阅读说明：本技术 一种检测mecp2基因拷贝数变异的试剂盒 (Kit for detecting copy number variation of MECP2 gene ) 是由 代冰 周梅华 余艳 龚强 陈鹏 唐春燕 谭兵健 于 2020-12-11 设计创作，主要内容包括：本发明公开了一种检测MECP2基因拷贝数变异的试剂盒。所述试剂盒中含有如下引物对：Q-MECP2-LF：CATCACAGCCAATGACGCCC,Q-MECP2-LR：accccgcacggccgacgtCG,Q-MECP2-MF：CAAAATGTCCCAAATAGCCCACG,Q-MECP2-MR：CAAAgcaggaactggtgagAcAg,Q-MECP2-RF：CTGCCTCTGCTCACTTGTTGAG,Q-MECP2-RR：cctggaggtcctggtcttcAgTc。本发明简单快捷,预实验成本低,适用于小批量检测和验证。(The invention discloses a kit for detecting copy number variation of MECP2 gene. The kit comprises the following primer pairs: Q-MECP 2-LF: CATCACAGCCAATGACGCCC, Q-MECP 2-LR: accccgcacggccgacgtCG, Q-MECP 2-MF: CAAAATGTCCCAAATAGCCCACG, Q-MECP 2-MR: CAAAgcaggaactggtgagAcAg, Q-MECP 2-RF: CTGCCTCTGCTCACTTGTTGAG, Q-MECP 2-RR: cctggaggtcctggtcttcAgTc are provided. The method is simple and quick, low in pre-experiment cost and suitable for small-batch detection and verification.)

1. A kit for detecting copy number variation of MECP2 gene, which is characterized in that the kit contains the following primer pairs:

Q-MECP2-LF：CATCACAGCCAATGACGCCC

Q-MECP2-LR：ACCCCGCACGGCCGACGTCG

Q-MECP2-MF：CAAAATGTCCCAAATAGCCCACG

Q-MECP2-MR：CAAAGCAGGAACTGGTGAGACAG

Q-MECP2-RF：CTGCCTCTGCTCACTTGTTGAG

Q-MECP2-RR：CCTGGAGGTCCTGGTCTTCAGTC。

2. the kit of claim 1, further comprising an internal reference primer pair:

Q-RP-F：GCAGATTTGGACCTGCGACGGG

Q-RP-R：GTGAGCGGCTGTCTCCACAACACC。

3. the kit according to claim 1 or 2, wherein the procedure for amplification using the primer pair of the kit according to claim 1 or 2 is as follows:

①：95℃，5min；

②：95℃，10s；58℃，30s；40Cycles；

③：95℃，15s；58℃，60s；95℃，15s。

Technical Field

The invention belongs to the technical field of biomedical detection, and particularly relates to a kit for detecting variation of the copy number of an MECP2 gene.

Background

MECP2 repetitive syndrome is a serious neurodevelopmental disorder characterized mainly by early onset of dystonia, eating difficulties, gastroesophageal reflux and constipation, mental retardation leading to severe intellectual impairment, language dysplasia, progressive spasms, recurrent respiratory infections and seizures. The MECP2 repeat syndrome pathogenesis is heterozygous full-gene repeat of MECP2 gene. The disease is inherited mainly in an X-linked manner, most male patients are inherited from mothers (carriers of heterozygous variations), and few are newly mutated. Female carriers are usually asymptomatic, but there are also reports in the literature that female carriers exhibit mild mental disability and symptoms similar to those of male patients.

Copy Number Variation (CNV) generally refers to an increase or decrease in Copy number of large genomic fragments of 1kb or more in length, mainly expressed as deletions, duplications, and inversions at the sub-microscopic level. Compared to SNPs, CNVs are not abundant but involve more genomic sequences with higher mutation rates. CNV is an important cause of human genetic diversity and genetic variation among individuals, and can be one of genetic polymorphisms in addition to a part of diseases. In 2004, two milestone studies found that this submicron variation in DNA copy number (<500kb) was widely present in the normal human genome.

CNV is an important component of genome variation (SV), and in the past years, with the continuous mining of genome information and the progress of detection technology, the CNV plays an increasingly important role in the pathogenesis of genetic diseases, and its pathogenic mechanism may be related to gene dose effect, gene disruption, gene fusion, location effect, etc. The deep research on the CNV can be helpful for better understanding the pathogenesis of genetic diseases and is beneficial to the research and development of molecular diagnosis and therapeutic means.

The most widely used method based on PCR technology is qPCR, which utilizes a relative quantitative real-time PCR system to analyze the copy number of a target gene (with copy number polymorphism) and a reference gene (without copy number polymorphism) of a detection sample by using a 2^ -delta Ct relative quantitative analysis method (Livak and Schmittgen, 2001). The method is simple and easy to operate, high in sensitivity, good in repeatability, high in speed and less in pollution, but is not suitable for high-throughput detection of large samples.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a kit for detecting the copy number variation of the MECP2 gene.

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

the kit for detecting the copy number variation of the MECP2 gene comprises the following primer pairs:

Q-MECP2-LF：CATCACAGCCAATGACGCCC(SEQ ID NO.1)

Q-MECP2-LR：ACCCCGCACGGCCGACGTCG(SEQ ID NO.2)

Q-MECP2-MF：CAAAATGTCCCAAATAGCCCACG(SEQ ID NO.3)

Q-MECP2-MR：CAAAGCAGGAACTGGTGAGACAG(SEQ ID NO.4)

Q-MECP2-RF：CTGCCTCTGCTCACTTGTTGAG(SEQ ID NO.5)

Q-MECP2-RR：CCTGGAGGTCCTGGTCTTCAGTC(SEQ ID NO.6)。

preferably, the kit further comprises an internal reference primer pair:

Q-RP-F：GCAGATTTGGACCTGCGACGGG(SEQ ID NO.7)

Q-RP-R：GTGAGCGGCTGTCTCCACAACACC(SEQ ID NO.8)。

the procedure for amplification using the primer pairs in the above kit was as follows:

①：95℃，5min；

②：95℃，10s；58℃，30s；40Cycles；

③：95℃，15s；58℃，60s；95℃，15s。

the fluorescent chemistry used for qPCR can be divided into TaqMan fluorescent probes and SYBR Green fluorescent dyes. In the invention, the specific principle of copy number detection by using the SYBR Green fluorescent dye method is as follows: when the target sequence is a normal (copy number 2) sequence, the expression levels of the target sequence and the reference sequence are consistent, and the amplification efficiencies of the target sequence and the reference sequence are consistent by primer optimization in a preliminary experiment, C t values of the target sequence and C t values of the reference sequence are equal, and the target sequence amplification curve and the reference sequence amplification curve are matched together as shown on the amplification curve. The Normalized Ratio (NR) calculated according to the formula 2-delta Ct is about 1. When the target sequence has single copy deletion (copy number is 1), the expression level is equal to 1/2 of the internal reference gene RP, the C t value is increased by about 1, and the NR value calculated by a 2^ delta Ct formula after the amplification curve of the internal reference gene RP of the target gene amplification curve is about 0.5. When the double copy is deleted (the copy number is 0), the target gene does not exist, the amplification curve is similar to that of the negative control, and the NR value calculated according to the formula of 2-delta Ct is about 0. When the copy number of the target gene is increased (copy number >2), the expression level of the target gene relative to the reference gene RP is increased, the C t value is decreased, and the amplification curve of the target gene is further apart from the amplification curve of the reference gene RP as the amplification curve of the target gene is ahead of the amplification curve of the reference gene RP and the copy number of the target gene is increased. When the single copy is increased (the copy number is 3), the NR value calculated by the formula of 2^ -delta Ct is about 1.5; when the double copy increases (copy number is 4), the NR value calculated by the formula 2^ - Δ Δ Ct is around 2.0, the copy numbers of other cases are repeated, and so on.

The amplification length of the primer is generally about 100bp, and the primer is not suitable to be too long or too short; the designed primer should avoid hairpin structure and Single Nucleotide Polymorphism (SNP) site at the annealing position; the formation of dimer between primers is avoided, and the amplification efficiency of the primers is preferably close to 100%. In the invention, MECP2 gene sequence exons (chrX:154,030,367-154,092, 209; hg38) are obtained through a UCSC database, a homologous sequence or a pseudogene region existing in a region to be detected is confirmed by using Blat in tools in UCSC, a selected primer sequence avoids the homologous region, the annealing temperature is confirmed, whether a secondary structure exists or not is confirmed, and the position of the 5' end of the primer is changed by one to two bases to reduce the secondary structure, such as a Q-MECP2-LR primer, which comprises the following steps: ACCCCGCACGGCCGACGT (SEQ ID NO.9) was changed to ACCCCGCACGGCCGACGTCG (SEQ ID NO. 2). Finally, 3 groups of short fragment primer pairs (L/M/R) are designed, and a pair of internal reference primers RP (RPP30) is added, so that the specificity is strong, and the detection is accurate.

The invention detects the copy number variation of MECP2 gene by QPCR method and Syber Green fluorescent dye method (the absolute position of chromosome is: chrX:154,030,367-154,092, 209; hg 38). Compared with the problems of high cost, insufficient accuracy of copy number change detection results and the like of second-generation sequencing, the method is simple and quick, low in pre-experiment cost and suitable for small-batch detection and verification.

Drawings

FIG. 1: Q-MECP2-LF + Q-MECP2-LR pre-optimization amplification efficiency;

FIG. 2: Q-MECP2-MF + Q-MECP2-MR optimized pre-amplification efficiency;

FIG. 3: Q-MECP2-RF + Q-MECP2-RR pre-optimization amplification efficiency;

FIG. 4: the amplification efficiency before optimization of Q-RP-F + Q-RP-R;

FIG. 5: the amplification efficiency of the optimized Q-MECP2-LF + Q-MECP2-LR is high;

FIG. 6: Q-MECP2-MF + Q-MECP2-MR optimized amplification efficiency;

FIG. 7: Q-MECP2-RF + Q-MECP2-RR optimized amplification efficiency;

FIG. 8: the amplification efficiency of the optimized Q-RP-F + Q-RP-R is improved;

FIG. 9: Q-MECP2-LF + Q-MECP2-LR pre-optimization dissolution curve;

FIG. 10: Q-MECP2-MF + Q-MECP2-MR pre-optimization dissolution curve;

FIG. 11: Q-MECP2-RF + Q-MECP2-RR pre-optimization dissolution profile;

FIG. 12: the dissolution curve before optimization of Q-RP-F + Q-RP-R;

FIG. 13: the dissolution curve of the optimized Q-MECP2-LF + Q-MECP 2-LR;

FIG. 14: Q-MECP2-MF + Q-MECP2-MR optimized dissolution curve;

FIG. 15: the optimized dissolution curve of Q-MECP2-RF + Q-MECP 2-RR;

FIG. 16: the dissolution curve of the optimized Q-RP-F + Q-RP-R.

Detailed Description

1. Primer testing

1) Linear DNA preparation (table 1): the standard Human genetic DNA (253ng/ul) was diluted in a gradient, 13ul was added to 37ul ddH₂O, vortex, and micro-separate to a concentration of 66 ng/uL.

Then diluting with 10 times of gradient, adding 20ulTo 180ul ddH₂In O, the next gradient dilution can be carried out after full vortex mixing is needed each time.

TABLE 1

2) Experiment system (Table 2)

TABLE 2

3) Amplification procedure (Table 3)

TABLE 3

4) Analysis of results

ABI7500 settings:

the expert Prop selects quantification-Relative Standard Curve and SYBR Green Reagents.

The results are as follows:

primer MECP 2-L: the amplification efficiency of the primer is 107.2 percent, and the peak of a dissolution curve is single;

primer MECP 2-M: the amplification efficiency of the primer is 101.4 percent, and the peak of a dissolution curve is single;

primer MECP 2-R: the amplification efficiency of the primer is 105.1 percent, and the peak of a dissolution curve is single;

primer RP: the amplification efficiency of the primer is 94.5 percent, and the peak of the dissolution curve is single;

the amplification efficiency of the primers is as follows: the PCR manual stipulates that similar relative quantitative calculation can be carried out under the condition that the difference of PCR amplification efficiency of two pairs of primers of the target gene and the reference gene RP is not more than 10%. For this reason we stipulate that primers with E values between 90 and 110% pass. As shown in FIGS. 1 to 8, the amplification efficiencies before and after the optimization of the primers are out of the range of 90% to 110%, and the amplification efficiency is poor, while the amplification efficiency after the optimization is close to 100%, and the amplification efficiency is high.

Primers before optimization were as follows:

Q-MECP2-LF：CATCACAGCCAATGACGG(SEQ ID NO.9)

Q-MECP2-LR：ACCCCGCACGGCCGACGT(SEQ ID NO.10)

Q-MECP2-MF：CAAAATGTCCCAAATAGCCCTG(SEQ ID NO.11)

Q-MECP2-MR：GCAGGAACTGGTGAGTCTG(SEQ ID NO.12)

Q-MECP2-RF：CTGCCTCTGCTCACTTGTTC(SEQ ID NO.13)

Q-MECP2-RR：CCTGGAGGTCCTGGTCTTCTGAC(SEQ ID NO.14)。

the internal reference primers before optimization are as follows:

Q-RP-F：AGATTTGGACCTGCGAGCG(SEQ ID NO.15)

Q-RP-R：GAGCGGCTGTCTCCACAAGT(SEQ ID NO.16)。

the optimized primers and the internal reference primers are the primers shown in SEQ ID NO.1 to SEQ ID NO. 8.

Dissolution curve: because SYBR Green dye can not only be specifically combined with a target gene, specific amplification of a primer is required to be ensured, melting curve analysis can be carried out, and a uniform melting peak is qualified. For example, when mecp2.w2r is eliminated, non-specific amplification results in a large error in copy number calculation (non-single peak of the dissolution curve). As shown in FIGS. 9-16, the dissolution curve before and after primer optimization shows that the dissolution curve has a single peak and poor effect due to non-specific amplification of primers, while the dissolution curve has a single peak and good effect due to specific amplification of primers.

2. Clinical sample testing

Clinical test samples are samples tested by a second-generation sequencing Nextseq 550 platform, and the results indicate that the sequencing depth of the samples in the chrX region 154,030, 367-: the sequencing depth of the region chrX 154,030,367-.

Result verification

1) A reagent such as 2 × AceQ SYBR qPCR Master Mix is diluted to 5 μ M and thawed at normal temperature, and an EP tube, a tip, and a sample application gun are prepared.

2) The reagents and primers were shaken slightly and then centrifuged instantaneously. The EP tube was labeled according to the kind of primer.

3) The system was prepared according to the test items (table 4):

TABLE 4

4) Reagent and sample set-up

The prepared reagents were added to a 96-well optical PCR plate and ready for loading (FIG. 1). Adding the same sample into a group of 12 holes; wherein, one part is a target gene primer system, the other part is an internal reference gene RP primer system, and the three parts are all provided with three compound holes. A normal human sample STD and an NTC must be included in each primer test. Sample1, Sample 2, and Sample 3 in this experiment correspond to the second generation sequencing Sample and its parents, respectively.

5) The sample DNA concentration was determined and diluted to 5ng/ul and 2ul of the diluted sample was pipetted into the corresponding wells. After covering and sealing the membrane, the membrane is centrifuged for a short time and prepared for ABI7500 amplification.

6) And (4) operating the computer ABI7500 and setting software.

(1)Experiment properties：

The type of experiment: quantitation-comparative CT (Delta CT)

Reagent type: SYBR @ Green Regents

Other parameters are defaulted.

(2)Plate setup：

Define target, namely naming a target gene and an internal reference gene RP respectively;

a Define sample is named;

selecting the position of the named gene and sample;

selecting Reference sample as STD;

selecting RP by endogenesis control;

select the ROX for passive reconfiguration.

Other parameters are defaulted.

(3) Run method with an experimental system of 20ul (Table 5);

TABLE 5

7) Analysis of results

By deriving raw CT data (table 6):

TABLE 6

	SampleP	SampleF	SampleM	STD
					MECP2-L	31.08	24.17	24.8	23.35
MECP2-M	30.69	24.42	24.58	23.92
					MECP2-R	30.65	24.79	24.42	23.12
RP	23.79	23.52	23.16	23.35

Δ Ct ═ Ct (target gene) -Ct (reference gene)

Δ Δ Ct ═ Δ Ct (sample to be measured) - Δ Ct (std)

Copy number 2^ (2^ -Delta Ct)

The value of 2X (2^ -delta. Ct) of each data was calculated according to the calculation formula (Table 7)

TABLE 7

Copy number of each sample data (Table 8)

TABLE 8

	SampleP	SampleF	SampleM
				MECP2-L	Zero copy	Single copy	Single copy
MECP2-M	Zero copy	Single copy	Single copy
				MECP2-R	Zero copy	Single copy	Single copy

The results show that the calculated results of the 3 groups of primers are similar to those of the same sample, and are in line with expectation, and the obtained copy number result is consistent with the second-generation sequencing and shows that the deletion is from the mother. The primer can be used for detecting the copy number variation of the gene chrX 154,030,367-154,092,209 of the MECP2.

Sequence listing

<110> Changsha gold Domain medical laboratory Co., Ltd

<120> a kit for detecting variation of MECP2 gene copy number

<141> 2020-12-11

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