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1.
A new classification of the Korean pleuronectids was proposed based on a molecular phylogeny using specimens collected from Korea (including some Japanese specimens) between 2008 and 2013. A molecular phylogeny based on partial sequences of the two mitochondrial DNA regions (COI and 16S rRNA) supported the reciprocal monophyly of the three genera, Cleisthenes, Pleuronectes and Pseudopleuronectes. We also found that the genus Poecilopsetta is clearly distinct from Pleuronectidae at the family level. Therefore, the previous classification of the Korean pleuronectids should be changed as follows; two families (Pleuronectidae and Poecilopsettidae), 18 genera, and 26 species. Further research is required to resolve the taxonomic uncertainty of the five species in the genus Limanda, which clustered into two clades in our analysis. 相似文献
2.
A new species of the nereidid annelid, genus Nicon Kinberg, 1866, from KIOST Seamount, Northwest Pacific deep water is described. Nicon is a genus characterized by lacking paragnaths or papillae on the pharynx and composed of nine species worldwide, distributed from shallow water to deep sea. Nicon ablepsia sp. nov. here described is characterized by the lack of eyes on the prostomium, prolonged tentacular cirri reaching to chaetiger 6, notochaetae homogomph spinigers, neurochaetae homogomph spinigers and heterogomph falcigers. Phylogenetic relationships of Nicon remain undetermined based on molecular data. In this study, we constructed molecular Maximum-Likelihood phylogenetic tree from 29 nereidid species based on four marker genes:mitochondrial 16S rRNA gene and cytochrome c oxidase subunit I (COI) gene; nuclear 18S rRNA gene and 28S rRNA gene. Our analysis suggest the Nicon is clustered within Nereidinae, and nereidinae is not recovered as monophyletic. A key to species of Nicon is provided. 相似文献
3.
3种蛏类线粒体16SrRNA和COI基因片段的序列比较及其系统学初步研究 总被引:15,自引:0,他引:15
对3种蛏类大竹蛏(Solen grandis),长竹蛏(Solen strictus)和小刀蛏(Cultellus attenuatus)的线粒体16SrRNA和COI基因片段序列进行了比较并对其系统学进行了初步研究。得到的序列总长度分别为472-481bp(16S)和658bp(COI)。3种蛏序列的碱基组成均显示出较高的A+T比例(16SrRNA基因62.1%;COI基因62.8%)。对位排序比较表明,16SrRNA片段种内个体间变异较小,3种类间存在128个碱基变异位点(其中包括127个简约信息位点)和5个插入/缺失位点,总共12个碱基长;COI片段有200个碱基存在变异,其中包括191个简约信息位点,不存在任何插入/缺失位点。数据分析结果表明16SrRNA和COI基因片段大竹蛏与长竹蛏两片段的遗传距离分别为0.0856和0.1712,两竹蛏类与小刀蛏的遗传距离分别为0.3054,0.2798和0.2662,0.2933。作者认为小刀蛏与竹蛏之间的遗传距离已达到科之间的水平,结果支持将其提升为刀蛏科的分类观点。3种蛏类线粒体16SrRNA和COI基因在种间明显的多态性,证实了16SrRNA和COI基因序列均普遍适用于蛏类种及以上阶元的系统学分析。 相似文献
4.
Phylogeny of the cuttlefishes (Mollusca: Cephalopoda) based on mitochondrial COI and 16S rRNA gene sequence data 总被引:5,自引:0,他引:5
To clarify cuttlefish phylogeny, mitochondrial cytochrome c oxidase subunit I (COI) gene and partial 16S rRNA gene are sequenced for 13 cephalopod species. Phylogenetic trees are constructed, with the neighbor-joining method. Coleoids are divided into two main lineages, Decabrachia and Octobrachia. The monophyly of the order Sepioidea, which includes the families Sepiidae, Sepiolidae and Idiosepiidae, is not supported. From the two families of Sepioidea examined, the Sepiolidae are polyphyletic and are excluded from the order. On the basis of 16S rRNA and amino acid of COI gene sequences data, the two genera (Sepiella and Sepia) from the Sepiidae can be distinguished, but do not have a visible boundary using COI gene sequences. The reason is explained. This suggests that the 16S rDNA of cephalopods is a precious tool to analyze taxonomic relationships at the genus level, and COI gene is fitter at a higher taxonomic level (i.e., family). 相似文献
5.
为探讨DNA条形码基因COⅠ序列在石鲈亚科鱼类物种鉴定的有效性,本研究分析了印度-太平洋区域的石鲈亚科7个属29种鱼类9个个体长度为651 bp的COⅠ基因序列,利用MEGA 5.0计算石鲈亚科种内与种间的遗传距离,并基于最大简约法与最大似然法构建了其分子系统进化关系。结果显示:石鲈亚科鱼类种间遗传距离在0.021—0.240之间,平均遗传距离0.184;种内遗传距离在0.000—0.009之间,平均0.004。其中种间平均遗传距离(0.184)显著大于种内平均遗传距离(0.004),种间遗传距离是种内的46倍。同时,各物种间遗传距离均大于Hebert推荐区分物种的最小种间遗传距离0.02(2%)。基于COⅠ序列构建的系统进化树,同一物种不同个体间均能聚成独立的单系,表明COⅠ基因可作为石鲈亚科物种准确鉴定的有效条形码基因。同时,系统进化树上,石鲈属是非单系类群,主要形成5个分支,而不同分支的种类与其地理分布存在一定的相关性,与近年部分分子系统地理学的研究观点一致。 相似文献
6.
We report on a hexactinellid sponge new to science, Walteria demeterae sp. nov., which was collected from the northwestern Pacific seamounts at depths of 1271–1703 m. Its tubular and basiphytous body, extensive lateral processes, numerous oval lateral oscula which are irregularly situated in the body wall, the presence of microscleres with oxyoidal, discoidal and onychoidal outer ends, and the absence of anchorate discohexasters, indicate it belongs to the genus Walteria of family Euplectellidae, which is also supported by molecular phylogenetic evidence from 18S, 28S, 16S rRNA and cytochrome c oxidase subunit I (COI) gene sequences. The unique morphotype, which is structured by a thin and rigid framework of body wall and lateral processes consisting of diactins, characterizes it as a new species. Local aggregations of individuals of this new species coupled with their associated macrofauna in the Suda Seamount are reported, highlighting its functional significance in providing biogenic microhabitats in the deep sea. 相似文献
7.
16S rRNA is a better choice than COI for DNA barcoding hydrozoans in the coastal waters of China 总被引:4,自引:0,他引:4
Identification of hydrozoan species is challenging, even for taxonomic experts, due to the scarcity of distinct morphological characters and phenotypic plasticity. DNA barcoding provides an efficient method for species identification, however, the choice between mitochondrial cytochrome c oxidase subunit I(COI) and large subunit ribosomal RNA gene(16S) as a standard barcode for hydrozoans is subject to debate. Herein, we directly compared the barcode potential of COI and 16S in hydrozoans using 339 sequences from 47 pelagic hydrozoan species. Analysis of Kimura 2-parameter genetic distances(K2P) documented the mean intraspecific/interspecific variation for COI and 16S to be 0.004/0.204 and 0.003/0.223, respectively. An obvious "barcoding gap" was detected for all species in both markers and all individuals of a species clustered together in both the COI and 16S trees. These results suggested that the species within the studied taxa can be efficiently and accurately identified by COI and 16S. Furthermore, our results confirmed that 16S was a better phylogenetic marker for hydrozoans at the genus level, and in some cases at the family level. Considering the resolution and effectiveness for barcoding and phylogenetic analyses of Hydrozoa, we strongly recommend 16S as the standard barcode for hydrozoans. 相似文献
8.
Ying Zhang Li Gong Xinting Lu Zengliang Miao Lihua Jiang Bingjian Liu Liqin Liu Pengfei Li Xu Zhang Zhenming Lü 《海洋学报(英文版)》2022,41(6):119-131
Complete mitochondrial genomes(mitogenomes) can indicate phylogenetic relationships, as well as useful information for gene rearrangement mechanisms and molecular evolution. Currently, the phylogenetic location of the genus Varuna(Brachyura: Varunidae) has not been well resolved mainly because of limited representatives(only two extant species). Here, we determined a new mitogenome of this genus(Varuna litterata) and added the published mitogenomes to reconstruct the phylogeny of Varunidae. The ... 相似文献
9.
Joana M da Silva Antonina dos Santos Marina R Cunha Filipe O Costa Simon Creer Gary R Carvalho 《Marine Ecology》2013,34(2):157-170
Despite the high number of species and ecological diversity of pandalid shrimps, there has been no previous attempt to resolve evolutionary relationships of several genera using molecular tools. Although mitochondrial DNA cytochrome oxidase I (COI) is widely used in barcoding studies to delimit species boundaries, additional insights into phylogenetic affinities can be obtained, especially when used in combination with data from additional genes. The knowledge of molecular diversity is essential to understand phylogenetic relationships and will help systematic clarifications. Based on partial fragments of the 16S and COI genes, we have focused specifically on addressing the systematic relationships of the economically and ecologically important shrimp genus Plesionika within a framework of five genera from within the Pandalidae. Our results showed that species within Plesionika are substantially divergent when compared with other genera, exhibiting the highest average nucleotide divergence, with 0.1123 and 0.0846 in COI and 16S genes, respectively. In addition, sequence divergence was found to vary greatly within the genus Plesionika (COI/16S): 0.0247/0.0016 between Plesionika antigai and Plesionika heterocarpus and 0.1616/0.098 between Plesionika heterocarpus and Plesionika edwardsii. We did not find amino acid sequence divergence between P. heterocarpus and P. antigai compared with P. heterocarpus and P. edwardsii (8.10%, K2P distance). Three species of Plesionika (P. antigai, P. heterocarpus and Plesionika scopifera) appear well separated from other Plesionika species in both maximum likelihood and Bayesian analyses. The present study confirms the utility of COI over 16S as a genetic marker to resolve relationships between different species of Plesionika from the Northeast Atlantic and Mediterranean Sea, in addition to species delimitation. The findings highlight the need to further review paraphyly within Plesionika in an attempt to recognize a concordance in the evolutionary history of Plesionika with major ecological and geological events. 相似文献
10.
基于COI序列的翡翠股贻贝Perna viridis线粒体遗传特性分析及其近缘种间的系统关系探讨 总被引:1,自引:0,他引:1
应用通用引物 COIL 1490和 COIH 2198对翡翠股贻贝Perna viridis的性腺和体细胞线粒体DNA进行PCR扩增,获得661bp长度的COI基因片段,经过比对性腺与体细胞的COI片段,发现雄性性腺与体细胞COI基因均为一个单倍型,即体内只有一种线粒体DNA类型,没有发现双单性遗传现象,雌、雄性腺的COI基因片段变异率很低(0.31%)。应用PAUP构建了NJ树、MP树以及贝叶斯法构建了贝叶斯树,对股贻贝属3种间的系统关系进行了分析,结果表明,翡翠股贻贝P. viridis与P. canaliculus 和 P. perna 之间的分化与分歧年代的估算是相吻合的。 相似文献
11.
三疣梭子蟹线粒体DNA 16S rRNA和COI基因片段序列的比较研究 总被引:19,自引:2,他引:19
本文采用 PCR扩增和序列测定等技术 ,对三疣梭子蟹 (Portunustrituberculatus)线粒体DNA1 6Sr RNA和 COI基因片段进行了初步研究。经 PCR扩增和序列测定 ,分别得到 1 6Sr RNA和 COI2个基因片段的碱基序列 ,其中 1 6Sr RNA基因片段的大小为 566bp,碱基 A,T,G,C的含量分别为 35.1 6% ,34.45% ,1 2 .37%和 1 8.0 2 % ;COI基因片段的大小为 658bp,碱基 A,T,G,C的含量分别为 36.63% ,2 6.44% ,2 0 .52 %和 1 6.41 %。在 2种基因片段中 ,AT含量均明显高于 GC含量 ,这与果蝇、虾类、蟹类等无脊椎动物的 1 6Sr RNA和 COI基因片段研究结果相似。通过对三疣梭子蟹 1 6S r RNA和 COI2个基因片段遗传特征的研究 ,发现其种内变异较低 ,在 3个样本中 1 6Sr RNA基因片段序列完全一样 ,COI基因片段中也只有 2个 T/ C位点转换。另外 ,比较本研究所得序列与 Gen Bank中梭子蟹科 5个属的 1 6Sr RNA基因片段序列后 ,发现其聚类结果与传统分类相一致。 相似文献
12.
本研究基于线粒体DNA分子标记NADH脱氢酶亚基1基因(ND1)部分序列分析了印度-西太平洋海域的胡椒鲷属及少棘胡椒鲷属共16种胡椒鲷鱼类的系统进化关系。采用最大简约法及最大似然法构建了系统进化树。进化树上,16种胡椒鲷鱼类共形成两个形态特征截然不同的类群,其中类群一的种类体表具有各种鲜艳的颜色与多变的斑纹,主要分布在西太平洋地区;类群二的种类颜色灰暗单一,少数体表具有暗色斑点与条纹,大多数分布在印度洋地区。此外,进化树上,少棘胡椒鲷属的种类都位于胡椒鲷属的类群一内部,与斑胡椒鲷,暗点胡椒鲷形成的姐妹种有较近的亲缘关系。基于遗传距离的数据,少棘胡椒鲷属与胡椒鲷属间的平均遗传距离小于胡椒鲷属内部种间的遗传距离,显示出少棘胡椒鲷属与胡椒鲷属有非常近的亲缘关系,支持少棘胡椒鲷归类于胡椒鲷属的观点。 相似文献
13.
6种帘蛤科贝类及4个地理种群文蛤线粒体COI基因片段序列分析 总被引:8,自引:0,他引:8
对文蛤(Meretrix meretrix L.,1758)、青蛤(Cyclina sinensis G.,1791)、硬壳蛤(Mercenaria mercenaria L.,1758)、江户布目蛤(Protothaca jedoensis L.,1874)、薄片镜蛤(Dosinia corrugata R.,1850)和菲律宾蛤仔(Ruditapes philippinarum A.,1850)6种帘蛤科贝类和4个地理种群文蛤(大连、连云港、湛江、防城港)的细胞色素c氧化酶亚基I(COI)基因片段的核苷酸序列进行了分析,以探讨这一序列在种质鉴定、种群遗传结构和分子系统发生研究中的应用价值.测序结果表明,所有物种扩增片段长度均为709 bp,序列A+T含量(62.2%~67.6%)明显高于GC含量.物种间共有变异位点311个,其中简约信息位点202个;文蛤4个地理种群间共有变异位点46个,其中简约信息位点2个.此区段共编码235个氨基酸,种间共有氨基酸变异位点85个;文蛤种群间只有1个氨基酸变异位点.以COI基因片段序列为标记,用大竹蛏(Solen grandis)作外群,构建了帘蛤科贝类的系统发生树,其拓扑结构显示4个地理种群文蛤首先聚为1个单元,然后与青蛤聚在一起,最后所有帘蛤科物种聚为一枝,与外群相区别,其结果与传统形态分类基本一致,说明COI基因适合作为该科贝类种群遗传结构和系统发生研究的分子标记. 相似文献
14.
本研究采集了分布在西太平洋的石斑鱼亚科10属共40种鱼类,采用PCR扩增及测序技术获得所有样品16S rRNA、COI基因部分序列,利用最大似然法构建系统进化树并分析。结果表明:40种鱼类COI基因为651 bp,编码227个氨基酸,16S rRNA基因同源序列566 bp,序列存在一定的碱基插入与缺失,各物种16S rRNA基因序列变异比COI要少,序列较为保守。构建的系统进化树上,在本研究的石斑鱼亚科10个属中,鳃棘鲈属分类地位最原始,位于进化树基部,6种鳃棘鲈能聚成一个单系;烟鲈属与九棘鲈属关系较近,两者聚为一支,侧牙鲈属的进化地位介于鳃棘鲈属与九棘鲈属之间;石斑鱼属的进化地位最高,位于进化树顶部,形成两个平行分支,但是石斑鱼属种类未能聚成一个单系;驼背鲈属、鸢鮨属、下美鮨属、光腭鲈属及宽额鲈属均未能形成独立分支,而是与石斑鱼属种类聚在一起,显示其与石斑鱼属有很近的亲缘关系,部分可能是石斑鱼属的特化类群。 相似文献
15.
测定三疣梭子蟹(Portunus trituberculatus)9个个体COI基因部分序列467 bp,7个个体16S rRNA基因部分序列519 bp,同时测定样品蟹1个个体COI基因部分序列468 bp.结合GenBank中收集的梭子蟹科COJ,16S rRNA两个基因所有同源序列信息,使用Kimura双参数模型采用邻接法(NJ)、最大简约法(MP)构建梭子蟹科分子系统发育树;将样品蟹测得的COI基因序列和已知鲟属的其他蟹同源序列(429 bp)进行比对分析.结果分析表明:两个基因片段序列平均碱基AT数量分数都明显高于GC数量分数;梭子蟹属与美青蟹属关系最近,蟳属应为区别于梭子蟹属、美青蟹属、青蟹属的另一支,支持蟳属应划分在短桨蟹亚科的观点;根据遗传距离以及转换/颠换(R)值分析,判定出样品蟳为锐齿蟳.本试验运用线粒体基因片段探讨了梭子蟹类的系统发育关系以及样品蟹的种类鉴定,为线粒体基因片段在梭子蟹的物种鉴定和系统发育重建中的开发和利用提供重要参考. 相似文献
16.
mtDNA COI基因在轮虫分子系统重建中的意义 总被引:5,自引:0,他引:5
为分析mtDNA COI基因在轮虫分子系统重建中的作用.扩增并测定了B.calyciflorus和B.quadridentatus mtDNA COI基因部分序列。通过对扩增序列和Genbank中其它轮虫序列进行比较分析.发现COI序列包含丰富的遗传信息。利用Kimura双参数法计算遗传距离,在属和物种水平上间存在不同程度的遗传分化。利用NJ和MP法构建基因树。各物种形成独立进化枝.在属、科水平上与传统分类结果基本一致.这说明COI在轮虫系统重建中具有重要意义。在种内不同的单元型之间存在着遗传差异,部分种类不同地理种群之间存在较大的遗传变异.因此在系统重建过程中要注意种内多态的影响。 相似文献
17.
基于线粒体COI和16S rRNA基因的中国沿海相手蟹系统发育研究 总被引:2,自引:0,他引:2
相手蟹科的诸多种类因其形态极其相似成为方蟹总科分类中疑问较多的一个类群。通过对中国沿海相手蟹线粒体COI和16S rRNA基因序列进行分子系统发育分析,结果表明14种相手蟹COI和16S rRNA基因序列之间差异分别为5.7%~14.5%和1.5%~12.1%,均达到了种间差异水平。构建的系统发育树显示,14种相手蟹分别为独立有效物种,但分属于拟相手蟹属和近相手蟹属的4种拟相手蟹和3种近相手蟹,没有分别形成2个独立的支系,而是混合聚成一大支系。而属于螳臂相手蟹属的无齿螳臂相手蟹则首先与属于中相手蟹属的中华中相手蟹聚成一支,再与红螯螳臂相手蟹聚为一大支,表现出与形态分类的不一致。错综复杂的分子系统关系预示着相手蟹类为多系起源,也表明它们之间的种间关系乃至于属间关系尚有诸多问题有待进一步厘定。 相似文献
18.
19.
贻贝隶属于软体动物门(Mollusca)、双壳纲(Bivalvia)、翼形亚纲(Pteriomorphia)、贻贝目(Mytilida)、贻贝超科(Mytiloidea),大约有400种贻贝分布在世界各地,可适应淡水、潮间带至深海多种生境。本实验以贻贝科6亚科12属28种中国沿海常见贻贝的28SrDNA为目的片段,构建系统发育进化树,运用最大似然法和贝叶斯推演法分析了贻贝科的系统发生,并追踪贻贝科物种系统演化历史。结果显示:贻贝亚科Mytilinae、偏顶蛤亚科Modiolinae、石蛏亚科Lithophaginae均非单系群。在属阶元,深海偏顶蛤属Bathymodiolus、贻贝属Mytilus和股贻贝属Perna为单系群。本研究发现应接受将原隔贻贝属Septifer分为Septifer属和Mytilisepta属的分类提议;应接受将原石蛏属Lithophaga中的膜石蛏亚属Leiosolenus提升至属的地位的分类提议。此外,短齿蛤属Brachidontes的单系性不被支持,刻缘短齿蛤Brachidontessetiger并未与短齿蛤属其他物种在系统发育树上聚拢,亲缘关系较远,为不同属物种,建议恢复刻缘短齿蛤原属名Volsella (Dunker, 1857)。 相似文献
20.
Tapan K. Barik Surya N. Swain Bijayalaxmi Sahu Bibarani Tripathy Usha R. Acharya 《Marine Ecology》2021,42(1):e12632
Individual specimens of Myripristis jacobus Cuvier, 1829 and Scarus taeniopterus Lesson, 1829 were collected from Gopalpur‐on‐sea, Odisha coast, Bay of Bengal. Both the fish samples were assigned species level tags using the conventional taxonomic methods. The capture of both the fish species is of particular interest in that they were new to the Bay of Bengal. Molecular analysis using the mitochondrial cytochrome oxidase subunit I (COI) gene showed high confidence sequence similarity in species identification. The resultant phylogenetic relationships strongly support the monophyly of both the genus with congruent clustering of both the species according to their morphological identification. In addition, the time tree produced is in complete agreement with the recent studies. These studies conclusively prove that both the species might have been originated during the middle to the late Miocene period. Furthermore, both fish species are typical inhabitants of stigmatized coral reefs, confined to the reef regions. These fish species perhaps migrated to the Bengal Bay from the Andaman and Nicobar Islands reef regions because of climatic changes. 相似文献