快速提取肠道微生物基因组DNA的方法

目的:肠道微生物的研究日益成为热点,如何获取高质量、较完整的肠道菌群基因组DNA是肠道微生物研究中的关键。本文通过对酚/氯仿法提取总DNA过程进行考察和优化,建立一种简便酚/氯仿抽提法。方法:考察和优化酚/氯仿法提取总DNA的过程,并根据DNA产量、纯度以及ERIC-PCR及16S rNDA-RFLP所反映的微生物群落结构特性的指标,并与QIAamp?DNA Stool Mini Kit提取的进行比较,评价了所建立的快速提取方法。结果:用简便酚/氯仿法得到基本完整的基因组DNA,ERIC-PCR和16S rDNA-RFLP结果与QIAamp?DNA Stool Mini Kit法基本相同。结论:该方法快速并成本低,适合肠道微生物研究中总DNA提取,尤其适合处理大批量的样品。     

不同粪便DNA提取方法比较分析北大核心CSCD

肠道微生物群落结构和多样性与人体疾病密切相关。然而,相关群落结构分析结果可能受到DNA提取质量等实验因素影响。因此,评估不同DNA提取方法对肠道特定种属的提取效果,对于全面、准确获取人体肠道微生物谱,深入探究肠道微生物群落结构具有指导意义。本研究旨在借助实时荧光定量PCR(real-time quantitative polymerase chain reaction,RT qPCR)技术,以DNA提取纯度、浓度,以及对肠道中特定种属微生物基因组DNA的提取丰度为指标,对5种DNA提取方法进行比较分析。结果表明,试剂盒Q的提取效果最佳,特别是对乳杆菌属和双歧杆菌属等革兰氏阳性菌的提取效果较好。N试剂盒的平均DNA提取浓度较Q试剂盒低,但在纯度方面,二者无显著性差异。与其他3种商用试剂盒(M、PSP、TG)相比,N方法对肠道内指定微生物基因组的提取效果仅次于Q试剂盒,位居第二。相比之下,M试剂盒提取所得DNA,质量较高,但浓度偏低,对于肠道内革兰氏阳性菌的提取效果不很理想。TG试剂盒和PSP试剂盒提取所得DNA在浓度、质量以及细菌丰度方面均不及其他验证的试剂盒。综上,Q试剂盒可作为肠道微生态研究相关实验中获取高质量基因组DNA的提取方法。本研究结果为肠道微生态研究相关实验中基因组DNA提取方法的选择提供参考依据。     

湿地土壤微生物DNA提取及其脱腐技术

DNA分子生物学技术的广泛应用,为全面了解微生物群落提供了有力的工具。本文建立了一种新的从湿地土壤中提取微生物总DNA的方法,即氯化钙-SDS-酶法。在直接提取DNA过程中采用氯化钙去除腐殖酸,DNA提取缓冲液中不使用EDTA螯合剂,提取过程用时4h左右。与其他两种方法相比,该方法高效去除湿地土壤腐殖酸,纯度较高,满足PCR扩增,为微生物生态学研究提供了一种高效的湿地土壤微生物总DNA提取和纯化技术。     

宏基因组学挖掘新型生物催化剂的研究进展

微生物蕴藏着大量具有工业应用潜力的生物催化剂。然而,传统培养方法只能从环境中获得不到1%的微生物。宏基因组学是通过提取某一特定环境中的所有微生物基因组DNA、构建基因组文库并对文库进行筛选,寻找和发现新的功能基因的一种方法。它绕过了微生物分离培养过程,成为研究环境样品中不可培养微生物的有力手段。因此,从宏基因组中挖掘新型生物催化剂一直倍受生物学家的关注。以下主要对宏基因组文库的样品来源、DNA提取方法、文库的构建和筛选策略的选择这4个方面的研究状况进行了综述,列举了近年来利用宏基因组技术所获得的新型生物催化剂,并对其今后的研究方向提出了展望。     

宏基因组学研究进展

不可培养微生物占据微生物总数的99%以上, 这己成为微生物资源开发利用的一个限制性因素。宏基因组学是通过提取某一环境中的所有微生物基因组DNA、构建基因组文库及对文库进行筛选寻找和发现新的功能基因及活性代谢产物的一种方法。它避开了微生物分离培养的过程, 极大地扩展了微生物资源的利用空间, 是现代基因工程一个新的发展方向和研究热点。本文主要对宏基因组的DNA提取方法、文库的构建、筛选策略的选择及近年来宏基因组学在各领域中的应用研究现状进行了综述。     

生物造粒流化床微生物落结构及其动态变化

为了研究生物造粒流化床污水处理反应器颗粒污泥中微生物群落结构及其动态变化,分别从生物造粒流化床10、60、110cm处取颗粒污泥,通过细胞裂解直接提取颗粒污泥细菌基因组DNA。以细菌和古细菌16S rRNA基因通用引物530F/1490R,对活性污泥中提取的细菌基因组DNA进行PCR扩增,长约1kb的PCR扩增产物纯化后经变性梯度凝胶电泳(DGGE)分离,获得微生物群落的DNA特征指纹图谱。结果显示,生物造粒流化床反应器颗粒污泥中的微生物群落非常丰富,在10cm处微生物的种属达到23种,60cm处为21种,110cm处为20种;生物造粒流化床不同高度都有一些各自的特有种属和共有种属,反应器不同高度的微生物群落演替不明显,微生物群落相似性为83.1%,群落结构较为稳定。     

生物造粒流化床微生物群落结构及其动态变化

为了研究生物适粒流化床污水处理反应器颗粒污泥中微生物群落结构及其动态变化,分别从生物造粒流化床10、60、110 cm处取颗粒污泥,通过细胞裂解直接提取颗粒污泥细菌基因组DNA.以细菌和古细菌16S rRNA基因通用引物530F/1490R,对活性污泥中提取的细菌基因组DNA进行PCR扩增,长约1 kb的PCR扩增产物纯化后经变性梯度凝胶电泳(DGGE)分离,获得微生物群落的DNA特征指纹图谱.结果显示,生物造粒流化床反应器颗粒污泥中的微生物群落非常丰富,在10 cm处微生物的种属达到23种,60 cm处为21种,110 cm处为20种;生物造粒流化床不同高度都有一些各自的特有种属和共有种属,反应器不同高度的微生物群落演替不明显,微生物群落相似性为83.1%,群落结构较为稳定.     

煤地质环境微生物总基因组DNA提取方法的优化

高质量的DNA是进行分子生物学研究的基础。通过对传统DNA抽提方法(酚-氯仿法)进行改进,并以Rhodococcus sp.R04和煤粉为实验材料对细胞破碎条件进行优化,建立了一种可用于煤地质环境微生物基因组DNA高效提取的改良方法。以改良法和商业试剂盒提取煤地质环境微生物基因组DNA,通过琼脂糖凝胶电泳、细菌及古菌特异性片段的PCR扩增来评价所提取DNA的质量。改良法和试剂盒法均能获得煤地质环境微生物基因组DNA,并能用于多种特异性PCR扩增。与试剂盒提取的DNA相比,改良法获得的DNA片段主带明显,约占总DNA含量的50%,分子量大小接近23 kb,并且提取量大,约为试剂盒的5-10倍。同时,能用于如DNA文库构建和宏基因组测序等。此外,改良法所用试剂普通,价格便宜,提取的煤地质环境微生物基因组DNA质量较高,适于实验室和科学研究。     

四种小鼠肠道微生物DNA提取方法比较

采用异硫氰酸胍(guandine thiocyanate,GITC)法、Tiangen DNA提取试剂盒、Omega DNA提取试剂盒和广泛应用的十六烷基三甲基溴化铵(hexadecyl trimethyl ammonium bromide,CTAB)法提取小鼠粪便微生物总DNA,通过比较所提取DNA的浓度和纯度,发现粪便DNA提取试剂盒提取的DNA纯度最高但浓度最低;CTAB法所得的DNA浓度最高但纯度最低;GITC法所得DNA的浓度高于粪便DNA提取试剂盒,纯度高于CTAB法。通过变性梯度凝胶电泳(16S r DNA-PCR-DGGE)指纹图谱分析技术进一步比较了各种提取方法所代表微生物群落的丰富度和多样性。结果表明,GITC法提取得到的DNA所代表细菌的丰富度和多样性显著高于其他3种方法。本实验所建立的GITC法可更全面地反映肠道微生物的多样性和群落结构,是一种较为理想的粪便微生物DNA提取方法。     

红树林土壤总DNA不同提取方法比较研究

获得高浓度、大片段、无偏好的土壤微生物总DNA是土壤微生物分子生态学研究和宏基因组文库构建的基础。本研究采用了5种方法从红树林土壤中提取DNA,并对5种方法提取出的DNA的质量和产量进行比较评价。结果表明,5种方法均可从土壤中提取到DNA,但不同方法提取到DNA的产量和质量存在明显差异。Bio101FastPrep?SPINKit(forSoil)抽提到的DNA得率最高,适合分子生态学研究;SDS-GITC-PEG法提取的DNA纯度最高,所得到的DNA片段较大(>48kb),有利于构建宏基因组文库。     

Application of modified supercritical carbon dioxide extraction to microbial quinone analysis

Supercritical carbon dioxide (scCO₂) was applied to extract microbial quinones from activated sludge. Identification and analysis was then performed using high-performance liquid chromatography (HPLC) equipped with ultraviolet–visible (UV–Vis) detector and photodiode array detector (PDA). Extracted microbial quinones were trapped and separated as menaquinones (MK) and ubiquinones (Q) species using two Sep-Pak Plus Silica cartridges joined in series. Four ubiquinones and 12 menaquinones species were identified in 0.1 g dried activated sludge based on retention time and spectrum analysis. Among the tested various polar solvents, methanol showed to be the best modifier, based on the highest total quinone content extracted and the lowest dissimilarity index. The diversity index of quinone and the number of quinone species using methanol-modified scCO₂ were similar to that of the conventional method (organic solvent extraction).     

A comparison of methods for total community DNA preservation and extraction from various thermal environments

The widespread use of molecular techniques in studying microbial communities has greatly enhanced our understanding of microbial diversity and function in the natural environment and contributed to an explosion of novel commercially viable enzymes. One of the most promising environments for detecting novel processes, enzymes, and microbial diversity is hot springs. We examined potential biases introduced by DNA preservation and extraction methods by comparing the quality, quantity, and diversity of environmental DNA samples preserved and extracted by commonly used methods. We included samples from sites representing the spectrum of environmental conditions that are found in Yellowstone National Park thermal features. Samples preserved in a non-toxic sucrose lysis buffer (SLB), along with a variation of a standard DNA extraction method using CTAB resulted in higher quality and quantity DNA than the other preservation and extraction methods tested here. Richness determined using DGGE revealed that there was some variation within replicates of a sample, but no statistical difference among the methods. However, the sucrose lysis buffer preserved samples extracted by the CTAB method were 15-43% more diverse than the other treatments.     

Comparison of DNA extraction methods for the PCR-single-strand-conformation polymorphism analysis of kefir

Experiments were performed to determine the influence of three DNA extraction methods (i.e. lysozyme, sonication and CTAB methods) from kefir on the microbial diversity analysis by PCR-single strand conformation polymorphism (PCR-SSCP). The results showed that the band of DNA extracted using CTAB was clearer than that using other methods. In addition, the yield and purity of DNA extracted using CTAB were the highest and reached, respectively, 915 μg/ml and 1.694.The results from the experiments indicated that the CTAB-based DNA extraction method was the most efficient method for DNA extraction from kefir. The heterogeneity of PCR products, amplified from community DNA with universal primers spanning the V3 region of 16S rRNA genes, was analysed by using SSCP. The results showed that the SSCP profile based on the sonication method gave the highest microbial diversity of kefir. One conclusion from these results was that the DNA extraction method was an important factor affecting the SSCP-based microbial diversity analysis of kefir.     

Population Dynamics of Phenol-Degrading Bacteria in Activated Sludge Determined by gyrB-Targeted Quantitative PCR

A method for quantifying bacterial populations introduced into an activated-sludge microbial community is described. The method involves extraction of DNA from activated sludge, appropriate dilution of the extracted DNA with DNA extracted from nonintroduced activated sludge, PCR amplification of a gyrB gene fragment from the introduced strain with a set of strain-specific primers, and quantification of the electrophoresed PCR product by densitometry. The adequacy of the method was examined by analyzing the population dynamics of two phenol-degrading bacteria, Pseudomonas putida BH and Comamonas sp. strain E6, that had been introduced into phenol-digesting activated sludge. The density of each of the two populations determined by the PCR method immediately after the introduction was consistent with the density estimated from a plate count of the inoculum. This quantitative PCR method revealed different population dynamics for the two strains in the activated sludge under different phenol-loading conditions. The behavior of both of these strains in the activated sludge reflected the growth kinetics of the strains determined in laboratory axenic cultures.     

工业化废水处理反应器污泥总DNA提取方法

根据工业化废水处理反应器污泥特性,对常规的溶菌酶-SDS-酚/氯仿环境样品总DNA提取方法进行改进,增强样品预处理,强化细胞裂解,提高杂质去除效率,获得了一种工业化污泥总DNA提取的通用方法,并采用该方法对石家庄若干实际运行的工业化厌氧、好氧反应器的污泥样品进行了总DNA提取研究.结果表明,该方法对所选污泥样品均有效,具有普适性.提取的污泥总DNA杂质含量少,纯度高,A260/A280在1.8左右;提取效率较高.总DNA产率都在0.7 mg/g以上,最大产率可达0.85 mg/g.所提取的污泥总DNA可以直接作为模板进行PCR反应,PCR产物直接进行变性梯度凝胶电泳(DGGE),能够得到较好的DGGE谱图,表明该方法提取的污泥总DNA样品可满足后续分析研究的要求.     

A novel approach for extraction of PCR-compatible DNA from activated sludge samples collected from different biological effluent treatment plants

This paper describes a method that facilitates the extraction of PCR-compatible DNA from different activated sludge samples. The approach involves a novel preprocessing step in DNA extraction, which removes potential PCR inhibitors. The sludge was washed with different ratios of acetone and petroleum ether after pretreatment with 0.01% Tween-20 at 50 degrees C. It was observed that an initial washing step with 50 mM Tris-HCl, pH 9.0, before the detergent-solvent step, improved the quality of the extracted DNA. The extraction protocol resulted in amplifiable amounts of DNA when 10 mg of a sludge sample was used, even in the presence of phenol as a sludge contaminant. The usefulness of the extracted template was demonstrated by carrying out different PCR reactions. The random amplified polymorphic DNA (RAPD) patterns demonstrated the diversity of sludge samples.     

Thermal Gradient Gel Electrophoresis Analysis of Bioprotection from Pollutant Shocks in the Activated Sludge Microbial Community

We used a culture-independent approach, namely, thermal gradient gel electrophoresis (TGGE) analysis of ribosomal sequences amplified directly from community DNA, to determine changes in the structure of the microbial community following phenol shocks in the highly complex activated sludge ecosystem. Parallel experimental model sewage plants were given shock loads of chlorinated and methylated phenols and simultaneously were inoculated (i) with a genetically engineered microorganism (GEM) able to degrade the added substituted phenols or (ii) with the nonengineered parental strain. The sludge community DNA was extracted, and 16S rDNA was amplified and analyzed by TGGE. To allow quantitative analysis of TGGE banding patterns, they were normalized to an external standard. The samples were then compared with each other for similarity by using the coefficient of Dice. The Shannon index of diversity, H, was calculated for each sludge sample, which made it possible to determine changes in community diversity. We observed a breakdown in community structure following shock loads of phenols by a decrease in the Shannon index of diversity from 1.13 to 0.22 in the noninoculated system. Inoculation with the GEM (Pseudomonas sp. strain B13 SN45RE) effectively protected the microbial community, as indicated by the maintenance of a high diversity throughout the shock load experiment (H decreased from 1.03 to only 0.82). Inoculation with the nonengineered parental strain, Pseudomonas sp. strain B13, did not protect the microbial community from being severely disturbed; H decreased from 1.22 to 0.46 for a 3-chlorophenol–4-methylphenol shock and from 1.03 to 0.70 for a 4-chlorophenol–4-methylphenol shock. The catabolic trait present in the GEM allowed for bioprotection of the activated sludge community from breakdown caused by toxic shock loading. In-depth TGGE analysis with similarity and diversity algorithms proved to be a very sensitive tool to monitor changes in the structure of the activated sludge microbial community, ranging from subtle shifts during adaptation to laboratory conditions to complete collapse following pollutant shocks.     

Membrane biofouling characterization: effects of sample preparation procedures on biofilm structure and the microbial community

Ensuring the quality and reproducibility of results from biofilm structure and microbial community analysis is essential to membrane biofouling studies. This study evaluated the impacts of three sample preparation factors (ie number of buffer rinses, storage time at 4°C, and DNA extraction method) on the downstream analysis of nitrifying biofilms grown on ultrafiltration membranes. Both rinse and storage affected biofilm structure, as suggested by their strong correlation with total biovolume, biofilm thickness, roughness and the spatial distribution of EPS. Significant variations in DNA yields and microbial community diversity were also observed among samples treated by different rinses, storage and DNA extraction methods. For the tested biofilms, two rinses, no storage and DNA extraction with both mechanical and chemical cell lysis from attached biofilm were the optimal sample preparation procedures for obtaining accurate information about biofilm structure, EPS distribution and the microbial community.     

Comparison of DNA extraction methods for analysis of turkey cecal microbiota

AIM: As a prelude to long-term studies to characterize the microbiota of the turkey ceca, 14 DNA isolation protocols were evaluated for their ability to reproducibly characterize microbial diversity. METHODS AND RESULTS: Eight commercially available DNA extraction kits were assessed. DNA quantity and quality were assessed and competitive PCR was used to quantify the 16S bacterial rRNA genes. The Invitrogen Easy-DNA Kit extraction method for large samples yielded over eight times more DNA than any other method (3144 +/- 873 microg g(-1) of sample, P < 0.05). Bacterial and fungal species richness was estimated by Automated Ribosomal Intergenic Spacer Analysis. The Invitrogen Easy-DNA Kit generated the greatest bacterial species richness (46 +/- 7 peaks) while Bio-Rad Aquapure yielded the highest fungal species richness (71 +/- 9.5 peaks). CONCLUSION: Cluster analysis indicated different DNA extraction methods generated different microbial community compositions using the same cecal matrix from a single donor bird. SIGNIFICANCE AND IMPACT OF THE STUDY: Optimized DNA extraction protocols Invitrogen Easy-DNA Kit extraction method for large samples and Bio-Rad Aquapure outperform other methods for extraction of DNA from poultry fecal samples, although these methods do not necessarily recover all available DNA. They will be used in future studies to monitor the dynamics of microbial communities of the avian ceca.