垃圾填埋场中厌氧真菌18SrDNA的PCR扩增及鉴定

采用机械破壁法直接从来自7个不同地区的垃圾填埋场滤液样本中提取真菌DNA,应用真菌通用引物NS1和NS8扩增18SrDNA（约1800bp),多聚酶链式反应（PCR）产物的琼脂糖凝胶电泳结果表明所有的样本均得到了扩增;以PCR产物作为模板,采用厌氧真菌Chytridiomycetes科的专用引物Chyt-719和Chyt-1553进行二次PCR扩增（约857bp),该阳性扩增产物克隆和测序结果首次表明在食草动物瘤胃中存在的厌氧真菌Chytridiomycetes也存在于垃圾填埋场中,且为Neocallimastix属。     

分子生物学方法在水体微生物生态研究中的应用

微生物是生态系统的重要组成部分,研究水体中微生物的多样性和群落结构对于开发微生物资源、进行水体生物修复具有重要意义。现代分子生物学的发展为研究水体微生物提供了行之有效的方法。综述了16S rDNA文库构建、变性梯度凝胶电泳、限制性片段长度多态性、末端标记限制性片段长度多态性等技术的原理以及在水体微生物研究中的主要应用。     

现代分子生物学技术在冰川微生物生态研究中的应用

研究冰川中微生物的多样性对于揭示环境气候变迁,研究生物进化,开发微生物资源具有重要意义,现代分子生物学的发展为研究冰川微生物的多样性提供了行之有效的方法.简要综述了16S rDNA文库构建、变性梯度凝胶电泳、限制性片段长度多态性和荧光原位杂交等技术的原理及在冰川微生物生态研究中的应用现状.     

DNA指纹图谱技术在土壤微生物多样性研究中的应用

土壤中的微生物多样性是十分丰富的,传统培养方法对土壤微生物多样性的研究有很大局限性。近年来,各种基于16S rDNA基因的指纹图谱分析技术取得了长足的进步,并广泛应用于土壤微生物多样性的研究。这些技术主要有变性梯度凝胶电泳(DGGE)/温度梯度凝胶电泳(TGGE)、单链构象多态性(SSCP)、随机引物扩增多态性DNA(RAPD)、限制性片段长度多态性(RFLP)和扩增核糖体DNA限制性分析(ARDRA)等。对这些技术近年来在土壤微生物多样性研究领域的应用予以简短综述,并初步探讨未来几年土壤微生物分子生态学发展的方向。     

变性梯度凝胶电泳(DGGE)在微生物生态学中的应用

由于从环境样品中分离和培养细菌的困难,分子生物学方法已发展用来描述和鉴定微生物群落。近年来基于DNA方法的群落分析得到了迅速的发展,如PCR扩增技术,克隆文库法,荧光原位杂交法,限制性酶切片段长度多态性法,变性和温度梯度凝胶电泳法。DGGE已广泛用于分析自然环境中细菌、蓝细菌,古菌、微微型真核生物、真核生物和病毒群落的生物多样性。这一技术能够提供群落中优势种类信息和同时分析多个样品。具有可重复和容易操作等特点,适合于调查种群的时空变化,并且可通过对切下的带进行序列分析或与特异性探针杂交分析鉴定群落成员。DGGE分析微生物群落的一般步骤如下：一是核酸的提取,二是16S rRNA,18S rRNA或功能基因如可容性甲烷加单氧酶羟化酶基因(mmoX)和氨加单氧酶a一亚单位基因(amoA)片段的扩增,三是通过DGGE分析PCR产物。DGGE使用具有化学变性剂梯度的聚丙烯酰胺凝胶,该凝胶能够有区别的解链PCR扩增产物。由PCR产生的不同的DNA片段长度相同但核苷酸序列不同。因此不同的双链DNA片段由于沿着化学梯度的不同解链行为将在凝胶的不同位置上停止迁移。DNA解链行为的不同导致一个凝胶带图案,该图案是微生物群落中主要种类的一个轮廓。DGGE使用所有生物中保守的基因片段如细菌中的16S rRNA基因片段和真菌中的18S rRNA基因片段。然而同其他分子生物学方法一样,DGGE也有缺陷,其中之一是只能分离较小的片段,使用于系统发育分析比较和探针设计的序列信息量受到了限制。在某些情况下,由于所用基因的多拷贝导致一个种类多于一条带,因此不易鉴定群落结构到种的水平。此外,该技术具有内在的如单一细菌种类16S rDNA拷贝之间的异质性问题,可导致自然群落中微生物数量的过多估计。DGGE是分析微生物群落的一种有力的工具。不过为了减少DGGE和其它技术的缺陷,建议研究者结合DGGE和其它分子及微生物学方法以便更详细的观察微生物的群落结构和功能。     

贡嘎蝠蛾幼虫肠道细菌多样性分析

[目的]对实验室养殖条件下的重要经济昆虫冬虫夏草寄主-贡嘎蝠蛾(Hepialus gonggaensis,Hg)幼虫肠道微生物群落的多样性进行了研究.[方法]采用常规分离培养与分子鉴定的方法和基于16S rRNA作为分子标记的变性梯度凝胶电泳(denaturing gradient gel electrophoresis,DGGE)的方法.[结果]用常规分离与分子鉴定方法获得8个属的细菌类群,其中肠杆菌属(Enterobacter)是优势菌群,肉食杆菌属(Carnobacterium)是次优势菌群.对通过DGGE方法得到的11条16S rRNA优势条带序列进行了比对和系统进化树分析,结果表明肉食杆菌属(Carnobacterium)的丰度最高,是肠道细菌中主要的优势菌群,芽孢杆菌属(Bacillus)是次优势菌群.DGGE图谱还显示Hg幼虫不同虫龄肠道细菌菌群的结构存在差异,推测可能与其发育生理状态的差异有关系.[结论]结合常规分离法与DGGE法能够更有效的分析肠道微生物的多样性,获得更多更全面的微生物多样性信息.     

生物造粒流化床污水处理反应器的微生物多样性

为了研究生物造粒流化床污水处理反应器颗粒污泥的微生物种群多样性,分别从生物造粒流化床10、60和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,PCR扩增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,对特征条带进行序列测定及序列同源性分析。16S rRNA序列分析表明,获得的18个OTUs均属于细菌域,其中61%属于变形菌,17%属于放线菌,11%属于低G C革兰氏阳性菌,11%属于其它未知细菌。     

Effects of disodium fumarate on ruminal fermentation and microbial communities in sheep fed on high-forage diets

This study was conducted to investigate effects of disodium fumarate (DF) on fermentation characteristics and microbial populations in the rumen of Hu sheep fed on high-forage diets. Two complementary feeding trials were conducted. In Trial 1, six Hu sheep fitted with ruminal cannulae were randomly allocated to a 2 × 2 cross-over design involving dietary treatments of either 0 or 20 g DF daily. Total DNA was extracted from the fluid- and solid-associated rumen microbes, respectively. Numbers of 16S rDNA gene copies associated with rumen methanogens and bacteria, and 18S rDNA gene copies associated with rumen protozoa and fungi were measured using real-time PCR, and expressed as proportion of total rumen bacteria 16S rDNA. Ruminal pH decreased in the DF group compared with the control (P < 0.05). Total volatile fatty acids increased (P < 0.001), but butyrate decreased (P < 0.01). Addition of DF inhibited the growth of methanogens, protozoa, fungi and Ruminococcus flavefaciens in fluid samples. Both Ruminococcus albus and Butyrivibrio fibrisolvens populations increased (P < 0.001) in particle-associated samples. Trial 2 was conducted to investigate the adaptive response of rumen microbes to DF. Three cannulated sheep were fed on basal diet for 2 weeks and continuously for 4 weeks with supplementation of DF at a level of 20 g/day. Ruminal samples were collected every week to analyze fermentation parameters and microbial populations. No effects of DF were observed on pH, acetate and butyrate (P > 0.05). Populations of methanogens and R. flavefaciens decreased in the fluid samples (P < 0.001), whereas addition of DF stimulated the population of solid-associated Fibrobacter succinogenes. Population of R. albus increased in the 2nd to 4th week in fluid-associated samples and was threefold higher in the 4th week than control week in solid samples. Analysis of denaturing gradient gel electrophoresis fingerprints revealed that there were significant changes in rumen microbiota after adding DF. Ten of 15 clone sequences from cut-out bands appearing in both the 2nd and the 4th week were 94% to 100% similar to Prevotella-like bacteria, and four sequences showed 95% to 98% similarity to Selenomonas dianae. Another 15 sequences were obtained from bands, which appeared in the 4th week only. Thirteen of these 15 sequences showed 95% to 99% similarity to Clostridium sp., and the other two showed 95% and 100% similarity to Ruminococcus sp. In summary, the microorganisms positively responding to DF addition were the cellulolytic bacteria, R. albus, F. succinogenes and B. fibrisolvens as well as proteolytic bacteria, B. fibrisolvens, P. ruminicola and Clostridium sp.     

传统分离培养结合DGGE法检测榨菜腌制过程的细菌多样性

采用传统分离培养和基于16S rRNA 作为分子标记的变性梯度凝胶电泳(Denaturing gradient gel electrophoresis, DGGE)的方法, 分析榨菜腌制过程中不同时期的可培养细菌数量、多样性及其群落结构。结果表明, 用传统分离与分子鉴定方法获得7个属的细菌类群, 其中乳杆菌属(Acidobacterium)是优势菌群, 明串珠菌属(Leuconostoc)是次优势菌群。对通过DGGE方法得到的11条16S rRNA优势条带序列进行了比对, 结果表明明串珠菌属(Leucon     

Assessment of Microbial Populations Dynamics in a Blue Cheese by Culturing and Denaturing Gradient Gel Electrophoresis

The composition and development of microbial population during the manufacture and ripening of two batches of a blue-veined cheese was examined by culturing and polymerase chain reaction (PCR) denaturing gradient gel electrophoresis (DGGE) (PCR-DGGE). Nine selective and/or differential media were used to track the cultivable populations of total and indicator microbial groups. For PCR-DGGE, the V3 hyper variable region of the bacterial 16S rRNA gene and the eukaryotic D1 domain of 28S rDNA were amplified with universal primers, specific for prokaryotes and eukaryotes, respectively. Similarities and differences between the results obtained by the culturing and the molecular method were recorded for some populations. Culturing analysis allows minority microbial groups (coliforms, staphylococci) to be monitored, although in this study PCR-DGGE identified a population of Streptococcus thermophilus that went undetected by culturing. These results show that the characterization of the microbial populations interacting and evolving during the cheese-making process is improved by combining culturing and molecular methods.     

昆明盐矿古老岩盐沉积中的原核生物多样性

应用PCR-DGGE和rRNA分析法研究了昆明盐矿古老岩盐沉积中的原核生物多样性。样品的细菌DGGE分析得到27条带,古菌得到18条带。样品与纯培养得到的19个属菌株的DGGE图谱对比分析发现,细菌18个属菌株,只有1个属菌株与样品中的1条带迁移位置都不一致;古菌1个属的菌株不与样品中任何条带迁移位置一致。表明纯培养所得菌株并非该环境中的优势类群。同时,建立了样品细菌和古菌的16S rDNA克隆文库,从中分别挑取36个细菌克隆和20个古菌克隆进行ARDRA分析。细菌可分为10个OTUs,其中3个OTUs是优势类群,分别占38.9%,25.0%,16.7%,其余7个OTUs各含有1个克隆。古菌分为8个OTUs,没有明显的优势类群。每个OTU的代表克隆16S rDNA序列分析表明,细菌分属3大类群:α-Proteobacteria,γ-Proteobacteria和Actinobacteria,以Pseudomonas属菌为优势,含有其它岩盐沉积中没有发现的Actinobacteria。古菌主要是Halorubrum属、Haloterrigena属菌和未培养古菌。本研究表明,昆明盐矿古老岩盐沉积具有较丰富的原核生物多样性,含有大量未知的、未培养或不可培养的原核生物,但在原核生物物种组成和丰度上,免培养与此前的纯培养研究结果存在一定差异。因此,结合使用两类方法才能较全面地认识高盐极端环境微生物的多样性。     

Picobenthic cyanobacterial populations revealed by 16S rRNA-targeted in situ hybridization

We report on the morphological identification of a population of benthic cyanobacteria from microbial mats, known previously only from molecular analyses of field samples, based on the retrieval of environmental 16S rRNA sequences. We used in situ hybridization with horseradish peroxidase-labelled oligonucleotide probes designed to target the 16S rRNA of our unidentified population. Two probes were designed and checked for target binding ability and specificity using membrane hybridization against electroblotted bands from a denaturant gradient gel electrophoresis (DGGE) fingerprint of 16S rDNA gene fragments from the original cyanobacterial community. Under in situ hybridization, these probes bound specifically to extremely small, unicellular, colony-forming cyanobacteria, 0.75-1 microm in diameter, which were embedded in abundant mucilaginous investments. We propose the term picobenthos, by analogy with picoplankton, to describe those unicellular benthic microbes around or less than 1 microm in diameter. Although picoplanktonic cyanobacteria are abundant in ocean and freshwaters, picobenthic (<1 microm) unicellular cyanobacteria are not typically recognized as a major component of microbial mats. The small size and low levels of photopigment autofluorescence from these cells probably rendered them cryptic or indistinguishable from heterotrophic bacteria in routine microscopic observations. It is not known how widespread picobenthic cyanobacteria may be in other environments.     

利用时间进程法优化活性污泥DG-DGGE图谱

目的:为了探讨电泳时间对双梯度-变性梯度凝胶电泳(DG-DGGE)分析活性污泥样品时的影响。方法:提取污泥DNA后,以通用引物338f/534r扩增16S rDNA序列,采用时间进程法优化PCR扩增产物的DG-DGGE分离效果。结果:采用不同电泳时间进行DGGE分析时,DGGE图谱存在显著的差异。16S rDNA V3区(200 bp)在凝胶梯度6%~12%,变性剂梯度30%~60%时,在200V电压下,最佳电泳时间为5h。     

Molecular Characterization of Microbial Population Dynamics during Sildenafil Citrate Degradation

Little is known about pharmaceutical and personal care products pollutants (PPCPs), but there is a growing interest in how they might impact the environment and microbial communities. The widespread use of Viagra (sildenafil citrate) has attracted great attention because of the high usage rate, the unpredictable disposal and the unknown potential effects on wildlife and the environment. Until now information regarding the impact of Viagra on microbial community in water environment has not been reported. In this research, for the first time, the genetic profile of the microbial community, developing in a Viagra polluted water environment, was evaluated by means of the 16S and 18S rRNA genes, for bacteria and fungi, respectively, amplified by polymerase chain reaction (PCR) and separated using the denaturing gradient gel electrophoresis (DGGE) technique. The DGGE results revealed a complex microbial community structure with most of the population persisting throughout the experimental period. DNA sequences from bands observed in the different denaturing gradient gel electrophoresis profiles exhibited the highest degree of identity to uncultured bacteria and fungi found previously mainly in polluted environmental and treating bioreactors. Biotransformation ability of sildenafil citrate by the microbial pool was studied and the capability of these microorganisms to detoxify a polluted water ecosystem was assessed. The bacterial and fungal population was able to degrade sildenafil citrate entirely. Additionally, assays conducted on Daphnia magna, algal growth inhibition assay and cell viability determination on HepG2 human cells showed that biotransformation products obtained from the bacterial growth was not toxic. The higher removal efficiency for sildenafil citrate and the lack of toxicity by the biotransformation products obtained showed that the microbial community identified here represented a composite population that might have biotechnological relevance to retrieve sildenafil citrate contaminated sites.     

DGGE/TGGE技术在土壤微生物分子生态学研究中的应用

传统的微生物生态学研究方法只限于环境样品中极少部分(0.1%￣1%)可培养的微生物类群,极大程度地限制了对土壤微生物群落结构的研究。综述了以16S rDNA为主要研究对象的DGGE/TGGE(Denaturing gradientgel electrophoresis,DGGE/Temperature gradient gel electrophoresis,TGGE)技术原理,以其为主要手段结合PCR扩增、克隆建库、序列测定以及种系分析对土壤微生物的群落结构和多样性研究的最新动态。DGGE/TGGE技术极大地推动了土壤微生物分子生态学的发展,同时也为实际问题的诊断、作物生长跟踪监测等提供了技术支撑,在土壤微生物分子生态学研究和生产实践中起着越来越重要的作用。     

应用变性梯度凝胶电泳和16SrDNA序列分析对kefir粒中细菌多样性的研究

以开菲尔（Kefir）粒为材料,经过DNA抽提和16SrDNA V3区PCR扩增,扩增产物经变性梯度凝胶电泳（DGGE）分离并切割电泳条带进行序列测定,并与现有的数据库进行了比较,对Kefir粒的细菌多样性进行分析。结果表明,DGGE图谱中可检测到的8条带的16SrDNA基因序列中有7个基因序列与GenBank数据库登录的相关序列的相似性大于98％,余下的1个基因序列的相似性也大于96％。相似性大于98％的7个克隆中,有3个属于鞘氨醇杆菌属（Sphingobacterium）,2个属于乳杆菌属（Lactobacillus）,其它2个分别属于肠杆菌属（Errterobacter）和不动杆菌属（Acinetobacter）。首次报道了鞘氨醇杆菌作为优势菌群存在开菲尔Kefir粒中。     

应用变性梯度凝胶电泳和16S rDNA序列分析对kefir粒中细菌多样性的研究

以开菲尔(Kefir)粒为材料,经过DNA抽提和16S rDNA V3区PCR扩增,扩增产物经变性梯度凝胶电泳(DGGE)分离并切割电泳条带进行序列测定,并与现有的数据库进行了比较,对Kefir粒的细菌多样性进行分析。结果表明,DGGE图谱中可检测到的8条带的16S rDNA基因序列中有7个基因序列与GenBank数据库登录的相关序列的相似性大于98%,余下的1个基因序列的相似性也大于96%。相似性大于98%的7个克隆中,有3个属于鞘氨醇杆菌属(Sphingobacterium),2个属于乳杆菌属(Lactobacillus),其它2个分别属于肠杆菌属(Enterobacter)和不动杆菌属(Acinetobacter)。首次报道了鞘氨醇杆菌作为优势菌群存在开菲尔Kefir粒中。     

Burning Fire-Prone Mediterranean Shrublands: Immediate Changes in Soil Microbial Community Structure and Ecosystem Functions

Wildfires subject soil microbes to extreme temperatures and modify their physical and chemical habitat. This might immediately alter their community structure and ecosystem functions. We burned a fire-prone shrubland under controlled conditions to investigate (1) the fire-induced changes in the community structure of soil archaea, bacteria and fungi by analysing 16S or 18S rRNA gene amplicons separated through denaturing gradient gel electrophoresis; (2) the physical and chemical variables determining the immediate shifts in the microbial community structure; and (3) the microbial drivers of the change in ecosystem functions related to biogeochemical cycling. Prokaryotes and eukaryotes were structured by the local environment in pre-fire soils. Fire caused a significant shift in the microbial community structure, biomass C, respiration and soil hydrolases. One-day changes in bacterial and fungal community structure correlated to the rise in total organic C and NO(3)(-)-N caused by the combustion of plant residues. In the following week, bacterial communities shifted further forced by desiccation and increasing concentrations of macronutrients. Shifts in archaeal community structure were unrelated to any of the 18 environmental variables measured. Fire-induced changes in the community structure of bacteria, rather than archaea or fungi, were correlated to the enhanced microbial biomass, CO(2) production and hydrolysis of C and P organics. This is the first report on the combined effects of fire on the three biological domains in soils. We concluded that immediately after fire the biogeochemical cycling in Mediterranean shrublands becomes less conservative through the increased microbial biomass, activity and changes in the bacterial community structure.