阅读说明：本技术 一种用于提取微量药用植物样品dna的提取液及其提取方法 (Extracting solution for extracting trace medicinal plant sample DNA and extraction method thereof ) 是由 吕群丹 方洁 程科军 潘俊杰 陈正道 于 2019-09-16 设计创作，主要内容包括：本发明公开了一种用于提取微量药用植物样品DNA的提取液及其提取方法,该提取液包括Tris-HCl10～20mmol/L、EDTA0.5～1mmol/L、KCl0.1～0.2mol/L以及RNA酶5～10mg/L。该提取液可用于提取多种药用植物的叶、茎、根及花等多种组织的微量样品基因组DNA,适用性广；使用该方法提取的基因组DNA可以有效地用于目的片段PCR扩增和DNA条形码分子鉴定等用途。与现有技术相比,本发明方法具有适用性广,所需样品量少,不含高毒、剧毒成分,成本低,操作简便、快速,易于掌握等优势,为基于DNA条形码的药用植物微量样本的基因组DNA提取及分子鉴定提供了新的方法,助推了中药分子鉴定技术的发展和普及。(the invention discloses an extracting solution for extracting trace medicinal plant sample DNA and an extracting method thereof, wherein the extracting solution comprises Tris-HCl 10-20 mmol/L, EDTA 0.5.5-1 mmol/L, KCl 0.1-0.2 mol/L and RNase 5-10 mg/L. The extracting solution can be used for extracting trace sample genome DNA of various tissues such as leaves, stems, roots, flowers and the like of various medicinal plants, and has wide applicability; the genomic DNA extracted by the method can be effectively used for PCR amplification of target fragments, DNA barcode molecular identification and the like. Compared with the prior art, the method has the advantages of wide applicability, less required sample amount, no high-toxicity and highly-toxic components, low cost, simple and quick operation, easy mastering and the like, provides a new method for extracting the genome DNA and identifying the molecules of the medicinal plant micro sample based on the DNA bar code, and promotes the development and popularization of the traditional Chinese medicine molecular identification technology.)

1. An extracting solution for extracting trace medicinal plant sample DNA is characterized by comprising the following components:

2. the extraction solution for extracting trace amount of DNA from a medicinal plant sample according to claim 1, which comprises the following components:

3. The extract liquid for extracting a trace amount of DNA from a medicinal plant sample according to claim 1, which comprises: the pH of Tris-HCl was 9.5 and the pH of EDTA was 8.0.

4. The use of the extract according to any one of claims 1 to 3 for the extraction of genomic DNA from fresh and dried samples of medicinal plants.

5. A DNA extraction method is characterized in that: the method for extracting genomic DNA of a medicinal plant by using the DNA extract as claimed in claim 1, which comprises the following steps:

1) taking a medicinal plant sample and placing the medicinal plant sample in a container;

2) Adding beads and the DNA extract solution of claim 1;

3) Grinding the medicinal plant sample by using a ball mill;

4) incubating at 65-70 ℃ for 5-10 min, taking out, and centrifuging at 12000 rpm for 5-10 min; and taking the supernatant to obtain the genome DNA of the medicinal plant.

6. The DNA extraction method according to claim 5, wherein: the incubation temperature was 70 ℃ and the incubation time was 10 min.

7. The DNA extraction method according to claim 5, wherein: the container is a round-bottom centrifuge tube or a 96-hole deep-hole plate.

8. the DNA extraction method according to claim 5, wherein: adding 0.2-0.4 ml of the extracting solution into each milligram of a fresh sample or adding 0.4-0.8 ml of the extracting solution into each milligram of a dry sample.

9. The DNA extraction method according to claim 5, wherein: the medicinal plant is selected from 0.3-1.0 mg of a fresh sample or 0.15-0.40 mg of a dry sample of the medicinal plant.

10. Use of the DNA extraction method of any one of claims 5 to 9 for PCR amplification of a fragment of interest and identification of DNA barcode molecules.

Technical Field

The invention relates to the technical field of DNA extraction, in particular to an extracting solution for extracting trace medicinal plant sample DNA and an extracting method thereof.

background

The traditional Chinese medicine has wide variety and complex source, and the condition of multiple basic sources generally exists, so that the phenomena of homonymous foreign matters, synonyms, unclear identification, mixed substitution, false mistruth, poor success and the like of the traditional Chinese medicine generally exist in the production, circulation and clinical use processes of the traditional Chinese medicine, and the safety and the effectiveness of the traditional Chinese medicine in the clinical medication process are seriously influenced. The accurate identification of the medicinal materials is the precondition and the basis for ensuring the quality of the traditional Chinese medicine and the safety, effectiveness and controllability of clinical medication. In order to meet the requirement of the modern traditional Chinese medicine industry on identification of the basic species of the traditional Chinese medicine, the DNA barcode molecular identification technology is applied to the field of identification of the traditional Chinese medicine, achieves outstanding performances in the aspects of identification of the basic species of the traditional Chinese medicine, the traditional Chinese medicine and the like, and promotes the process of standard identification of the traditional Chinese medicine. With the intensive and widespread research of the DNA barcode molecular identification method of traditional Chinese medicinal materials, the national pharmacopoeia committee discusses further standardizing the DNA barcode identification of the traditional Chinese medicinal materials by including the DNA barcode molecular identification guiding principle of the traditional Chinese medicinal materials in the supplementary book of Chinese pharmacopoeia (namely a plant medicine DNA barcode identification system taking ITS2 as the core and psbA-trnH as the auxiliary and an animal medicine DNA barcode identification system taking COI as the main and ITS2 as the auxiliary). At present, a relatively complete online Chinese medicinal material DNA bar code identification system is constructed by the Chenthrene research team of Chinese academy of science of traditional Chinese medicine, and species identification can be quickly and accurately realized by introducing a target sequence into the database (refer to a document: Chenthrene. Chinese pharmacopoeia Chinese medicinal material DNA bar code standard sequence [ M ]. Beijing: scientific publishing house, 2015.).

The DNA barcode technology process generally includes six steps of sample processing, sample DNA extraction, PCR amplification, DNA sequencing, sequence splicing, and identification and analysis, wherein obtaining high quality sample DNA is considered to be a necessary prerequisite and a key step of DNA barcode technology. Most medicinal plants contain more secondary metabolites, and the extraction efficiency and quality of genome DNA are seriously influenced.

For medicinal plants, the commonly used methods for extracting genomic DNA include CTAB method, alkaline lysis method, high-salt low-pH method, etc. The first three extraction methods all need to improve the extraction efficiency and the product quality by adding highly toxic and virulent reagents such as NaOH, SDS, Ttiton-X100, beta-mercaptoethanol, trichloromethane and the like in the extraction reagent and extraction process, and have great potential safety and environmental protection hazards for human health and environmental protection (refer to documents: Jianchao, Huanglingqi, Yuan, Chenmin, Linshufang, Wuxi Shi, research on a method for quickly extracting DNA of medicinal materials by using an alkali cracking method [ J ] J. drug analysis journal, 2013,33(07):1081 42; Chenluol, Wanqingrong, Ahui, Gujinlin, DNA barcode identification method suitable for fruits traditional Chinese medicine [ J ] Niaoning traditional Chinese medicine journal, 2018,45(05): 1028) 1030; Mamin, He-Fang, Yangguan, Jiangdan, Chinese patent medicine margin, Huang Yangjiang Jiang, DNA extraction method of 4 traditional Chinese medicinal materials and screening [ J. drug, 2016,38(08):1776-1781.). And the reagent added with detergents such as SDS or Ttiton-X100 and the like can generate a large amount of foam after violent shaking, cannot be used for sample grinding by a ball mill and cannot be suitable for extraction of batch samples. The CTAB method is the most complicated, comprises the steps of sampling, tissue crushing, buffer solution extraction pretreatment, cell lysis by lysis buffer solution, protein and RNA removal and other impurities, DNA precipitation, DNA rinsing, dissolution and the like, has complicated and longest procedure, at least needs hours, and even needs overnight operation for tissues difficult to extract, and the consumed time is larger.

For model plants such as arabidopsis thaliana and rice and crops with few secondary metabolites, a large number of research teams extract genomes by adopting a TPS method. The TPS method is relatively simple compared to the 3 methods described above, but also requires tissue disruption, lysis of cells with lysis buffer, precipitation of DNA, rinsing of DNA and lysis, which takes at least 1 hour. It has been reported that the extraction time can be shortened by adopting the improved TPS method in cotton, but toxic reagents such as beta-mercaptoethanol and the like need to be added into the extraction reagent, which is harmful to human body. For medicinal plants with high content of secondary metabolites, the TPS method is less adopted to extract genome DNA.

In order to avoid the problems, in the Chinese medicine DNA barcode molecular identification guiding principle and a large number of literature reports of Chinese pharmacopoeia, operators mostly adopt a plant genome DNA extraction kit for extraction (refer to the literature: Mochun, Zhang Jun, Li Shui, Sunwen, Dingzhuihua, Wang Leyi, Mengzowang, maize leaf genome rapid extraction method research [ J ] maize science, 2010,18(03): 170) 172, Zhang Yoghuan, Von Changhui, Villa, Wang Xiaojiao, easy to reach first, Zhang, Qinhong, and an improved TPS method of cotton leaf DNA rapid extraction method [ J ] Cotton proceedings, 2016,28(04): 413) 417). However, the kit is expensive, is not suitable for batch sample operation, and consumes a large amount of manpower, material resources and time when identifying batch samples. In addition, samples of some rare or endangered medicinal plants are rare, so that sufficient samples are difficult to obtain for extracting genome DNA, and reagents and methods suitable for batch extraction of rare samples are lacked in the market at present. Molecular identification has become a great trend in traditional Chinese medicine identification, but the use and popularization of the molecular identification method are severely restricted by the problems.

disclosure of Invention

Aiming at the defects in the prior art, the invention provides the extracting solution for extracting the trace medicinal plant sample DNA and the extracting method thereof, the method can be used for extracting the genome DNA of various trace medicinal plant samples with high flux, high speed and high efficiency, and the method is simple, convenient and quick to operate and has wide applicability.

in order to achieve the purpose, the invention provides the following technical scheme: an extracting solution for extracting trace medicinal plant sample DNA comprises the following components:

preferably, the composition comprises the following components:

Preferably, Tris-HCl has a pH of 9.5 and EDTA has a pH of 8.0.

the extracting solution is applied to the extraction of the genome DNA of the fresh sample and the dry sample of the medicinal plant.

A DNA extraction method for extracting genome DNA of medicinal plants by using the DNA extracting solution as claimed in claim 1, which comprises the following steps:

1) Taking a medicinal plant sample and placing the medicinal plant sample in a container;

2) Adding beads and the DNA extract solution of claim 1;

3) Grinding the medicinal plant sample by using a ball mill;

4) Incubating at 65-70 ℃ for 5-10 min, taking out, and centrifuging at 12000 rpm for 5-10 min; and taking the supernatant to obtain the genome DNA of the medicinal plant.

preferably, the incubation temperature is 70 ℃ and the incubation time is 10 min.

Preferably, the container is a round-bottom centrifuge tube or a 96-hole deep-hole plate.

Preferably, 0.2-0.4 ml of the extracting solution is added to each milligram of a fresh sample or 0.4-0.8 ml of the extracting solution is added to each milligram of a dry sample.

preferably, the medicinal plant is selected from 0.3-1.0 mg of fresh sample or 0.15-0.40 mg of dry sample of the medicinal plant.

The application of the DNA extraction method in PCR amplification of target fragments and identification of DNA barcode molecules is described.

In conclusion, the invention has the following beneficial effects: the extracting solution provided by the method is low in cost, does not contain high-toxicity or highly-toxic components, is suitable for wide range of medicinal plant species, needs a small amount of plant samples, is simple, convenient and quick in operation process, is suitable for batch operation, provides a new method for extracting genome DNA and identifying molecules of trace medicinal plant samples based on DNA barcodes, and helps to promote the development and popularization of a traditional Chinese medicine molecular identification technology.

Drawings

FIG. 1 is an electrophoretogram of a sample strip after PCR amplification in example 1;

FIG. 2 is a diagram showing the identification result of the Paris polyphylla DNA barcode identification system in example 1;

FIG. 3 is a diagram showing the result of identification by the bar code identification system for plantain DNA in example 1;

FIG. 4 is a diagram showing the result of the DNA barcode identification system of Rubus chingii in example 1;

FIG. 5 is a diagram showing the result of identification by the Lonicera japonica DNA barcode identification system in example 1;

FIG. 6 is a diagram showing the result of identification by the Japanese climbing fern spore DNA barcode identification system in example 1;

FIG. 7 is a diagram showing the results of identification by the identification system of the DNA barcode of Cherokee rose in example 1;

FIG. 8 is a diagram showing the identification results of the gardenia DNA barcode identification system in example 1

FIG. 9 is a diagram showing the result of identification by the madder DNA barcode identification system in example 1;

FIG. 10 is a diagram showing the result of identification by the wild kudzu DNA barcode identification system in example 1;

FIG. 11 is a drawing showing the result of identification by the Sargentodoxa cuneata DNA barcode identification system in example 1;

FIG. 12 is a drawing showing the result of the DNA barcode identification system of Peucedanum japonicum in example 1;

FIG. 13 is a diagram showing the result of identification by the blackberry lily DNA barcode identification system in example 1;

FIG. 14 is a diagram showing the result of identification by the Ardisia crenata DNA barcode identification system in example 1;

FIG. 15 is a diagram showing the result of identification by the achyranthes bidentata DNA barcode identification system in example 1;

FIG. 16 is a diagram showing the result of identification by the trachelospermi DNA barcode identification system in example 1;

FIG. 17 is a diagram showing the result of identification by the perfoliote knotweed DNA barcode identification system in example 1;

FIG. 18 is a photograph of the sample of example 2 after PCR amplification of the sample band;

FIG. 19 is a photograph of the sample of example 3 after PCR amplification of the sample band;

FIG. 20 is an electrophoretogram of a sample strip after PCR amplification at comparative concentration 1;

FIG. 21 is an electrophoretogram of sample bands after PCR amplification at comparative concentration 2.

Detailed Description

the invention is further described with reference to the accompanying drawings.

The invention provides the extracting solution of the trace medicinal plant sample genome DNA without high-toxicity or virulent components, the DNA extracting solution can simply, conveniently, quickly and efficiently extract the genome DNA of various trace medicinal plant samples, and the extracted genome DNA can be effectively used for target strip PCR amplification and DNA bar code molecule identification.

The embodiment discloses an extracting solution for extracting trace medicinal plant sample DNA, which comprises the following components:

when the extracted genome DNA is used as a template and a target band is amplified by PCR, the PCR amplification efficiency is influenced by the existence of RNA, RNA enzyme is added into the extracting solution, RNA is removed in the extracting process, and the PCR amplification efficiency of a target segment in a subsequent experiment can be obviously improved.

preferably, the extract comprises the following components:

the concentration of each component in the extracting solution has large influence on the success rate of target fragment band amplification and the amplification of a target fragment, when the concentration is high, the success rate of target fragment amplification is low, the target fragment band has dragging and band dispersion phenomena, and under the concentration, the target fragment band is single and bright and has no dragging.

Wherein, the pH value of Tris-HCl is 9.5, and the pH value of EDTA is 8.0. The high pH value is beneficial to improving the DNA extraction efficiency.

the extract can be used for extracting genome DNA of fresh and dry medicinal plant.

A DNA extraction method for extracting genome DNA of medicinal plants by using the DNA extracting solution comprises the following steps:

1) Placing the medicinal plant sample in a container, wherein when a fresh plant tissue sample is extracted, 0.3-1.0 mg of plant tissue is taken; or when the plant tissue dry sample is extracted, taking 0.15-0.40 mg of plant tissue; the dried medicinal plant sample is simply dried, such as directly dried in the shade, air-dried or oven-dried sample.

2) adding sample grinding beads, and adding the extracting solution according to the proportion of adding 0.2-0.4 ml of the extracting solution into each mg of a fresh sample or adding the extracting solution according to the proportion of adding 0.4-0.8 ml of the extracting solution into each mg of a dry sample;

3) grinding the medicinal plant sample by using a ball mill;

4) incubating at 65-70 ℃ for 5-10 min, taking out, and centrifuging at 12000 rpm for 5-10 min; and taking the supernatant to obtain the genome DNA of the medicinal plant. The temperature can denature protein but not cause DNA degradation, and the incubation can be performed in a metal bath or a water bath, and an oven can be used in batch operation.

The method has the advantages that samples of some rare or endangered medicinal plants are rare and difficult to obtain sufficient samples for extracting the genome DNA, reagents and methods suitable for batch extraction of rare samples are lacked in the market at present, and compared with the existing DNA extraction method, the method provided by the patent can finish the extraction work only by trace medicinal plant samples.

preferably, the incubation temperature in step 4) is 70 ℃ and the incubation time is 10 min.

in step 1) of the DNA extraction method, a 2ml round-bottom centrifuge tube may be selected for extraction of a small amount of sample, and a 96-well deep-well plate may be selected for extraction of a large amount of sample.

the DNA extraction method is applied to PCR amplification of target fragments and identification of DNA barcode molecules.

The invention is illustrated below with reference to specific examples. The experimental procedures in the following examples are conventional unless otherwise specified. The reagent materials and the like used in the following examples are commercially available products unless otherwise specified.