阅读说明：本技术 从毛发中提取dna的方法 (Method for extracting DNA from hair ) 是由 林圣� 郑开封 陈仕国 苏进娣 高建 段山 于 2019-11-27 设计创作，主要内容包括：本发明属于生物技术领域,尤其涉及一种从毛发中提取DNA的方法,包括步骤：获取毛发,对所述毛发进行预处理,得到毛发碎屑；获取裂解液,将所述毛发碎屑分散到所述裂解液中进行裂解处理,得到裂解产物；获取磁珠悬浮液,将所述磁珠悬浮液添加到所述裂解产物中混合处理后,分离处理,得到毛发中的DNA溶液；所述裂解液由Tris-HCl、NaCl、CaCl<Sub>2</Sub>、二硫苏糖醇、十二烷基磺酸钠、蛋白酶和水组成。本发明提供的从毛发中提取DNA的方法,裂解过程快速高效,操作简单,无需采用苯酚、氯仿、胍盐等有毒物质,对操作人员和环境友好,对毛发中的DNA提取效率高,毛发样本使用少,便于以后自动化提取方法的建立,适用性广。(The invention belongs to the technical field of biology, and particularly relates to a method for extracting DNA from hair, which comprises the following steps: obtaining hair, and pretreating the hair to obtain hair fragments; obtaining a lysis solution, and dispersing the hair fragments into the lysis solution for lysis treatment to obtain a lysis product; obtaining a magnetic bead suspension, adding the magnetic bead suspension into the cleavage product, mixing, and separating to obtain a DNA solution in the hair; the lysis solution is prepared from Tris-HCl, NaCl and CaCl 2 Dithiothreitol, sodium dodecyl sulfate, protease and water. The method for extracting DNA from hair provided by the invention has the advantages of rapid and efficient cracking process, simple operation, no need of toxic substances such as phenol, chloroform, guanidine salt and the like, environmental friendliness for operators, high extraction efficiency for DNA in hair, less use of hair samples, convenience for establishment of a subsequent automatic extraction method, and wide applicability.)

1. A method of extracting DNA from hair comprising the steps of:

obtaining hair, and pretreating the hair to obtain hair fragments;

obtaining a lysis solution, and dispersing the hair fragments into the lysis solution for lysis treatment to obtain a lysis product;

obtaining a magnetic bead suspension, adding the magnetic bead suspension into the cleavage product, mixing, and separating to obtain a DNA solution in the hair;

the lysis solution is prepared from Tris-HCl, NaCl and CaCl₂Dithiothreitol, sodium dodecyl sulfate, protease and water.

2. The method for extracting DNA from hair according to claim 1, wherein the pH of the lysis solution is 7.5 to 8.5, wherein the Tris-HCl concentration is 5 to 15mmol/L, the NaCl concentration is 130 to 150mmol/L, and the CaCl is₂The concentration of the sodium dodecyl sulfate is 2-4 mmol/L, the concentration of dithiothreitol is 40-60 mmol/L, the mass concentration of the sodium dodecyl sulfate is 1-2%, and the concentration of protease is 0.1-0.2 mg/mL.

3. The method for extracting DNA from hair according to claim 2, wherein the step of dispersing the hair pieces in the lysing solution to perform the lysing treatment comprises: and dispersing the hair fragments in the lysis solution, and performing lysis for 20-25 minutes at the temperature of 50-65 ℃ to obtain the lysis product.

4. The method for extracting DNA from hair according to claim 3, wherein the volume ratio of the hair pieces to the lysing solution is 1: (180-360).

5. The method for extracting DNA from hair according to any one of claims 1 to 4, wherein the step of adding the magnetic bead suspension to the cleavage product and mixing the mixture comprises: centrifugally separating the cracking product to obtain a cracking supernatant; and (3) according to the volume ratio of the lysis supernatant to the magnetic bead suspension of 1: (1.5-2) mixing the magnetic bead suspension and the cracking supernatant, and then sequentially carrying out centrifugal treatment, oscillation treatment and standing treatment to obtain a mixed treatment product.

6. The method for extracting DNA from hair according to claim 5, wherein the step of sequentially performing the centrifugation treatment, the shaking treatment and the standing treatment comprises: and mixing the magnetic bead suspension with the cracking supernatant, centrifuging for 5-10 seconds under the condition that the centrifugal force is 1000 Xg-2000 Xg, then carrying out vortex oscillation for 10-20 seconds, and standing for more than 5 minutes at room temperature.

7. The method of extracting DNA from hair according to claim 6, wherein the step of separating treatment comprises: placing the mixed product on a magnetic frame, standing at room temperature for more than 5 minutes, and separating supernatant to obtain magnetic beads adsorbed with DNA; then, cleaning the magnetic beads by using an ethanol solution, and separating and removing the ethanol solution; and dissolving the DNA on the magnetic beads into water to obtain a DNA solution in the hair.

8. The method for extracting DNA from hair according to claim 7, wherein the concentration of the ethanol solution is 60 to 75%.

9. The method for extracting DNA from hair according to any one of claims 1 to 4 and 6 to 8, wherein the step of pretreating the hair comprises: and after the hair is cleaned and dried, treating the hair within 2 centimeters from the hair follicle into fragments with the length of 2-4 millimeters to obtain the hair fragments.

10. The method of claim 9, wherein the step of washing and drying the hair comprises: and washing the hair by sequentially adopting NaOH with the mass concentration of 1.5-2.5% and HCl with the mass concentration of 1.5-2.5%, rinsing the hair for multiple times by adopting sterile distilled water, then washing the hair by adopting alcohol gradient, and airing the hair for later use under the aseptic condition.

Technical Field

The invention belongs to the technical field of biology, and particularly relates to a method for extracting DNA from hair.

Background

Since Bradfield et al successfully extracted nucleic acid from hair, hair has become one of the commonly used detection materials in forensic science and genetics, and compared with peripheral blood, it has the advantages of easily available materials, convenient transportation and storage, high repeatability, etc., but the DNA content in hair is very small and mainly exists around hair roots and sheath cells, and it is reported that the hair roots from freshly collected hair contain about 0.5. mu.g of total DNA and the content in hair stems is less. In addition, melanin in hair is a strong inhibitor in the PCR amplification process, and has great influence on further downstream research and analysis, so that it is important to find a method for effectively extracting nucleic acid from hair.

Currently, the following methods are commonly used for hair DNA extraction: organic methods, the Chelex-100 method, centrifugal column methods and magnetic bead adsorption methods, all of which have some disadvantages. Wherein, the organic method has complicated steps and consumes time, and uses chloroform, phenol and other organic solvents with high toxicity, which has certain harm to the health of operators. The Chelex-100 method adopts a liquid phase purification principle, utilizes a chelating agent to remove impurities in a biological sample after heating cell lysis so as to achieve the purpose of purification, is simple to operate, but the purity of extracted DNA is not enough, the application of downstream molecular biology is not facilitated, the obtained DNA has poor preservation effect, and obvious degradation occurs when the DNA is preserved for too long time. The centrifugal column method, although not using organic solvent, has significant disadvantages in extraction effect and extracted DNA concentration. The magnetic bead adsorption method does not need to contact with chloroform, phenol and other reagents with high toxicity, is simple and convenient to operate, can realize the rapid and high-quality extraction of hair samples in a short time, and has incomparable advantages compared with the three extraction methods, so that the magnetic bead adsorption method is widely used at present, but in the currently published patent for extracting the total DNA of the hair by using the magnetic bead adsorption method, a lysate of the method often contains guanidine salt (such as guanidine hydrochloride and guanidine isothiocyanate) harmful chemical substances, the chemical substances can cause harmful influences on personnel or the environment when the operator does not handle the hair properly, and meanwhile, the hair cracking step in the methods is often long in time consumption, so that the work efficiency of extracting the DNA of the hair is reduced. Therefore, a more efficient and environmentally friendly method for extracting DNA from hair is needed.

Disclosure of Invention

The invention aims to provide a method for extracting DNA from hair, and aims to solve the technical problems that the existing method for extracting DNA from hair needs to use harmful chemical substances containing guanidinium and the like, causes harm to operators and environment, and is low in time consumption, long in acting rate and the like.

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

a method of extracting DNA from hair comprising the steps of:

obtaining hair, and pretreating the hair to obtain hair fragments;

obtaining a lysis solution, and dispersing the hair fragments into the lysis solution for lysis treatment to obtain a lysis product;

obtaining a magnetic bead suspension, adding the magnetic bead suspension into the cleavage product, mixing, and separating to obtain a DNA solution in the hair;

the lysis solution is prepared from Tris-HCl, NaCl and CaCl₂Dithiothreitol, sodium dodecyl sulfate, protease and water.

Preferably, the pH value of the lysis solution is 7.5-8.5, wherein the concentration of Tris-HCl is 5-15 mmol/L, the concentration of NaCl is 130-150 mmol/L, and CaCl is added₂The concentration of the sodium dodecyl sulfate is 2-4 mmol/L, the concentration of dithiothreitol is 40-60 mmol/L, the mass concentration of the sodium dodecyl sulfate is 1-2%, and the concentration of protease is 0.1-0.2 mg/mL.

Preferably, the step of dispersing the hair pieces into the lysing solution to perform a lysing treatment comprises: and dispersing the hair fragments in the lysis solution, and performing lysis for 20-25 minutes at the temperature of 50-65 ℃ to obtain the lysis product.

Preferably, the volume ratio of the hair pieces and the lysing solution is 1: (180-360).

Preferably, the step of adding the magnetic bead suspension to the lysate for mixing treatment comprises: centrifugally separating the cracking product to obtain a cracking supernatant; and (3) according to the volume ratio of the lysis supernatant to the magnetic bead suspension of 1: (1.5-2) mixing the magnetic bead suspension and the cracking supernatant, and then sequentially carrying out centrifugal treatment, oscillation treatment and standing treatment to obtain a mixed treatment product.

Preferably, the step of sequentially performing the centrifugation treatment, the shaking treatment and the standing treatment comprises: and mixing the magnetic bead suspension with the cracking supernatant, centrifuging for 5-10 seconds under the condition that the centrifugal force is 1000 Xg-2000 Xg, then carrying out vortex oscillation for 10-20 seconds, and standing for more than 5 minutes at room temperature.

Preferably, the step of separating comprises: placing the mixed product on a magnetic frame, standing at room temperature for more than 5 minutes, and separating supernatant to obtain magnetic beads adsorbed with DNA; then, cleaning the magnetic beads by using an ethanol solution, and separating and removing the ethanol solution; and dissolving the DNA on the magnetic beads into water to obtain a DNA solution in the hair.

Preferably, the concentration of the ethanol solution is 60-75%.

Preferably, the step of pre-treating the hair comprises: and after the hair is cleaned and dried, treating the hair within 2 centimeters from the hair follicle into fragments with the length of 2-4 millimeters to obtain the hair fragments.

Preferably, the step of washing and drying the hair comprises: and washing the hair by sequentially adopting NaOH with the mass concentration of 1.5-2.5% and HCl with the mass concentration of 1.5-2.5%, rinsing the hair for multiple times by adopting sterile distilled water, then washing the hair by adopting alcohol gradient, and airing the hair for later use under the aseptic condition.

The method for extracting DNA from hair provided by the invention comprises the steps of firstly pretreating the hair into hair scraps, and then adopting Tris-HCl, NaCl and CaCl₂Cracking hair scraps by using a cracking solution consisting of dithiothreitol, sodium dodecyl sulfate, protease and water, adsorbing and separating the cracking product by using magnetic beads, and extracting DNA (deoxyribonucleic acid) in hair in the cracking solution, wherein Tris-HCl, NaCl and CaCl are used as raw materials₂The lysis solution consisting of dithiothreitol, sodium dodecyl sulfate, protease and water can finish the lysis of the hair in one step and release DNA in the hair, the lysis process is quick and efficient, the operation is simple, toxic substances such as phenol, chloroform, guanidine salt and the like are not required, and the method is friendly to operators and environment. In addition, the product after full cracking is adsorbed by magnetic beads to separate and purify DNA, the extraction efficiency of DNA in the hair is high, the DNA in the hair can be fully extracted by a small amount of hair samples, the subsequent identification and the like of the sample DNA are facilitated, the establishment of a subsequent automatic extraction method is facilitated, and the applicability is wide.

Drawings

FIG. 1 is an electrophoretogram of total DNA extracted in example 1 of the present invention.

FIG. 2 is a PCR amplification electrophoretogram of genomic DNA fragments extracted in example 1 of the present invention.

FIG. 3 is a PCR amplification electrophoretogram of mitochondrial DNA fragments extracted in example 1 of the present invention.

FIGS. 4 to 7 are four parts of the genotyping results of STR multiplex amplification of DNA extracted in example 1 of the present invention, which was detected using a 3130xl type genetic analyzer.

Detailed Description

In order to make the purpose, technical solution and technical effect of the embodiments of the present invention clearer, the technical solution in the embodiments of the present invention is clearly and completely described, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive step in connection with the embodiments of the present invention shall fall within the scope of protection of the present invention.

In the description of the present invention, it is to be understood that the terms "first", "second" and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The weight of the related components mentioned in the description of the embodiments of the present invention may not only refer to the specific content of each component, but also represent the proportional relationship of the weight among the components, and therefore, the content of the related components is scaled up or down within the scope disclosed in the description of the embodiments of the present invention as long as it is in accordance with the description of the embodiments of the present invention. Specifically, the weight described in the description of the embodiment of the present invention may be a unit of mass known in the chemical industry field, such as μ g, mg, g, and kg.

The embodiment of the invention provides a method for extracting DNA from hair, which comprises the following steps:

s10, obtaining hair, and preprocessing the hair to obtain hair fragments;

s20, obtaining a lysis solution, and dispersing the hair fragments into the lysis solution for lysis treatment to obtain a lysis product;

s30, obtaining a magnetic bead suspension, adding the magnetic bead suspension into the cleavage product, mixing, and separating to obtain a DNA solution in the hair;

the lysis solution is prepared from Tris-HCl, NaCl and CaCl₂DTT, SDS, protease and water.

The method for extracting DNA from hair provided by the embodiment of the invention comprises the steps of firstly preprocessing the hair into hair scraps, and then adopting Tris-HCl, NaCl and CaCl₂Cracking hair scraps by using a cracking solution consisting of dithiothreitol, sodium dodecyl sulfate, protease and water, adsorbing and separating the cracking product by using magnetic beads, and extracting DNA (deoxyribonucleic acid) in hair in the cracking solution, wherein the DNA is Tris-HCl, NaCl and CaCl₂The hair splitting method has the advantages that the splitting of the hair can be completed in one step by the splitting solution consisting of dithiothreitol, sodium dodecyl sulfate, protease and water, DNA in the hair is released, the splitting process is fast and efficient, the operation is simple, toxic substances such as phenol, chloroform, guanidine salt and the like are not needed, and the hair splitting method is friendly to operators and environment. In addition, the products after full cracking are adsorbed by magnetic beads to separate and purify DNA, so that the extraction efficiency of the DNA in the hair is high, and the DNA can be extracted by a small amount of hair samplesThe DNA in the hair is fully extracted, the subsequent identification and the like of the sample DNA are facilitated, the establishment of a subsequent automatic extraction method is facilitated, and the applicability is wide.

Specifically, in step S10, hair is obtained and is pre-treated to obtain hair fragments. The embodiment of the invention pretreats the hair to process the hair into fragments, thereby facilitating the subsequent splitting treatment of the hair.

In some embodiments, the step of pre-treating the hair comprises: and after the hair is cleaned and dried, treating the hair within 2 centimeters from the hair follicle into fragments with the length of 2-4 millimeters to obtain the hair fragments. According to the embodiment of the invention, after the hair is cleaned and dried, the hair within 2 cm from the hair follicle is cut into 2-4mm fragments, and the fragmented hair is more favorable for the cracking of the hair by the cracking liquid and the DNA in the hair is released. The DNA in the hair is mainly concentrated at one end close to the hair follicle, the hair within 2 cm from the hair follicle is taken as a DNA extraction object, so that the main DNA in the hair is collected, and the parts such as hair stems or hair tips containing a small amount of DNA are prevented from being cracked in the subsequent treatment process, so that the cracked mixed solution contains a large amount of impurity substances, and the separation and purification of the DNA in the cracked product are interfered.

In some embodiments, the step of rinsing and drying the hair comprises: and washing the hair by sequentially adopting NaOH with the mass concentration of 1.5-2.5% and HCl with the mass concentration of 1.5-2.5%, rinsing the hair for multiple times by adopting sterile distilled water, then washing the hair by adopting alcohol gradient, and airing the hair for later use under the aseptic condition. The method has the advantages that oil stains, chemical substances and the like adhered to the hair are removed through multiple times of cleaning, the subsequent hair cracking and DNA extraction interference caused by the adhered substances on the hair is avoided, and particularly for the hair fixed by formalin, the hair needs to be cleaned and dried through the cleaning steps.

In some embodiments, the hair roots within 1cm from the hair follicle are cut into 2-4mm debris using scissors and collected into a 0.2mL PCR tube, and then the debris is concentrated at the bottom of the tube by centrifugation at 2000 Xg for 15s, facilitating subsequent lysis and DNA extraction. According to the embodiment of the invention, the PCR tube is adopted to collect the hair scraps, on one hand, the direct heating of the PCR instrument is convenient for cracking during subsequent cracking treatment, the wall of the PCR tube is thin, and the temperature rise speed is high, so that the cracking time can be shortened; on the other hand, the PCR tube has small volume and small tube diameter, so that the hair can be completely soaked in the lysis solution when a small-volume lysis system is used, the concentration of DNA in the lysis system is higher, and the lysis of the hair by the lysis solution and the separation and extraction of the DNA in a lysis product are facilitated; on the other hand, the PCR tube can reduce the loss of the cleavage products caused by the residual tube wall, thereby improving the extraction rate of DNA.

In the step S20, obtaining a lysis solution, dispersing the hair fragments in the lysis solution for a lysis treatment to obtain a lysis product; the lysis solution is prepared from Tris-HCl, NaCl and CaCl₂Dithiothreitol, sodium dodecyl sulfate, protease and water. The embodiment of the invention disperses the hair fragments into Tris-HCl, NaCl and CaCl₂The hair splitting agent comprises dithiothreitol, sodium dodecyl sulfate, protease and water, wherein the cracking liquid is used for cracking to release DNA in hair, the adopted cracking liquid does not contain poisonous substances such as guanidine isothiocyanate and the like which can release toxic gas when being contacted with acid, the hair splitting agent is friendly to operators and environment, the application range is wider, the splitting efficiency is high, the splitting of hair fragments can be completed in one step, and the process flow is saved.

In some embodiments, the pH of the lysis solution is 7.5-8.5, wherein the concentration of Tris-HCl is 5-15 mmol/L, the concentration of NaCl is 130-150 mmol/L, and CaCl is added₂The concentration of the sodium dodecyl sulfate is 2-4 mmol/L, the concentration of dithiothreitol is 40-60 mmol/L, the mass concentration of the sodium dodecyl sulfate is 1-2%, and the concentration of protease is 0.1-0.2 mg/mL. According to the embodiment of the invention, the lysate with the pH value of 7.5-8.5 is adopted, and the weakly alkaline lysate can keep the activity of components such as protease in the lysate, so that the hair cracking effect of the lysate is ensured, the cracked nucleic acid can be prevented from being degraded, and the nucleic acid activity is kept. Tris-HCl with the concentration of 5-15 mmol/L in the lysate can provide a good buffer system for a hair cracking system, if the concentration is too low, the buffer capacity of the lysate buffer system is not enough to enable the cracking system to be in a cracking environment with proper pH value and the like,and thus should have a cracking effect. NaCl with the concentration of 130-150 mmol/L in the lysis solution can provide proper ionic strength for a lysis system, and the water solubility of DNA and protein is increased, so that the separation of DNA and histone is promoted, and the lysis efficiency is increased. If the NaCl concentration is too high, the ionic strength is too high, DNA and protein are easily separated out, and the final DNA yield is influenced; if the concentration of NaCl is too low, the ionic strength is too low, which may affect the separation effect of DNA and histone, thereby reducing the cracking efficiency. Dithiothreitol (DTT) with the concentration of 40-60 mmol/L in the lysate can open disulfide bonds in hair keratin structures, so that DNA is fully dissociated, and the extraction efficiency of hair follicle DNA can be effectively improved; if the concentration of DTT is too high or too low, the cracking efficiency is reduced. The effect of Sodium Dodecyl Sulfate (SDS) with the mass concentration of 1-2% in the lysis solution is to promote the rupture of cell membranes and stimulate the activity of proteinase K, and if the concentration of SDS is too high or too low, the lysis efficiency is reduced. CaCl with the concentration of 2-4 mmol/L in lysate₂Has the function of providing calcium ions (Ca)²⁺) Calcium ion (Ca)²⁺) Proteinase K can be protected from autolysis and its thermostability can be increased. Calcium ion (Ca)²⁺) Too high a concentration can enhance the activity of DNase, thereby easily causing DNA degradation; calcium ion (Ca)²⁺) Too low a concentration may decrease the stability of proteinase K and thus its catalytic efficiency.

In some embodiments, the lysate has a pH of 8, wherein the Tris-HCl concentration is 10mmol/L, the NaCl concentration is 140mmol/L, and the CaCl is₂The concentration of the sodium dodecyl sulfate is 3mmol/L, the concentration of the dithiothreitol is 50mmol/L, the mass concentration of the sodium dodecyl sulfate is 1%, and the concentration of the protease is 0.1 mg/mL.

In some embodiments, the step of dispersing the hair pieces into the lysing solution for a lysing treatment comprises: dispersing the hair pieces in Tris-HCl, NaCl, CaCl₂The cracking solution consisting of dithiothreitol, sodium dodecyl sulfate, protease and water is cracked for 20-25 minutes at the temperature of 50-65 ℃ to obtain the cracking product. The temperature of the embodiment of the invention is 50-65 DEG CThe hair can be fully cracked after being cracked for 20-25 minutes under the condition, wherein the cracking temperature and the cracking time effectively ensure the full cracking of the hair, the subsequent full extraction of DNA in a cracked product is facilitated, the cracking time is short, the time of the whole process of extracting the hair is greatly shortened, and the consumed time is not more than 1 hour; and the cracking efficiency is high, which is beneficial to the subsequent extraction efficiency of DNA, so that the DNA amount suitable for detection can be extracted by a small amount of samples. If the cracking temperature is too high, the activity of protease in the lysate can be reduced, the cracking effect of the lysate on hair is influenced, and meanwhile, the degradation of DNA can be caused; if the cracking temperature is too low, the activity of components such as protease in the lysate can be affected, so that the digestion and cracking effect of the lysate on the hair is poor; if the cracking time is too long, not only the working efficiency is reduced, but also the DNA can be degraded; if the lysis time is too short, the hair cannot be sufficiently lysed to release DNA, reducing the yield of DNA extraction.

In some embodiments, the volume ratio of the hair pieces to the lysing solution is 1: (180-360). According to the embodiment of the invention, the volume ratio of the hair fragments to the lysis solution is 1: (180-360) dispersing the hair pieces in Tris-HCl, NaCl, CaCl₂In a PCR tube of the lysate consisting of dithiothreitol, sodium dodecyl sulfate, protease and water, hair scraps are infiltrated and concentrated at the bottom of the PCR tube by centrifugation of 2000 Xg for 15s, finally the PCR tube is placed on a PCR instrument and is cracked for 20min at the set temperature of 56 ℃ to obtain a cracked product, wherein the volume of hair is 84 micrometers according to the average value of the diameters of Chinese population hair, the length of the cut hair roots is 1cm, and the volume of the collected 1cm hair is calculated to be about: 5.5X 10^-2Microliter.

Specifically, in step S30, a magnetic bead suspension is obtained, and the magnetic bead suspension is added to the cleavage product, mixed, and then separated, thereby obtaining a DNA solution in hair. According to the embodiment of the invention, the magnetic bead method is adopted to extract, separate and purify the DNA in the cleavage product, the extraction and separation efficiency is high, the DNA loss can be avoided, and the DNA can be efficiently extracted without introducing other impurities.

In some embodiments, the step of adding the suspension of magnetic beads to the lysate for a mixing process comprises: centrifugally separating the cracking product, and removing solid impurities after cracking to obtain cracking supernatant; and (3) according to the volume ratio of the lysis supernatant to the magnetic bead suspension of 1: (1.5-2) mixing the magnetic bead suspension and the cracking supernatant, and then sequentially carrying out centrifugal treatment, oscillation treatment and standing treatment to obtain a mixed treatment product. The magnetic bead suspension adopted by the embodiment of the invention can be VAHTS DNA Clean Beads of Nanjing Novozam biotechnology limited, and can also be magnetic Beads produced by other companies, and the volume ratio of the lysis supernatant to the magnetic bead suspension is 1: (1.5 ~ 2) will the magnetic bead suspension with the schizolysis supernatant mixes, and this quantity ratio of magnetic bead suspension has ensured that the magnetic bead fully draws to DNA in the schizolysis product, and the magnetic bead quantity is more, and the DNA fragment that can collect is less, and the extraction effect is better, but the magnetic bead quantity is too much can cause impurity residue too much, reduces the purity of final DNA eluant, and the magnetic bead quantity is too much simultaneously, can increase the quantity of final eluant to the concentration of DNA eluant has been reduced, the subsequent experiment of being not convenient for is used.

In some embodiments, the lysate is centrifuged to remove solid impurities after lysis, resulting in a lysis supernatant; and (3) according to the volume ratio of the lysis supernatant to the magnetic bead suspension of 1: (1.5-2) mixing the magnetic bead suspension with the cracking supernatant, centrifuging for 5-10 seconds under the condition that the centrifugal force is 1000 Xg-2000 Xg, aggregating DNA and magnetic beads released by cracking, avoiding the phenomenon that the DNA is not beneficial to the adsorption of the magnetic beads to the DNA due to over dispersion of the DNA, and simultaneously avoiding the loss caused by the adhesion of the DNA on a container wall, then performing vortex oscillation for 10-20 seconds, enabling the magnetic beads to fully act on the DNA, separating the DNA from other impurities by adsorbing the DNA onto the surfaces of the magnetic beads, then standing the magnetic beads for more than 5 minutes at full room temperature, and fully combining and stabilizing the DNA and the magnetic beads in the mixed solution after cracking.

In some embodiments, the step of adding the suspension of magnetic beads to the lysate for separation after mixing comprises: placing the mixed product on a magnetic frame, standing at room temperature for more than 5 minutes to make the magnetic beads adsorbed with the DNA magnetically gather to the bottom, then separating supernatant, and separating and removing other impurity components except the DNA in the mixed product along with the supernatant to obtain the magnetic beads adsorbed with the DNA; then, cleaning the magnetic beads by adopting an ethanol solution, re-dissolving other impurity components adhered and remained on the magnetic beads into the ethanol solution, removing and separating the magnetic beads along with the removal of the ethanol solution, and purifying DNA adsorbed on the magnetic beads; and dissolving the DNA on the magnetic beads into water to obtain a DNA solution in the hair.

In some embodiments, the magnetic beads are cleaned by using an ethanol solution with a concentration of 60-75%, the ethanol solution with the concentration can effectively remove impurities such as primer dimers, salt ions, enzymes and the like in the mixed product, and the ethanol solution with the concentration is convenient for subsequent volatilization and removal, so that interference of an ethanol solvent on subsequent DNA dissolution in water is prevented.

In some embodiments, the lysate in the PCR tube is centrifuged for 15s at 2000 Xg to concentrate the un-lysed suspension to the bottom of the PCR tube, then a pipette with a range of 1-10. mu.L is used to transfer the supernatant to another new PCR tube as much as possible, and finally 36. mu.L of DNA purification magnetic beads are added to the PCR tube, centrifuged for 5s at 1000 Xg to concentrate the components to the bottom of the tube, vortexed and shaken for 10s to mix well, and then the mixture is left to stand at room temperature for 5min to allow the DNA in the lysate to be fully combined with the magnetic beads; then placing the PCR tube containing the magnetic beads and the DNA combination objects on a magnetic frame, standing for 5min at room temperature, carefully sucking the supernatant without touching the magnetic beads, then adding 150 mu L of ethanol solution with the volume fraction of 70% to clean the magnetic beads, carefully removing ethanol, and placing for 5min at room temperature under the condition of opening the cover to volatilize the residual ethanol; and taking the PCR tube off the magnetic frame, adding 10 mu L of deionized water, re-dispersing the magnetic beads by using a pipettor, putting the PCR tube back on the magnetic frame, standing at room temperature for 5min, and finally collecting the supernatant and storing at-20 ℃ or applying the supernatant to a subsequent experiment.

In order to clearly understand the details and operations of the above-mentioned embodiments of the present invention by those skilled in the art and to make the performance of the method for extracting DNA from hair significantly better apparent, the above-mentioned technical solutions are illustrated by a plurality of examples.