A rapid method for high throughput DNA extraction from plant material for PCR amplification

A rapid and reliable method is described for high throughput extraction of DNA from plant material using glass beads in a flat-bottomed microtitre plate. This procedure is quick, inexpensive, and allows up to 96 samples to be processed in parallel. PCR products produced by the recovered DNA are consistently equivalent to those produced through traditional extraction methods.     

3 次连续重复提取DNA 能较好反映土壤微生物丰度

【目的】研究同一个土壤需要反复提取几次才能在最大程度上反映土壤微生物的丰度,探讨风干土壤代替新鲜土壤用于微生物丰度研究的可行性。【方法】针对两种理化性质具有较大差异的旱地和稻田新鲜土壤及其风干土壤,分别对土壤微生物进行5次连续裂解提取DNA。通过实时荧光定量PCR技术分析连续反复提取对土壤古菌和细菌16S rRNA gene数量、氨氧化古菌和细菌功能基因amoA数量的影响。【结果】3次连续提取DNA占5次提取DNA总量的76%以上,氨氧化古菌、氨氧化细菌、古菌和细菌4类微生物的3次连续提取最低回收率为77.5%;与新鲜土壤相比,风干处理导致氨氧化古菌、氨氧化细菌、古菌、细菌的数量分别降低84.3%、81.2%、12.5%和90.3%,然而,2种土壤风干过程中主要微生物类群的数量变化规律基本一致,表明土壤微生物对风干处理的响应可能受土壤类型的影响较小。【结论】土壤微生物连续3次裂解能较好反映微生物丰度。与新鲜土壤相比,风干过程显著降低了土壤微生物丰度,然而,通过风干土壤中微生物丰度的变化趋势反映新鲜土壤中微生物数量变化规律具有一定的可行性。     

Ammonia-oxidizing bacteria dominates over ammonia-oxidizing archaea in a saline nitrification reactor under low DO and high nitrogen loading

A continuous nitrification reactor treating saline wastewater was operated for almost 1 year under low dissolved oxygen (DO) levels (0.15-0.5 mg/L) and high nitrogen loadings (0.26-0.52 kg-N/(m(3) day)) in four phases. The diversity and abundance of ammonia-oxidizing archaea (AOA) and ammonia-oxidizing bacteria (AOB) were analyzed by cloning, terminal restriction fragment length polymorphism (T-RFLP) and quantitative polymerase chain reaction (qPCR). The results showed that there were only one dominant AOA species and one dominant AOB species in the reactor in all of the four experimental phases. The amoA gene of the dominant AOA only had a similarity of 89.3% with the cultured AOA species Nitrosopumilus maritimus SCM1. All of the AOB species detected in the reactor belong to Nitrosomonas genus and it was found that the AOB populations changed with the ammonium loadings and DO levels. The abundance of AOB in the reactor was ～40 times larger than that of AOA, and the ratio of AOB to AOA increased significantly up to ～2,000 to ～4,000 with the increase of ammonium loading, indicating that AOB are much more competitive than AOA in high ammonium environments and probably AOA play a less important role than AOB in the nitrification reactors.     

人工湿地氮去除关键功能微生物生态学研究进展

人工湿地是一种能有效处理水体氮素污染的生态技术,其中微生物是驱动人工湿地系统中氮素去除的重要引擎。近20年来,随着分子生物学技术的广泛应用,有关人工湿地氮去除功能微生物生态学方面研究取得了一些重要进展。以硝化-反硝化作用和厌氧氨氧化作用这两种重要的人工湿地微生物脱氮途径为主,针对氨氧化细菌/古菌、厌氧氨氧化菌和反硝化菌等关键脱氮功能微生物的研究,重点归纳总结了目前有关这几类关键功能菌群在人工湿地中的丰度、活性、多样性、分布特征与影响因素,及其对废水中氮去除的作用,并在此基础上对今后的重点研究工作提出了展望。面向未来人工湿地氮去除关键功能微生物的研究应侧重其在污水净化和温室气体减排等方面的生态功能研究,同时加强其代谢过程与机制以及不同功能菌群间的关联研究。     

A rapid and inexpensive method for the direct PCR amplification of DNA from plants

? Premise of the study: We present a rapid and inexpensive alternative to DNA isolation for polymerase chain reaction (PCR) amplification from plants. ? Methods and Results: The method involves direct PCR amplification from material macerated in one buffer, followed by dilution and incubation in a second buffer. We describe the procedure and demonstrate its application for nuclear and plastid DNA amplification across a broad range of vascular plants. ? Conclusions: The method is fast, easy to perform, cost-effective, and consequently ideal for large sample numbers. It represents a considerable simplification of present approaches requiring DNA isolation prior to PCR amplification and will be useful in plant systematics and biotechnology, including applications such as DNA barcoding.     

Methods for microbial DNA extraction from soil for PCR amplification

Amplification of DNA from soil is often inhibited by co-purified contaminants. A rapid, inexpensive, large-scale DNA extraction method involving minimal purification has been developed that is applicable to various soil types (1). DNA is also suitable for PCR amplification using various DNA targets. DNA was extracted from 100g of soil using direct lysis with glass beads and SDS followed by potassium acetate precipitation, polyethylene glycol precipitation, phenol extraction and isopropanol precipitation. This method was compared to other DNA extraction methods with regard to DNA purity and size.     

A method for direct soil extraction and PCR amplification of endomycorrhizal fungal DNA

 DNA from endomycorrhizal fungi was extracted directly from a weathered soil (alfisol) mixed with sand. Mycorrhizae were established in a greenhouse culture of Glomus clarum with Sudan grass (Sorghum vulgare var. sudanense) host plants. The extraction procedure included enzymatic digestion of cell walls, sodium dodecyl sulfate lysis of cells, polyvinylpolypyrrolidone absorption of organic compounds, and ethanol precipitation of the DNA. DNA in the extracts was amplified by the polymerase chain reaction using primers from the nuclear 17S rRNA sequence that were general to fungi or were specific to endomycorrhizae. Accepted: 17 July 1996     

Climate change amplifies gross nitrogen turnover in montane grasslands of Central Europe in both summer and winter seasons

The carbon‐ and nitrogen‐rich soils of montane grasslands are exposed to above‐average warming and to altered precipitation patterns as a result of global change. To investigate the consequences of climatic change for soil nitrogen turnover, we translocated intact plant–soil mesocosms along an elevational gradient, resulting in an increase of the mean annual temperature by approx. 2 °C while decreasing precipitation from approx. 1500 to 1000 mm. Following three years of equilibration, we monitored the dynamics of gross nitrogen turnover and ammonia‐oxidizing bacteria (AOB) and archaea (AOA) in soils over an entire year. Gross nitrogen turnover and gene levels of AOB and AOA showed pronounced seasonal dynamics. Both summer and winter periods equally contributed to cumulative annual N turnover. However, highest gross N turnover and abundance of ammonia oxidizers were observed in frozen soil of the climate change site, likely due to physical liberation of organic substrates and their rapid turnover in the unfrozen soil water film. This effect was not observed at the control site, where soil freezing did not occur due to a significant insulating snowpack. Climate change conditions accelerated gross nitrogen mineralization by 250% on average. Increased N mineralization significantly stimulated gross nitrification by AOB rather than by AOA. However, climate change impacts were restricted to the 2–6 cm topsoil and rarely occurred at 12–16 cm depth, where generally much lower N turnover was observed. Our study shows that significant mineralization pulses occur under changing climate, which is likely to result in soil organic matter losses with their associated negative impacts on key soil functions. We also show that N cycling processes in frozen soil can be hot moments for N turnover and thus are of paramount importance for understanding seasonal patterns, annual sum of N turnover and possible climate change feedbacks.     

A rapid DNA extraction method for PCR identification of fungal indoor air contaminants

Following air sampling fungal DNA needs to be extracted and purified to a state suitable for laboratory use. Our laboratory has developed a simple method of extraction and purification of fungal DNA appropriate for enzymatic manipulation and Polymerase Chain Reaction (PCR) applications. The methodology described is both rapid and cost effective for use with multiple fungal organisms.     

一种快速提取基因组DNA的方法

采采用氧化硅超顺磁性纳米磁珠和自己设计的试剂体系及提取流程,建立了一种基因组DNA的快速提取方法,该方法以氧化硅磁珠为固相吸附载体,盐酸胍、 -巯基乙醇和SDS为主要裂解吸附试剂。以全血或培养细胞为实验材料进行基因组DNA的提取结果显示用本文建立的方法提取100 L小鼠抗凝血,可得2～3 g基因组DNA, OD260/OD280为1.8 ± 0.05,其纯度可满足后续的酶切和PCR生物操作要求。该方法整个提取过程只需12分钟,不需特殊实验条件同时可省略蛋白酶K的消化过程和离心操作,适用于一般实验室的需求,是一种操作简便、快速高效的提取方法。     

Experiments in DNA extraction and PCR amplification from bighorn sheep feces: the importance of DNA extraction method

Reliability of genotyping is an issue for studies using non-invasive sources of DNA. We emphasize the importance of refining DNA extraction methods to maximize reliability and efficiency of genotyping for such DNA sources. We present a simple and general method to quantitatively compare genotyping reliability of various DNA extraction techniques and sample materials used. For bighorn sheep (Ovis canadensis) fecal samples we compare different fecal pellet materials, different amounts of fecal pellet material, and the effects of eliminating two DNA extraction steps for four microsatellite loci and four samples heterozygous at each locus. We evaluated 192 PCR outcomes for each treatment using indices of PCR success and peak height (signal strength) developed from analysis output of sequencer chromatograms. Outermost pellet material produced PCR results almost equivalent to DNA extracted from blood. Where any inner pellet material was used for DNA extraction, PCR results were poorer and inconsistent among samples. PCR success was not sensitive to amount of pellet material used until it was decreased to 15 mg from 60 mg. Our PCR index provides considerably more information relative to potential genotyping errors than simply comparing genotypes derived from paired fecal and blood or tissue samples. Our DNA extraction method probably has wide applicability to herbivores that produce pelleted feces where samples dry rapidly after deposition.     

大量Pichia pastoris酵母基因组DNA的提取

巴斯德毕赤酵母(Pichia pastoris)表达系统是目前应用最广泛的外源基因表达系统之一,提取酵母基因组是研究酵母必需的方法之一.针对常用的几种毕赤酵母基因组DNA的制备方法进行比较,并对玻璃珠法进行改进.改良的玻璃珠法不但具有省时省力、操作简便且结果稳定的优,适合于大量DNA的提取.该方法的革新将对酵母重组子的PCR鉴定检测及表达产品DNA相关检测提供更高效稳定的保证,将成为酵母等类似微生物基因组DNA制备的首选方法.     

Method for rapid DNA extraction from bacterial communities of different soils

A method for indirect DNA extraction from various soils significantly differing in their physicochemical properties has been developed. The proposed method is based on cell desorption from soil particles using a Tris-EDTA (TE) buffer supplemented with polyvinylpolypyrrolydone (PVPP) and sodium dodecylsulfate (SDS). Methods for subsequent cell lysis and purification of DNA preparations based on alkaline lysis followed by chromatography on ion-exchange resins were described by us earlier. The purity of the DNA preparations obtained did not depend on the type of soil. It was shown that the DNA preparations can be used for the amplification of rather large fragments, e.g., sequences spanning the complete 16S rRNA gene.     

Method for rapid DNA extraction from bacterial communities of different soils

A method for indirect DNA extraction from various soils significantly differing in their physicochemical properties has been developed. The proposed method is based on cell desorption from soil particles using a Tris-EDTA (TE) buffer supplemented with polyvinylpolypyrrolydone (PVPP) and sodium dodecylsulfate (SDS). Subsequent cell lysis and purification of DNA preparations methods based on alkaline lysis followed by chromatography on ion-exchange resins were described by us earlier. The purity of the DNA preparations obtained did not depend on the type of soil. It was shown that the DNA preparations can be used for the amplification of rather large fragments, e.g., sequences spanning the complete 16S rRNA gene.     

A simple method of DNA extraction from whole tissues and blood using glass powder for detection of transgenic animals by PCR

A very simple and reliable method to extract DNA directly from mouse tail, rabbit ear and blood is described. Tissue was homogenized in a solution of NaI and the DNA was extracted using glass powder. The extracted DNA was obtained in sufficient quantity and purity to allow direct detection of transgene by PCR.     

Responses of community structure of amoA‐encoding archaea and ammonia‐oxidizing bacteria in ammonia biofilter with rockwool mixtures to the gradual increases in ammonium and nitrate

Aims

To investigate community shifts of amoA‐encoding archaea (AEA) and ammonia‐oxidizing bacteria (AOB) in biofilter under nitrogen accumulation process.

Methods and Results

A laboratory‐scale rockwool biofilter with an irrigated water circulation system was operated for 436 days with ammonia loading rates of 49–63 NH₃ g m^?3 day^?1. The AEA and AOB communities were investigated by denaturing gradient gel electrophoresis, sequencing and real‐time PCR analysis based on amoA genes. The results indicated that changes in abundance and community compositions occurred in a different manner between archaeal and bacterial amoA during the operation. However, both microbial community structures mainly varied when free ammonia (FA) concentrations in circulation water were increasing, which caused a temporal decline in reactor performance. Dominant amoA sequences after this transition were related to Thaumarchaeotal Group I.1b, Nitrosomonas europaea lineages and one subcluster within Nitrosospira sp. cluster 3, for archaea and bacteria, respectively.

Conclusions

The specific FA in circulation water seems to be the important factor, which relates to the AOB and AEA community shifts in the biofilter besides ammonium and pH.

Significance and Impact of the Study

One of the key factors for regulating AEA and AOB communities was proposed that is useful for optimizing biofiltration technology.     

一种快速高效提取病原真菌DNA作为PCR模板的方法

真菌rDNA-ITS序列分析适合于较高等级水平的生物群体间的系统分析。真菌DNA的提取采用传统的方法,步骤繁琐,需要较长时间。采用Chelex-100法提取真菌DNA,使用PCR扩增rDNA-ITS序列评价提取核酸的质量。结果显示,该方法具有经济、简便、快速、高效的特点,是一种比较理想的提取真菌基因组DNA作为PCR模板的方法。