链状亚历山大藻共附生细菌多样性

采用非分离培养分析方法,直接提取链状亚历山大藻（Alexandrium catenella）共附生细菌总DNA,以之为模板进行PCR扩增获得细菌16S rDNA基因片段,并构建16S rDNA克隆文库。通过16S rDNA限制性酶切片段长度多态性（restriction fragment length polymorphism,RFLP）和测序方法对链状亚历山大藻共附生细菌的多样性进行了研究。84个16S rDNA克隆片段经限制性内切酶HaeⅢ酶切分析,得到30种不同的酶切指纹类型。挑选50个克隆子进行测序获得其16S rDNA部分序列,并对16S rDNA序列进行聚类分析构建了系统进化树。结果表明,链状亚历山大藻共附生的细菌多样性较强,优势细菌类群为变形菌α亚群（α-Proteobacteria）和拟杆菌（Bacteroidetes）,其中玫瑰杆菌（Roseobacter sp.）在α-Proteobacteria中占绝对优势。     

广西水牛瘤胃中的细菌多样性

[目的]了解广西水牛瘤胃中细菌的组成及其可能的降解纤维素细菌的主要类群。[方法]提取水牛瘤胃内容物和高效降解滤纸的水牛瘤胃内容物的富集培养物的宏基因组DNA,以宏基因组DNA为模板,扩增16S rRNA基因序列,构建该两种样品的细菌的16S rRNA基因文库。通过对16S rRNA基因序列的分析,了解这两种样品的细菌群体种类及数量。 [结果] 水牛瘤胃内容物与其富集培养物中均主要含有LGCGPB (low G+C Gram-Positive Bacteria)、CFB (Cytophaga-Flexibacter-Bacteroides)两大类菌群和少数的螺旋体菌（Spirochaetes）,且LGCGPB所占的比例都是最高的,LGCGPB在水牛瘤胃内容物细菌中的比例为56.66%,而在富集培养物细菌中的比例升高为73.33%。在水牛瘤胃内容物中,丝状杆菌（Fibrobacteres）占3.33%,但在富集培养物中未被检测到。而在富集培养物中占13.33%的变形杆菌（Proteobacteria）,在水牛瘤胃内容物中未被检测到。本研究还发现了分类地位尚未明确的一菌群（R46）。[结论]细菌类群LGCGPB、Proteobacteria可能在水牛瘤胃中的纤维素降解过程中起重要作用。此外,水牛瘤胃中的细菌组成和牦牛、牛、羊瘤胃中的细菌组成较相似但比例有所不同。     

应用16S rDNA克隆文库解析人工快速渗滤系统细菌种群多样性

本文通过构建16S rDNA克隆文库开展了人工快速渗滤(CRI)系统表层(10 cm深)细菌种群多样性研究, 结果表明, 在CRI系统表层填料中细菌多样性十分丰富, 存在7个主要类群, 其中不可培养的酸杆菌纲(uncultured Acidobacteria)和其它不可培养细菌(uncultured bacteria)在整个克隆文库中比例最大, 比例为53.72%, 其次是浮霉菌纲(uncultured planctomycete)和β-变形菌纲(β-proteobacterium), 分别占文库比例的13.89%和8.33%; 克隆文库中反硝化菌的比例高于亚硝化单胞菌属细菌(0.925%), 没有出现Nitrospira属的克隆子。本文通过16S rDNA克隆文库揭示了在生物膜上存在的优势菌为不可培养菌, 而假单胞菌(Pseudomonas aeruginosa)和紫色色杆菌(Chromobacterium sp.)等在平板分离培养中出现的频率较高, 两种方法之间的结果存在差异。本研究采用16S rDNA克隆文库方法揭示的结果, 将为CRI系统生物降解的进一步提高提供依据。     

南美白对虾肠道微生物群落的分子分析

采用分子生物学手段16S rDNA克隆文库方法对实验室养殖条件下的南美白对虾肠道细菌进行了多样性研究。用限制性片段长度多态性(RFLP)方法从文库中筛选出可能不同细菌来源的克隆子12个,测定其16S rDNA片段核甘酸序列,将所获得的序列与GenBank数据库进行BLAST比对,结果表明:南美白对虾肠道的16S rDNA克隆文库中126个克隆子分属2个不同的细菌类群:变形细菌(Proteobacteria)和厚壁细菌(Firmicutes),其中厚壁细菌为优势菌群占到75.4%,且与最相似序列同源性均低于94%;变形细菌占到24.6%,与最相似序列同源性均高于98%,分别为希瓦氏菌属(Shewanella),泛菌属(Pantoea),Aranicola属,假单胞菌属(Pseudomonas)和弧菌属(Vibrio)。     

应用16S rDNA克隆文库解析人工快速渗滤系统细菌种群多样性

本文出不穷通过构建16S rDNA克隆文库开展了人工快速渗滤(CRI)系统表层(10cm深)细菌种群多样性研究,结果表明,在CRI系统表层填料中细菌多样性十分丰富,存在7个主要类群,其中不可培养的酸杆菌纲(uncultured Acidobacteria)和其它不可培养细菌(uncultured bacteria)在整个克隆文库中比例最大,比例为53.72%,其次是浮霉菌纲(uncultured planctomycete)和β-变形菌纲(β-proteobacterium),分别占文库比例的13.89%和8.33%;克隆文库中反硝化菌的比例高于亚硝化单胞菌属细菌(O.925%),没有出现Nitrospira属的克隆子.本文通过16S rDNA克隆文库揭示了在生物膜上存在的优势茵为不可培养菌,而假单胞菌(Pseudomonas aeruginosa)和紫色色杆菌(Chromobacterium sp.)等在平板分离培养中出现的频率较高,两种方法之间的结果存在差异.本研究采用16S rDNA克隆文库方法揭示的结果,将为CRI系统生物降解的进一步提高提供依据.     

河北承德地区两个温泉中细菌的多样性分析

通过构建16S rDNA克隆文库,对承德地区两温泉中的细菌多样性水平及系统发育关系进行了初步研究。研究表明:68°C的A11文库中阳性克隆的16S rDNA序列分属5个细菌类群,分别为Firmicutes(6.25%)、Deinococcus-Thermus(25.0%)、Gammaproteobacteria(12.5%)、Betaproteobacteria(50.0%)、Alphaproteobacteria(6.25%);而74.5°C的A12文库仅属于一个细菌类群:厚壁菌门(Firmicutes)。两温泉中细菌多样性的差异表明,温度是影响温泉中细菌多样性水平的重要因素。此外,A11文库中克隆的16S rDNA序列与许多已知的可产色素的好氧菌相似性很高,而A12文库中的细菌多数为专性厌氧或兼性厌氧型,其中厌氧芽孢杆菌属(Anoxybacillus)中的Anoxybacillus flavithermus可以作为研究泉华形成的理想材料。     

新疆玛纳斯热气泉免培养土壤细菌多样性分析

【目的】了解新疆玛纳斯热气泉土壤免培养细菌群落组成及多样性。【方法】采用免培养法直接从土壤样品中提取总DNA,利用细菌通用引物对土壤总DNA进行16S rDNA扩增,构建细菌16SrDNA文库。使用HaeⅢ限制性内切酶对阳性克隆进行限制性片段长度多态性分析(restriction fragment length polymorphism,RFLP),挑选具有不同酶切图谱的克隆进行测序、比对并构建16SrDNA系统发育树。【结果】从土壤细菌16S rDNA文库中随机挑选了170个阳性克隆,共得到29个不同的分类单元(operational taxonomic unit,OTU)。系统发育分析归为6个门:酸杆菌门(Acidobacteria)、放线菌门(Actinobacteria)、拟杆菌门(Bacteroidetes)、厚壁菌门(Firmicutes)、变形菌门(Proteobacteria)和浮霉菌门(Planctomycetes)。其中厚壁菌门(Firmicutes)为绝对优势类群,占整个细菌文库的71%。29个OTUs中有14条序列与GenBank中相关序列的相似性低于97%(序列长度约1.5kb),占序列总数的48%。【结论】热气泉土壤细菌种群多样性较低,但存在大量潜在细菌新种。     

应用16SrDNA-RFLP方法分析宁夏地区稻田土壤细菌的多样性

水稻是宁夏地区主要粮食作物, 水稻种植也具有维持生态系统平衡, 防止土地荒漠化等重要的生态功能。而稻田土壤细菌是维持土壤生态功能的基础。但长期以来缺乏对干旱地区稻田土壤细菌多样性的认识。本研究采用非培养技术提取稻田土壤样品总DNA, 构建其16S rDNA克隆文库, 用PCR-RFLP分析进一步测序后聚类分析细菌群落的多样性。从稻田土样中分离获得了大于23 kb的DNA片段。PCR-RFLP共得到74种酶切带型, 序列分析发现77.3%的克隆序列与环境中未培养细菌的16S rDNA序列有较高的相似性, 仅有22.7%的克隆序列与数据库中可培养细菌有较高的相似性, 表明宁夏稻区土壤中的多数细菌尚未培养。系统发育研究发现74个序列分属于12个类群, 其中变形细菌所占比例最大(37.8%), 依次为酸杆菌(16.2%)、放线菌(12.2%)、拟杆菌(10.8%)、绿屈挠菌(10.8%)、浮游霉菌(8.1%), 另外有少量厚壁菌门、芽单胞菌门和疣微菌门细菌克隆。在变形细菌的序列中包括、、γ和δ 4个类型, 比例分别为13.5%、5.4%、12.2%和6.8%。表明宁夏稻区土壤中优势细菌类群为变形杆菌和酸杆菌, 且土壤细菌类群具有丰富的多样性。     

青藏铁路沿线唐古拉山口土壤微生物的ARDRA分析

通过构建16S rDNA文库及文库的限制性片段长度多态性分析（ARDRA）,对青藏铁路沿线唐古拉山口的土壤微生物多样性进行了研究。采用限制性内切酶HaeIII和RsaI对克隆文库中的90个克隆子进行了酶切分型,根据ARDRA酶切图谱的不同,可将其分为23个OTUs。16SrDNA序列分析结果表明,该克隆文库中主要包括变形菌门（Proteobacteria）的alpha、beta、detla亚类、厚壁菌门（Firmicutes）、放线菌门（Actinobacteria）、拟杆菌门（Bacteroidetes）、酸杆菌门（Acidobacteria）及浮霉菌门（Planctomycetes）等8类细菌及未培养细菌。Alpha变形细菌为该文库中的主要菌群,占克隆总数的33.3%;其次为未培养细菌,占克隆总数的22.2%,Bradyrhizobium为优势菌属。研究结果揭示,青藏铁路唐古拉山口的土壤微生物种群不仅具有丰富的多样性,还存在丰富的潜在新菌种。     

油藏水样细菌群落16S rRNA基因的RFLP分析

通过16S rRNA基因的限制性酶切片段长度多态性分析(RFLP)方法,考察了油藏水样中细菌群落及多样性。从水样中分离纯化微生物总DNA,选择性扩增细菌16S rRNA基因,并构建16S rDNA克隆文库。337个16S rDNA克隆片段分别用限制性内切酶HinfⅠ和HaeⅢ酶切分析,得到74个操作分类单元(OTUs),其中数量最多的4个OTUs共占克隆子总数的73.6%,另外70个OTUs的丰度均处于较低水平,有57个OTUs仅含有1个克隆子。结果表明,运用RFLP方法分析16S rDNA克隆片段能够有效评估油藏水样中的细菌群落和多样性。     

Rumen Bacterial Community Transition During Adaptation to High-grain Diet

Transitional changes of the ruminal bacterial community structure in cows during the switch from roughage to high-grain diet were monitored by PCR amplification and sequencing of 16S rDNA clone libraries. In total, one hundred fifty 16S rDNA sequences of almost full-length (1.4 kb) were analysed from three libraries prepared from the rumen fluid on day 0, 3, and 28 of switch to high-grain diet. In the first library (day 0, hay diet) of 51clones, 90.2% of sequences were belonging to the low G+C Gram-positive bacteria (LGCGPB) phylum, with the minor inclusion of theCytophaga-Flavobacter-Bacteroides (CFB;3.9%), Proteobacteria (3.9%) and high G+C Gram-positive bacteria (HGCGPB;2.0%) phyla-related sequences. Six LGCGPB sequences were clustered with the well-known cellulolytics of the rumen, Ruminococcus flavefaciens and R. albus. In the second library (day 3 of high-grain diet) of 58 clones, the LGCGPB-related sequences still dominated (72.4%), albeit being represented by other species than in the first library. In particular, this library was enriched by representatives of Selenomonas-Succiniclasticum-Megasphaera group IX (17.2%), lactobacilli- (6.9%) and Butyrivibrio fibrisolvens lineage 3-related (8.6%) sequences. Other phyla were represented by CFB (22.4%) and HGCGPB (3.4%). In the third library (day 28 of high-grain diet) of 41 clones, 95% of sequences fell into the LGCGPB phylum. About half of them (46%) were clustered within theSelenomonas-Succiniclasticum-Megasphaera group in Clostridium cluster IX. No HGCGPB-related sequences were detected and CFB was represented by only a single clone. No Streptococcus bovis -related sequences were detected in any of the three clone libraries.     

Prokaryote diversity in the rumen of yak (Bos grunniens) and Jinnan cattle (Bos taurus) estimated by 16S rDNA homology analyses

Prokaryote diversity in the rumen of yak (Bos grunniens) and Jinnan cattle (Bos taurus) was estimated by 16S rDNA homology analysis. Two rumen 16S rDNA libraries were constructed. Of the 194 clones in the library of yak rumen, the sequences were mainly clustered to two phyla, low G+C Gram-positive bacteria (LGCGPB, 54.12% total clones) and Bacteroidetes (30.93%), respectively. While in the 197 clone-library of the cattle rumen, the sequences were mainly related to three phyla, Bacteroidetes (39.59%), gamma-Proteobacteria (26.9%) and LGCGPB (22.34%), respectively. The sequence analysis indicated that more than half of the species harbored in yak rumen belonged to the not-yet-cultured groups at <90% 16S rDNA similarity levels with cultured species, while 36% 16S rDNA sequences amplified from the rumen of Jinnan cattle fell in these catalogues. By comparing the uncultured sequences in yak rumen with those in Jinnan cattle and cow, the former formed distinct clusters loosely related to the later, implying that yak rumen could harbor some special prokaryote phyla. 10.8% sequences retrieved in yak rumen were related to the known rumen fibrolytic bacterial species; however none was related to the known amylolysis species. While 4% and 17.8% sequences retrieved from Jinnan cattle rumen were related to cultured fibrolytic and amylolysis species, respectively. The bacterial structures seemed to be in accordance with the feed of the two kinds of animals. In both rumens, retrieved methanogenic Archaea-related 16S rDNA sequences were at an unreasonable low level; in addition, none sequence was related to Ruminococcus albus, a classical rumen fibrolytic species. The reason can be due to the experimental biases.     

采用未培养技术对荷斯坦奶牛瘤胃细菌多样性进行初步分析

采用未培养(Culture independent)技术直接从荷斯坦奶牛瘤胃液中提取瘤胃细菌微生物混合DNA(也叫元基因组DNA),利用细菌16SrDNA通用引物27F与1492R,扩增瘤胃混合微生物的16SrDNA,根据16SrDNA序列对瘤胃细菌多样性进行初步分析。通过16SrDNA序列同源性分析,发现有多于一半以上的序列与可培养的菌株的同源性小于90%,属于不可培养的菌株。选用45条测得序列与已知序列构建系统发育树,分析结果表明,它们分属于两大类LGCGPB(the lowG CGram positivebac teria)和CFB(Cytophaga_Flexibacter $CBacteroides group),剩下的克隆尚难确定其分类地位,可能是代表新属和种的序列,这些序列已向GenBank提交并得到序列号(AY986777_AY986791)。     

Application of rDNA-PCR amplification and DGGE fingerprinting for detection of microbial diversity in a Malaysian crude oil

Two culture-independent methods, namely ribosomal DNA libraries and denaturing gradient gel electrophoresis (DGGE), were adopted to examine the microbial community of a Malaysian light crude oil. In this study, both 16S and 18S rDNAs were PCR-amplified from bulk DNA of crude oil samples, cloned, and sequenced. Analyses of restriction fragment length polymorphism (RFLP) and phylogenetics clustered the 16S and 18S rDNA sequences into seven and six groups, respectively. The ribosomal DNA sequences obtained showed sequence similarity between 90 to 100% to those available in the GenBank database. The closest relatives documented for the 16S rDNAs include member species of Thermoincola and Rhodopseudomonas, whereas the closest fungal relatives include Acremonium, Ceriporiopsis, Xeromyces, Lecythophora, and Candida. Others were affiliated to uncultured bacteria and uncultured ascomycete. The 16S rDNA library demonstrated predomination by a single uncultured bacterial type by >80% relative abundance. The predomination was confirmed by DGGE analysis.     

16S rDNA library-based analysis of ruminal bacterial diversity

Bacterial 16S rDNA sequence data, incorporating sequences > 1 kb, were retrieved from published rumen library studies and public databases, then were combined and analysed to assess the diversity of the rumen microbial ecosystem as indicated by the pooled data. Low G+C Gram positive bacteria (54%) and the Cytophaga-Flexibacter-Bacteroides (40%) phyla were most abundantly represented. The diversity inferred by combining the datasets was much wider than inferred by individual studies, most likely due to different diets enriching for bacteria with different fermentative activities. A total of 341 operational taxonomic units (OTU) was predicted by the Chao1 non-parametric estimator approach. Phylogenetic and database analysis demonstrated that 89% of the diversity had greatest similarity to organisms which had not been cultivated, and that several sequences are likely to represent novel taxonomic groupings. Furthermore, of the 11% of the diversity represented by cultured isolates (> 95% 16S rDNA identity), not all of the bacteria were of ruminal origin. This study therefore reinforces the need to reconcile classical culture-based rumen microbiology with molecular ecological studies to determine the metabolic role of uncultivated species.     

Bacterial diversity in the rumen of Indian Surti buffalo (Bubalus bubalis), assessed by 16S rDNA analysis

Bacterial communities in buffalo rumen were characterized using a culture-independent approach for a pooled sample of rumen fluid from 3 adult Surti buffaloes. Buffalo rumen is likely to include species of various bacterial phyla, so 16S rDNA sequences were amplified and cloned from the sample. A total of 191 clones were sequenced and similarities to known 16S rDNA sequences were examined. About 62.82% sequences (120 clones) had >90% similarity to the 16S rDNA database sequences. Furthermore, about 34.03% of the sequences (65 clones) were 85–89% similar to 16S rDNA database sequences. For the remaining 3.14%, the similarity was lower than 85%. Phylogenetic analyses were also used to infer the makeup of bacterial communities in the rumen of Surti buffalo. As a result, we distinguished 42 operational taxonomic units (OTUs) based on unique 16S r DNA sequences: 19 OTUs affiliated to an unidentified group (45.23% of total OTUs), 11 OTUs of the phylum Firmicutes, also known as the low G+C group (26.19%), 7 OTUs of theCytophaga-Flexibacter-Bacteroides phylum (16.66%), 4 OTUs of Spirochaetes (9.52%), and 1 OTU of Actinobacteria (2.38%). These include 10 single-clone OTUs, so Good’s coverage (94.76%) of 16S rRNA libraries indicated that sequences identified in the libraries represent the majority of bacterial diversity present in rumen.     

Bacterial diversity in malan ice core from the Tibetan Plateau

Three ice core samples were collected from the Malan ice core drilled from the Tibetan Plateau, and three 16S rDNA clone libraries by direct amplification from the ice-melted water were established. Ninety-four clones containing bacterial 16S rDNA inserts were selected. According to restriction fragment-length polymorphism analysis, 11 clones were unique in the library from which they were obtained and used for partial sequence and phylogenetic analysis, and compared with 8 reported sequences from the same ice core at depth 70 m. Differences among the samples were apparent in clone libraries. The phylotypes were dominated by the Proteobacteria group, Acinetobacter sp. and Cytophaga-Flavobacterium-Bacteroides (CFB) group. They accounted for 92.5% (Proteobacteria), 100% (Acinetobacter sp.), 34.4% (CFB) and 100% (beta-Proteobacteria) in the clone libraries from the samples at ice depths 35, 64, 70, and 82 m, respectively. The Acinetobacter sp. was only found in the deposition at ice depth 82 m and closely clustered with gamma-Proteobateria. Two members (Malan A-21 and 101) of alpha-Proteobacteria from the sample of 35 m and two (Malan B-26 and 48) of beta-Proteobacteria of 64 m were loosely clustered (< 95% similarity) with known bacteria, represented new genera in ice bacteria.     

The use of molecular techniques based on ribosomal RNA and DNA for rumen microbial ecosystem studies: a review

This paper analyses the research progress in the use of molecular techniques based on ribosomal RNA and DNA (rRNA/rDNA) for rumen microbial ecosystem since first literature by Stahl et al. (1988). Because rumen microbial populations could be under-estimated by adopting the traditional techniques such as roll-tube technique or most-probable-number estimates, modern molecular techniques based on 16S/18S rRNA/rDNA can be used to more accurately provide molecular characterization, microbe populations and classification scheme than traditional methods. Phylogenetic-group-specific probes can be used to hybridize samples for detecting and quantifying of rumen microbes. But, competitive-PCR and real-time PCR can more sensitively quantify rumen microbes than hybridization. Molecular fingerprinting techniques including both denaturing gradient gel electrophoresis (DGGE), temperature gradient gel electrophoresis (TGGE) and restriction fragment length polymorphisms (RFLP) can used to explore diversity of bacteria, protozoa and fungi in the rumen ecosystem. By constructing clone libraries of 16S/18S rRNA/rDNA of rumen microbes, more new microbes can be discovered and identified. For fungi, internal transcribed spacers (ITS) of fungi are better than 18S rRNA/rDNA for discriminating operational taxonomic units. In conclusion, 16S/18S rRNA/rDNA procedures have been used with success in rumen microbes and are quickly gaining acceptance for studying rumen microbial ecosystem, and will become useful methods for rumen ecology research. However, molecular techniques based on 16S/18S rRNA/rDNA don't preclude classical and traditional microbiological techniques. It should used together to acquire accurate and satisfactory results.     

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.