从12S rRNA基因第三结构域序列分析探讨蜘蛛若干重要类群的亲缘关系

本文将12S rRNA基因序列分析应用于研究若干重要蜘蛛类群的系统关系,以对传统的分类研究结论进行验证和补充,并且探讨12S rRNA基因序列分析在蜘蛛系统发生研究中的适用性。根据12S rRNA基因第3结构域构建的分子系统树得出结论:1.圆网类(即妖面蛛总科与园蛛总科)并非单系;2.隙蛛与暗蛛较漏斗蛛具有更近的亲缘关系;3.壁钱和拟壁钱并不近缘;4.有筛器类蜘蛛为复系类群;5.12S rRNA基因第3结构域片段对推断近缘科属间的系统发生关系是有效的遗传标记。     

基于线粒体16S rRNA基因对中国狼蛛科(Lycosidae)系统发育研究

将自测的中国狼蛛科Lycosidae4亚科6属26种和从GenBank中检索到的北美2种豹蛛的mtD-NA-16S rRNA序列进行比较;以漏斗蛛科1种蜘蛛作为外群,对碱基序列的组成和遗传距离进行了分析,采用Bayesian方法和最大简约法(MP)构建分子系统树。研究结果表明:16SrRNA基因的部分序列为340bp到360bp,A T含量平均为75%,存在较强的A T含量偏向性;序列共有157个碱基存在变异,其中79个简约信息位点。狼蛛科各属间的遗传距离介于0.026￣0.200之间。2种建树方法均表明:科内的属及属内的种优先聚在一起;水狼蛛属相对马蛛属是狼蛛科中较为原始的类群,分化较早;獾蛛属作为1个单系群与熊蛛属合为1个并系,属于狼蛛亚科。狼蛛科6属间的分子系统关系为(Pirata(Hippasa(Trochsa Arctosa(Pardosa Wadicosa))))。     

园蛛总科网型不同的蜘蛛间分子系统发生关系的初步探讨

为初步探讨园蛛总科内网型不同的蜘蛛间分子系统发生关系,测定了9种蜘蛛核18S rRNA基因的部分序列。联合GenBank中的2种蜘蛛18S rRNA基因序列数据,用NJ法、MP法和ML法重建分子系统树,结果表明：（1）织圆网的园蛛科和肖蛸科蜘蛛在园蛛总科中不是姊妹群;（2）不织圆网的球蛛科和皿蛛科也不是单系发生,证实了皿蛛片网和球蛛网独立起源的观点;（3）皿蛛科蜘蛛的分子系统发生地位与肖蛸科较近、而与园蛛科较远,这表明皿蛛科和园蛛科问雄性触肢结构的相似性很可能是类似而不是同源相似。     

中国狼蛛科娲蛛属(娲蛛亚科)分类地位的探讨

采用DNA测序方法,获得了中国狼蛛科Lycosidae4亚科6属26种mtDNA-16S rRNA基因的部分序列,比较来自北美狼蛛科豹蛛属2种豹蛛的同一基因序列,并选取漏斗蛛科1种蜘蛛作为外群,采用Bayesian方法和最大简约法(MP)构建分子系统树.两种建树方法均支持娲蛛属和豹蛛属形成一大的单系;这一结果与现行狼蛛科传统分类体系中娲蛛属的分类地位有差别.据此,作者认为:娲蛛属和豹蛛属可以归为同一个分类亚单位.狼蛛科6属间的分子系统关系为(Rirata(Hippasa(Trochsa Arctosa(Pardosa Wadicosa)))).     

中国拟壁钱属蜘蛛一新种

近年来,我们在浙江等省采得一批拟壁钱属蜘蛛标本,经鉴定有一新种,现描述如下:中华拟壁钱Oecobius sinensis,新种 雄 全长2.3毫米(单位下同);头胸部长0.8,宽1.05;腹部长1.5,宽0.95。足式:Ⅳ>Ⅱ>Ⅰ,Ⅱ:其量度(从腿节至跗节)为Ⅰ:3.10(0.9+0.2+0.7+0.7+0.6);Ⅱ:3.20     

rRNA及MaSp1基因证据不支持圆网蛛类(蜘蛛目:妖面蛛总科+园蛛总科)的单系起源

圆网蛛类(妖面蛛总科 园蛛总科)是否为单系,圆网究竟经历一次进化还是多次进化,这是多年来有争论的、悬而未决的蛛形学难题之一。本文测定了包括妖面蛛总科、园蛛总科和非圆网蛛类等类群在内的9科10种蜘蛛线粒体12S rDNA、16S rDNA及核18S rDNA、28S rDNA等4个基因片段序列,并基于4个基因序列的整合数据,分别通过邻接(NJ)法、最大简约(MP)法、最大似然(ML)法和贝叶斯法(Bayesian)分析,对园蛛总科和妖面蛛总科蜘蛛之间的分子系统关系进行了探讨。系统发生结果表明:1)园蛛总科和妖面蛛总科蜘蛛不是姊妹群,从而支持这两个类群的圆网是平行演化而非同源演化的观点;2)筛器类蜘蛛并非单系发生而为多系发生。另外,依据编码大壶状腺丝蛋白-1(MaSp1)C末端非重复氨基酸序列区段的核酸序列重建的系统发生树也证实圆网蛛类并非单系发生。     

线粒体COⅠ和16S rRNA片段确定近江蛏和缢蛏属的分类地位

对5种双壳类软体动物(近江蛏Sinonovacula rivularis、缢蛏Sinonovacula constricta、小刀蛏Cultellus attenuatus、尖刀蛏Cultellus scalprum和大竹蛏Solen grandis)的线粒体基因COⅠ和16S rRNA部分序列进行测序和分析, 并结合GenBank中其他竹蛏超科和樱蛤超科物种COⅠ和16S rRNA片段, 计算种间遗传距离, 构建系统发育树, 探讨近江蛏及缢蛏属的分类地位。结果表明, 5个物种COⅠ和16S rRNA片段A+T含量均远高于G+C含量, 近江蛏与缢蛏之间的碱基序列差异和遗传距离均已达到种间差异水平, 确定近江蛏为缢蛏属的一个种。分别构建COⅠ(砂海螂为外群)和16S rRNA片段(密鳞牡蛎为外群)的Neighbor-Joining系统树, 两者的拓扑结构都明确显示, 缢蛏属为灯塔蛤科一个属, 灯塔蛤科录属于竹蛏超科, 而不录属于樱蛤超科。       

利用线粒体16S rRNA基因全序列分析直翅目主要类群的系统发生关系

为了构建稳健的直翅目主要类群间的系统发生关系并探讨16S rRNA基因序列在构建直翅目昆虫不同分类阶元系统发生关系时的可行性、功效以及性能,文章测定了直翅目4总科9科18种昆虫的16S rRNA基因全序列,联合已知该基因全序列的其他40种昆虫,构建了直翅目主要类群之间的系统发生关系,并分析了16SrRNA基因全序列的系统发生性能和功效。结果表明,直翅目昆虫的16S rRNA基因全长平均为1 310 bp;除生活方式特化的蚤蝼总科和蝼蛄总科的地位无法确定外,直翅目其他主要类群系统发生关系比较稳定;蝗总科下除了斑翅蝗科和槌角蝗科外,剑角蝗科、斑腿蝗科、网翅蝗科都不是单系群,且用不同的方法构建的系统发生树中聚类情况完全一致,各科间遗传距离差异不大,建议将其合为一科;锥头蝗科、瘤锥蝗科和癞蝗科间的遗传距离差异也不大;在构建系统发生树时,16S rRNA基因环区的信息量要比茎区的大;16S rRNA基因可以构建可靠的直翅目属与种水平和目与亚目高级阶元的系统发生关系,但对科和总科阶元缺乏足够的分辨力。     

拟诺卡氏菌16S rRNA,gyrB,sod和rpoB基因的系统发育分析

为了更好地了解拟诺卡氏菌属(Nocardiopsis)各物种间的系统发育关系,该属现有有效描述种的gyrB,sod和rpoB基因的部分序列被测定,结合16S rRNA基因,对拟诺卡氏菌属进行了系统发育重建。研究发现拟诺卡氏菌属gyrB,sod和rpoB基因的平均相似性分别为87.7%、87.3%和94.1%,而16S rRNA基因的平均相似性则达到96.65%,3个看家基因均比16S rRNA具有更高的分歧度。比较基于不同基因的系统树发现,由gyrB基因得到的系统树拓扑结构与16S rRNA得到的结构在亚群上基本一致。因此,gyrB基因在拟诺卡氏菌属的系统分类上比16S rRNA基因更具优越性。     

基于18S rDNA遗传距离与GC含量对游走类纤毛虫的分子系统学研究

为了揭示游走类纤毛虫的系统发生,对寄生于淡水鱼类的车轮虫科中的6种车轮虫进行了18S rDNA的测序并获得了9个序列。采用了最大似然法(ML)与贝叶斯法(BI)对GenBank中所有游走类纤毛虫的18S rDNA序列进行了系统树的构建,并首次将SPSS与18S rDNA遗传距离结合分析了游走类纤毛虫的系统发生。研究结果进一步证实了车轮虫属(Trichodina)的非单系发生与小车轮虫属 (Trichodinella) 的有效性。此外,研究结合18S rDNA 的GC含量与遗传距离分析提出了游走类纤毛虫科属及种间新的鉴定依据: 18S rDNA 的GC含量可用于游走类纤毛虫的科属区分,且与游走类纤毛虫的分化密切相关; 18S rDNA的遗传距离在游走类纤毛虫的不同阶元中具有一定的阈值范围,即通常种内遗传距离阈值范围为0.000-0.005,属种间阈值范围为0.005-0.150,当遗传距离大于0.150时,则达到了科间水平。     

Zur biologie und morphologie von Oecobius annulipes lucas (Araneae,Oecobiidae)

The biology of various species of the cribellate family Oecobiidae has been known only fragmentarily. Therefore observations on web construction, catching and mating behaviour of Oecobius annulipes are made. They are paralleled by morphological investigations on the mouth parts and the spinning apparatus. The results are in closest conformity with the corresponding characters of the ecribellate spider Uroctea durandi. A close phylogenetic relationship of both families is assumed.     

基于12S,16S和28S rRNA基因序列的中国小毛瓢虫属系统发育分析

【目的】小毛瓢虫属Scymnus Kugelann昆虫主要捕食蚜虫、蚧虫等害虫,是一类经济上重要的天敌昆虫。目前针对小毛瓢虫属的系统发育研究尚属空白,亚属之间的系统演化关系尚不明确,为了建立合理的分类系统,亟需对小毛瓢虫属的亲缘关系进行研究和探讨。【方法】以华南农业大学馆藏的小毛瓢虫属5亚属共44种为研究对象,采用PCR技术对12S, 16S和28S rRNA基因的部分序列进行扩增;运用MEGA 7.0分析了小毛瓢虫属内12S, 16S和28S rRNA基因的碱基组成,基于K2P模型计算了小毛瓢虫属44种的种间遗传距离;采用最大似然法(maximum-likelihood, ML)和贝叶斯推断法(Bayesian-inference, BI)构建该属的系统发育树。【结果】扩增获得小毛瓢虫属44种的12S rRNA基因序列平均长度为356 bp, 16S rRNA基因序列平均长度为351 bp, 28S rRNA基因序列平均长度为315 bp;序列分析表明,12S rRNA基因的A, T, G和C平均含量分别为38.8%, 43.5%, 11.9%和5.8%, 16S rRNA基因的A, T, G和C平均含量分别为37.6%, 40.3%, 14.4%和7.7%, 28S rRNA基因的A, T, G和C平均含量分别为26.7%, 18.3%, 31.4%和23.5%;基于联合序列分析的种间遗传距离为0.004～0.276,平均遗传距离为0.115。系统发育分析结果表明,小毛瓢虫属为单系起源,而小毛瓢虫亚属Scymnus(Scymnus) Kugelann、毛瓢虫亚属Scymnus(Neopullus) Sasaji、小瓢虫亚属Scymnus(Pullus) Mulsant和拟小瓢虫亚属Scymnus(Parapullus) Yang均为并系起源。【结论】基于12S, 16S和28S rRNA基因序列的小毛瓢虫属系统发育分析显示传统的形态学分类体系与基于分子数据分析的结果部分不一致,这表明应该对该属内各亚属的鉴别特征进行全面检视,筛选并确立各亚属的形态指标,同时也表明该属内的亚属分类单元需重新厘定。     

Out of Asia: Mitochondrial DNA Evidence for an Oriental Origin of Tiger Frogs, Genus Hoplobatrachus

Most examples of intercontinental dispersal events after the Miocene contact between Africa and Asia involve mammal lineages. Among amphibians, a number of probably related groups are known from both continents, but their phylogenies are so far largely unresolved. To test the hypothesis of Miocene dispersal against a Mesozoic vicariance scenario in the context of Gondwana fragmentation, we analyzed fragments of the mitochondrial 16S rRNA gene (572 bp) in 40 specimens of 34 species of the anuran family Ranidae. Results corroborated the monophyly of tiger frogs (genus Hoplobatrachus), a genus with representatives in Africa and Asia. The African H. occipitalis was the sister group of the Asian H. crassus, H. chinensis, and H. tigerinus. Hoplobatrachus was placed in a clade also containing the Asian genera Euphlyctis and Nannophrys. Combined analysis of sequences of 16S and 12S rRNA genes (total 903 bp) in a reduced set of taxa corroborated the monophyly of the lineage containing these three genera and identified the Asian genus Fejervarya as its possible sister group. The fact that the African H. occipitalis is nested within an otherwise exclusively Asian clade indicates its probable Oriental origin. Rough molecular clock estimates did not contradict the assumption that the dispersal event took place in the Miocene. Our data further identified a similar molecular divergence between closely related Asian and African species of Rana (belonging to the section Hylarana), indicating that Neogene intercontinental dispersal also may have taken place in this group and possibly in rhacophorid treefrogs.     

Comparison of the Biolog OmniLog Identification System and 16S ribosomal RNA gene sequencing for accuracy in identification of atypical bacteria of clinical origin

The Biolog OmniLog Identification System (Biolog) and the 16S ribosomal RNA (rRNA) gene sequencing methods were compared to conventional microbiological methods and evaluated for accuracy of bacterial identification. These methods were evaluated using 159 clinical isolates. Each isolate was initially identified by conventional biochemical tests and morphological characteristics and subsequently placed into one of seven categories: aerobic Actinomycetes, Bacillus, Coryneforms, fastidious Gram-negative rods (GNR), non-fermenting GNR, miscellaneous Gram-positive rods (GPR), and Vibrio/Aeromonas. After comparison to the conventional identification, the Biolog system and 16S rRNA gene sequence identifications were classified as follows: a) correct to the genus and species levels; b) correct to the genus level only; or c) neither (unacceptable) identification. Overall, 16S rRNA gene sequencing had the highest percent accuracy with 90.6% correct identifications, while the Biolog system identified 68.3% of the isolates correctly. For each category, 16S rRNA gene sequencing had a substantially higher percent accuracy compared to the conventional methods. It was determined that the Biolog system is deficient when identifying organisms in the fastidious GNR category (20.0%). The observed data suggest that 16S rRNA gene sequencing provides a more accurate identification of atypical bacteria than the Biolog system.     

蜘蛛听毛的电镜观察

选用新蛛类的9种蜘蛛作为研究的对象，通过听毛的电镜观察探讨听毛在不同类群的差异。研究结果表明：管网蛛科的北京马蹄蛛的毛窝和听毛显然与中纺类，原蛛类和新蛛类中其他科的种类均不相同。拟壁钱科的居室拟壁钱（有筛器蜘蛛）和北国壁钱（无筛器蛛蛛）的毛窝和听毛的结构相差悬殊，很难看出亲缘上的关系，刺瓣似隙蛛和机敏漏斗蛛的毛窝差别大，无法表明它们之间近缘，园蛛科和肖蛸科种类的听毛窝和听毛数目表明两者之间近缘。     

Defining reference sequences for Nocardia species by similarity and clustering analyses of 16S rRNA gene sequence data

Background

The intra- and inter-species genetic diversity of bacteria and the absence of ‘reference’, or the most representative, sequences of individual species present a significant challenge for sequence-based identification. The aims of this study were to determine the utility, and compare the performance of several clustering and classification algorithms to identify the species of 364 sequences of 16S rRNA gene with a defined species in GenBank, and 110 sequences of 16S rRNA gene with no defined species, all within the genus Nocardia.

Methods

A total of 364 16S rRNA gene sequences of Nocardia species were studied. In addition, 110 16S rRNA gene sequences assigned only to the Nocardia genus level at the time of submission to GenBank were used for machine learning classification experiments. Different clustering algorithms were compared with a novel algorithm or the linear mapping (LM) of the distance matrix. Principal Components Analysis was used for the dimensionality reduction and visualization.

Results

The LM algorithm achieved the highest performance and classified the set of 364 16S rRNA sequences into 80 clusters, the majority of which (83.52%) corresponded with the original species. The most representative 16S rRNA sequences for individual Nocardia species have been identified as ‘centroids’ in respective clusters from which the distances to all other sequences were minimized; 110 16S rRNA gene sequences with identifications recorded only at the genus level were classified using machine learning methods. Simple kNN machine learning demonstrated the highest performance and classified Nocardia species sequences with an accuracy of 92.7% and a mean frequency of 0.578.

Conclusion

The identification of centroids of 16S rRNA gene sequence clusters using novel distance matrix clustering enables the identification of the most representative sequences for each individual species of Nocardia and allows the quantitation of inter- and intra-species variability.     

Proposal of Pseudorhodobacter ferrugineus gen nov,comb nov,for a non-photosynthetic marine bacterium,Agrobacterium ferrugineum,related to the genus Rhodobacter

The marine gram-negative non-photosynthetic bacterium, Agrobacterium ferrugineum IAM 12616(T) forms one cluster with the species of the photosynthetic genus Rhodobacter in phylogenetic trees based on molecules of 16S rRNA, 23S rRNA and DNA gyrases. Agrobacterium ferrugineum and Rhodobacter species are similar in that growth occurs without NaCl in the culture medium (optimal NaCl concentration for growth of P. ferrugineus is 1%) and their major hydroxy fatty acid compositions are 3-hydroxy decanoic acids (3-OH 10:0) and 3-hydroxy tetradecanoic acids (3-OH 14:1). However, A. ferrugineum differs from Rhodobacter species in G+C content (58 mol% in A. ferrugineum versus 64-73 mol% in Rhodobacter species), in having an insertion in its 16S rRNA gene sequence, and in lacking photosynthetic abilities, bacteriochlorophyll a and intracytoplasmic membrane systems. Furthermore, experiments using PCR and Southern hybridization show that A. ferrugineum does not have puhA gene and puf genes localized near the opposite ends of the photosynthesis gene cluster of Rhodobacter capsulatus. It suggests that A. ferrugineum may not have any genes for photosynthesis. We propose the transfer of A. ferrugineum IAM 12616(T) to the genus Pseudorhodobacter gen. nov. as Pseudorhodobacter ferrugineus comb. nov. Although Pseudorhodobacter ferrugineus disturbs the phylogenetic monophyly of the genus Rhodobacter, this taxonomic proposal seems adequate until it has been clarified whether P. ferrugineus possesses an incomplete photosynthetic apparatus.     

Use of rpoB gene analysis for identification of nitrogen-fixing Paenibacillus species as an alternative to the 16S rRNA gene

AIM: To avoid the limitations of 16S rRNA-based phylogenetic analysis for Paenibacillus species, the usefulness of the RNA polymerase beta-subunit encoding gene (rpoB) was investigated as an alternative to the 16S rRNA gene for taxonomic studies. METHODS AND RESULTS: Partial rpoB sequences were generated for the type strains of eight nitrogen-fixing Paenibacillus species. The presence of only one copy of rpoB in the genome of P. graminis strain RSA19(T) was demonstrated by denaturing gradient gel electrophoresis and hybridization assays. A comparative analysis of the sequences of the 16S rRNA and rpoB genes was performed and the eight species showed between 91.6-99.1% (16S rRNA) and 77.9-97.3% (rpoB) similarity, allowing a more accurate discrimination between the different species using the rpoB gene. Finally, 24 isolates from the rhizosphere of different cultivars of maize previously identified as Paenibacillus spp. were assigned correctly to one of the nitrogen-fixing species. CONCLUSIONS, SIGNIFICANCE AND IMPACT OF THE STUDY: The data obtained in this study indicate that rpoB is a powerful identification tool, which can be used for the correct discrimination of the nitrogen-fixing species of agricultural and industrial importance within the genus Paenibacillus.