Phylogenetic Analysis of Microbial Diversity in the Rhizoplane of Oilseed Rape (Brassica napus cv. Westar) Employing Cultivation-Dependent and Cultivation-Independent Approaches

The structure of the microbial rhizoplane community of the important crop plant oilseed rape was studied by using a culture-dependent as well as a culture-independent approach based on 16S rDNA amplification. After isolation of the microbial community from the rhizoplane of oilseed rape (Brassica napus cv. Westar), the collected suspension was divided into two parts. One part was used for cultivation of bacteria onto three different growth media to establish a culture collection. From the other part of the rhizoplane suspension, genomic DNA was isolated and purified. Thereafter, 16S rDNA was amplified by PCR and cloned to obtain a library of 16S rDNA genes representative for the bacterial communities of this habitat. Phylogenetic 16S rDNA sequence analysis of 103 clones of this library revealed considerable differences from the corresponding nucleotide sequences of 111 cultured bacteria. Whereas the 16S rDNA clone library was dominated by a-Proteobacteria and bacteria of the Cytophaga-Flavobacterium-Bacteroides (CFB) phylum (51% and 30%, respectively), less than 17% of the cultured bacteria belonged to these two groups. More than 64% of the cultivated isolates were allocated to the b- and g-subclasses of the Proteobacteria, which were present in the clone library at about 14%. Most of the clones of the a-Proteobacteria of the library showed highest similarity to Bradyrhizobium sp. No such bacteria were found in the culture collection. Similarly, the second dominant group of the clone library comprising members of the CFB phylum was represented in the culture collection by a single isolate. The phylogenetic analysis of isolates of the culture collection clearly emphasized the need to use different growth media for recovery of rhizoplane bacteria. Whereas most of the a-Proteobacteria were recovered on complex medium, most of the b-Proteobacteria were isolated onto minimal media. Our results demonstrate that the combined approach pursued in this paper is necessary to explore the biodiversity of bacterial rhizoplane communities.     

A molecular phylogenetic survey of sea-ice microbial communities (SIMCO)

16S rDNA clone library analysis was used to identify bacterial biodiversity in a variety of sea-ice microbial communities (SIMCO). DNA was extracted from seven Antarctic sea-ice samples and one Arctic sea-ice sample and 16S rDNA PCR-amplified using universal and Archaea-specific primers. Recombinant 16S rDNA clones were obtained and dereplicated using restriction fragment length polymorphism analysis (RFLP). After RFLP analysis, 100 distinct phylotypes (a unique clone or group of clones with sequence similarity of >0.98) were defined. From the clone libraries 16S rDNA sequences of bacterial and eukaryotic origin were detected, however Archaea were not detected either with universal or Archaea-specific 16S rDNA primer sets. Bacterial phylotypes grouped within the alpha and gamma proteobacteria, the Cytophaga-Flavobacterium-Bacteroides division, the Gram-Positive bacteria and the orders Chlamydiales and Verrucomicrobiales. The majority of bacterial phylotypes were affiliated with heterotrophic taxa and many grouped closely with cultivated genera and species. Eukaryotic clones were affiliated with a variety of autotrophic and heterotrophic nanoplankton and included a large number of chloroplast 16S rDNA genes. The findings of this investigation corroborated culture data indicating bacterial biodiversity increased in SIMCO displaying high levels of primary production, however the bacterial communities within SIMCO were highly heterogeneous at the genus/species-level between different samples. A comparison of Antarctic and Arctic SIMCO revealed certain sea-ice dwelling bacterial genera are common at both poles.     

水环境细菌16S rNDA限制性片段长度多型性及群落结构分析

用细菌16S核菌体RNA基因（rDNA）限制性片段长度多型性描述了水环境细菌群落结构。从环境水样中直接分离DNA,以细菌特异的引物扩增16S rDNA。构建质粒文库,随机分离重组质粒,用限制性内切酶消化获得16S rDNA基因型,用基因型的种类及频率描述特定水体生境的细菌群落结构,该方法在分析水体隐含遗传多样性、揭示污染的生物学效应和评价水环境质量等方面具有重要的应用价值。     

应用rpoB和16S rDNA基因的变性梯度凝胶电泳技术对山羊瘤胃细菌多样性的研究

采用免培养的rpoB和16S rDNA基因的变性梯度凝胶电泳技术(DGGE)对3种山羊(波尔山羊,内蒙古绒山羊,四川南江黄羊)瘤胃细菌优势菌群结构进行了比较分析。研究结果显示rpoBDGGE图谱中条带数目少于16S rDNA图谱,并且条带分离效果明显,更有利于分析瘤胃细菌群落组成。从两种DGGE图谱中均可以发现3种山羊瘤胃细菌具有一定的相似性,种内个体间相似性明显高于种间相似性,这说明寄主品种是影响瘤胃细菌种群构成的一个重要因素。同时进行了部分优势细菌16S rDNA基因V6-V8区序列的系统发育分析。基因序列分析表明,DGGE图谱中优势条带的16S rDNA基因序列中有4条克隆的序列与基因库最相似菌的相似性大于97%,余下的克隆序列相似性在89%～96%之间,其中13条序列的与之相似性最高的序列均来自于未被鉴定的瘤胃细菌。     

太湖地区典型菜地土壤微生物16S rDNA的PCR-RFLP分析

土壤微生物多样性是土壤生态功能的基础,但长期以来缺乏对高强度土地利用条件下的土壤微生物多样性的认识.作者采用间接法提取了江苏省太湖地区典型菜地土壤微生物的总DNA,以细菌的通用引物27F和1492R扩增16S rDNA片段,将扩增产物与T-载体酶连,转化大肠杆菌,建立土壤微生物16S rDNA克隆文库.PCR扩增基因文库中插入的16S rDNA外源片段,用两种限制性内切酶Hha I和Rsa I分别酶切,获得该土壤173个克隆的酶切指纹图谱.结果表明,Hha I和Rsa I联合酶切产生了63个基因分型,文库的覆盖度达76.30%,单一酶切产生的基因分型少,但文库的覆盖度高;克隆文库中存在两种优势类群,分别占总克隆的16%和12%.16S rDNA测序结果表明,太湖地区菜地土壤细菌在分类方面主要属于α-和γ-变形杆菌亚门.以上结果为进一步研究太湖地区菜地土壤微生物生态功能提供了基础资料.     

Identification of pathogenic Helicobacter species by chaperonin-60 differentiation on plastic DNA arrays

A microarray method for bacterial species identification based on cpn60 and 16S rDNA hybridization was developed. Specific cpn60 or 16S rDNA oligonucleotides from various Helicobacter or Campylobacter species were printed and immobilized onto a proprietary plastic solid support. Using universal primers, fragments derived from either cpn60 or 16S rDNA genes from single isolates or from a complex human waste sludge DNA sample spiked with Helicobacter pylori were biotinylated and hybridized to the plastic slide. Subsequent querying with a streptavidin-horseradish peroxidase conjugate followed by color development using tetramethylbenzidine resulted in accurate Helicobacter species identification with no cross-hybridization to either the 16S rDNA or the cpn60 sequence of a closely related strain of Campylobacter jejuni. The combination of a nonfluorescence visual detection system with a polymer-based DNA microarray slide has resulted in a molecular tool that should prove useful in numerous applications requiring rapid, low-cost bacterial species identification.     

Bacterial diversity in the bulk soil and rhizosphere fractions of Lolium perenne and Trifolium repens as revealed by PCR restriction analysis of 16S rDNA

The rhizosphere of Trifolium repens and Lolium perenne was divided into three fractions: the bulk soil, the soil adhering to the roots and the washed roots (rhizoplane and endorhizosphere). After isolation and purification of DNA from these fractions, 16S rDNA was amplified by PCR and cloned to obtain a collection of 16S rRNA genes representative of the bacterial communities of these three fractions. The genes were then characterized by PCR restriction analysis. Each different profile was used to define an operational taxonomic unit (OTU). The numbers of OTUs and the numbers of clones among these OTUs allowed to calculate a diversity index. The number of OTUs decreased as root proximity increased and a few OTUs became dominant, resulting in a lower diversity index. In the root fraction of T. repens, the restriction profile of the dominant OTU matched the theoretical profile of the 16S rRNA gene of Rhizobium leguminosarum. This study showed that plant roots create a selective environment for microbial populations.     

A molecular approach to search for diversity among bacteria in the environment

Molecular 16S rDNA-based techniques were applied to a peat sample from northern Germany in order to investigate the bacterial diversity present and compare the clone sequences with those obtained from similar studies on other terrestrial samples. Genomic DNA was extracted from the peat matrix by a direct lysis procedure. 16S rRNA genes were amplified using PCR primers targeting conserved regions of bacterial 16S rDNA. 16S rDNA fragments were blunt end cloned into a plasmid vector and the resulting clone library of 262 sequences was screened by hybridization with different oligonucleotide probes and sequence analysis of randomly selected clones. The 16S rDNA insert of 76 clones was partially sequenced. Clones identified either by hybridization or by sequence analysis fell into three phyla. As judged by hybridization with a specific oligonucleotide probe, 42% of the clones represented members of the alpha subclass of Proteobacteria. Twenty-five of these clones were selected randomly for sequence analysis; none could be assigned to any of the known genera of this subclass. The second largest clone group comprises 15% of the clones and clusters aroundAcidimicrobium ferrooxidans andRubrobacter radiotolerans, both of which are remotely related to members of the order Actinomycetales. The third major clone cluster (10%) was moderately to remotely related to theAcidobacterium capsulatum phylum. Of the additional clones sequenced, a few could be assigned to other subclasses ofProteobacteria, theVerrucomicrobium phylum and the phylum of spirochetes. Comparison of the results presented here with those from other environments reveals a significant number of common clone clusters. As the vast majority of sequences retrieved from any of the marine and terrestrial samples investigated so far by molecular methods indicate the presence of novel bacterial species it can be assumed that a huge, as yet untapped biotechnological potential is present in the environment.     

Comprehensive detection of bacterial populations by PCR amplification of the 16S-23S rRNA spacer region

PCR amplification of the spacer region between the 16S and 23S rRNA genes is commonly employed for the analysis of bacterial communities. In this analysis, the intergenic spacers are amplified by PCR using primers complementary to conserved regions in the 3' 16S rDNA and 5' 23S rDNA. By this method, the observation of every bacterial population may be limited by several causes. To explore the extent of bacterial populations overlooked by this method, we have used an empirical approach. In a sample containing about 50 colonies, we tested the capability to amplify by PCR the spacers from each colony. We also examined the ability to observe the spacers from each colony in the product obtained after amplification of the DNA extracted from the whole sample, as it is usually performed by this method. Contrarily to our expectations that a significant fraction of colonies would not yield amplification products, spacers were successfully amplified from every colony of two different samples examined. Overall, our results suggest that in spite of well-based theoretical limitations, the analysis of bacterial communities by amplification of the spacer regions can render a comprehensive representation of the more abundant bacterial clades in the sample.     

Mathematical modeling of 16S ribosomal DNA amplification reveals optimal conditions for the interrogation of complex microbial communities with phylogenetic microarrays

MOTIVATION: Many current studies of complex microbial communities rely on the isolation of community genomic DNA, amplification of 16S ribosomal RNA genes (rDNA) and subsequent examination of community structure through interrogation of the amplified 16S rDNA pool by high-throughput sequencing, phylogenetic microarrays or quantitative PCR. RESULTS: Here we describe the development of a mathematical model aimed to simulate multitemplate amplification of 16S ribosomal DNA sample and subsequent detection of these amplified 16S rDNA species by phylogenetic microarray. Using parameters estimated from the experimental results obtained in the analysis of intestinal microbial communities with Microbiota Array, we show that both species detection and the accuracy of species abundance estimates depended heavily on the number of PCR cycles used to amplify 16S rDNA. Both parameters initially improved with each additional PCR cycle and reached optimum between 15 and 20 cycles of amplification. The use of more than 20 cycles of PCR amplification and/or more than 50 ng of starting genomic DNA template was, however, detrimental to both the fraction of detected community members and the accuracy of abundance estimates. Overall, the outcomes of the model simulations matched well available experimental data. Our simulations also showed that species detection and the accuracy of abundance measurements correlated positively with the higher sample-wide PCR amplification rate, lower template-to-template PCR bias and lower number of species in the interrogated community. The developed model can be easily modified to simulate other multitemplate DNA mixtures as well as other microarray designs and PCR amplification protocols.     

Application of nested polymerase chain reaction for the detection of as yet uncultured organisms of the class Actinobacteria in environmental samples

Different groups of as yet uncultured, phylogenetically deeply rooting organisms of the class Actinobacteria have been shown previously by analysis of 16S rDNA clone libraries to be present in different soil and marine environments of worldwide distribution. In order to monitor specifically the occurrence of two of the actinobacterial groups among bacterial DNA extracted from different environments, a nested polymerase chain reaction (PCR) method, aiming at the sensitive detection of 16S rDNA, was used. Analysis of a clone library generated from one of these 16S rDNA-derived, group-specific PCR products of DNA from a forest soil broadened the spectrum of putative taxa within the two phylogenetic groups. Application of this PCR system demonstrated the presence of these organisms in natural environments and in a sample of dried and moistened peat. Fluctuations in the detectability of the target groups in different samples from the same site strongly suggest that the taxon diversity of a 16S rDNA clone library must be regarded as a temporal genomic snapshot taken from this environmental community.     

垃圾填埋场渗滤液中古细菌群落16S rRNA基因的ARDRA分析

利用特异性的引物对,选择性扩增垃圾填埋场渗滤液中古细菌群落的18S rRNA基因片断,在此基础上建立16S rDNA克隆文库,经古细菌通用寡核苷酸探针的原位杂交筛选后,克隆文库内古细菌16S rDNA扩增片断的多样性通过ARDRA分析（amplified rDNA restriction analysis)而获得,利用PCR将各组重克隆子内的16S rDNA外源片断再扩增出来后,两种限制性内切酶－Hha I和HaeⅢ－被分别用于16S rDNA克隆片断的限制酶切分析,结果表明,随机选出的70个古细菌16S rDNA克隆片断被妥为21个不同的ARDRA型（组）,其中的两个优势型总共占了所有被分析克隆子的60％,而其余19个型的相对丰度均处于较低的水平,当中的14个型更仅含有1个克隆子,通过对16S rRNA基因的PCR扩增,克隆及其ARDRA分析,能快速地获得有关填埋场渗滤液中古细菌群落的结构及其多样性的初步信息。     

新疆野生胀果甘草内生细菌多样性的非培养初步分析

摘要：【目的】了解新疆野生甘草内生细菌多样性,为开发新的微生物资源奠定基础。【方法】采用改进的CTAB (十六烷基三甲基溴化铵)法提取新疆野生胀果甘草根部总DNA,利用细菌16S rDNA 基因通用引物对甘草总DNA 进行16S rDNA 基因扩增,构建甘草内生细菌16S rDNA基因文库;挑选具有不同酶切图谱的克隆进行测序、比对并构建16S rDNA 基因系统发育树。【结果】构建的甘草内生细菌16S rDNA基因文库中, 150个克隆分属于32个不同的分类单元,Blast结果表明大部分克隆与已知细菌的16S rDNA基因序列相似性较高,分别归属于变形杆菌门(Proteobacteria)的alpha、gamma亚群,厚壁菌门(Firmicutes),放线菌门(Actinobacteria),拟杆菌门(Bacteroidetes)中的鞘脂菌属(Sphingobium),叶杆菌属(Phyllobacterium),生丝单胞菌属(Hyphomonas),土壤杆菌属(Agrobacterium)等14个属, 其中26%的克隆与已知细菌16S rDNA 基因相似性小于96%,可能代表新的分类单元.【结论】甘草内生细菌多样性丰富且存在尚未被认识的新物种。     

A rapid method for extraction and purification of DNA from dental plaque.

A rapid method based on previously described DNA extraction procedures was developed for the isolation of DNA from dental plaque samples. The isolated DNA is suitable for use in the PCR. Freeze-thawing, cell wall-degrading enzymes, and guanidine isothiocyanate were used to lyse cells and release DNA. The released DNA was adsorbed onto diatomaceous earth and purified by washing with guanidine isothiocyanate, ethanol, and acetone. The purified DNA was released from the diatomaceous earth into an aqueous buffer and analyzed by PCR with 16S rDNA primers (rDNA is DNA coding for rRNA). As judged from studies with pure cultures of a number of bacterial species, gram-negative and gram-positive organisms were lysed equally well by this procedure. The amount of PCR product was proportional to the number of cells analyzed over the range tested, 500 to 50,000 cells. On the basis of studies with plaque samples that were spiked with known quantities of the oral bacterium Treponema denticola, the DNA prepared from plaque was free of substances inhibitory to PCR. This method should have utility in molecular genetic studies of bacterial populations not only in uncultured plaque samples but also in other complex bacterial assemblages.     

The CIC library: a large insert YAC library for genome mapping in Arabidopsis thaliana

A new Arabidopsis thaliana (ecotype Columbia) genomic library has been constructed in Yeast Artificial Chromosomes: the CIC library (for CEPH, INRA and CNRS). Optimization of plant culture conditions and protoplast preparation allowed the recovery of large amounts of viable protoplasts. Mechanical shearing of DNA was minimized by isolation of DNA from protoplasts embedded in agarose. Cloning of large inserts was favored by including two successive size fractionation steps (after partial Eco RI digestion and after ligation with the vector arms), which selected DNA fragments larger than 350 kb. The library consists of 1152 clones with an average insert size of 420 kb. Clones carrying chloroplast DNA and various nuclear repeated sequences have been identified. Twenty-one per cent of the clones are found to contain chloroplast DNA. Therefore, the library represents around four nuclear genome equivalents. The clones containing 5S rDNA genes, 18S-25S rDNA sequences and the 180 bp paracentromeric repeated element account for 3.6%, 8.9% and 5.8%, respectively. Only one clone was found to carry the 160 bp paracentromeric repeated element. Given the smaller size of clones carrying Arabidopsis repeated DNA, the average size of remaining clones is around 480 kb. The library was screened by PCR amplification using pairs of primers corresponding to sequences dispersed in the genome. Seventy out of 76 pairs of primers identified from one to seven YAC clones. Thus at least 92% of the genome is represented in the CIC library. The survey of the library for clones containing unlinked DNA sequences indicates that the proportion of chimeric clones is lower than 10%.     

Phylogenetic analysis of the bacterial communities in marine sediments.

For the phylogenetic analysis of microbial communities present in environmental samples microbial DNA can be extracted from the sample, 16S rDNA can be amplified with suitable primers and the PCR, and clonal libraries can be constructed. We report a protocol that can be used for efficient cell lysis and recovery of DNA from marine sediments. Key steps in this procedure include the use of a bead mill homogenizer for matrix disruption and uniform cell lysis and then purification of the released DNA by agarose gel electrophoresis. For sediments collected from two sites in Puget Sound, over 96% of the cells present were lysed. Our method yields high-molecular-weight DNA that is suitable for molecular studies, including amplification of 16S rRNA genes. The DNA yield was 47 micrograms per g (dry weight) for sediments collected from creosote-contaminated Eagle Harbor, Wash. Primers were selected for the PCR amplification of (eu)bacterial 16S rDNA that contained linkers with unique 8-base restriction sites for directional cloning. Examination of 22 16S rDNA clones showed that the surficial sediments in Eagle Harbor contained a phylogenetically diverse population of organisms from the Bacteria domain (G. J. Olsen, C. R. Woese, and R. Overbeek, J. Bacteriol. 176:1-6, 1994) with members of six major lineages represented: alpha, delta, and gamma Proteobacteria; the gram-positive high G+C content subdivision; clostridia and related organisms; and planctomyces and related organisms. None of the clones were identical to any representatives in the Ribosomal Database Project small subunit RNA database. The analysis of clonal representives in the first report using molecular techniques to determine the phylogenetic composition of the (eu)bacterial community present in coastal marine sediments.     

Factors Affecting Interpretation of Restriction Fragment Length Polymorphism (RFLP) Patterns from PCR-Amplified Bacterial 16S rRNA Genes: Operon Number and Primer Mismatching

PCR methods have been shown to be biased by several factors. In the present study, we have developed a theoretic and practical approximation to elucidate how the presence of mismatches at the primers annealing regions and the different number of rDNA operons per cell can influence PCR and subsequent restriction fragment length polymorphism (RFLP) analyses from bacterial populations. We have performed RFLP analyses of 16S rRNA genes amplified by PCR from mixed bacterial cultures showing different primer identities and number of rDNA operons. Our results clearly corroborate that both factors, number of rDNA operons and primers identity, clearly influence the 16S rDNA-RFLP estimations. It has been demonstrated that a higher number of operons leads to a higher efficiency of detection, but a lower degree of primer complementarity implies a decrease in such efficiency.     

Molecular diversity of bacterial communities from subseafloor rock samples in a deep-water production basin in Brazil

The deep subseafloor rock in oil reservoirs represents a unique environment in which a high oilcontamination and very low biomass can be observed. Sampling this environment has been a challenge owing to the techniques used for drilling and coring. In this study, the facilities developed by the Brazilian oil company PETROBRAS for accessing deep subsurface oil reservoirs were used to obtain rock samples at 2,822-2,828 m below the ocean floor surface from a virgin field located in the Atlantic Ocean, Rio de Janeiro. To address the bacterial diversity of these rock samples, PCR amplicons were obtained using the DNA from four core sections and universal primers for 16S rRNA and for APS reductase (aps) genes. Clone libraries were generated from these PCR fragments and 87 clones were sequenced. The phylogenetic analyses of the 16S rDNA clone libraries showed a wide distribution of types in the domain bacteria in the four core samples, and the majority of the clones were identified as belonging to Betaproteobacteria. The sulfate-reducing bacteria community could only be amplified by PCR in one sample, and all clones were identified as belonging to Gammaproteobacteria. For the first time, the bacterial community was assessed in such deep subsurface environment.     

Extraction of inhibitor-free metagenomic DNA from polluted sediments, compatible with molecular diversity analysis using adsorption and ion-exchange treatments

PCR inhibitor-free metagenomic DNA of high quality and high yield was extracted from highly polluted sediments using a simple remediation strategy of adsorption and ion-exchange chromatography. Extraction procedure was optimized with series of steps, which involved gentle mechanical lysis, treatment with powdered activated charcoal (PAC) and ion-exchange chromatography with amberlite resin. Quality of the extracted DNA for molecular diversity analysis was tested by amplifying bacterial 16S rDNA (16S rRNA gene) with eubacterial specific universal primers (8f and 1492r), cloning of the amplified 16S rDNA and ARDRA (amplified rDNA restriction analysis) of the 16S rDNA clones. The presence of discrete differences in ARDRA banding profiles provided evidence for expediency of the DNA extraction protocol in molecular diversity studies. A comparison of the optimized protocol with commercial Ultraclean Soil DNA isolation kit suggested that method described in this report would be more efficient in removing metallic and organic inhibitors, from polluted sediment samples.     

Study of bacterial communities in Antarctic coastal waters by a combination of 16S rRNA and 16S rDNA sequencing

An ecological study on distribution of Antarctic bacterial communities was determined by 16S-based phylogenetic analyses of clone libraries derived from RNA and DNA extracted from two different marine areas and compared between each other. Superficial seawater samples were collected from four stations in Ross Sea, three of them located in Rod Bay and one in Evans Cove; for each station two clone libraries (16S rDNA and 16S rRNA) were prepared and evident divergences between DNA and RNA libraries of each site were obtained. Of all phylotypes 93.6% were found in RNA libraries; in contrast, only 31 phylotypes (70.5%) were retrieved from total microbial community (DNA libraries). DNA and RNA sequences related to gamma-Proteobacteria and Bacteroidetes groups, typical for Antarctic sea-ice bacterial communities, were detected in analysed sites. 16S rDNA and rRNA libraries derived from the two different areas were enriched by picophytoplanktonic 16S sequences of plastid and mitochondrion origins, reflecting that the algal blooms occurred during sampling (Antarctic summer 2003). The finding in Rod Bay libraries of high percentage of DNA clones apparently affiliated with beta-Proteobacteria typical for activated sludges and well water could be explained by the presence of a sewage depuration system at this site. Obtained results clearly demonstrate that combination of 16S rDNA and 16S rRNA gene sequencing is preferred approach to have a more reliable vision on the composition of microbial communities.