DNA条形码技术在北京百花山地区夜蛾科物种鉴定中的应用

为了探讨DNA条形码技术在夜蛾物种鉴定中的可行性, 本研究利用条形码通用引物扩增了北京百花山地区43种夜蛾75个样本的线粒体细胞色素C氧化酶亚基I （mitochondrial cytochrome c oxidase subunit I, COI）基因序列, 以Kimura双参数模型进行种内种间遗传距离分析、 使用邻接法（neighbor-joining, NJ）和最大简约法（maximum parsimony, MP）分别构建系统发育树, 并利用分子序列差异阈值对样本进行分子可操作分类单元（molecular defined operational taxonomic units, MOTU）划分。结果表明： 所有夜蛾种类通过系统发育树可以成功区分; 种内平均遗传距离(0.03%)远远小于种间平均遗传距离(11.29%); 采用较为保守的1%的序列差异阈值将75个夜蛾样本分为42个MOTU, 正确率为95%, 除了MOTU04包含2个物种外, 剩余41个MOTU与形态种呈现一一对应的关系。结果显示, 基于COI基因的DNA条形码对于本研究中所涉及的夜蛾具有较好的区分, 可以作为一种有效的工具在夜蛾科昆虫物种鉴定中进行应用。     

基于线粒体COⅠ基因的齿小蠹属昆虫DNA条形码研究

齿小蠹属（鞘翅目： 小蠹科）昆虫是植物检疫中经常截获的类群, 为探讨线粒体细胞色素C氧化酶亚基Ⅰ(COⅠ)基因的特定区段作为DNA条形码快速准确鉴定齿小蠹种类的可行性, 以齿小蠹属昆虫为研究对象, 测定分析了线粒体COⅠ基因462 bp碱基序列。序列分析结果显示： 变异位点为259个, 保守位点203个, 简约信息位点181个, 自裔位点78个。所有位点中, A, G, C和T碱基平均含量分别为30.7%, 16.5%, 17.0%和35.8%。A+T含量较高, 为66.5%, 明显高于G+C含量, 表现明显的A+T碱基偏嗜, 且A与T含量相当, 符合昆虫线粒体基因碱基组成的基本特征。转换与颠换结果显示： 该段序列未达到饱和, 可以得到准确的进化分析。利用Kimura 2-parameter模型分析遗传距离得到, 同物种间的遗传距离介于0.002~0.007之间, 不同种间的遗传距离介于0.056~0.431间, 平均遗传距离为0.199, 说明该段序列能够区分不同物种。基于COⅠ基因序列构建的邻接法系统发育树（NJ树）显示, 同一物种聚为同一小支, 且分支自展值均为100%; 近缘种能聚集在一起, 且置信度很高（≥97%）。结果表明应用基于COⅠ基因片段的DNA条形码进行齿小蠹属昆虫分类鉴定具有可行性。     

DNA条形码技术在田间常见蓟马种类识别中的应用

蓟马类害虫种类多、 体型小, 传统的形态学鉴定方法难以快速准确识别。本研究利用DNA条形码通用型引物, 以我国田间常见的25种蓟马为靶标扩增其线粒体DNA细胞色素C氧化酶亚基Ⅰ (mitochondrial cytochrome c oxidase subunit Ⅰ gene, mtDNA COⅠ) 基因 (约650 bp), 通过对靶标片段碱基序列的测序及比对分析, 以邻接法 (NJ法) 构建系统发育树, 并以Kimura双参数模型计算种内、 种间遗传距离。结果表明： 聚类分析与形态学鉴定结果一致, 表现为较长的种间分支和较短的种内分支, 每个单系分支对应一个物种, 同一物种不同单倍型的最初分支自展值均为100%。25种蓟马的种内平均遗传距离为0.0027, 种间平均遗传距离为0.2757, 种间遗传距离为种内遗传距离的102.1倍; 而且种内、 种间遗传距离没有重叠区域。结果说明基于COⅠ基因的DNA条形码技术可以用于不同种类蓟马的快速准确鉴别。     

部分山雀科鸟类的DNA条形码与物种识别

近年来,DNA条形码(DNA barcodes)被认为是鸟类物种识别和分类的有效手段。采用遗传距离和构树这两种方法检验了线粒体基因COⅠ片断作为DNA条形码区分包括长尾山雀在内的山雀科鸟类的识别效果。此次实验分析了92条COⅠ序列,其中50条来自GenBank,代表了该科的30个物种。分析结果表明:尽管山雀科鸟类呈现出较大的种内变异,但是该科鸟类的种间遗传距离还是远大于种内的遗传距离。COⅠ条形码可识别出大部分的山雀科物种,同时该条形码还可鉴定出亚种组、亚种、甚至地理种群。然而,对于近期分化和存在杂交的物种,COⅠ难以鉴定出。在此情况下,探索应用核基因条形码或者采用基于碱基属性的鉴定方法则可以弥补这一缺陷。比较古北界、东洋界与新北界(北美)的山雀类发现,古北界和东洋界的山雀具有较大的种内变异且种群内具有较大的遗传分化,推测这很可能和第四纪冰川的影响有关。     

DNA条形码分析方法研究进展

DNA条形码是一段短的、标准化的DNA序列,DNA条形码技术通过对DNA条形码序列分析实现物种的有效鉴定.随着生物DNA条形码序列的大量测定,DNA条形码分析方法得到迅速发展,推动了其在生物分子鉴定中的应用.2003年以来,DNA条形码技术已广泛应用于动物、植物和真菌等物种的鉴定,并有力地推动了生物分类学、生物多样性和生态学等学科的发展.本文在综述DNA条形码技术的基础上,总结了5类主要的DNA条形码分析方法,即基于遗传距离的分析、基于遗传相似度的分析、基于系统发育树的分析、基于序列特征的分析和基于统计分类法的分析,并进一步展望了DNA条形码技术的发展与应用.     

华北地区四种梢斑螟的遗传分化

根据线粒体COⅠ基因序列,对华北地区梢斑螟属Dioryctria Zeller的微红梢斑螟D.rubella Hampson、芽梢斑螟D.yiai Mutuura&Munroe、大梢斑螟D.magnifica Munroe和冷杉梢斑螟D.abietella Denis & Schiffermüller共4种,9个不同地理种群进行遗传多样性研究,并以同族的渣云翅斑螟Oncocera faecella(Zeller)为外群探讨它们之间的系统发育关系。结果表明:(1)微红梢斑螟和大梢斑螟的亲缘关系较近,与芽梢斑螟和冷杉梢斑螟构成的姐妹群分别形成华北地区梢斑螟属的两大支系;(2)种内不同地理种群间的遗传距离(0.000～0.016)明显小于种间遗传距离(0.029～0.089),说明利用线粒体COⅠ基因序列研究梢斑螟属昆虫的系统发育关系是可行的。     

DNA条形码技术在河北保定、廊坊地区鳞翅目昆虫上的应用及小型区域数据库的构建

【目的】为了探究DNA条形码技术和小型区域数据库在蛾类鉴定上的可行性,本研究利用条形码通用引物扩增了采自河北保定、廊坊地区10种夜蛾82个样本的线粒体细胞色素c氧化酶亚基I(Mitochondrial cytochrome c oxidase subunit I,COⅠ)基因序列。【方法】基于进化树、距离、阈值和特征的方法。【结果】虽然整体分类效果较好,但基于进化树、距离、阈值的方法都无法将二点委夜蛾Athetis lepigone进行较好的分类;样本LF110802.008总是被分入标瑙夜蛾Maliattha signifera类群,与形态学分类结果发生分歧。基于特征的方法运用核基因28S进行分析,结果与形态分类一致。同时还探讨了基于特征方法得到的诊断特征数目与样本数量之间的关系,发现两者密切相关;基于特征的方法对小样本量的鉴定也比较有效。本研究建立了小型区域的DNA条形码数据库,使物种识别具有更强的针对性,有利于提高地区性蛾类病虫害防治效果。【结论】在蛾类鉴定中,DNA条形码有很好的分类效果,小型区域数据库很有实际应用价值。     

基于DNA条形码的四川老君山国家级自然保护区尺蛾科昆虫种类鉴定

为了解四川老君山国家级自然保护区鳞翅目Lepidoptera尺蛾科Geometridae资源,于2019年6—8月和2020年5—6月通过灯诱法采集2402号标本,运用DNA条形码技术对标本进行分子鉴定.通过BOLD数据库,邻接法构建系统发育树和ABGD在线工具对获得的297条线粒体细胞色素C氧化酶亚基Ⅰ(COⅠ)基因...     

基于COI序列快速鉴定花蓟马的DNA条形码芯片初探

利用DNA条形码信息研制DNA芯片,建立快速高效的花蓟马鉴定方法.以3种花蓟马属,共9个样本的COⅠ基因片段序列为研究材料,应用软件Primer Premier5搜索出9个样本的12种motif基因序列,应用这12种motif序列制作虚拟DNA条形码芯片.虚拟电子杂交20个样本的COⅠ基因片段序列.结果显示,设计的虚拟DNA芯片能够鉴定本研究中的3种花蓟马,利用DNACOⅠ基因片段,设计DNA芯片在理论上可行.     

斑腿蝗科Catantopidae七种蝗虫线粒体COⅠ基因的DNA条形码研究

以我国常见的斑腿蝗科Catantopidae7种蝗虫为对象测定了COⅠ基因序列,探讨COⅠ基因作为DNA条形码在识别蝗虫物种方面的可行性。结果表明,斑腿蝗科3属7种的DNA分类和形态学分类基本一致,该基因可以探讨蝗虫属、种分类单元的系统发育问题,为将线粒体基因组的COⅠ基因作为蝗虫DNA条形码进行分类鉴定手段的可行性提供一定的参考。     

Application of DNA barcoding technology for species identification of common thrips ( Insecta: Thysanoptera) in China

蓟马类害虫种类多、体型小,传统的形态学鉴定方法难以快速准确识别.本研究利用DNA条形码通用型引物,以我国田间常见的25种蓟马为靶标扩增其线粒体DNA细胞色素C氧化酶亚基Ⅰ(mitochondrial cytochrome coxidase subunit Ⅰ gene,mtDNA CO Ⅰ)基因(约650 bp),通过对靶标片段碱基序列的测序及比对分析,以邻接法(NJ法)构建系统发育树,并以Kimura双参数模型计算种内、种间遗传距离.结果表明:聚类分析与形态学签定结果一致,表现为较长的种间分支和较短的种内分支,每个单系分支对应一个物种,同一物种不同单倍型的最初分支白展值均为100％.25种蓟马的种内平均遗传距离为0.0027,种间平均遗传距离为0.2757,种间遗传距离为种内遗传距离的102.1倍;而且种内、种间遗传距离没有重叠区域.结果说明基于COⅠ基因的DNA条形码技术可以用于不同种类蓟马的快速准确鉴别.     

基于DNA条形码的物种丰富度估计: 以宿迁地区鳞翅目蛾类为例

为了探究基于DNA条形码方法量化物种多样性指标的可行性, 本研究以江苏省宿迁地区蛾类群落为例, 基于DNA条形码方法估计群落物种丰富度并绘制等级多度分布曲线(rank-abundance curves), 同时与基于传统形态学的对应指标进行比较。结果表明: (1)基于DNA条形码的物种丰富度估计与基于形态的物种丰富度估计之间没有显著差异; (2)基于形态和DNA条形码的等级多度分布曲线趋势一致, 通过K-S检测发现二者之间没有显著性差异(P > 0.05)。结果显示, 基于DNA条形码的物种丰富度估计能够在一定程度上补充基于形态学的方法, 可以尝试将其应用于蛾类群落生态学调查研究中。     

DNA barcoding and morphology reveal exceptional species diversity of Scoparia (Lepidoptera: Crambidae) from the Hailuogou Glacier area,China

The genus Scoparia from the Hailuogou Glacier area in the south‐eastern fringe of the Tibetan Plateau of south‐western China is studied, nine species are revealed by combining DNA barcoding (658 bp of the mitochondrial gene cytochrome c oxidase subunit I, COI) and morphology. Studies show that Scoparia species from the Hailuogou Glacier area are 37.5% as many as all the previously known congeners in China. Six species are described as new to science: S coparia simplicissima Li sp. nov. , S coparia tribulosa Li sp. nov. , S coparia longispina Li sp. nov. , S coparia gibbosa Li sp. nov. , S coparia globosa Li sp. nov. , and S coparia annulata Li sp. nov. The female of Scoparia metaleucalis is described for the first time herein. All species are either diagnosed or described and illustrated, and a map of China showing the topography and localities where Scoparia species are recorded is also provided, including the species number of all the recorded localities. The results reveal the exceptional species diversity of Scoparia from the Hailuogou Glacier area, as well as demonstrate that the integration of DNA barcoding and morphological approaches is highly effective for indentifying scopariine moths in the Hailougou glacier area. All the studied specimens are deposited in the Insect Museum, Jiangxi Agricultural University, Nanchang, China. © 2014 The Linnean Society of London     

Comparing the usefulness of distance, monophyly and character-based DNA barcoding methods in species identification: a case study of neogastropoda

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.     

DNA barcoding reveals the occurrence of cryptic species in host-associated population of Conogethes punctiferalis (Lepidoptera: Crambidae)

Conogethes punctiferalis (Guénee) is a critical pest that commonly infests castor (Ricinus communis Linnaeus) and cardamom (Elettaria cardamomum Maton) in India. The moths of both castor and cardamom appear to be similar in wing pattern and color. However, the results of behavioral studies elicited a doubt that there may be differences in terms of host specialization. In the present study, we conducted morphological studies and DNA barcode analyses using cytochrome oxidase I gene, which unraveled the mystery of C. punctiferalis breeding on castor and cardamom. The differences in male aedeagus and female bursae were prominent, yet, not sufficient enough to say that they are different species. The results showed high haplotype diversity (0.817 ± 0.073) and nucleotide diversity (0.0285 ± 0.002) in C. punctiferalis. In addition, topologies of neighbor-joining trees indicate that Conogethes sp. breeding on castor belongs to C. punctiferalis while those on cardamom are of a separate clade. Further genetic analysis revealed significant genetic differentiations among the two sampled populations, reflecting limited gene flow. Neutrality tests and mismatch distributions showed population expansion in C. punctiferalis, while the results of an analysis of molecular variance (AMOVA) indicated the existence of significant genetic variation among the examined host races. Conclusively, analysis using mitochondrial DNA showed an amount of genetic divergence between the two host-associated populations compatible with cryptic species rather than host races.     

Performance of distance-based DNA barcoding in the molecular identification of Primates

For comparative primatology proper recognition of basal taxa (i.e. species) is indispensable, and in this the choice of a suitable gene with high phylogenetic resolution is crucial. For the goals of species identification in animals, the cytochrome c oxidase subunit 1 (cox1) has been introduced as standard marker. Making use of the difference in intra- and interspecific genetic variation – the DNA barcoding gap – cox1 can be used as a fast and accurate marker for the identification of animal species. For the Order Primates we compare the performance of cox1 (166 sequences; 50 nominal species) in species-identification with that of two other mitochondrial markers, 16S ribosomal RNA (412 sequences, 92 species) and cytochrome b (cob: 547 sequences, 72 species). A wide gap exist between intra- and interspecific divergences for both cox1 and cob genes whereas this gap is less apparent for 16S, indicating that rRNA genes are less suitable for species delimitation in DNA barcoding. For those species where multiple sequences are available there are significant differences in the intraspecific genetic distances between different mitochondrial markers, without, however, showing a consistent pattern. We conclude that cox1 allows accurate differentiation of species and as such DNA barcoding may have an important role to play in comparative primatology.     

DNA barcoding and species delimitation of butterflies (Lepidoptera) from Nigeria

Molecular Biology Reports - Accurate identification of species is a prerequisite for successful biodiversity management and further genetic studies. Species identification techniques often require...