DNA条形码在中国金合欢属中的应用

根据形态特征难以准确地辨别金合欢属植物,DNA条形码技术提供了一种准确地鉴定物种的方法。本文利用条形码技术对中国金合欢属物种的序列(psbA trnH、matK、rbcL和ITS)及其不同组合进行比较,通过计算种内和种间变异进行barcoding gap分析,运用Wilcoxon秩和检验比较不同序列的变异性,构建系统树。结果表明：4个片段均存在barcoding gap,ITS序列种间变异率较psbA trnH、rbcL和matK序列有明显优势,单片段ITS正确鉴定率最高,ITS+rbcL片段联合条码的正确鉴定率最高,因此我们认为ITS片段或条形码组合ITS+rbcL是金合欢属的快速鉴别最理想的条码。     

锦葵科植物DNA条形码通用序列的筛选

对锦葵科植物样品的ITS、ITS2、rbcL、matK和psbA-trnH序列进行PCR扩增和测序,比较各序列的扩增效率、测序成功率、种内和种间变异的差异以及barcoding gap图,使用BLAST1和Nearest Distance方法评价不同序列的鉴定能力,进而从这些候选序列中筛选出较适合锦葵科植物鉴别的DNA条形码序列。结果表明,ITS序列在采集的锦葵科植物11个种26个样品中的扩增成功率较高,其种内、种间变异差异和barcoding gap较ITS2、psbA-trnH及rbcL序列具有更明显的优势,且纳入60个属316个种共1228个样品的网上数据后,其鉴定成功率可达89.9%。psbA-trnH序列的扩增和测序成功率最高,其鉴定成功率为63.2%,并能鉴别一些ITS序列无法鉴别的种。实验结果表明,ITS和psbA-trnH是较适合鉴别锦葵科植物的DNA条形码序列组合。     

锦葵科植物DNA条形码通用序列的筛选

对锦葵科植物样品的ITS、ITS2、rbcL、matK和psbA-trnH序列进行PCR扩增和测序, 比较各序列的扩增效率、测序成功率、种内和种间变异的差异以及barcoding gap图, 使用BLAST1和Nearest Distance方法评价不同序列的鉴定能力, 进而从这些候选序列中筛选出较适合锦葵科植物鉴别的DNA条形码序列。结果表明, ITS序列在采集的锦葵科植物11个种26个样品中的扩增成功率较高, 其种内、种间变异差异和barcoding gap较ITS2、psbA-trnH及rbcL序列具有更明显的优势, 且纳入60个属316个种共1 228个样品的网上数据后, 其鉴定成功率可达89.9%。psbA-trnH序列的扩增和测序成功率最高, 其鉴定成功率为63.2%, 并能鉴别一些ITS序列无法鉴别的种。实验结果表明, ITS和psbA-trnH是较适合鉴别锦葵科植物的DNA条形码序列组合。     

蒟蒻薯属(薯蓣科)植物DNA条形码研究

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.     

中国秋海棠属 (秋海棠科) 植物的DNA条形码评价

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纳入种子植物DNA条形码核心片段中的观点。     

中国秋海棠属（秋海棠科）植物的DNA条形码评价

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。     

蒟蒻薯属 (薯蓣科) 植物DNA条形码研究

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trnH 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。     

菊科橐吾属植物的DNA条形码研究（英文）

DNA条形码是一项利用短的、标准的DNA片段对物种进行快速、有效识别和鉴定的新技术。菊科橐吾属约140种,是典型的高山植物,种间杂交频繁,形态变异复杂,从形态学方面鉴定近缘种较为困难。本研究选取4个DNA核心条形码片段(ITS,matK,psb A-trnH和rbcL),对橐吾属35种144个个体进行条形码研究。研究结果显示叶绿体基因matK,psbA-trnH和rbcL在种内和种间变异都很小,对橐吾属的物种鉴定率极低;ITS在种间变异率相对较大,物种鉴定率为60%。而各片段联合后的物种鉴定率并未提高。     

悬钩子属DNA条形码通用序列的初步筛选

为了建立悬钩子属（Rubus）植物的DNA条形码分子鉴定技术,筛选获得适用于悬钩子属植物的通用条形码序列。该研究基于GenBank数据对ITS、ITS2、matK、rbcL、trnH-psbA、trnL-trnF 6个DNA条形码序列进行了遗传变异、barcoding gap、建树等评估分析。结果显示,trnH-psbA、matK、rbcL、rtnL-trnF的种内变异与种间变异差异较大,变异分辨率分别为97.32%、83.33%、79.07%、64.95%,存在较大的barcoding gap;NJ一致树分析显示,matK的单系性比例最高（67%）,其次为trnH-psbA（64%）,rtnL-trnF（43%）,rbcL（30%）。结果表明,悬钩子属植物的matK与trnH-psbA序列种内变异与种间变异差异较大,能较好地区分不同物种,具有较大的鉴定潜力。建议将matK和trnH-psbA作为悬钩子属植物鉴定的核心条形码序列,rtnL-trnF、rbcL作为辅助条形码序列。     

DNA条形码在黄精属药用植物鉴定与遗传多样性分析中的应用

黄精属(Polygonatum)的许多物种具有重要的药用价值,但目前缺乏能够准确、高效地鉴定黄精属药用植物的DNA条形码。本研究通过对ITS、trnK-matK、rbcL、psbA-trnH和psbK-psbI序列进行扩增和测序,并从ITS序列中提取ITS2序列,共获得黄精属7个药用物种23份样品的138条序列。进一步比较6个DNA条形码对黄精属药用植物的鉴定效率,并验证所筛选条形码的可靠性。结果显示：trnK-matK的种内和种间变异重合少且有较明显的条形码间隙,其他5个序列的种内和种间变异重合多且无条形码间隙;BLAST结果表明trnK-matK的鉴定效率最高(85.7%),系统发育树显示trnK-matK的鉴定能力最强,能将全部12个多花黄精样品聚在一支,并能区分黄精、滇黄精、玉竹、点花黄精和湖北黄精;AMOVA分析结果揭示trnK-matK的群体遗传分化指数(F_st)最高,适用于区分黄精属物种间差异。因此,trnK-matK最适用于黄精属药用植物的分子鉴定。     

Study on the DNA Barcoding of Genus Ligularia Cass. (Asteraceae)

DNA barcoding is a new technology which can identify species rapidly based on short and standardized DNA sequences. Ligularia, a genus of Asteraceae with about 140 species, exhibits high morphological and ecological diversity, which makes the classification and species delimitation difficult, especially in the cases of closely related taxa. In this study, we tested four DNA core barcoding regions (ITS, matK, psbA trnH and rbcL) in 144 samples representing 35 species of Ligularia. The results revealed that the chloroplast regions (matK, psbA trnH and rbcL) have extremely low species identification rate due to low interspecific variation. Conversely, ITS sequence showed higher species identification rate (60%) and could discriminate the species which are difficult to identify. The combination of these four gene fragments did not improve the ability of species discrimination.     

Identification of species within Tetrastigma (Miq.) Planch.(Vitaceae) based on DNA barcoding techniques

Many species of Tetrastigma (Miq.) Planch. (Vitaceae) have long been used as medicinal plants in China, and some are endangered due to overexploitation. Although adulterants are often added to traditional Chinese medicines, there is no reliable or practical method for identifying them. In this study, we used four markers (rbcL, matK, trnH-psbA and internal transcribed spacer [ITS]) as DNA barcodes to test their ability to distinguish species of Tetrastigma. The results indicated that the best barcode was ITS, which showed significant inter-specific genetic variability, and thus its potential as a DNA barcode for identifying Tetrastigma. Multiple loci provided a greater ability to distinguish species than single loci. We recommend using the combined rbcL+matK+ITS barcode for the genus. Phylogenetic trees from each barcode were compared. Analyses using the unweighted pair group method with arithmetic mean discriminated an equal or greater percentage of resolvable species than did neighbor joining, maximum likelihood, or maximum parsimony analyses. Additionally, five medicinal species of Tetrastigma, especially T. Hemsleyanum, could be identified precisely using DNA barcoding.     

Identification of species within Tetrastigma (Miq.) Planch. (Vitaceae) based on DNA Barcoding Techniques

Many species of Tetrastigma (Miq.) Planch. (Vitaceae) have long been used as medicinal plants in China, and some are endangered due to overexploitation. Although adulterants are often added to traditional Chinese medicines, there is no reliable or practical method for identifying them. In this study, we used four markers (rbcL, matK, trnH-psbA, and internal transcribed spacer [ITS]) as DNA barcodes to test their ability to distinguish species of Tetrastigma. The results indicated that the best barcode was ITS, which showed significant inter-specific genetic variability, and thus its potential as a DNA barcode for identifying Tetrastigma. Multiple loci provided a greater ability to distinguish species than single loci. We recommend using the combined rbcL+matK+ITS barcode for the genus. Phylogenetic trees from each barcode were compared. Analyses using the unweighted pair group method with arithmetic mean discriminated an equal or greater percentage of resolvable species than did neighbor joining, maximum likelihood, or maximum parsimony analyses. Additionally, five medicinal species of Tetrastigma, especially T. hemsleyanum, could be identified precisely using DNA barcoding.     

DNA barcoding provides distinction between Radix Astragali and its adulterants

Based on variable nuclear and/or organellar DNA sequences among vastly divergent species as well as morphologically indistinguishable species, DNA barcoding is widely applicable in species identification, biodiversity studies, forensic analyses, and authentication of medicinal plants. The roots of Astragalus membranaceus and A. membranaceus var. mongholica are commonly used as Radix Astragali in several Asian countries, including China, Japan, and Korea. However, in addition to the two species recorded in the Chinese Pharmacopoeia, there are twenty-three species from different genera including Astragalus, Oxytropis, Hedysarum, and Glycyrrhiza, which have been used as adulterants not only in trading markets but also by the herbal medicine industry. Therefore, a simple, reliable, and accurate classification method is important for distinguishing authentic Radix Astragali from its adulterants. In this study, we acquired data for 37 samples from four related genera within the family Fabaceae. Then we compared four candidate DNA barcoding markers using ITS, matK, rbcL, and coxI sequences from nuclear, chloroplast, and mitochondrial genomes, all commonly used for plants to identify genetic variations among genera, intraspecies, and interspecies. We observed higher divergences among genera and interspecies for ITS, which have the average Kimura 2-parameter distances of 4.5% and 14.1%, respectively, whereas matK was found to have sufficient divergence at the intraspecific level. Moreover, two indels detected in the matK sequence are useful for PCR studies in distinguishing Radix Astragali from its adulterants. This study suggests that the combined barcoding regions of ITS and matK are superior barcodes for Radix Astragali and further studies should focus on evaluating the applicability and accuracy of such combined markers for a wide range of traditional Chinese herbs.     

Testing four barcoding markers for species identification of Potamogetonaceae

The pondweeds (Potamogetonaceae) are among the most important plant groups in the aquatic environment. Owing to their high morphological and ecological diversity, species identification of this aquatic family remains problematic. DNA barcoding involves sequencing a standard DNA region and has been shown to be a powerful tool for species identification. In the present study, we tested four barcoding markers (rbcL, matK, internal transcribed spacer (ITS), and trnH-psbA) in 15 Potamogeton species and two Stuckenia species, representing most species of the Potamogetonaceae in China. The results show that all four regions can distinguish and support the newly proposed genera of Stuckenia from Potamogeton. Using ITS and trnH-psbA, significant interspecific genetic variability was shown. However, intraspecific genetic variability of trnH-psbA is high and so it is not suitable for barcoding in Potamogetonaceae. The ITS and matK regions showed good discrimination. However, matK was not easy to sequence using universal primers. The best performing single locus was ITS, making it a potentially useful DNA barcode in Potamogetonaceae.     

DNA barcoding of Gaultheria L.in China (Ericaceae: Vaccinioideae)

Four DNA barcoding loci,chloroplast loci rbcL,matK,trnH-psbA,and nuclear locus internal transcribed spacer (ITS),were tested for the accurate discrimination of the Chinese species of Gaultheria by using intraspecific and interspecific pairwise P-distance,Wilcoxon signed rank test,and tree-based analyses.This study included 186 individuals from 89 populations representing 30 species.For all individuals,single locus markers showed high levels of sequencing universality but were ineffective for species resolvability.Polymerase chain reaction amplification and sequencing were successful for all four loci.Both ITS and matK showed significantly higher levels of interspecific species delimitation than rbcL and trnH-psbA.A combination ofmatK and ITS was the most efficient DNA barcode among all studied regions,however,they do not represent an appropriate candidate barcode for Chinese Gaultheria,by which only 11 out of 30 species can be separated.Loci rbcL,matK,and trnH-psbA,which were recently proposed as universal plant barcodes,have a very poor capacity for species separation for Chinese Gaultheria.DNA barcodes may be reliable tools to identify the evolutionary units of this group,so further studies are needed to develop more efficient DNA barcodes for Gaultheria and other genera with complicated evolutionary histories.     

降香黄檀的DNA条形码鉴定研究

DNA条形码技术是利用基因组中一段短的标准序列进行物种的鉴定并探索其亲缘进化关系。本研究对采自海南不同地区降香黄檀五个居群24份样品的psbA-trnH,rbcL,核ITS及ITS2序列进行PCR扩增和测序,比较各序列扩增和测序效率。种间和种内变异,采用BLAST1和邻接 (NJ) 法构建系统聚类树方法评价不同序列的鉴定能力。结果表明ITS2在所研究的材料中具有最高的扩增和测序效率,而ITS扩增效率较低。ITS2完整序列在区分黄檀属不同种间差异具有较大优势。因此可利用ITS2从分子水平区分降香黄檀与其他混伪种。