基于Cyt b基因的网翅蝗科系统发生重建

研究测定了蝗总科25种蝗虫的线粒体Cyt b部分序列,并从GenBank中下载了19种蝗亚目昆虫的Cyt b基因相应序列片段。本文目的是要建立网翅蝗科的系统发育关系并说明网翅蝗科在蝗总科中的分类地位。以瘤锥蝗科的云南蝗Yunnanites coriacea和长额橄蝗Tagasta marginella作为外群,用MP法和贝叶斯法重建系统发生树。比对后的序列长度是384 bp,包括167个简约信息位点。A T平均含量为70.7%,C G 平均含量29.3%。分子系统树表明:网翅蝗科并不是一个单系群。网翅蝗亚科和竹蝗亚科并非单系群。现存的雏蝗属并非单系群,应该是多系群。分子系统学研究结果和传统的基于形态特征的网翅蝗科分类体系有很大的不同。     

应用16S rDNA序列探讨斑腿蝗科的单系性及其亚科的分类地位

本文测定了斑腿蝗科10亚科20种蝗虫和其他蝗科3种蝗虫的线粒体16S rDNA部分序列,并从GenBank中下载了15种蝗亚目昆虫的16S rRNA基因相应序列片段。比对后的序列长度是397 bp,其中有196个变异位点,157个简约信息位点,A+T平均含量为71.7%,C+G平均含量为28.3%。以序列差异比值为横坐标,以碱基转换数和颠换数为纵坐标作散点图,结果表明颠换多于转换,且随着差异程度的增加,转换明显出现了饱和。以蚱总科的日本蚱Tetrix japonica和卡尖顶蚱Teredorus carmichaeli作外群,用ME、等权MP、加权MP及贝叶斯法重建系统发生树。分子系统树表明,斑腿蝗科并非是一单系群,该科的切翅蝗亚科与稻蝗亚科也均不是一单系群;卵翅蝗、伪稻蝗和稻蝗三者有很近的亲缘关系;支持将黑蝗亚科和秃蝗亚科合为一个亚科——秃蝗亚科;现行的稻蝗亚科并非一单系群,而是一多系群。分子系统学研究结果和传统的基于形态特征的斑腿蝗科的分类体系有很大的不同。     

基于线粒体Cyt b,16S rDNA和核28S rDNA的中国斑腿蝗科(直翅目,蝗总科)九亚科间的系统发育关系研究

基于线粒体Cytb、16S rDNA和核28S rDNA的部分序列的联合数据集,重建了中国斑腿蝗科9亚科26种蝗虫和癞蝗科笨蝗(外群)间的系统发育关系。结果显示:1)除黑蝗亚科、秃蝗亚科和切翅蝗亚科外,其余6亚科的单系性都得到支持;2)黑蝗亚科似乎应当与秃蝗亚科合并为一个亚科,且与其他几个亚科亲缘关系相对较远;3)凸额蝗属应该由切翅蝗亚科中独立出来;4)卵翅蝗亚科和稻蝗亚科是姐妹群;5)星翅蝗亚科、黑背蝗亚科、斑腿蝗亚科、刺胸蝗亚科及切翅蝗亚科中的凸额蝗属间的关系较近。     

蝗科高级阶元的分子系统发育(英文）

迄今,蝗科内各分类阶元之间的系统发生关系大部分是未知的。本文用来自中国24种蝗科昆虫的12SrDNA和16SrDNA2个基因的联合序列(共795bp)数据,以锥头蝗科的锥头蝗(Pyrgomorpha conica)为外群,重建了分子系统树。研究结果表明,在12SrDNA与16SrDNA组成的联合数据中,转换的替代速率明显比颠换的替代速率高得多,核酸的替代已经发生了饱和。分子系统树表明:斑翅蝗亚科是一单系群,该亚科是一个合法的亚科,但斑腿蝗亚科和蝗亚科都不是单系群;斑翅蝗亚科在蝗科内是一个相对原始的类群,而稻蝗亚科比斑翅蝗亚科相对进化,比蝗科的其他亚科的种类相对原始。     

国剑角蝗科部分属种雌性下生殖板的形态及演化（直翅目：蝗总科）

从20世纪60年代至今的一些研究已基本肯定了蝗虫雌性下生殖板的分类价值。本文选择了中国剑角蝗科6属10种蝗虫对其雌性下生殖板进行了形态学和演化分析。结果表明雌性下生殖板的形态在研究的6属内都是稳定的,属间差异明显。这6个属的系统发育关系为：（卡蝗属（（佛蝗属,戛蝗属）,（菊蝗属（蝗属,剑角蝗属））））,这一结果和形态分类是一致的,支持长腹蝗亚科从剑角蝗科分开。文中还分析了剑角蝗科雌性下生殖板各性状的演化方向。     

基于线粒体基因Cytb和COI的蝗科中五亚科分子系统发育关系分析（直翅目: 蝗总科）（英文）

本研究基于Cytb 基因和COI基因的部分序列来推断17种蝗虫之间的系统发育关系。这17种蝗虫均采自国内,代表了蝗科(Acrididae)5个亚科：黑蝗亚科(Melanoplinae)、斑腿蝗亚科(Catantopinae)、刺胸蝗亚科(Cyrtacanthacridinae)、斑翅蝗亚科(Oedipodinae)和大足蝗亚科(Gomphocerinae)。采用联合序列方法进行分析,结果显示：Cytb 和COI联合序列长度为1 998 bp,其中A和T总含量为72.13%,G和C总含量为27.87%。联合序列共包含了889个保守位点,1 109个变异位点,在这些变异位点中有838个简约信息位点。系统发生树采用邻接法（NJ）、最大简约法（MP）和最大似然法（ML）进行构建。使用蜢总科的变色乌蜢Erianthus versicolor 和 Erianthus sp. 两个种作为外群。结果表明：大足蝗亚科和斑腿蝗亚科的单系性没有得到支持。斑翅蝗亚科内部各种聚成一个大支,在本研究中该亚科的单系性得到支持,与前人的研究结论相同。大足蝗亚科、斑腿蝗亚科、刺胸蝗亚科和黑蝗亚科这4科关系非常近,可以考虑将其合并为一个亚科。同时,我们发现基于Cytb和COI基因联合序列推断蝗科内各亚科间的系统发生关系并不十分可靠。     

基于线粒体ND2基因的中国斑翅蝗科部分种类分子系统学研究（直翅目：蝗总科）

本文的目的是通过对斑翅蝗科部分种类的线粒体ND2基因进行分析,重建斑翅蝗科昆虫的系统发育关系,并探讨分子系统发育关系和传统分类结果的异同。扩增并测定了我国斑翅蝗科10属16种蝗虫的线粒体ND2全基因1 023 bp的序列,对序列的碱基组成、转换颠换、系统发育信号等进行了分析。并基于ND2全基因序列数据,分别采用邻接法（NJ）、最简约法（MP）、最大似然法（ML）和贝叶斯法重建了10属16种蝗虫的系统发育关系。结果表明：斑翅蝗科蝗虫ND2全基因A+T含量平均为74.6%;痂蝗亚科和异痂蝗亚科没能得到区分,建议合并为一个亚科;而斑翅蝗亚科和飞蝗亚科的分类地位还存在争议。     

基于COⅡ基因序列的斑腿蝗科部分亚科的分子系统学研究

采用PCR产物直接测序法测定了斑腿蝗科10个亚科16属22种的COⅡ基因585 bp的片段, 对序列的碱基组成进行了分析,并评估了数据集的系统发育信号;最后,以癞蝗科的肃南 短鼻蝗作为外群,采用NJ法、MP法、ML法以及贝叶斯推论法构建了系统树,以解决这些物种所代表的亚科之间的系统发育关系。结果表明：22种斑腿蝗科昆虫的COⅡ基因序列碱基组成表现强烈的A+T含量偏向性。对COⅡ基因585 bp序列片段构成的全数据组和根据密码子不同位点划分的密码子第一、第二和第三位点数据组的系统发育信号分析显示,所有数据组都具有一定的系统发育信息。在4种方法得到的合一树中发现： （1）星翅蝗亚科、刺胸蝗亚科、黑背蝗亚科、斑腿蝗亚科的亲缘关系较近;（2）卵翅蝗亚科与稻蝗亚科亲缘关系较近,建议卵翅蝗亚科似乎应归入稻蝗亚科中,板胸蝗亚科与这两个亚科的关系较近;（3）黑蝗亚科和秃蝗亚科似乎应合并为一个亚科;（4）切翅蝗亚科的4个属未聚在一起,表明这些属的区别较大,不是一个单系群;（5）黑蝗亚科和秃蝗亚科关系较近,且与本研究中其他几个亚科的亲缘关系相对较远。研究结果表明COⅡ基因在解决斑腿蝗科的亚科以下属种间的系统发育关系时是一个有效的分子标记。     

基于18S rRNA基因序列的直翅目主要类群系统发育关系研究

基于78种直翅目昆虫的18S rRNA基因全序列构建了直翅目各主要类群间的系统发育关系。本研究的结果支持直翅目的单系性,但不支持蝗亚目和螽亚目各自的单系性;直翅目下除蜢总科和蝗总科外各总科的划分多数与Otte系统相一致;蜢总科的单系性得不到支持;蝗总科的剑角蝗科、斑腿蝗科、斑翅蝗科、网翅蝗科和槌角蝗科5科均不是单系群,各物种间的遗传距离差异不大,应合并为一科,即蝗科;本研究支持将Otte系统中蚱总科和螽蟖总科下各亚科级阶元提升为科级阶元;18S rRNA基因全序列可以作为划分科级阶元的工具,当位于同一分支上互成姐妹群的类群间的遗传距离超过1%时,这几个类群属于不同的科;但由于其在进化上的保守性,18S rRNA基因只能用于纲目等高级阶元间关系的研究,而由其获得的总科以下阶元间的关系并不可靠。     

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。     

基于线粒体COI基因全序列的直翅目部分类群系统发育关系分析

该研究基于直翅目56种昆虫的COI基因全序列构建了该目部分类群间的系统发育关系,同时也分析了COI基因编码的氨基酸序列构建直翅目系统发育关系的可靠性。将COI序列按照密码子一、二、三位点划分,分别计算PBS(partioned Bremer support)值,评估蛋白质编码基因密码子不同位点的系统发生信号强度。分析结果支持螽亚目和蝗亚目的单系性;剑角蝗科、斑腿蝗科、斑翅蝗科、网翅蝗科和槌角蝗科5科均不是单系群,科间的遗传距离在0.107~0.153之间变化,与其他科相比遗传距离较小,符合将这5科合并为一科(即蝗科)的分类系统,瘤锥蝗科和锥头蝗科归为锥头蝗总科,癞蝗科单独成为一科,这也与Otte(1997)系统的划分一致。根据PBS值的大小推断密码子第三、第一位点对系统树分支的贡献比第二位点大,并且较长的序列含有较多的信息位点。研究也证实将各物种COI基因之间的遗传距离作为直翅目划分科级阶元的工具是可行的。     

基于线粒体ND2基因的直翅目部分种类分子系统发育分析

测定了39种直翅目昆虫线粒体ND2基因全长序列,联合GenBank中41种直翅目昆虫的ND2基因序列,探讨ND2基因在解决直翅目系统发育分析上的功效,为建立直翅目的主要类群之间稳定的系统发育关系提供更多的数据。研究结果表明,直翅目昆虫的ND2基因序列全长为996～1 029 bp,平均长度为1 020 bp,A+T含量平均为73%。用贝叶斯法(Bayesian,BI)、最简约法(maximum parsimony,MP)和最大似然法(maximum likelihood,ML)构建系统树,SH检验显示,RAxML法构建的ML树似然值最大,与PAUP*的ML法构建的ML树差异显著,而与贝叶斯树和简约树没有明显差异。所有系统树都显示直翅目为单系群;而蝗亚目的剑角蝗科、网翅蝗科、槌角蝗科和斑腿蝗科均不是单系群,锥头蝗科与瘤锥蝗科亲缘关系较近,这与Otte分类系统一致。螽亚目基本由两大分支构成,一支是蝼蛄总科和蟋蟀总科聚集而成,且具有很高的置信度;另一大分支由螽斯总科独自构成。     

Myriapod monophyly and relationships among myriapod classes based on nearly complete 28S and 18S rDNA sequences

Myriapods play a pivotal position in the arthropod phylogenetic tree. The monophyly of Myriapoda and its internal relationships have been difficult to resolve. This study combined nearly complete 28S and 18S ribosomal RNA gene sequences (3,826 nt in total) to estimate the phylogenetic position of Myriapoda and phylogenetic relationships among four myriapod classes. Our data set consists of six new myriapod sequences and homologous sequences for 18 additional species available in GenBank. Among the six new myriapod sequences, those of the one pauropod and two symphylans are very important additions because they were such difficult taxa to classify in past molecular-phylogenetic studies. Phylogenetic trees were constructed with maximum parsimony, maximum likelihood, and Bayesian analyses. All methods yielded moderate to strong support for the monophyly of Myriapoda. Symphyla grouped strongly with Pauropoda under all analytical conditions. The KH test rejected the traditional view of Dignatha and Progoneata, and the topology obtained here, though not significantly supported, was Diplopoda versus ((Symphyla + Pauropoda) + Chilopoda).     

Reconstruction of phylogeny of locusts from the family Acrididae (Orthoptera) based on analysis of nucleotide sequences of 16S ribosome RNA gene in mitochondria

The sequences of two mitochondrial 16S RNA gene fragments (137- and 174-bp in size) were determined in nine grasshopper species belonging to three Acrididae subfamilies. Phylogenetic reconstruction was performed using the sequences of twelve grasshopper species and the cricket Acheta domesticus sequence as an outgroup (some data were purchased from the GeneBank Data Library (NCBI). In the phylogenetic tree, the Acridinae and Locustinae formed compact groups. Annexpected position of Celes scalozubovi (Locustinae) within the subfamily Acridinae indicated its vague phylogeny. The Catantopinae species lied close to the base of the Acridinae. Almost all branches of phylogenetic trees were strongly (55-100%) supported by bootstrap 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.     

A molecular phylogeny of Oxya (Orthoptera: Acridoidea) in China inferred from partial cytochrome b gene sequences

The grasshoppers of the genus Oxya are well known to damage rice, sugar cane, and other crops, yet their phylogenetic relationships have not been examined with molecular data. In this study, we obtained the 432 bp DNA sequences of the mitochondrial cytochrome b gene from 91 individuals of nine Oxya species and two outgroups (Gesonula punctifrons and Acrida cinerea). Phylogenetic analyses for the molecular data set were then carried out using the maximum parsimony and neighbor-joining methods. The results showed that the nine Oxya species form four well-supported clades, which include (1) O. intricata and O. flavefemura; (2) O. japonica and O. bicingula; (3) O. agavisa; and (4) O. chinensis, O. brachyptera, O. adentata, and O. hainanensis, respectively. In particular, the monophyly of O. hainanensis and O. agavisa is strongly supported, respectively. However, O. flavefemura and O. intricata, O. bicingula, and O. japonica form paraphyletic groups, respectively, and O. chinensis, O. adentata, and O. brachyptera form a polyphyletic group, suggesting that they should be merged as few as three species.     

Phylogenetic relationships in the genus mus,based on paternally,maternally, and biparentally inherited characters

Several species in the rodent genus Mus are used as model research organisms, but comparative studies of these mice have been hampered by the lack of a well-supported phylogeny. We used DNA sequences from six genes representing paternally, maternally, and biparentally inherited regions of the genome to infer phylogenetic relationships among 10 species of Mus commonly used in laboratory research. Our sample included seven species from the subgenus Mus; one species each from the subgenera Pyromys, Coelomys, and Nannomys; and representatives from three additional murine genera, which served as outgroups in the phylogenetic analyses. Although each of the six genes yielded a unique phylogeny, several clades were supported by four or more gene trees. Nodes that conflicted between trees were generally characterized by weak support for one or both of the alternative topologies, thus providing no compelling evidence that any individual gene, or part of the genome, was misleading with respect to the evolutionary history of these mice. Analysis of the combined data resulted in a fully resolved tree that strongly supports monophyly of the genus Mus, monophyly of the subgenus Mus, division of the subgenus Mus into Palearctic (M. musculus, M. macedonicus, M. spicilegus, and M. spretus) and Asian (M. cervicolor, M. cookii, and M. caroli) clades, monophyly of the house mice (M. m. musculus, "M. m. molossinus," M. m. castaneus, and M. m. domesticus), and a sister-group relationship between M. macedonicus and M. spicilegus. Other clades that were strongly supported by one or more gene partitions were not strongly supported by the combined data. This appears to reflect a localized homoplasy in one partition obscuring the phylogenetic signal from another, rather than differences in gene or genome histories.     

Phylogeny and evolution of Cervidae based on complete mitochondrial genomes

Mitochondrial DNA sequences can be used to estimate phylogenetic relationships among animal taxa and for molecular phylogenetic evolution analysis. With the development of sequencing technology, more and more mitochondrial sequences have been made available in public databases, including whole mitochondrial DNA sequences. These data have been used for phylogenetic analysis of animal species, and for studies of evolutionary processes. We made phylogenetic analyses of 19 species of Cervidae, with Bos taurus as the outgroup. We used neighbor joining, maximum likelihood, maximum parsimony, and Bayesian inference methods on whole mitochondrial genome sequences. The consensus phylogenetic trees supported monophyly of the family Cervidae; it was divided into two subfamilies, Plesiometacarpalia and Telemetacarpalia, and four tribes, Cervinae, Muntiacinae, Hydropotinae, and Odocoileinae. The divergence times in these families were estimated by phylogenetic analysis using the Bayesian method with a relaxed molecular clock method; the results were consistent with those of previous studies. We concluded that the evolutionary structure of the family Cervidae can be reconstructed by phylogenetic analysis based on whole mitochondrial genomes; this method could be used broadly in phylogenetic evolutionary analysis of animal taxa.