplification and solving the primer preference problem caused by multiple primer amplification.

Description

technical field [0001] The invention belongs to the field of biomedical services, and in particular relates to the PCR amplification of human immune repertoire, library construction and application in next-generation sequencing, especially an immune repertoire for screening cross-reaction between samples and independent samples themselves method. Background technique [0002] The immune system is mediated by the surface receptors of immune B cells and T cells, and binds to pathogens or antigens derived from pathogens, and then exerts immune functions to protect the body from infringement. BCR immunoglobulin heavy chain (IGH) and TCR beta chain (TCRB) generate combinatorial diversity through rearrangement of V gene, D gene and J gene segments. At the junction between V-D and D-J, deletion of nucleotides and random addition of nucleotide sequences generated diversity in receptor junctions. The light chains produced by antibody immunization, immunoglobulin lambda or kappa (IG...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C40B50/06
CPCC40B50/06
Inventor 张镇海何奖图蓝春红王敏惠朱燕李丽敏
Owner NANFANG HOSPITAL OF SOUTHERN MEDICAL UNIV
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