Phylogenetic analysis of protozoa in the rumen contents of cow based on the 18S rDNA sequences

AIMS: To examine the diversity of protozoa in the rumen contents of cow. METHODS AND RESULTS: Protozoa that inhabit the rumen were detected by PCR using protozoan-specific primers. Libraries of protozoan rDNA sequences were constructed from rumen fluid, solid tissues and epithelium. Twenty-three clones isolated from rumen fluid fell into two genera identified as Entodinium (69.6% of clones) and Epidinium (31.4% of clones). Of the clones isolated from rumen fluid, a moderate number were unidentifiable (30.4%). CONCLUSIONS: The predominant protozoan genus identified in the whole rumen belonged to the Entodinium group (81.1%). Protozoa were not detected in the rumen epithelium. SIGNIFICANCE AND IMPACT OF THE STUDY: These findings suggest that rumen fluid and solid tissues contain different protozoan populations that may play specific roles in rumen function. Quantitative PCR techniques and a more specific set of phylogenetic probes that distinguish between protozoan species are needed to determine the significance of newly identified groups and to determine the distribution of identified protozoan clusters in rumen microbial communities.     

Phylogenetic analysis of the genus Aquaspirillum based on 16S rRNA gene sequences

Phylogenetic analysis of 15 species of the genus Aquaspirillum based on 16S rRNA gene (rDNA) sequences indicated that the genus Aquaspirillum is phylogenetically heterogeneous and the species could be divided into four groups as follows: Aquaspirillum serpens, the type species of this genus, A. dispar and A. putridiconchylium are situated in the family Neisseriaceae; members of the second group, A. gracile, A. delicatum, A. anulus, A. giesbergeri, A. sinuosum, A. metamorphum and A. psychrophilum, are included in the family Comamonadaceae; the two members of the third group, A. arcticum and A. autotrophicum, are included in the family Oxalobacteriaceae; and members of the fourth group, A. polymorphum, A. peregrinum, and A. itersonii, are included in the alpha-subdivision of Proteobacteria. Thus, phylogenetic studies indicated that all the species excepting A. serpens, the type species, should be transferred to distinct genera.     

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.     

Phylogeny of coral-inhabiting barnacles (Cirripedia; Thoracica; Pyrgomatidae) based on 12S, 16S and 18S rDNA analysis

The traditional phylogeny of the coral-inhabiting barnacles, the Pyrgomatidae, is based on morphological characteristics, mainly of the hard parts. It has been difficult to establish the phylogenetic relationships among Pyrgomatidae because of the apparent convergence of morphological characteristics, and due to the use of non-cladistic systematics, which emphasize ancestor-descendant relationships rather than sister-clade relationships. We used partial sequences of two mithochondrial genes, 12S rDNA and 16S rDNA, and a nuclear gene, 18S rDNA, to infer the molecular phylogeny of the pyrgomatids. Our phylogenetic results allowed us to reject previous classifications of Pyrgomatidae based on morphological characteristics. Our results also suggested the possibility of paraphyly of the Pyrgomatidae. The hydrocoral barnacle Wanella is not found on the same clade as the other pyrgomatids, but rather, with the free-living balanids. The basal position of Megatrema and Ceratoconcha is supported. The archeaobalanid Armatobalanus is grouped with Cantellius at the base of the Indo-Pacific pyrgomatines. Fusion of the shell plate and modification of the opercular valves are homoplasious features that occurred more than three times on different clades. The monophyly of the "Savignium" group, comprising four nominal genera, is also not supported, and the different taxa are placed on different clades.     

16S rDNA序列分析在鉴定布鲁氏菌中的应用

[目的]建立布鲁氏菌的16S rDNA序列分析方法,评价该方法鉴定布鲁氏菌的特异性和实用性.[方法]用PCR扩增布鲁氏菌的16S rDNA片段,将扩增的产物纯化后测序,从GenBank下载与布鲁氏菌易发生血清学交叉反应的细菌的16S rDNA序列.使用DNAMAN软件进16S rDNA序列相似性分析.[结果]在布鲁氏菌中16S rDNA核苷酸序列相似性达到了99.74％,而与其他有血清型交叉反应的菌株相比较,16S rDNA序列间有显著差异.[结论]16S rDNA序列分析是一种快速、简便、特异的鉴定布鲁氏菌的方法之一.     

Phylogeny of the genus Azospirillum based on 16S rDNA sequence

Abstract The 16S rDNA of 17 strains of Azospirillum , 14 assigned to one of the known species A. amazonense A. brasilense A. halopraeferens A. irakense and A. lipoferum , and the other three of uncertain taxonomic position, was sequenced after polymerase chain reaction amplification and analysed in order to investigate the phylogenetic relationships at the intra-generic and super-generic level. The phylogenetic analysis confirms that the genus Azospirillum constitutes a phylogenetically separate entity within the a subclass of Proteobacteria and that the five species are well defined. A. brasilense and A. lipoferum are closely related species and form one cluster together with A. halopraeferens ; the pair of species A. amazonense and A. irakense forms a second cluster in which Rhodospirillum centenum is also placed.     

Diversity and structure of the archaeal community in the leachate of a full-scale recirculating landfill as examined by direct 16S rRNA gene sequence retrieval

The diversity and structure of the archaeal community in the effluent leachate from a full-scale recirculating landfill was characterized by direct 16S rRNA gene (16S rDNA) retrieval. Total-community DNA was extracted from the microbial assemblages in the landfill leachate, and archaeal 16S rDNAs were amplified with a universally conserved primer and an Archaea-specific primer. The amplification product was then used to construct a 16S rDNA clone library, and 70 randomly selected archaeal clones in the library were grouped by restriction fragment length polymorphism (RFLP) analysis. Sequencing and phylogenetic analysis of representatives from each unique RFLP type showed that the archaeal library was dominated by methanogen-like rDNAs. Represented in the kingdom of Euryarchaeota were phylotypes highly similar to the methanogenic genera Methanoculleus, Methanosarcina, Methanocorpusculum, Methanospirillum and Methanogenium, where the clone distribution was 48, 11, 3, 1 and 1, respectively. No sequences related to known Methanosaeta spp. were retrieved. Four rDNA clones were not affiliated with the known methanogenic Archaea, but instead, they were clustered with the uncultured archaeal sequences recently recovered from anaerobic habitats. Two chimeric sequences were identified among the clones analyzed.     

16S rDNA analysis reveals phylogenetic diversity among the polysaccharolytic clostridia

Abstract Small subunit rDNA sequences were determined for 13 mesophilic, polysaccharolytic, mainly cellulolytic species of the genus Clostridium and one cellulolytic Eubacterium specues. Sequences were compared to those of 36 representatives of mesophilic and thermophilic clostridia, including those of nine thermophilic polysaccharolytic species published previously. The majority of strains group with 23S rRNA clusters I and III, while the others group with the thermophilic polysaccharolytic clostridia, i.e. C. stercorarium, C. thermolacticum and C. thermocellum . Lack of close genetic relationships between the various polysaccharolytic species is unexpected and may indicate that these biotechnologically important organisms differ with respect to the enzymology of polysaccharolytic degradation as well.     

基于16S rDNA的系统发育分析在微生物进化关系中的应用

系统发育树的构建是现代生命科学研究中的重要技术,是分析未知菌种与其他菌种的亲缘关系,为进一步了解生物的进化关系的重要依据。对系统发育树的构建进行了详细的介绍。并对其在微生物进化研究中的具体应用进行了阐述。     

16SrDNA同源性所揭示的双歧杆菌与有关细菌的亲缘关系

本研究测定了低ＧＣ含量的双歧杆菌（Ｂｉｆｉｄｏｂａｃｔｅｒｉｕｍ ｉｎｏｐｉｎａｔｕｍ）和新种Ｂ。ｔｈｅｒｍｏｃｉ．ｄｏｐｈｉｌｕｍ的１６ＳｒＤＮＡ全序列,在同另外１９个双歧杆菌及８个相关细菌的１６ＳｒＮＡ同源笥分析的基础上构建了系统发育树。结果表明：除低ＧＣ含蜈的Ｂ．ｉｎｏｐｉｎａｔｕｍ外,所有双杆菌的种在１６ＳｒＤＮＡ序列相似性≥８２％的水平上聚类为一个簇群。尽管Ｂ．ｉｎｏｐｉｎａｉｕｍ与其它     

The phylogenetic diversity of thermophilic members of the genus Bacillus as revealed by 16S rDNA analysis

Abstract Sixteen thermophilic strains of the genus Bacillus , representing eight validly described and six invalidly described species, as well as one unassigned strain, were investigated by comparative 16S rDNA analyses and the sequences compared to the existing database for the genera Bacillus and Alicyclobacillus . The majority of strains were found to cluster in two groups represented by B. stearothermophilus and B. pallidus. Bacillus smithii, B. thermocloacae , and B. thermoruber are phylogenetically well separated and cluster within the radiation of mesophilic bacilli. The as yet undescribed taxon 'B. flavothermus' warrants species status. B. schlegelii and B. tusciae group peripherally with members of Alicyclobacillus and may be reclassified when more phenotypic data support their phylogenetic position.     

枯草芽孢杆菌BS224的16S rDNA序列测定及系统进化分析

利用细菌通用引物,通过PCR的方法,对菌株BS224的16S rDNA基因进行扩增,PCR产物经胶回收试剂盒纯化后测序,测序结果与GenBank上已登录的高同源16S rDNA序列进行比较,并构建系统进化树,结果BS224与Bacillus subtilisstrain ZHA9相似性最高,达到99.38%,与模式菌株Bacillus subtilisstrain 168的相似性也达到98.55%,结合其形态特征、培养特征、生理生化特性的分析结果,可以确定BS224属于枯草芽孢杆菌属。     

Evidence for polyphyletic origin of the members of the orders of Oscillatoriales and Pleurocapsales as determined by 16S rDNA analysis

Phylogenetic analyses were carried out on six pleurocapsalean strains and 12 oscillatorialean strains by sequence determination of the 16S rDNA (16S rRNA gene). Although heterocyst-forming strains of the orders Nostocales and Stigonematales were shown to be monophyletic, unicellular strains of the orders Chroococcales and filamentous Oscillatoriales were shown to be polyphyletic, as reported earlier. Moreover, unicellular and baeocyte-forming strains of the order Pleurocapsales, which were thought to be monophyletic, were newly found to be polyphyletic. The results strongly indicate that even morphology was not necessarily reflected in the phylogenetic relationships at the order level. A need exists to reconstruct the taxonomy of cyanobacteria at the order level.     

基于16S rDNA基因的中国部分地区非B型烟粉虱系统发育关系分析

【目的】烟粉虱Bemisia tabaci是一个快速进化的复合种。由于近年来烟粉虱危害不断增加, 其生物型问题也越来越受到关注。在我国, 不仅存在危害严重的B型烟粉虱, 同时也已发现多种非B型烟粉虱。通过鉴定我国部分地区目前发生的烟粉虱生物型种类, 分析它们与世界各地不同生物型之间的关系, 可为我国烟粉虱的生物型检测和综合防治提供依据。【方法】利用16S rDNA基因作为分子标记, 鉴定了2005年与2006年在我国6个省份（自治区）采集的22个非B型烟粉虱样本的生物型, 并探讨了各生物型之间的系统进化关系。【结果】所研究的22个非B型烟粉虱归属于Q型、Nauru型和An型, 3种生物型之间的遗传距离在10%以上, 但是Q生物型与B生物型之间的亲缘关系最近, 遗传距离在2.8%~4.0%范围内; 进化分歧数据还表明, 不同生物型之间的遗传距离明显大于同一生物型内遗传距离, 其中Q型内部差异最小, 在0.9%以内; 同时结果表明目前在我国多个生物型共同存在是一个普遍的现象, 其中Nauru型的分布较广泛; 在云南地区检测到的非B型烟粉虱生物型类型最多。【结论】烟粉虱生物型遗传分化复杂, 利用16S rDNA基因能有效鉴定烟粉虱的生物型。     

Phylogenetic analysis of cecal microbiota in chicken by the use of 16S rDNA clone libraries

The chicken cecum contains a great many bacteria, most of which are strict anaerobes. A strictly anaerobe culture-based method was used in the present study, in conjunction with the 16S rDNA clone library, to elucidate bacterial diversity and the phylogenetic relationship of cecal microbiota in the chicken. A comparative 16S rDNA sequence analysis of cultivated strains and retrieved clones from cecal contents was performed. Approximately 90% of the bacterial cells detected by microscopy did not form colonies on a medium 10 in plate-in-bottle. The 19 isolated strains yielded 11 distinct rDNA sequences, 58% of which were classified as low G + C gram-positive bacteria, 26% were related to Bacteroides spp., and 16% were classified as Proteobacteria. Based on the sequence analysis of 164 clones, 24% were identified to belong to 8 known species and 76% were considered to be 65 novel phylotypes. Approximately 94% of cloned sequences were classified into low G + C gram-positive bacteria, 4% were related to Bacteroides spp., and 2% were classified into Proteobacteria. Clostridium subcluster XIVa (38%), Clostridium cluster IV (13%), Lactobacillus spp. (24%), and Bacteroides spp. (4%) were the major groups constituting the cecal microbiota in chicken, in which the Clostridium subcluster XIVa was the most phylogenetically diverse group in chicken cecum. The 16S rDNA sequences of Lactobacillus acidophilus, L. crispatus, L. salivarius, and L. reuteri were the most frequently found in the Lactobacillus group in chicken cecum.     

Bacterial phylogeny based on 16S and 23S rRNA sequence analysis

Abstract: Molecular phylogeny increasingly supports the understanding of organismal relationships and provides the basis for the classification of microorganisms according to their natural affiliations. Comparative sequence analysis of ribosomal RNAs or the corresponding genes currently is the most widely used approach for the reconstruction of microbial phylogeny. The highly and less conserved primary and higher order structure elements of rRNAs document the history of microbial evolution and are informative for definite phylogenetic levels. An optimal alignment of the primary structures and a careful data selection are prerequisites for reliable phylogenetic conclusions. rRNA based phylogenetic trees can be reconstructed and the significance of their topologies evaluated by applying distance, maximum parsimony and maximum likelihood methods of phylogeny inference in comparison, and by fortuitous or directed resampling of the data set. Phylogenetic trees based on almost equivalent data sets of bacterial 23S and 16S rRNAs are in good agreement and their overall topologies are supported by alternative phylogenetic markers such as elongation factors and ATPase subunits. Besides their phylogenetic information content, the differently conserved primary structure regions of rRNAs provide target sites for specific hybridization probes which have been proven to be powerful tools for the identification of microbes on the basis of their phylogenetic relationships.