土壤样品中DNA提取方法的比较

对土壤样品中提取DNA方法的有效性进行了比较研究。如果以细胞有效裂解和DNA产率为标准,用冻融进行预处理再结合SDS和溶菌酶的化学裂解方法,是效果最佳的DNA抽提方法,细胞裂解率为82%,DNA产率达20.8μg/g。为了去除PCR抑制物,将DNA样品进一步用柱纯化,回收率为80%。纯化后的DNA样品可用于16SrDNA扩增及其他分子操作。     

几种直接从高温热泉沉积物中提取DNA方法之比较

用酶解法,化学裂解法和微波炉法,冻融法等物理裂解方法组合出5种方法直接从滇西一个高温热泉沉积物提取DNA。经常规的琼脂糖凝胶电泳检测,发现用溶菌酶,蛋白酶K酶解,SDS化学裂解结合微波炉法裂解不仅可以得到较大量的DNA。而且碎片段较少,提取出来的DNA经RNA酶和蛋白酶K处理后可直接进行PCR扩增。同时DGGE（变性梯度凝胶电泳）电泳检测,结果表明,此法不仅可以得到该种环境中较多微生物分类单位的DNA,而且还能够较好地体现出它们在量上的差异。     

活性污泥总DNA提取方法的研究

采用冻融＋玻璃珠、溶菌酶＋SDS和冻融＋玻璃珠＋溶菌酶＋SDS的方法提取活性污泥的微生物总DNA,并对以上三种方法进行比较,从中确定最佳的方法,以实现普通实验条件下成功提取符合PCR扩增要求的DNA。经紫外光度分析及电泳结果表明,冻融＋玻璃珠＋溶菌酶＋SDS方法所得的DNA的OD260/OD280为1．81,电泳结果显示,所提DNA片段分子量大于10kb,适于酶解和PCR扩增要求,为PCR技术应用于活性污泥的研究提供了一种简便、可靠的DNA提取方法。     

转基因棉花根际土壤DNA的提取方法研究

采用直接裂解方式,通过玻璃珠、溶菌酶和SDS共同作用直接从转基因棉花SGK321和中棉所41的根际土壤中提取微生物DNA。结果表明,该方法能从两种转基因棉花根际土壤中提取到20kb大小的完整的DNA片段。所得DNA完全适用于PCR扩增和酶切的要求。     

堆肥中微生物总DNA的高效提取

采用化学裂解和酶解相结合的方法,选择加入PVPP的高盐缓冲液作为细胞裂解的反应体系,并以PEG-8000进行DNA沉淀,从高有机含量的堆肥样品中进行微生物总DNA的提取。结果表明,从4种性质不同的堆肥中均获得了高质量的微生物总DNA,所得的DNA分子片段在23kb左右;每克干重堆肥的总DNA提取量为63.54±12.08μg~106.50±28.36μg,A260/A280大于1.6,A260/A230大于1.8,不用经过纯化可以直接进行PCR扩增和限制性酶切;以该DNA为模板进行微生物区系的DGGE分析,显示了丰富的微生物多样性。该方法减少了通常环境样品DNA提取过程中的纯化步骤,减少了DNA的损失,为从事微生物分子生态学,尤其是那些针对高有机含量以及获取极为不易的环境样品的研究而言是十分有益的。     

苛求芽孢杆菌基因组DNA提取方法的比较

目的:比较不同方法提取苛求芽孢杆菌基因组DNA的差异。方法:用经典CTAB提取法、改进CTAB法(溶菌酶处理结合CTAB提取法)、UniQ柱吸附提取法制备苛求芽孢杆菌基因组DNA,比较产物完整性和用于PCR扩增的有效性。结果:三种方法制备基因组DNA纯度接近,但改进CTAB法产率最高,UniQ法产率最低。经典CTAB法和UniQ法提取基因组DNA易降解。三种方法所得基因组DNA用于PCR扩增效率接近。结论:溶菌酶裂解结合CTAB提取更适合制备苛求芽孢杆菌基因组DNA。     

一种简单、快速的苏云金芽胞杆菌基因组DNA提取方法

从培养时间、裂解溶液、抽提和沉淀时间等方面对苏云金芽胞杆菌(Bacillus thuringiensis,Bt)基因组DNA提取技术进行改进.提取8株对蛴螬有杀虫活性的野生Bt菌株的基因组DNA,分析其纯度,并进行PCR分析与酶切分析.试验结果表明,新的提取方法耗时36 min,明显短于旧方法所用时间(97 min);两种方法提取的基因组DNA A260/A280均大于1.8,无明显区别;琼脂糖凝胶电泳结果显示,上样量相同时,新方法提取的基因组DNA浓度是旧方法的5倍以上;新方法提取的基因组DNA能作为模板灵敏地扩增出测试基因,所提取的DNA能被限制性内切酶完全酶切,证明DNA具有很高的纯度.本研究改进的基因组DNA提取方法耗时短、产量高,并能满足PCR扩增、酶切等分子生物学需要.     

提取北方土壤真菌DNA的一种方法

由于土壤理化性质的复杂性和真菌细胞壁结构的特殊性,从土壤样品中提取真菌基因组DNA比较困难.中国北方土壤与其它地区土壤相比有其自身的特点,因此,有必要优化一种适合于北方土壤真菌DNA提取的方法.本实验向灭菌黑土中分别投加12种在系统分类上差别较大的真菌,以传统土壤总DNA提取方法及纯菌DNA提取方法为基础,分别与蜗牛酶,纤维素酶进行组合、优化,得到7种不同的土壤真菌基因组DNA提取方法.利用真菌28S rDNA通用引物U1/U2-GC PCR-DGGE分析方法分别考察了7种不同方法所提取土壤真菌基因组DNA的多样性和代表性.结果表明:1)液氮研磨,纤维素酶、蜗牛酶和溶菌酶(浓度分别为6 、3和1 mg·ml-1)37 ℃作用60 min,2% SDS于65 ℃裂解30 min;2)-65 ℃～65 ℃冻融3次,纤维素酶、蜗牛酶和溶菌酶(浓度分别为6、3和1 mg·ml-1)37 ℃作用180 min,2%SDS于65 ℃裂解30 min的组合具有较好的提取效果.利用后一种方法分别对3种理化性质差异较大的中国北方自然土壤样品真菌DNA进行提取并分析,表明所提取土壤基因组DNA真菌特异性PCR-DGGE图谱条带丰富,该方法可用于多种北方土壤真菌多样性研究.     

沼气池污泥微生物总DNA提取方法的比较

沼气发酵系统是一个复杂的生态系统,其污泥微生物超过99%是不可培养的。为了优化沼气池纤维素的转化效率、沼气的产率和开展污泥微生物多样性研究,本研究采用化学裂解法、溶菌酶裂解法和QIAampDNA Stool Mini Kit提取了沼气池污泥样品中微生物的总DNA,对三种方法的DNA得率、纯度、大片段提取效果以及是否含有PCR反应抑制剂进行了研究,最后对16S rRNA基因V3区的扩增产物进行了PCR变性梯度凝胶电泳(PCR-DGGE)分析。与化学裂解法和QIAamp DNA Stool Mini Kit法相比,溶菌酶裂解法得到的DNA量大、片段长、片段分布广、PCR扩增效率高;同时PCR-DGGE图谱显示,溶菌酶裂解法可更好地展示沼气池污泥中微生物的多样性。该结果为进一步提高沼气池中纤维素的转化效率和沼气生产优势菌种的质和量打下了一定的前期基础。     

用于分析土壤微生物结构变化规律的变性梯度凝胶电泳条件研究

研究确定土壤微生物基因组DNA提取方法、PCR扩增条件、DGGE电泳条件,为进一步研究分析土壤中微生物结构变化规律提供理论依据。土壤微生物基因组DNA提取采用直接法和间接法进行比较; PCR扩增条件调整扩增体系、DGGE电泳条件调整变性剂范围,并对其结果进行比较分析。通过对DGGE电泳相关条件的研究,结果显示,土壤中粗基因组DNA采用直接法提取,然后进行纯化; PCR扩增体系中加入BSA,DGGE电泳系统组成中变性剂浓度范围为35%～55%。确定了土壤微生物基因组DNA提取方法、PCR扩增条件、DGGE电泳条件,为后续的相关研究提供理论依据。     

土壤可培养细菌DNA的提取及RAPD条件的优化

以改进的CTAB-溶菌酶-蛋白酶K裂解法抽提土壤可培养细菌总DNA,直接进行随机扩增多态DNA(RAPD)分析。分别测试了不同浓度镁离子、dNTP、模板DNA、引物、DNA聚合酶及牛血清白蛋白对反应结果的影响,通过各因子的组合研究,确定了土壤可培养细菌遗传多样性分析的稳定的RAPD反应体系。     

Improved purification and PCR amplification of DNA from environmental samples

Purification and PCR amplification procedures for DNA extracted from environmental samples (soil, compost, and river sediment) were improved by introducing three modifications: precipitation of DNA with 5% polyethylene glycol 8000 (PEG) and 0.6 M NaCl; filtration with a Sepharose 4B-polyvinylpolypyrrolidone (PVPP) spin column; and addition of skim milk (0.3% w/v) to the PCR reaction solution. Humic substances' concentration after precipitation with 5% PEG was 2.57-, 5.3-, and 78.9-fold lower than precipitation with 7.5% PEG, 10% PEG, and isopropanol, respectively. After PEG precipitation, Sepharose, PVPP and the combined (Sepharose-PVPP) column removed 92.3%, 89.5%, and 98%, respectively, of the remaining humic materials. Each of the above-mentioned modifications improved PCR amplification of the 16S rRNA gene. DNA extracted by the proposed protocol is cleaner than DNA extracted by a commercial kit. Nevertheless, the improvement of DNA purification did not improve the detection limit of atrazine degradation gene atzA.     

风沙土微生物总DNA不同提取和纯化方法比较

为筛选和建立风沙土中总DNA的提取和纯化方法,选取了5种直接提取法、1种间接提取法和2种纯化法分别对风沙土中总DNA进行了提取和纯化,并对其质量和产量进行了比较.结果表明：6种方法均可从风沙土中提取到大小为23 kb左右的总DNA,其中改进后的高盐提取法（用40%聚乙二醇8000和4 mol·L^-1 NaCl沉淀DNA）效果最好,纯化后总DNA的纯度最高,可进行16S rDNA的PCR扩增,且产量仅稍低于试剂盒提取法;电泳加柱回收纯化法的纯化效果较好,经该方法纯化后的总DNA大部分可进行PCR扩增,可满足后续分子操作对DNA纯度的要求.     

An efficient purification and fractionation of genomic DNA from soil by modified troughing method

AIMS: The aim of this study was to utilize a modified troughing method for purification of large genomic DNA obtained from microbiota in natural environment and for fractionation of genomic DNA into many size ranges that facilitates construction of metagenomic library. METHODS AND RESULTS: Genomic DNA extracted from soil or termite gut was purified by the modified troughing method which utilized gel electrophoresis in the presence of 30% PEG8000. The method performed better than various purification kits and allowed no significant loss in the amount of DNA recovered. In addition, the efficiency of the modified troughing method for DNA size fractionation was investigated. DNA size fractionation was achieved with repetitive rounds of electrophoresis and DNA collection to obtain DNA with many size ranges. CONCLUSIONS: The modified troughing method is a simple and efficient method for purification of genomic DNA and for DNA size fractionation. SIGNIFICANCE AND IMPACT OF THE STUDY: The modified troughing method is a straightforward and inexpensive technique readily available for anyone working with environmental genomic DNA. It facilitates cloning of genomic DNA and enhances rapid discovery of useful bioactive compounds from microbial resources.     

Increased amplification efficiency of microchip-based PCR by dynamic surface passivation

Surface passivation is critical for effective PCR using silicon-glass chips. We tested a dynamic polymer-based surface passivation method. Polyethylene glycol 8000 (PEG 8000) or polyvinylpyrrolidone 40 (PVP-40) applied at 0.75% (w/v) in the reaction mixture produced significant surface passivation effects using either native or SiO2-precoated silicon-glass chips. PCR amplification was achieved from human genomic DNA as a template as well as from human lymphocytes. The dynamic surface passivation effect of PEG 8000 remained similar under both conditions. Dynamic surface passivation offers a simple and cost-effective method to make microfabricated silicon-glass chips PCR friendly. It can also be used in combination with static passivation (silicon oxide surface layer) to further improve PCR performance using silicon-glass PCR chips.     

土壤微生物总DNA提取方法的优化

【目的】土壤中未培养微生物约占总量的99%,这就意味着绝大多数微生物资源还未得到开发和利用。本研究通过优化土壤微生物总DNA的提取方法,获得较高质量的DNA,为后期研究土壤微生物的多样性及构建大插入片段的宏基因组文库奠定基础。【方法】通过综合比较已报道的微生物DNA提取方法的优缺点,我们设计出一种新的提取方案。对提取过程中的几个关键步骤进行了优化,包括联合使用SDS-CTAB和溶菌酶一起来破细胞,利用氯仿除蛋白,使用PVPP柱纯化DNA等。比较分析了优化后的方法和3种已报道方法所获得的土壤总DNA的产量、纯度及片段大小。【结果】优化后的方法所获得的土壤DNA质量明显有所提高:每克土壤最高能提取95μg DNA,A260/A280和A260/A230比值更接近理想水平,PCR扩增能够得到明显的目标条带,DNA片段最大能达到100 kb左右。【结论】通过比较分析,最终确立了一种较理想的土壤微生物总DNA提取方法,为更好地开发利用土壤未培养微生物资源提供了有力工具。     

利用CTAB法和子囊孢子破壁法提取冬虫夏草菌DNA

通过CTAB法从冬虫夏草菌株和天然冬虫夏草不同部位提取DNA,并用PCR扩增进行验证,证明了CTAB法适合从冬虫夏草子座、菌核和冬虫夏草菌培养物中提取DNA。首次报道1种将子囊孢子破壁直接进行PCR扩增的方法,并比较了该方法和CTAB法在提取冬虫夏草DNA方面的差异。2种方法获得的DNA用于PCR扩增均能得到较好的结果。     

Comparison of methods for total community DNA extraction and purification from compost

The differences on DNA yield and purity of three different DNA extraction protocols were compared with regard to the use for PCR and other molecular analyses. Total DNA was extracted from compost by the three protocols, and then was purified by spin-bind cartridges after being precipitated by PEG8000. The detection performed on a nucleic acid and protein analyzer showed that all three methods produced high DNA yields. The agarose gel electrophoresis showed that the fragments of crude and purified DNA had a length of about 23 kb. A eubacterial 16S rRNA gene-targeted primer pair was used for PCR amplification, and full length 16S rDNAs were amplified from all the purified DNA samples. After being digested by restriction endonucleases, the restriction map of amplified rDNA showed identical genetic diversity. The products of PCR using primer pair GC341F and 907R were also used for denaturing gradient gel electrophoresis analysis. The results indicated that high-quality DNA was extracted from compost by the three protocols, and each of the protocols is adapted to extract microbial genome DNA from compost expediently and cheaply.     

An effective method for isolation of DNA from pig faeces and comparison of five different methods

Polymerase chain reaction (PCR) detection of microorganism in faecal specimens is hampered by poor recovery of DNA and by the presence of PCR inhibitors. In this paper, we describe a new modified method for extracting PCR-quality microbial community DNA from pig faecal samples, which combines the pretreatment with polyformaldehyde, and subsequent DNA lysis in the presence of CTAB, salt, PVP, and beta-mercaptoethanol, followed by isolation of nucleic acids using chloroform (no phenol) based protocol. The method resulted in a 1.3- to 11-fold increase in DNA yield when compared to four other widely used methods. Genomic DNA extracted from all five methods was assessed by both agarose gel electrophoresis and polymerase chain reaction for amplification of 16S rDNA specific fragments. The results showed that the improved method represented a reproducible, simple, and rapid technique for routine DNA extraction from faecal specimens and was notably better than using the QIAamp DNA Stool Mini Kit.