共查询到19条相似文献,搜索用时 171 毫秒
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基于线粒体CO 1基因序列的DNA条形码在鲤科鲌属鱼类物种鉴定中的应用 总被引:8,自引:0,他引:8
本研究探讨了线粒体CO1基因作为DNA条形码对鲌属鱼类进行物种鉴定的可行性。研究中获得了鲌属4种鱼类共32个个体长度为816bp的CO1基因序列。利用MEGA软件计算鲌属鱼类种间及种内遗传距离,利用邻接法、最大简约法、最大似然法和Bayesian方法分别构建分子系统树。结果显示,鲌属鱼类的种间遗传距离显著大于种内遗传距离。在系统树中,鲌属鱼类每一物种的个体分别形成各自独立的分支。基于CO1基因的DNA条形码在识别鲌属鱼类物种方面和传统形态学基本一致,而且该基因可以探讨鲌属鱼类种间的系统发育关系。本研究表明以CO1基因作为鲌属鱼类DNA条形码进行物种鉴定具有一定的可行性。 相似文献
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《生物多样性》2017,(10)
海岸带耐盐植物是一个生态和经济价值独特的庞杂类群,人们对其DNA条形码特性的了解甚少。本文对我国从辽宁到海南10个沿海省(市)大陆及岛屿海岸带耐盐植物广泛采样,从采集获得的样品中筛选出53科97属116个物种共562个样品进行DNA条形码研究。对3个叶绿体片段(mat K、rbc L、trn H-psb A)和1个核基因片段(ITS)进行了扩增和测序,统计各个片段的引物通用性和序列获得率,并检验了物种识别率。从序列获得率来看,mat K和trn H-psb A片段表现最好,ITS较差,ITS和mat K的引物通用性比其他2个片段差。序列相似性分析表明,单个片段ITS物种识别率最高(73.36%),其次为mat K(64.03%)和trn H-psb A(61.21%),rbc L的物种识别率最低,仅为46.41%。系统发育树分析显示mat K的物种识别率最高(82.3%),依据trn H-psb A片段难以获得可靠的系统发育树。多维度非度量分析(non-metric multidimensional scaling,NMDS)表明在进行海岸带区域性植物的DNA条形码研究时,叶绿体片段和核基因片段均应该考虑。综合上述研究结果,推荐联合片段ITS+mat K作为中国海岸带耐盐植物DNA条形码。本文为海岸带耐盐植物研究提供了总计1,939条DNA条形码基础数据,为构建耐盐植物DNA条形码数据库奠定了基础。 相似文献
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在群落水平上重建植物系统发育关系是当前植物系统学研究的一项重要内容;DNA条形码技术的出现为这一工作的开展提供了便利。本文选取国际通用的植物DNA条形码(rbcL,matK和psbA trnH),对鼎湖山大样地的183个物种(隶属于24目51科110属)进行测序;分别利用两位点和三位点DNA条形码组合构建该样地植物群落的系统发育关系,并比较不同位点组合构建出的群落系统发育关系的拓扑结构和节点支持率;最后选出一个具有最好拓扑结构和最高节点支持率的鼎湖山大样地群落系统发育关系。在目、科和属这三个水平上,三位点条形码片段组合构建的群落系统发育关系与APG系统获得较好匹配;有些进化分支在相应的APG系统位置解决得不好,却在条形码序列构建的系统发育关系中得到了较好解决。表明综合使用不同进化速率的DNA条形码片段并采取三位点超级矩阵的组合策略,在未采用APG系统大框架的情况下,也能快速而又相对准确地构建出鼎湖山南亚热带森林植物群落的系统发育关系。 相似文献
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裴男才 《植物分类与资源学报》2012,34(3):263-270
在群落水平上重建植物系统发育关系是当前植物系统学研究的一项重要内容;DNA条形码技术的出现为这一工作的开展提供了便利。本文选取国际通用的植物DNA条形码(rbcL,matK和psbA trnH),对鼎湖山大样地的183个物种(隶属于24目51科110属)进行测序;分别利用两位点和三位点DNA条形码组合构建该样地植物群落的系统发育关系,并比较不同位点组合构建出的群落系统发育关系的拓扑结构和节点支持率;最后选出一个具有最好拓扑结构和最高节点支持率的鼎湖山大样地群落系统发育关系。在目、科和属这三个水平上,三位点条形码片段组合构建的群落系统发育关系与APG系统获得较好匹配;有些进化分支在相应的APG系统位置解决得不好,却在条形码序列构建的系统发育关系中得到了较好解决。表明综合使用不同进化速率的DNA条形码片段并采取三位点超级矩阵的组合策略,在未采用APG系统大框架的情况下,也能快速而又相对准确地构建出鼎湖山南亚热带森林植物群落的系统发育关系。 相似文献
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基于DNA条形码对桃属植物上蚜虫的快速鉴定 总被引:1,自引:0,他引:1
桃属(Amygdalus)植物是我国重要的果树,有些种类是常见的城市绿化观赏树种,也是多种蚜虫的寄主。蚜虫的体型小,有复杂的多型现象,传统的形态学特征往往无法实现对物种的准确而快速的鉴定。本研究应用DNA条形码技术,基于COⅠ基因序列分析,对我国桃属植物上的蚜虫进行编码,为桃属植物上蚜虫的物种快速、准确鉴定提供有力的支持。本研究共编码桃属植物上蚜虫12种,其中蚜亚科Aphidinae 6属10种,毛管蚜亚科Greenideinae 1属1种,毛蚜亚科Chaitophorinae 1属1种。共获得COⅠ基因序列96条,种内平均差异为0.76%,种间为5.7%15.5%。基于COⅠ序列构建了NJ树,绝大多数物种的样品有效地聚为一支,且支持率达到了95%以上。结合遗传距离和系统发育树分析表明,基于COⅠ序列的DNA条形码能有效区分99%的桃属植物上的蚜虫物种。 相似文献
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秋海棠属植物种类繁多,形态变异多样,导致种类的系统放置混乱,近缘种类鉴定困难。利用DNA条形码实现物种快速准确的鉴定技术具有不受形态特征约束的优势,为秋海棠属植物的分类鉴定提供了新的方法。本研究选择4个DNA条形码候选片段(rbcL,matK,trnH-psbA,ITS)对中国秋海棠属26种136个个体进行了分析。结果显示:叶绿体基因rbcL,matK和trnH-psbA种内和种间变异小,对秋海棠属植物的鉴别能力有限:ITS/ITS2种内和种间变异大,在本研究中物种正确鉴定率达到100%/96%,可考虑作为秋海棠属DNA条形码鉴定的候选片段。研究结果支持中国植物条形码研究组建议将核基因ITS/ITS2纳人种子植物DNA条形码核心片段中的观点。 相似文献
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植物DNA条形码促进系统发育群落生态学发展 总被引:5,自引:1,他引:4
系统发育群落生态学是近年兴起的一个重要牛态学研究分支,它以群落生态学为基础并引入了系统发育的分析方法,全面动态地反映了群落中物种内和物种间的相互作用关系,揭示了群落格局形成的生态学过程,研究了生物多样性的形成及维持机制.巴拿马BCI(Barro Colorado Island)样地的成功例子说明,在固定样地进行长期的群落生态与系统发育研究切实可行且极具意义;DNA条形码的快速兴起对这一研究发挥着重要作用.本文先列举了群落生态与系统发育综合分析能解决的群落系统发育结构、群落生态位结构、生物地理学和性状进化等生态学问题;接着介绍了标准植物DNA条形码以及利用片段组合(rbcL+matK+trnH-psbA)进行快速物种识别和近缘种区分、精确群落系统发育关系的构建以及群落生态学研究;随后提出DNA条形码研究在类群水平上需注意两片段的条形码组合(matK+rbcL)在同属种鉴别能力上的不足,而在较大尺度群落水平上需对实验设计进行优化.DNA条形码将为探讨物种多样性及其维持机理、系统发育beta多样性以及群落水平上功能性状进化研究提供新的思路. 相似文献
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DNA条形码技术在植物中的研究现状 总被引:1,自引:0,他引:1
DNA条形码技术(DNA barcoding)是用短的DNA片段对物种进行识别和鉴定的分子生物学技术。在动物研究中该技术已经成功应用于利用线粒体细胞色素c氧化酶亚基I(COI)进行物种鉴定和发现隐种或新物种。相对于动物, COI基因在高等植物中进化速率较慢, 因此植物条形码研究以叶绿体基因组作为重点, 但目前还处于寻找合适的基因片段阶段。许多学者对此进行了积极的探索, 报道了多种植物条形码的候选片段或组合, 但还没有获得满足所有标准的特征位点片段。该文介绍了DNA条形码的标准、优点、工作流程及数据分析方法, 总结了DNA条形码在植物中的研究现状。 相似文献
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DNA条形码技术在植物中的研究现状 总被引:6,自引:0,他引:6
DNA条形码技术(DNA barcoding)是用短的DNA片段对物种进行识别和鉴定的分子生物学技术。在动物研究中该技术已经成功应用于利用线粒体细胞色素c氧化酶亚基I(COI)进行物种鉴定和发现隐种或新物种。相对于动物, COI基因在高等植物中进化速率较慢, 因此植物条形码研究以叶绿体基因组作为重点, 但目前还处于寻找合适的基因片段阶段。许多学者对此进行了积极的探索, 报道了多种植物条形码的候选片段或组合, 但还没有获得满足所有标准的特征位点片段。该文介绍了DNA条形码的标准、优点、工作流程及数据分析方法, 总结了DNA条形码在植物中的研究现状。 相似文献
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为提高物种鉴定的准确性, 本研究采用DNA条形码技术对大亚湾生态监控区冬季采集的贝类样品进行了种类鉴定。结果表明, 26个形态种中, 有15个可以通过线粒体COI和16S rRNA基因的系统发育分析鉴定到种的水平。部分形态上难以鉴定的种类, 如线缝摺塔螺(Ptychobela suturalis)和区系螺(Funa sp.)可以通过条形码实现有效鉴定。锯齿巴非蛤(Paphia gallus)、西格织纹螺(Nassarius siquijorensis)、爪哇拟塔螺(Turricula javana)等种类存在相当大的种内遗传距离, 有存在隐存种的可能性。尽管基于线粒体COI和16S rRNA基因的种内遗传距离和属内种间的遗传距离发生重合, 无明显的条形码间隙, 但通过系统树的方法仍能有效鉴定物种。可见, DNA条形码技术能有效提高海洋贝类物种鉴定的准确性并发现隐存种。 相似文献
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DNA条形码技术就是利用一段较短的标准DNA序列对物种进行快速鉴定。与基于植物外部形态特征的传统分类鉴定方法相比, DNA条形码具有高效、准确,且易于实现自动化和标准化的特点。马先蒿属(Pedicularis L.)植物具对生(轮生)叶的种类70%以上分布在中国,近缘种间形态上非常相似,鉴定较为困难。研究选取马先蒿属具对生(轮生)叶类群43种164份样品,利用叶绿体基因(rbcL、matK、trnH psbA)和核基因(ITS)条形码片段,采用建树法和距离法检验4个条形码对这些物种的鉴定效果。结果表明,ITS片段用于建树法和距离法的鉴别率分别为81.40%和89.57%,其鉴别率高于3个叶绿体基因片段和任一基因片段的组合条码。另外,利用ITS成功解决了一些疑难种的分类问题。DNA条形码在马先蒿属研究中的实用性为新一代植物志(iFlora)实现物种的快速和准确鉴定提供了有力支持,并能为分类学、生态学、进化生物学、居群遗传学和保护遗传学等分支学科的研究提供重要信息。 相似文献
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Catherine J. Nock Daniel L.E. Waters Mark A. Edwards Stirling G. Bowen Nicole Rice Giovanni M. Cordeiro Robert J Henry 《Plant biotechnology journal》2011,9(3):328-333
Chloroplast DNA sequence data are a versatile tool for plant identification or barcoding and establishing genetic relationships among plant species. Different chloroplast loci have been utilized for use at close and distant evolutionary distances in plants, and no single locus has been identified that can distinguish between all plant species. Advances in DNA sequencing technology are providing new cost‐effective options for genome comparisons on a much larger scale. Universal PCR amplification of chloroplast sequences or isolation of pure chloroplast fractions, however, are non‐trivial. We now propose the analysis of chloroplast genome sequences from massively parallel sequencing (MPS) of total DNA as a simple and cost‐effective option for plant barcoding, and analysis of plant relationships to guide gene discovery for biotechnology. We present chloroplast genome sequences of five grass species derived from MPS of total DNA. These data accurately established the phylogenetic relationships between the species, correcting an apparent error in the published rice sequence. The chloroplast genome may be the elusive single‐locus DNA barcode for plants. 相似文献
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Background
DNA barcoding has recently been proposed as a promising tool for the rapid species identification in a wide range of animal taxa. Two broad methods (distance and monophyly-based methods) have been used. One method is based on degree of DNA sequence variation within and between species while another method requires the recovery of species as discrete clades (monophyly) on a phylogenetic tree. Nevertheless, some issues complicate the use of both methods. A recently applied new technique, the character-based DNA barcode method, however, characterizes species through a unique combination of diagnostic characters.Methodology/Principal Findings
Here we analyzed 108 COI and 102 16S rDNA sequences of 40 species of Neogastropoda from a wide phylogenetic range to assess the performance of distance, monophyly and character-based methods of DNA barcoding. The distance-based method for both COI and 16S rDNA genes performed poorly in terms of species identification. Obvious overlap between intraspecific and interspecific divergences for both genes was found. The “10× rule” threshold resulted in lumping about half of distinct species for both genes. The neighbour-joining phylogenetic tree of COI could distinguish all species studied. However, the 16S rDNA tree could not distinguish some closely related species. In contrast, the character-based barcode method for both genes successfully identified 100% of the neogastropod species included, and performed well in discriminating neogastropod genera.Conclusions/Significance
This present study demonstrates the effectiveness of the character-based barcoding method for species identification in different taxonomic levels, especially for discriminating the closely related species. While distance and monophyly-based methods commonly use COI as the ideal gene for barcoding, the character-based approach can perform well for species identification using relatively conserved gene markers (e.g., 16S rDNA in this study). Nevertheless, distance and monophyly-based methods, especially the monophyly-based method, can still be used to flag species. 相似文献16.
蒟蒻薯属(薯蓣科)植物DNA条形码研究 总被引:6,自引:0,他引:6
蒟蒻薯属(Tacca)植物种间在形态上差别不大,导致分类上存在一定的困难.DNA条形码是一种利用短的DNA标准片段来鉴别和发现物种的方法.本研究利用核基因ITS片段和叶绿体基因trn H-psbA,rbcL,matK片段对蒟蒻薯属6个种的DNA条形码进行研究,对4个DNA片段可用性,种内种间变异,barcode gap进行了分析,采用Tree-based和BBA两种方法比较不同序列的鉴定能力.结果显示:单片段ITS正确鉴定率最高,片段组合rbcL+matK正确鉴定率最高.支持CBOL植物工作组推荐的条码组合rbcL+matK可作为蒟蒻薯属物种鉴定的标准条码,建议ITS片段作为候选条码.丝须蒟蒻薯Tacca integrifolia采自西藏的居群与马来西亚居群形成了2个不同的遗传分支,且两者在形态上也存在一定的差异,很可能是一个新种. 相似文献
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Unlike distinct species, closely related species offer a great challenge for phylogeny reconstruction and species identification with DNA barcoding due to their often overlapping genetic variation. We tested a sibling species group of pine moth pests in China with a standard cytochrome c oxidase subunit I (COI) gene and two alternative internal transcribed spacer (ITS) genes (ITS1 and ITS2). Five different phylogenetic/DNA barcoding analysis methods (Maximum likelihood (ML)/Neighbor-joining (NJ), "best close match" (BCM), Minimum distance (MD), and BP-based method (BP)), representing commonly used methodology (tree-based and non-tree based) in the field, were applied to both single-gene and multiple-gene analyses. Our results demonstrated clear reciprocal species monophyly for three relatively distant related species, Dendrolimus superans, D. houi, D. kikuchii, as recovered by both single and multiple genes while the phylogenetic relationship of three closely related species, D. punctatus, D. tabulaeformis, D. spectabilis, could not be resolved with the traditional tree-building methods. Additionally, we find the standard COI barcode outperforms two nuclear ITS genes, whatever the methods used. On average, the COI barcode achieved a success rate of 94.10-97.40%, while ITS1 and ITS2 obtained a success rate of 64.70-81.60%, indicating ITS genes are less suitable for species identification in this case. We propose the use of an overall success rate of species identification that takes both sequencing success and assignation success into account, since species identification success rates with multiple-gene barcoding system were generally overestimated, especially by tree-based methods, where only successfully sequenced DNA sequences were used to construct a phylogenetic tree. Non-tree based methods, such as MD, BCM, and BP approaches, presented advantages over tree-based methods by reporting the overall success rates with statistical significance. In addition, our results indicate that the most closely related species D. punctatus, D. tabulaeformis, and D. spectabilis, may be still in the process of incomplete lineage sorting, with occasional hybridizations occurring among them. 相似文献
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DNA barcoding: species delimitation in tree peonies 总被引:1,自引:0,他引:1
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Identifying the true oysters (Bivalvia: Ostreidae) with mitochondrial phylogeny and distance-based DNA barcoding 总被引:1,自引:0,他引:1
Oysters (family Ostreidae), with high levels of phenotypic plasticity and wide geographic distribution, are a challenging group for taxonomists and phylogenetics. As a useful tool for molecular species identification, DNA barcoding might offer significant potential for oyster identification and taxonomy. This study used two mitochondrial fragments, cytochrome c oxidase I (COI) and the large ribosomal subunit (16S rDNA), to assess whether oyster species could be identified by phylogeny and distance-based DNA barcoding techniques. Relationships among species were estimated by the phylogenetic analyses of both genes, and then pairwise inter- and intraspecific genetic divergences were assessed. Species forming well-differentiated clades in the molecular phylogenies were identical for both genes even when the closely related species were included. Intraspecific variability of 16S rDNA overlapped with interspecific divergence. However, average intra- and interspecific genetic divergences for COI were 0-1.4% (maximum 2.2%) and 2.6-32.2% (minimum 2.2%), respectively, indicating the existence of a barcoding gap. These results confirm the efficacy of species identification in oysters via DNA barcodes and phylogenetic analysis. 相似文献