从rRNA基因序列探讨云斑蛛属Cyrtophora的系统发生地位

由于云斑蛛属Cyrtophora蜘蛛所织的网形态上较为特殊,所以该属分类地位长期以来有异议.为从分子水平探讨该属系统发生地位,本文对相关的11种蜘蛛线粒体12S rRNA基因和核18S rRNA基因部分序列进行了测定.基于12S rRNA和18S rRNA基因序列联合数据进行的分子系统发生分析结果表明云斑蛛属属于园蛛科,该结果提示在园蛛总科分类实践中以蛛网形态特征为分类依据时要慎重考虑其可靠性.     

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。     

从16S rRNA基因序列初步探讨拟壁钱属和壁钱属蜘蛛系统发生关系

拟壁钱属Oecobius和壁钱属Uroctea蜘蛛之间系统发生关系存在一定的争议.为从分子水平探讨两属间系统发生关系,本研究测定了5科6种蜘蛛的16S rRNA基因部分序列,并联合来自GenBank的8科8种蜘蛛16S rRNA基因序列数据重建分子系统树.结果表明,拟壁钱属和壁钱属间遗传距离(28.1%)明显大于复杂生殖器类(Entelegynae)蜘蛛属间遗传距离的平均值(22.9%);与目前大多数文献把拟壁钱属和壁钱属并在一个科的观点相反,本研究重建的系统发生树显示两属不是姊妹群.作者建议把拟壁钱属和壁钱属分别重新划回拟壁钱科Oecobiidae和壁钱科Urocteidae.系统发生树还验证了简单生殖器类(Haplogynae)蜘蛛、复杂生殖器类蜘蛛各自的单系性以及筛器类(Cribellate)蜘蛛的多系发生,同时本文的结果还对圆网蛛类(Orbiclariae)单系发生及RTA类群单系发生的有效性提出了质疑.     

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。     

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。     

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)))).     

从12S rRNA基因部分序列探讨络新妇亚科升格为科级阶元的有效性

络新妇亚科曾归入园蛛科,后改为属于肖蛸科,目前又升格为科级阶元。为对络新妇亚科的分类地位作进一步研究,测定了9种蜘蛛线粒体12SrRNA基因的部分序列;另外还从GenBank检索到17种蜘蛛的12SrRNA基因的的相应序列。基于12SrRNA基因序列进行的分子系统发生分析结果表明络新妇亚科即不属于园蛛科、也不属于肖蛸科,而是与肖蛸科或园蛛科均无直接关联的独立支系,这个结果证实了将络新妇亚科升格为科级阶元的有效性。     

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。     

Application of gene sequences to the molecular systematics of the Scarabaeoidea

基因序列分析是揭示金龟总科系统发育关系的重要工具.统计了应用于金龟总科中13个科的线粒体和核基因序列,综述了CO Ⅰ、16S rRNA、28S rRNA、18S rRNA等基因序列在金龟总科分子系统学研究的10新进展,探讨了不同基因序列在分类鉴定、隐存种发现、系统发育关系重建等方面的作用,对未来研究趋势进行了展望,为进一步阐明金龟总科系统发育机制奠定基础.     

圆网蛛类系统发生与网型进化

本文从妖面蛛总科和园蛛总科系统发生关系、园蛛总科网型不同的蜘蛛间的系统发生关系及蛛网构建行为等几个方面着重介绍了圆网蛛类系统发生及网型进化的研究进展.圆网蛛类系统发生与其网型进化有效地结合、进行综合研究将有助于圆网蛛类的起源及网型多样性的研究.     

Phylogenetic investigations of Antarctic notothenioid fishes (Perciformes: Notothenioidei) using complete gene sequences of the mitochondrial encoded 16S rRNA

The Notothenioidei dominates the fish fauna of the Antarctic in both biomass and diversity. This clade exhibits adaptations related to metabolic function and freezing avoidance in the subzero Antarctic waters, and is characterized by a high degree of morphological and ecological diversity. Investigating the macroevolutionary processes that may have contributed to the radiation of notothenioid fishes requires a well-resolved phylogenetic hypothesis. To date published molecular and morphological hypotheses of notothenioids are largely congruent, however, there are some areas of significant disagreement regarding higher-level relationships. Also, there are critical areas of the notothenioid phylogeny that are unresolved in both molecular and morphological phylogenetic analyses. Previous molecular phylogenetic analyses of notothenioids using partial mtDNA 12S and 16S rRNA sequence data have resulted in limited phylogenetic resolution and relatively low node support. One particularly controversial result from these analyses is the paraphyly of the Nototheniidae, the most diverse family in the Notothenioidei. It is unclear if the phylogenetic results from the 12S and 16S partial gene sequence dataset are due to limited character sampling, or if they reflect patterns of evolutionary diversification in notothenioids. We sequenced the complete mtDNA 16S rRNA gene for 43 notothenioid species, the largest sampling to-date from all eight taxonomically recognized families. Phylogenetic analyses using both maximum parsimony and maximum likelihood resulted in well-resolved trees with most nodes supported with high bootstrap pseudoreplicate scores and significant Bayesian posterior probabilities. In all analyses the Nototheniidae was monophyletic. Shimodaira–Hasegawa tests were able to reject two hypotheses that resulted from prior morphological analyses. However, despite substantial resolution and node support in the 16S rRNA trees, several phylogenetic hypotheses among closely related species and clades were not rejected. The inability to reject particular hypotheses among species in apical clades is likely due to the lower rate of nucleotide substitution in mtDNA rRNA genes relative to protein coding regions. Nevertheless, with the most extensive notothenioid taxon sampling to date, and the much greater phylogenetic resolution offered by the complete 16S rRNA sequences over the commonly used partial 12S and 16S gene dataset, it would be advantageous for future molecular investigations of notothenioid phylogenetics to utilize at the minimum the complete gene 16S rRNA dataset.     

Discordant 16S and 23S rRNA gene phylogenies for the genus Helicobacter: implications for phylogenetic inference and systematics

Analysis of 16S rRNA gene sequences has become the primary method for determining prokaryotic phylogeny. Phylogeny is currently the basis for prokaryotic systematics. Therefore, the validity of 16S rRNA gene-based phylogenetic analyses is of fundamental importance for prokaryotic systematics. Discrepancies between 16S rRNA gene analyses and DNA-DNA hybridization and phenotypic analyses have been noted in the genus Helicobacter. To clarify these discrepancies, we sequenced the 23S rRNA genes for 55 helicobacter strains representing 41 taxa (>2,700 bases per sequence). Phylogenetic-tree construction using neighbor-joining, parsimony, and maximum likelihood methods for 23S rRNA gene sequence data yielded stable trees which were consistent with other phenotypic and genotypic methods. The 16S rRNA gene sequence-derived trees were discordant with the 23S rRNA gene trees and other data. Discrepant 16S rRNA gene sequence data for the helicobacters are consistent with the horizontal transfer of 16S rRNA gene fragments and the creation of mosaic molecules with loss of phylogenetic information. These results suggest that taxonomic decisions must be supported by other phylogenetically informative macromolecules, such as the 23S rRNA gene, when 16S rRNA gene-derived phylogeny is discordant with other credible phenotypic and genotypic methods. This study found Wolinella succinogenes to branch with the unsheathed-flagellum cluster of helicobacters by 23S rRNA gene analyses and whole-genome comparisons. This study also found intervening sequences (IVSs) in the 23S rRNA genes of strains of 12 Helicobacter species. IVSs were found in helices 10, 25, and 45, as well as between helices 31' and 27'. Simultaneous insertion of IVSs at three sites was found in H. mesocricetorum.     

基于18S rRNA基因序列分析唇口目苔藓动物主要类群的系统发生关系

对隶属于3亚目、5次目、20科、23属共25个种类的唇口目(裸唇纲)苔藓虫18S rRNA基因部分序列进行了序列测定.结合从GenBank中获得的该类群其它7个种类的18S rRNA基因同源序列,以序列分析软件对其序列组成和变异进行了比较分析;同时,以羽苔虫(被唇纲)和管孔苔虫(窄唇纲)为外类群,以邻接法和最大简约法重建了它们的系统发生树,分析了该目主要类群系统发生关系.序列分析结果显示:经比对后序列长度为884 bp,其中保守位点241个,可变位点643个,简约信息位点357个;A,T,C和G 4碱基平均含量分别为23.8%、22.8%、24.4%和28.9%.分子系统树表明:本研究所有有囊类构成1个单系群,其中檐胞次目的几种苔虫位于皮壳次目内部;无囊类形成1个多系群,其中的亚目级(新唇口亚目)和次目级分类阶元(枝室次目、假软壁次目和隐壁次目)也都为多系发生,这些结果与前人的分子系统学研究结果大体一致,而与传统的形态分类体系间存在明显的冲突.     

Phylogenetic placement of the spider genus Nephila (Araneae: Araneoidea) inferred from rRNA and MaSp1 gene sequences

The family status of the genus Nephila, which belongs to Tetragnathidae currently but Araneidae formerly, was reexamined based on molecular phylogenetic analyses. In the present study, 12S and 18S rRNA gene fragments of eight species of spiders were amplified and sequenced. In addition, 3'-end partial cDNA of major ampullate spidroin-1 (MaSp1) gene of Argiope amoena was cloned and sequenced, and the 3'-end non-repetitive region's cDNA sequence of MaSp1 gene and the predicted amino acid sequence of C-terminal non-repetitive region of MaSp1 were aligned with some previously known sequences. The resulting phylogeny showed that Araneidae and Tetragnathidae are not a sister group in the superfamily Araneoidea, and the genus Nephila is closer to the genera of the family Araneidae rather than to those of Tetragnathidae. We suggest that the genus Nephila should be transferred back to Araneidae. Or the subfamily Nephilinae might be elevated to family level after it was redefined and redelimited. Furthermore, the study showed that 3'-end non-repetitive region's cDNA sequence of MaSp1 gene and C-terminal non-repetitive region's amino acid sequence of MaSp1 are useful molecular markers for phylogenetic analysis of spiders.     

从核rDNA序列探讨隙蛛亚科Coelotinae的分类地位

隙蛛亚科Coelotinae主要分布于东亚地区,其中我国的已有种类占到全世界种数的一半以上,因此对于我国隙蛛类蜘蛛的研究已经成为世界暗蛛科研究的重点之一。隙蛛亚科属于无筛器类群,于1893年,由Cambridge以隙蛛属为模式属而建立,归属于无筛器的漏斗蛛科。之后,虽然经历了数次修订     

18S rRNA gene sequence-structure phylogeny of the Trypanosomatida (Kinetoplastea,Euglenozoa) with special reference to Trypanosoma

Parasites of the order Trypanosomatida are known due to their medical relevance. Despite the progress made in the past decades on understanding the evolution of this group of organisms, there are still many open questions that require robust phylogenetic markers to increase the resolution of trees. Using two known 18S rRNA gene template structures (from Trypanosoma cruzi Chagas, 1909 and Trypanosoma brucei Plimmer and Bradford, 1899), individual 18S rRNA gene secondary structures were predicted by homology modeling. Sequences and their secondary structures, automatically encoded by a 12-letter alphabet (each nucleotide with its three structural states, paired left, paired right, unpaired), were simultaneously aligned. Sequence-structure trees were generated by neighbor joining and/or maximum likelihood. The reconstructed trees allowed us to discuss not only the big picture of trypanosomatid phylogeny but also a comprehensive sampling of trypanosomes evaluated in the context of trypanosomatid diversity. The robust support (bootstrap > 75) for well-known clades and critical branches suggests that the simultaneous use of 18S rRNA sequence and secondary structure data can reconstruct robust phylogenetic trees and can be used by the trypanosomatid research community for future analysis.     

凤蝶亚科(凤蝶科,鳞翅目)16S rRNA基因的分子系统发生分析

对15种凤蝶亚科蝶类线粒体16S rRNA基因部分序列进行了测定,并结合GenBank中其它相关类群的序列,采用邻接法(NJ)、最大简约法(MP)、最大似然法(ML)和贝叶斯法构建凤蝶亚科的分子系统树,探讨该亚科各类群间的系统发生关系.结果表明,燕凤蝶族构成凤蝶亚科蝶类系统树基部的一个独立分支;燕凤蝶族和裳凤蝶族为单系发生,且裳凤蝶族聚在凤蝶族内部;喙凤蝶族的单系性尚不能确定.综合分子系统学、形态学及寄主植物等相关证据,推测斑凤蝶类为凤蝶族中早期分化的一支;较之裳凤蝶类,斑凤蝶类可能更早从二者最近的共同祖先中分化出来.     

基于12S rRNA基因的鹳形目系统发生关系

采用分子系统学的方法探讨鹳形目5个科之间的系统发生关系.文中测出鹳形目鸟类7种mtDNA 12SrRNA基因全序列,并结合来自Genbank的鹳形目另外7个物种及原鸡的同源区序列,经Clustal W软件对位排列后共1 009位点,包含405个变异位点,其中多态性位点381个,260个简约信息位点.基于上述序列数据,以原鸡为外群,使用距离邻接法、最大简约法、最大似然法及贝叶斯法分别重建了鹳形目5科14种的系统发生树.重建的系统发生树显示,内群中的14个种聚合为4支:鹮科构成第一支,聚在系统树的基部;锤头鹳科与鲸头鹳科聚为一支;鹭科和鹳科各自聚成一支.在比较不同建树方法的结果并进行合意树分析后认为:在鹳形目的系统发生中,鹮科可能是最早分化出的一支;锤头鹳科与鲸头鹳科之间的亲缘关系最近,它们祖先与鹭科、鹳科之间的分歧在时间上可能非常接近.鹳形目5个科之间的系统关系可以表示为:(鹮科,(鹭科,鹳科,(锤头鹳科,鲸头鹳科))).