用PCR指纹图技术分析焦化废水接触氧化池中悬浮污泥和生物膜的微生物种群组成

目的:应用分子生物学方法,以处理焦化工业废水(A2/O生物膜工艺)中的悬浮污泥和生物膜的微生物群落作为研究对象,分析不同环境微生物群落的组成差异.方法:首先提取群落的总DNA,获得ERIC-PCR和LP-RAPD指纹图谱并进行对比分析,然后结合群落探针杂交的技术,检查同样迁移率的条带的序列同源性,运用UVIBAND/MAP软件比较所得群落指纹图谱的相似性指数,从而可以得到群落差异的量化结果.结果:焦化废水接触氧化池中,悬浮污泥和生物膜的微生物群落组成存在相当大的差异.结论:通过这种差异的比较分析,有可能让我们更准确地了解氧化池中微生物的群落组成情况,有利于分析其与系统功能的关系.     

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.     

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。     

DG-DGGE分析产氢发酵系统微生物群落动态及种群多样性

应用双梯度-变性梯度凝胶电泳(DG-DGGE)对生物制氢反应器微生物种群的动态变化及多样性进行监测。间隔7d从反应器取厌氧活性污泥,以细菌16SrDNA通用引物进行V2～V3区域PCR扩增,长约450bp的PCR产物经DGGE分离后,获得污泥微生物群落的16SrDNA指纹图谱。污泥接种到反应器后微生物群落中既有原始种群的消亡和增长,也有次级种群的强化和演变。反应器在运行初期群落演替迅速,15d时微生物群落结构变化最大。群落结构的相似性随着演替时间的增加而逐渐升高,种群动态变化后形成稳定的群落结构。29d时微生物多样性基本保持不变,微生物优势种属达到19个OTU。在细菌竞争和协同作用制约下,种群多样性降低后趋于稳定,形成顶级群落。有些种群在群落结构中一直存在,是群落建成的原始种群,原始种群与次级种群在代谢过程中具有协同作用,表现出群落的综合生态特征。     

ERIC-PCR分子杂交技术分析大熊猫肠道菌群结构

目的了解大熊猫肠道微生物区系结构的相似性和稳定性,并找出大熊猫肠道微生物群落结构的变化与健康状况的关系。方法对上海动物园及上海野生动物园所饲养的3只大熊猫2次采集的粪便样品进行微生物群落总DNA的抽提,并以此为模板获得反映肠道微生物群落结构特征的ERIC—PCR和Southern杂交指纹图谱,比较各DNA样品指纹图谱的相似性指数。结果除国庆(大熊猫)的第1次采集的样品(当时处于腹泻状态),其他各DNA样品的ERIC-PCR及Southern杂交指纹图谱的相似性都达到85％～100％;佳斯及川川(大熊猫)2个个体2次采集的样品之间ERIC指纹图谱的相似性分别为93％和87％,而国庆腹泻时的样品与健康时的样品之间则为71％。结论大熊猫不同个体之间肠道微生物群落结构比较相似,而且同一个体在不同时期表现出比较高的稳定性,但当个体的健康出现问题时肠道优势菌菌群结构有一定波动。所采用的DNA提取方法、ERIC—PCR和Southern杂交指纹图谱的高度重复性证明了之一分子生态学技术在大熊猫肠道微生物区系动态监测中的可行性。     

PCR-DGGE技术分析染整废水微生物群落多样性

旨在揭示水解酸化-生物接触氧化工艺处理染整废水过程中的微生物多样性.取初级沉淀池,水解酸化池,生物接触氧化池和二沉池的活性污泥,通过细胞裂解直接提取基因组DNA,以细菌通用引物进行16S rRNA基因V3区域PCR扩增,将PCR产物进行变性梯度凝胶电泳,获得微生物群落的DNA特征指纹图谱,并对条带进行统计分析和切胶测序,进行了同源性分析并建立了系统发育树.研究表明,整个水处理过程中含有丰富的微生物群落,其中初级沉淀池、水解酸化池、二沉池和生物接触氧化池的污泥样品分别测出36条带、42条带、30条带和29条带.不同区段微生物群落间相似度最高达68％,最低达42.4％,说明群落间演替明显,不同工艺区段既存在共同的微生物种属也存在特异微生物种属.     

PCR-DGGE技术用于湖泊沉积物中微生物群落结构多样性研究

采用PCR-DGGE分子指纹图谱技术比较南京市玄武湖、奠愁湖和太湖不同位置的表层沉积物微生物群落结构,研究结果表明,三湖泊沉积物微生物的16SrDNA的PCR扩增结果约为626bp,为16S rDNA V3～V5区特异性片段。玄武湖和莫愁湖表层沉积物中大约有20种优势菌群,且同一湖泊不同采样点DGGE图谱的差异性不大,细菌群落结构具有较高的相似性,而太湖样品DGGE条带的数目和位置表现出明显差异,且不同采样点图谱的差异性较大。三湖泊除具有特征性的微生物种属外,还分布约5个相同的细菌种群,可能与沉积物的理化性质和水生植被的影响相关。对DGGE图谱中7条主带进行回收、扩增和测序,结果显示其优势菌群具有不同的序列组成,其中5个序列与Genebank中已登录的细菌种群的同源性≥99％,2个序列的同源性为96％和93％,其中2个相似的细菌类群目前尚未获得纯培养。     

基于ERIC-PCR技术研究酪蛋白糖巨肽对小鼠肠道菌群结构的影响

目的了解酪蛋白糖巨肽(CGMP)对小鼠肠道中微生物群落结构及其动态变化的影响。方法采用ER IC-PCR技术分析鉴定在灌胃小鼠CGMP期间其肠道菌群结构的变化情况。在实验的第0、3、5、7、10、15和21天(灌胃停止后1周)分别提取对照组和CGMP组小鼠粪便总DNA,以此为模板进行PCR反应,获得肠道微生物群落的ER IC-PCR指纹图谱。结果小鼠个体在一段时间内微生物群落演替不明显,群落相似性较高。对照组小鼠肠道菌群多样性指数范围为1.75±0.06,CGMP组多样性指数范围为1.89±0.04,二者之间差异有统计学意义。结论小鼠肠道内的微生物群落非常丰富,普遍存在共有的优势菌群,且优势菌群的群落结构较为稳定;CGMP能够显著增加小鼠肠道菌群的多样性;聚类分析结果显示:对照组小鼠个体在不同时间的肠道菌群结构相似性较高,且ER IC-PCR指纹图谱没有明显的规律;CGMP组小鼠个体的ER IC-PCR指纹图谱被明显地分成2个亚族,说明小鼠灌胃CGMP 3~5 d后,其肠道菌群的群落结构开始发生明显变化。     

基于PLFA指纹图谱表征浓香型酒糟醅微生物群落结构

以9株白酒酿造过程中常见的菌株为对象,研究了不同种属菌株的细胞膜特征组分磷酸脂肪酸(PLFA)的特征,以及检出量与菌株生物量之间的关系.结果表明:供试细菌、放线菌、霉菌和酵母菌的PLFA指纹图谱存在显著差异,各菌株的PLFA指纹图谱可作为区别种属的依据.不同供试菌株生物量在一定范围内与检出的总PLFA量或16:0含量呈线性关系.将不同生物量的革兰氏阳性菌G+、革兰氏阴性菌G-和真菌分别加入糟醅后,检出的PLFA相对含量与对照差异显著.基于PLFA的指纹图谱能够定量或半定量地表征糟醅微生物群落结构特征及动态变化.经对多家酿酒企业糟醅PLFA组成的检测及微生物群落结构的剖析,该方法具有普适性.     

转HrpN的工程菌E4对水稻根际细菌群落结构的影响*

采用单一碳源回收菌群的方法与ERIC PCR方法相结合 ,检测水稻 (Oryzasativa L )根际施用转基因微生物E4(EnterobacteriacloacaeE4)后 ,其根际微生物的群落结构和多样性的变化 ,进而推测转基因微生物E4在田间施用的安全性。结果表明 :转基因微生物E4施用到水稻根际后 ,水稻根际的代谢指纹图谱和DNA指纹图谱都发生了改变 ,采用southernblot ting检测显示 :E4成为根际的优势菌 ,这对植物生长有利 ,应该不会造成不利的影响     

ERIC-PCR-based strain-specific detection of phenol-degrading bacteria in activated sludge of wastewater treatment systems

Aims:  To evaluate the use of Enterobacterial Repetitive Intergenic Consensus PCR (ERIC-PCR)-derived probes and primers to specifically detect bacterial strains in an activated sludge microbial community.
Methods and Results:  ERIC-PCR was performed on two phenol-degrading bacterial strains, Arthrobacter nicotianae P1-7 and Klebsiella sp. P8-14. Their amplicons were DIG labelled for use as probes and then hybridized with ERIC-PCR fingerprints. The results showed the distinct band patterns for both bacterial strains. Strain-specific PCR primers were designed based on the sequences of ERIC-PCR bands. The DNA of each of these strains was successfully detected from its mixture with activated sludge DNA, either by using their respective ERIC-PCR-based probes for hybridization or by using species-specific primers for amplification, with higher sensitivity by latter method.
Conclusions:  Two phenol-degrading bacterial strains were identified from a mixture of activated sludge by using ERIC-PCR-based methods.
Significance and Impact of the Study:  The study demonstrated that the bacteria, which have important functions in complex wastewater treatment microbial communities, could be specifically detected by using ERIC-PCR fingerprint-based hybridization or amplification.     

ERIC-PCR fingerprinting-based community DNA hybridization to pinpoint genome-specific fragments as molecular markers to identify and track populations common to healthy human guts

Bacterial populations common to healthy human guts may play important roles in human health. A new strategy for discovering genomic sequences as markers for these bacteria was developed using Enterobacterial Repetitive Intergenic Consensus (ERIC)-PCR fingerprinting. Structural features within microbial communities are compared with ERIC-PCR followed by DNA hybridization to identify genomic fragments shared by samples from healthy human individuals. ERIC-PCR profiles of fecal samples from 12 diseased or healthy human and piglet subjects demonstrated stable, unique banding patterns for each individual tested. Sequence homology of DNA fragments in bands of identical size was examined between samples by hybridization under high stringency conditions with DIG-labeled ERIC-PCR products derived from the fecal sample of one healthy child. Comparative analysis of the hybridization profiles with the original agarose fingerprints identified three predominant bands as signatures for populations associated with healthy human guts with sizes of 500, 800 and 1000 bp. Clone library profiling of the three bands produced 17 genome fragments, three of which showed high similarity only with regions of the Bacteroides thetaiotaomicron genome, while the remainder were orphan sequences. Association of these sequences with healthy guts was validated by sequence-selective PCR experiments, which showed that a single fragment was present in all 32 healthy humans and 13 healthy piglets tested. Two fragments were present in the healthy human group and in 18 children with non-infectious diarrhea but not in eight children with infectious diarrhea. Genome fragments identified with this novel strategy may be used as genome-specific markers for dynamic monitoring and sequence-guided isolation of functionally important bacterial populations in complex communities such as human gut microflora.     

TGGE分析焦化废水处理系统活性污泥细菌种群动态变化及多样性

应用TGGE指纹图谱技术对两个曝气池细菌种群的动态变化及多样性进行了研究。每3d进行1次,共8个监测时期中同一曝气池活性污泥的16SrDNAV3-PCRTGGE指纹图谱基本一致,图谱间的相似性系数(Cs)为100％。同一曝气池不同位点活性污泥的TGGE指纹图谱也完全一致。功能不同曝气池活性污泥TGGE指纹图谱存在差异,Cs为83．3％。对TJ1活性污泥TGGE图谱中9条主要条带回收、扩增、克隆建库,每个条带选4个转化子进行序列分析,结果显示TGGE条带是由序列不同的片段组成。32个序列在97％的相似性下分成16个分类操作单元(OTU),14个OTU与GenBank中已登录的细菌种群的同源性≥97％,2个OTU的同源性为95％和94％。与10个OTU同源性较高的细菌类群是在活性污泥或污染环境分离或发现的,与8个OTU相似的细菌类群目前尚无法分离培养。     

Direct comparison of single-strand conformation polymorphism (SSCP) and denaturing gradient gel electrophoresis (DGGE) to characterize a microbial community on the basis of 16S rRNA gene fragments

Characterization of microbial communities using single-strand conformation polymorphism (SSCP) was compared with that using denaturing gradient gel electrophoresis (DGGE). This comparison was based on the V3-4 region (Escherichia coli positions: 341-806) of 16S rRNA gene of bacterial or archaeal communities obtained from a methanogenic bioreactor. Significant differences in the bacterial banding profiles were observed while attempting to detect the diversity of the community and its succession during the reactor operation. The SSCP produced a number of sharp bands and differentiated the bacterial community structures to which the DGGE gave an identical pattern. On the other hand, the SSCP and DGGE provided similar succession patterns for archaeal community.     

ERIC-PCR及其指纹图谱技术的研究

肠杆菌基因间重复共有序列（Enterobacterial repetitive intergenic consensus,ERIC）是主要存在于肠道细菌中的一类基因间重复序列,长度为127 bp,该序列在肠道细菌染色体上的分布和拷贝数有种间的特异性。根据ERIC序列建立的ERIC-PCR实际上是一种半随机性质的PCR,广泛应用于细菌分型、流行病学调查和分子微生态学研究。本文简介了ERIC-PCR反应的特点及其应用的原理,详细阐述目前广泛应用的ERIC-PCR琼脂糖凝胶电泳（PCR-PCR-AGE）技术的不足,指出该方法所获电泳图谱中相同位置的DNA条带可能包括不同的DNA序列,指纹图谱分析时可能夸大模板DNA的相似性。强调ERIC-PCR变性梯度凝胶电泳（PCR-PCR-DGGE）技术是其应用的一个新方向,所得的指纹图谱能够更加敏感、准确、有效地展示底物序列的差异,其中的DNA条带不需测序就可直接用于科研和生产实践中。     

Methanoculleus spp. as a biomarker of methanogenic activity in swine manure storage tanks

Greenhouse gas emissions represent a major problem associated with manure management in the livestock industry. A prerequisite to mitigate methane emissions occurring during manure storage is a clearer understanding of how the microbial consortia involved in methanogenesis function. Here, we have examined manure stored in outdoor tanks from two different farms, at different locations and depths. Physico-chemical and microbiological characterization of these samples indicated differences between each tank, as well as differences within each tank dependent on the depth of sampling. The dynamics of both the bacterial and archaeal communities within these samples were monitored over a 150-day period of anaerobic incubation to identify and track emerging microorganisms, which may be temporally important in the methanogenesis process. Analyses based on DNA fingerprinting of microbial communities identified trends common among all samples as well as trends specific to certain samples. All archaeal communities became enriched with Methanoculleus spp. over time, indicating that the hydrogenotrophic pathway of methanogenesis predominated. Although the emerging species differed in samples obtained from shallow depths compared to deep samples, the temporal enrichment of Methanoculleus suggests that this genus may represent a relevant indicator of methanogenic activity in swine manure storage tanks.     

Biodiversity analysis of microbial community in the chem-bioflocculation treatment process

Total DNA was directly extracted from environmental samples and amplified with polymerase chain reaction (PCR) technique. The PCR products were fingerprinted via denaturing gradient gel electrophoresis (DGGE). Significant differences were observed in the microbial community structures between traditional treatment process and chem-bioflocculation process. The microbial community structure shift at different sampling locations in chem-bioflocculation process and on two typical operational conditions was studied. 16S rDNA V3 regions of some dominant species were sequenced and the species were identified. The microbial communities were stable in both the chem-bioflocculation process and the activated sludge process under various experimental conditions presented in this work. The attached growth treatment process was less stable when operational conditions changed.     

Limited Bacterial Diversity within a Treatment Plant Receiving Antibiotic-Containing Waste from Bulk Drug Production

Biological treatment of waste water from bulk drug production, contaminated with high levels of fluoroquinolone antibiotics, can lead to massive enrichment of antibiotic resistant bacteria, resistance genes and associated mobile elements, as previously shown. Such strong selection may be boosted by the use of activated sludge (AS) technology, where microbes that are able to thrive on the chemicals within the wastewater are reintroduced at an earlier stage of the process to further enhance degradation of incoming chemicals. The microbial community structure within such a treatment plant is, however, largely unclear. In this study, Illumina-based 16S rRNA amplicon sequencing was applied to investigate the bacterial communities of different stages from an Indian treatment plant operated by Patancheru Environment Technology Limited (PETL) in Hyderabad, India. The plant receives waste water with high levels of fluoroquinolones and applies AS technology. A total of 1,019,400 sequences from samples of different stages of the treatment process were analyzed. In total 202, 303, 732, 652, 947 and 864 operational taxonomic units (OTUs) were obtained at 3% distance cutoff in the equilibrator, aeration tanks 1 and 2, settling tank, secondary sludge and old sludge samples from PETL, respectively. Proteobacteria was the most dominant phyla in all samples with Gammaproteobacteria and Betaproteobacteria being the dominant classes. Alcaligenaceae and Pseudomonadaceae, bacterial families from PETL previously reported to be highly multidrug resistant, were the dominant families in aeration tank samples. Despite regular addition of human sewage (approximately 20%) to uphold microbial activity, the bacterial diversity within aeration tanks from PETL was considerably lower than corresponding samples from seven, regular municipal waste water treatment plants. The strong selection pressure from antibiotics present may be one important factor in structuring the microbial community in PETL, which may affect not only resistance promotion but also general efficiency of the waste treatment process.     

Study of microbial community structures in UASB sludge treating municipal wastewater by denaturing gradient gel electrophoresis of 16S rDNA

The structures of microbial communities in lab-scale upflow anaerobic sludge blanket (UASB) reactors for treating municipal wastewater with different ratios of COD soluble/COD total were studied using denaturing gradient gel electrophoresis (DGGE) of 16S rRNA genes.The microbial structure of the inoculum sludge obtained from a full-scale UASB reactor of treating potato processing wastewater was compared with the structures of sludges collected from three lab-scale UASB reactors after eight months feeding with raw municipal wastewater, with CEPS (chemically enhanced primary sedimentation) pretreated municipal wastewater, and with a synthetic municipal sewage, respectively. Computer-aided numerical analysis of the DGGE fingerprints showed that the bacterial community underwent major changes. The sludges for treating raw and CEPS pretreated wastewater had very similar bacterial and archaeal communities (82%and 96% similarity) but were different from that for treating the synthetic sewage. Hence, despite similar % COD in the particulate form in the synthetic and the real wastewater, the two wastewaters were selected for different microbial communities. Prominent DGGE bands of Bacteria and Archaea were purified and sequenced. The 16S rRNA gene sequences of the dominant archaeal bands found in the inoculum, and UASB sludge fed with raw sewage, CEPS pretreated wastewater, and synthetic sewage were closely associated with Methanosaeta concilii. In the UASB sludge fed with synthetic sewage, another dominant band associated with an uncultured archaeon 39-2 was found together with M. concilii.