12种鲟形目鱼类mtDNA ND4L-ND4基因的序列变异及其分子系统学

鲟形目鱼类是一类在鱼类乃至脊椎动物进化史上占有很重要地位的古老濒危鱼类 ,长期悬而未决的系统演化关系为世人瞩目 .采用DNA测序技术首次测定了包括中国特有鲟形目鱼类在内的 1 2种鲟形目鱼类的mtDNA ND4L和ND4基因 ( 70 3bp)的序列 ,并进行了分子系统学分析 .从分子系统学的角度得出了如下结论 :( 1 )鳇属可以归并到鲟属 ;( 2 )达氏鲟与中华鲟的亲缘关系最近 ,很有可能为中华鲟的一陆封类型 ;( 3)环太平洋地区的鲟科鱼类可能有共同的起源 ;( 4)ND4L和ND4基因是进行鲟形目鱼类系统演化研究很好的遗传标记 .     

GENOME SIZE

采用Feulgen-显微分光光度计方法,以鸡红细胞为标准DNA（3.22pg/2C）测定了长江白鲟、达氏鲟、中华鲟、史氏鲟和北美匙吻鲟的体细胞基因组大小（DNA含量）。结果表明,上述五种鲟鱼DNA含量分别为4.11、8.26、9.07、6.07和3.96pg。长江白鲟和北美匙吻鲟均属于四倍体鱼类,分布在长江水系的中华鲟和达氏鲟两种鲟属鱼类为八倍体类型。史氏鲟初步判断为八倍体,据分析可能存在四倍体的类型。根据所得到的结果并结合已发表的DNA含量和染色体资料,分析了鲟形目鱼类在细胞遗传上的进化特点。鲟形目鱼类全为多倍体起源的鱼类,在鲟形目的两科（白鲟科和鲟科）六个属中,除鲟属外,其他五个属均为四倍体,而鲟属已发现有四倍体、八倍体、十二倍体和十六倍体。说明在细胞水平的染色体加倍与鲟形目鱼类各科、属分化没有直接联系,只在鲟形目形成的早期和鲟形目形成后的鲟属种间分化中扮演着重要角色。鲟属鱼类的染色体剧烈分化可能是造成现今鲟属种类数最多（占整个鲟形目鱼类的65%以上）的重要原因。     

从细胞色素b基因序列变异分析中国鲇形目鱼类的系统发育

采用PCR技术获得中国鲇形目鱼类11科24属27个代表种类细胞色素b基因1138bp全序列,比较分析了来自北美洲、非洲的部分鲇形目鱼类同一基因序列,并选取脂鲤目、鲤形目和鲱形目鱼类作外类群,采用Bayesian方法和最大简约法(MP)构建分子系统树。结果表明：(1)鲇形目鱼类细胞色素b基因序列中,与脂鲤目、鲤形目以及鲱形目鱼类相比存在3bp的缺失;(2)鲇形目鱼类各科代表种类形成一单系群;(3)两种建树方法均支持铫科、粒鲇科和钝头鮠科形成一单系群;而胡子鲇科、刀鲇科、海鲇科、鮰科、长臀鮠科、鲢科、鲇科、棘脂鲿科、鲿科形成一大的单系群;但鳗鲇科的系统位置两种建树方法没有取得一致结果;而其中长臀鲍科与北美的鮰科形成姐妹群,胡子鲇、鮰科、鲇科、鲿科和鮡科是较明显的单系群。     

瓦氏黄颡鱼线粒体全基因组序列分析及系统进化

鲿科鱼类种类繁多, 外形相似, 形态学分类较为困难。为了给鲿科鱼类乃至鲇形目鱼类的系统进化研究积累基础资料, 文章采用参照近缘物种线粒体基因组设计覆盖全基因组引物的方法, 利用16对引物对瓦氏黄颡鱼(Pelteobagrus vachelli)线粒体全基因组进行扩增, PCR产物转化到质粒后测序, 最终获得线粒体基因组全序列, 其全长为16 527 bp, 包括2个rRNA基因、22个tRNA基因、13个编码蛋白质基因和一个非编码控制区。瓦氏黄颡鱼(P. vachelli)线粒体基因组结构和基因排列顺序与现已公布的鲇形目鱼类完全一致, 序列分析表明, 与鲇形目其他种属间具有较高的同源性, 与拟鲿属的同源性最高(91%)。利用鲇形目共4科6属9种及3个外群的线粒体全基因组序列, 从线粒体基因组水平探讨了鲿科鱼类及其在鲇形目的系统进化地位, 结果表明: 鲿科鱼类的瓦氏黄颡鱼(P. vachelli)、黄颡鱼(Pelteobagrus fulvidraco)、光泽黄颡鱼(Pelteobagrus nitidus)及越南拟鲿(Pseudobagrus tokiensis)构成一单系群; 拟鲿属与黄颡鱼属的关系较近; 黄颡鱼属中瓦氏黄颡鱼(P. vachelli)与光泽黄颡鱼(P.nitidus)的关系近于黄颡鱼(P. fulvidraco)。     

基于线粒体基因组数据的扁甲系总科间系统发育关系分析

扁甲系是鞘翅目多食亚目中最大的一个类群,具有重要的经济意义.尽管扁甲系昆虫的单系性得到广泛支持,但7个总科间的系统进化关系仍存在不确定性.为此,本研究测定了锈赤扁谷盗和锯谷盗的线粒体基因组,并联合已测的67个扁甲系昆虫线粒体基因组,构建了扁甲系昆虫总科间的系统发育关系,并采用似然值检验对不同的树拓扑结构进行了评价.结果表明,锈赤扁谷盗全线粒体基因组的大小为15497 bp,编码13个蛋白质编码基因、22个转运RNA基因和2个核糖体RNA基因.锯谷盗接近全长的线粒体基因长为13588 bp,编码34个基因,缺少trnI, trnQ和trnM等3个转运RNA基因.锈赤扁谷盗和锯谷盗线粒体基因的基因含量、基因排序、碱基组成、密码子使用等特征,与大多数已测鞘翅目昆虫的线粒体基因组高度相似.基于3个线粒体基因数据集及3种树构建方法的系统发育分析结果表明,瓢虫总科、叶甲总科、象甲总科、拟步甲总科和郭公虫总科等5个类群均为单系性,而扁甲总科始终为并系.树拓扑结构检验结果表明,扁甲系总科间的系统发育关系为((郭公虫总科+瓢虫总科)+(拟步甲总科+(扁甲总科(叶甲总科+象甲总科)))).尽管线粒体数据集的构成及系统发育分析方法对树拓扑结构具有重要影响,但线粒体基因组数据在扁甲系昆虫系统与进化研究方面具有重要应用价值.     

从线粒体DNA控制区核苷酸序列论达式鲟、亚洲和北美洲中吻鲟的分类地位

尽管古老的鲟形目鱼类的分类及系统演化一直是中外学者感兴趣的研究课题,但迄今仍有诸多谜团未解。其中,关于亚洲远东地区和北美地区的中吻鲟(Acipenser medirostris)的分类地位争论已久。长江水系的达式鲟(A.dabryanus)和中华鲟(A.sinensis)及其它鲟属(Acipenser)鱼类之间的亲缘关系近年来也有异议。为了给上述争议提供更多的科学依据,作者测定了线粒体DNA(mtDNA)控制区 (D-loop) 的核苷酸序列,并进行了分子系统学和遗传差异分析。研究结果表明：⑴UPGMA,NJ和MP分子系统学分析方法以及遗传差异分析都支持了亚洲远东地区中吻鲟和北美中吻鲟为一个有效种的观点;⑵同样研究方法并结合相关群体遗传资料表明,长江达式鲟与中华鲟关系最近,提出了达式鲟为中华鲟的一陆封类群的假说。最后,作者认为本文提出的观点和假说还需要更多的研究来证实。     

从线粒体DNA控制区核苷酸序列论达式鲟、亚洲和北美洲中吻鲟的分类地位

尽管古老的鲟形目鱼类的分类及系统演化一直是中外学者感兴趣的研究课题 ,但迄今仍有诸多谜团未解。其中 ,关于亚洲远东地区和北美地区的中吻鲟 (Acipensermedirostris)的分类地位争论已久。长江水系的达式鲟 (A .dabryanus)和中华鲟 (A .sinensis)及其它鲟属 (Acipenser)鱼类之间的亲缘关系近年来也有异议。为了给上述争议提供更多的科学依据 ,作者测定了线粒体DNA (mtDNA)控制区(D loop) 的核苷酸序列 ,并进行了分子系统学和遗传差异分析。研究结果表明 :⑴UPGMA ,NJ和MP分子系统学分析方法以及遗传差异分析都支持了亚洲远东地区中吻鲟和北美中吻鲟为一个有效种的观点 ;⑵同样研究方法并结合相关群体遗传资料表明 ,长江达式鲟与中华鲟关系最近 ,提出了达式鲟为中华鲟的一陆封类群的假说。最后 ,作者认为本文提出的观点和假说还需要更多的研究来证实。     

基于线粒体基因组的华蝉族系统发育地位研究(半翅目: 蝉科)(英文)

【目的】本研究旨在明确无鼓膜发音器的华蝉族(Sinosenini)昆虫在蝉总科(Cicadoidea)的系统发育地位。【方法】依据在陕西宁陕采集的合哑蝉Karenia caelatata成虫标本,对华蝉族的合哑蝉K. caelatata线粒体基因组进行测序、注释和生物信息学分析;并与蝉总科其他类群的线粒体基因组进行了比较,然后利用最大似然法(ML)和贝叶斯法(BI)分别构建了蝉总科分子系统发育树。【结果】合哑蝉线粒体基因组长14 960 bp (GenBank登录号: MN922304),其基因组成、蛋白编码基因的核苷酸组成和密码子使用等,与蝉总科其他类群具相似特征。核苷酸多样性分析表明,atp8, nad6和nad2为易变基因,而cox1比较保守。非同义替换率和同义替换率比表明,蝉总科昆虫线粒体基因组进化处于高水平的纯化选择下。系统发育分析结果支持蝉次目(Cicadomorpha)的单系性,该次目3个总科的关系为：角蝉总科Membraciodea+(蝉总科Cicadoidea+沫蝉总科Cercopodidea)。无鼓膜发音器的哑蝉属与蝉亚科(Cicadinae)的蜩蝉族(Dundubiini)相关类群聚在一起,且与寒蝉属Meimuna关系最近;黑蝉族(Cicadatrini)的草蝉属Mogannia和音蝉属Vagitanus则与姬蝉亚科(Cicadettinae)相关类群聚在一起;日宁蝉属Yezoterpnosia并非一个单系群。【结论】华蝉族应从姬蝉亚科转移至蝉亚科并与蜩蝉族(Dundubiini)合并,而黑蝉族应从蝉亚科转移至姬蝉亚科。研究结果为进一步解析具有不同发声机制的蝉科昆虫系统演化提供了新信息。     

中国鲿科鱼类线粒体DNA控制区结构及其系统发育分析

采用PCR技术获得了中国鲿科鱼类代表种类线粒体DNA控制区基因的全序列,对控制区基因结构进行了分析,并选用粒鲇科的中华粒鲇,鮡科的三线纹胸鮡作为外类群,用最大简约法(MP)和邻接法(NJ)构建了系统发育树。结果显示鲿科鱼类中控制区基因适于系统发育分析,鲿科鱼类构成一个单系类群;圆尾拟鲿应该放入鮠属里。     

绿眼赛茧蜂线粒体基因组全序列测定和分析

【目的】测定绿眼赛茧蜂Zele chlorophthalmus线粒体基因组全序列,分析其基因组结构及茧蜂科(Braconidae)部分类群的系统发育关系。【方法】利用Illumina MiSeq二代测序技术对绿眼赛茧蜂的线粒体基因组进行测序,对基因组序列进行拼装、注释,分析其结构特点和碱基组成;基于22种茧蜂科昆虫的COX1蛋白编码基因序列,应用最大似然法(ML)和邻接法(NJ)构建系统发育树,分析绿眼赛茧蜂与茧蜂科其他昆虫的系统发育关系。【结果】绿眼赛茧蜂线粒体基因组全长16 661 bp(GenBank登录号: MG822749),包含13个蛋白质编码基因、22个tRNA基因和2个rRNA基因,共37个基因,以及1个控制区。线粒体基因组有明显的核苷酸组成的偏倚,AT偏正,GC偏负,其A+T含量为82.83%。基因排列顺序与推测的昆虫祖先的序列不完全一致,tRNA基因7处发生重排。13个蛋白质编码基因均以ATN为起始密码子,以TAA为终止密码子。在22个tRNA基因二级结构中,除tRNA^His(H)缺失TΨC环和tRNA^Cys(C)仅剩二氢尿嘧啶(DHU)臂和反密码子臂外,其余tRNA基因均能形成典型的三叶草结构。基于COX1蛋白编码序列的系统发育分析结果显示,与绿眼赛茧蜂亲缘关系最近的是同属于赛茧蜂属的雪跗赛茧蜂Z. niveitarsis。【结论】本研究首次获得绿眼赛茧蜂线粒体基因组全序列。结果表明绿眼赛茧蜂隶属于优茧蜂亚科(Euphorinae)赛茧蜂属,并支持赛茧蜂属的单系性。     

Phylogenetic perspective on the relationships and evolutionary history of the Acipenseriformes

The Acipenseriformes, as one of the earliest extant vertebrates, plays an important role in the evolution of fishes and even the whole vertebrates. Here we collected and analyzed all complete mitochondrial genomes of Acipenseriformes species. Phylogenetic analyses demonstrated that the polytomous branch included Acipenseridae and Polyodontidae formed five clades. The Polyodontidae clade and the Scaphirhynchus clade both were monophyletic group, whereas the Acipenser species and the Huso species both were polyphyletic group. The Bayesian divergence times showed that the origin time for Acipenseriformes was at 318.0 Mya, which was similar to the some previous results of 312.1 Mya, 346.9 Mya and 389.7 Mya. The result was in good consistent with the paleontological data available and the split time of the Pacific and Atlantic Oceans from the Jurassic to the Cretaceous (Laurasia splits in North America and Eurasia). The dN/dS ratios showed the evolutionary rates gradually slow down in five major Acipenseriformes clades from the Clade A (the Pacific sturgeons species) to Clade C (the genus Scaphirhynchus), which was related to the process of geographical formation.     

Complete mitochondrial genome sequence and phylogenetic position of the Amu Darya sturgeon,Pseudoscaphirhynchus kaufmanni (Acipenseriformes: Acipenseridae)

In this study, we successfully assembled the complete mitochondrial genome of the Amu Darya sturgeon Pseudoscaphirhynchus kaufmanni. Based on this mitochondrial genome and previously published mitochondrial genomes of members of the Acipenseridae family, we assessed the phylogenetic position of P. kaufmanni using maximum likelihood and Bayesian inference for phylogeny reconstruction. The resultant phylogenetic trees were well-resolved, with congruence between different phylogenetic methods. This robust phylogenetic analysis elucidated the relationship among the four acipenserid genera and strongly supported the division of the family into three main clades. Evaluation of molecular phylogeny using maximum likelihood and Bayesian analysis led to the following conclusions: (a) the most basal position within the Acipenseridae remains in the clade containing Acipenser oxyrinchus and Acipenser sturio; (b) the genus Scaphirhynchus belongs to the Atlantic clade and is a sister group of the remaining species of the clade; and (c) the close relationship between P. kaufmanni and Acipenser stellatus is well supported.     

Molecular phylogeny of Acipenserinae and black caviar species identification.

The first phylogenetic tree for the Acipenserinae based on the combined sequence data for fragments of three mitochondrial genes, the cytochrome b (650 bp) gene, 12S (150 bp) and 16S (350 bp) rRNA genes is described. Three general conclusions are inferred from the tree: 1) Scaphirhynchus albus is the sister-species of all Acipenser and Huso species; 2) The two species of Huso are embedded within the genus Acipenser. Therefore, the genus Huso is not a separate taxonomic unit; and 3) There are three main clades within Acipenser: (a) A. sturio-A. oxyrinchus, (b) A. schrenckii-A. transmontanus, and (c) all Ponto-Caspian species plus A. dabryanus and A. brevirostrum. A method based on the identification of diagnostic nucleotide positions in the cytochrome b gene was developed and used to survey the United States and European caviar markets. The survey of 95 lots of caviar obtained at the American market suggests that in December 1995 and April 1996 17% of the designations made by caviar suppliers were mislabeled with respect to species identification. In December of 1996, this figure jumped to 32%. The main commercially harvested species (Huso huso, A. stellatus, A. gueldenstaedtii, A. schrenckii, and H. dauricus), as well as A. nudiventris, A. persicus, and A. baerii are threatened due to the increased demand of the international caviar market.     

Phylogeny of the Acipenseriformes: cytogenetic and molecular approaches

The review of the data on karyology and DNA content in Acipenseriformes shows that both extant families, the Polyodontidae and Acipenseridae, originated from a tetraploid ancestor which probably had a karyotype consisting of 120 macro- and microchromosomes and DNA content of about 3.2–3.8 pg per nucleus. The tetraploidization of the presumed 60-chromosome ancestor seems to have occurred at an early time of evolution of the group. The divergence of the Acipenseridae into Scaphirhyninae and Acipenserinae occurred without polyploidization. Within the genus Acipenser, polyploidization was one of the main genetic mechanisms of speciation by which 8n and 16n-ploid species were formed. Individual gene trees constructed for sequenced partial fragments of the 18S rRNA (230 base pairs, bp), 12S rRNA (185 bp), 16S rRNA (316 bp), and cytochrome b (270 bp) genes of two Eurasian (A. baerii and A. ruthenus) and two American (A. transmontanus and A. medirostris) species of Acipenser, Huso dauricus, Pseudoscaphirhynchus kaufmanni, Scaphirhynchus albus, and Polyodon spathula showed a low level of resolution; the analysis of a combined set of data for the four genes, however, gave better resolution. Our phylogeny based on molecular analysis had two major departures from existing morphological hypotheses: Huso dauricus is a sister-species to Acipenser instead of being basal to all acipenseriforms, and Scaphirhynchus and Pseudoscaphirhynchus do not form a monophyletic group. The phylogenetic tree constructed for the cytochrome b gene fragments (with inclusion of 7 additional species of Acipenser) supported the conclusion that octoploid species appeared at least three times within Acipenser.     

Phylogenetic relationships of the North American sturgeons (order Acipenseriformes) based on mitochondrial DNA sequences

The evolutionary relationships of the extant species within the order Acipenseriformes are not well understood. Nucleotide sequences of four mitochondrial genes (12S rRNA, COII, tRNA(Phe), and tRNA(Asp) genes) in North American sturgeon and paddlefish were examined to reconstruct a phylogeny. Analysis of the combined gene sequences suggests a basal placement of the paddlefish with regard to the sturgeons. Nucleotide sequences of all four genes for the three Scaphirhynchus species were identical. The position of Scaphirhynchus based on our data was uncertain. Within the genus Acipenser, the two Acipenser oxyrinchus subspecies were very similar in sequence and found to be basal to the remaining Acipenser species examined. Based on our data, Acipenser transmontanus and Acipenser medirostris were sister taxa, as were Acipenser fulvescens and Acipenser brevirostrum. Comparison of our results with hypotheses of sturgeon relationships proposed by previous authors is presented. The sequence data presented here are phylogenetically useful and provide a solid foundation of genetic information for the North American Acipenseriformes that can be expanded to include Eurasian species to provide a global picture of sturgeon evolution.     

Molecular phylogenetic systematics of twelve species of Acipenseriformes based on mtDNA ND4L -ND4 gene sequence analysis

Acipenseriformes is an endangered primitive fish group, which occupies a special place in the history of ideas concerning fish evolution, even in vertebrate evolution. However, the classification and evolution of the fishes have been debated. The mitochondrial DMA (mtDNA) ND4L and partial A7D4 genes were first sequenced in twelve species of the order Acipenseriformes, including endemic Chinese species. The following points were drawn from DNA sequences analysis: (i) the two species of Huso can be ascribed to Acipenser; (ii) A. dabryanus is the mostly closely related to A. sinensis, and most likely the landlocked form of A. sinensis; (iii) genus Acipenser in trans-Pacific region might have a common origin; (iv) mtDNA ND4L and ND4 genes are the ideal genetic markers for phylogenetic analysis of the order Acipenseriformes.     

Molecular phylogenetic systematics of twelve species of Acipenseriformes based on mtDNA ND4L -ND4 gene sequence analysis

Acipenseriformes is an endangered primitive fish group, which occupies a special place in the history of ideas concerning fish evolution, even in vertebrate evolution. However, the classification and evolution of the fishes have been debated. The mitochondrial DNA (mtDNA) ND4L and partial ND4 genes were first sequenced in twelve species of the order Acipenseriformes, including endemic Chinese species. The following points were drawn from DNA sequences analysis: (i) the two species of Huso can be ascribed to Acipenser; (ii) A. dabryanus is the mostly closely related to A. sinensis, and most likely the landlocked form of A. sinensis; (iii) genus Acipenser in trans-Pacific region might have a common origin; (iv) mtDNA ND4L and ND4 genes are the ideal genetic markers for phylogenetic analysis of the order Acipenseriformes.     

Screening and identification of female-specific DNA sequences in octaploid sturgeon using comparative genomics with high-throughput sequencing

In this study, six candidate female-specific DNA sequences of octaploid Amur sturgeon (Acipenser schrenckii) were identified using comparative genomic approaches with high-throughput sequencing data. Their specificity was confirmed by traditional PCR. Two of these sex-specific sequences were also validated as female-specific in other eight sturgeon species and two hybrid sturgeons. The identified female-specific DNA fragments suggest that the family Acipenseridae has a ZZ/ZW sex-determining system. However, one of the two DNA sequences has been deleted in some sturgeons such as Sterlet sturgeon (Acipenser ruthenus), Beluga (Huso huso) and Kaluga (H. dauricus). The difference of sex-specific sequences among sturgeons indicates that there are different sex-specific regions among species of sturgeon. This study not only provided the sex-specific DNA sequences for management, conservation and studies of sex-determination mechanisms in sturgeons, but also confirmed the capability of the workflow to identify sex-specific DNA sequences in the polyploid species with complex genomes.     

Formation of populations of Acipenseridae sturgeons in the Volga-Caspian basin

Analysis of dynamics of commercial catches and the state of populations of Russian sturgeon Acipenser gueldenstaedtii, starred sturgeon A. stellatus, and great sturgeon A. huso (Huso huso) in the Caspian Sea is presented. In the retrospective, the role of natural and artificial reproduction in formation of populations of Acipenseridae sturgeons is considered. The main principles of rational organization of practical activity for preservation and restoration of populations of Acipenseridae sturgeons are formulated.