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。     

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。     

山葡萄种质资源DNA条形码通用序列的筛选

对山葡萄(Vitis amurensis)种质资源样品的ITS、ITS2、psb A-trn H、rbc L和mat K序列进行PCR扩增及测序,优化PCR反应的退火温度,比较各序列的扩增效率、测序成功率、品种间和品种内的差异及barcoding gap图,使用BLAST和NJ树法比较不同序列的鉴定能力,最终从5条DNA片段中筛选出可用于山葡萄种质资源鉴定的DNA条形码通用序列。结果表明,在采集的11份33个山葡萄样品中,psb A-trn H和ITS2序列的扩增与测序成功率较高,其品种间、品种内差异及barcoding gap较ITS、rbc L和mat K序列具有明显的优势,且ITS2序列能够鉴别psb A-trn H序列无法鉴别的品种。实验证明,ITS2和psb A-trn H序列是较适合鉴别山葡萄资源的DNA条形码序列组合。DNA条形码弥补了形态学鉴定的不足,可为山葡萄种质资源的准确鉴定提供科学依据。     

基于DNA条形码的半夏属及其伪品分子鉴别

利用DNA条形码技术对半夏属及其伪品进行分子鉴定, 研究半夏属药用植物鉴定的新方法。该实验使用matK序列对半夏(Pinellia ternata)及其伪品进行扩增测序, 结合GenBank数据库数据, 分析ITS、ITS2、psbA-trnH、rbcL和matK各序列的种内与种间变异及barcoding gap, 并采用最近距离法(nearest distance)和相似性搜索算法(BLAST1)评价不同序列的鉴定能力。结果显示, matK序列的种间变异最大, rbcL序列的种内变异最小; rbcL序列的种内和种间遗传变异重叠比例最小, 其次为matK序列; 各序列的Neighbor Joining树均可明显地将不同种分开。实验结果表明, 利用DNA条形码能够准确地鉴别半夏属药用植物及其伪品, matK和rbcL序列为鉴别半夏属及其伪品的较理想条形码组合。该研究为半夏属植物的分子鉴别提供了科学依据与新的思路。     

莪术基原植物DNA条形码序列的筛选与鉴定

为寻找适用于中药材莪术基原植物鉴定的DNA条形码序列,探索快速高效的莪术基原植物鉴定的新方法,该文首先利用扩增成功率和测序成功率对中药材莪术三种基原植物,9个样本的7种DNA条形码序列(ITS、ITS2、matK、psbA-trnH、trnL-trnF、rpoB和atpB-rbcL)进行评估,然后利用MEGA6.0软件对获得的高质量的序列通过变异位点分析、遗传距离计算和系统树分析等进一步进行评估,最后将筛选到的DNA条形码序列对未知基原的待测样品进行基原鉴定。结果表明:(1) ITS、ITS2和matK等条形码序列在莪术基原植物中的扩增或测序成功率较低,难以应用于实际鉴定;而psbA-trnH、trnL-trnF和rpoB条形码序列变异位点信息过少,不足于区分莪术的三种不同基原植物;只有atpB-rbcL条形码序列的扩增和测序成功率较高,容易获得高质量的序列,同时序列长度(642～645 bp)理想,变异位点多(11个),可实现莪术的三种不同基原的区分鉴别。(2)待测样品经基于atpB-rbcL序列构建的系统发育树鉴别为温郁金。综上所述,叶绿体atpB-rbcL序列能够准确鉴定莪术不同基原植物,可以作为中药材莪术基原植物鉴定的条形码序列。     

基于芸香科的植物通用DNA条形码研究

植物DNA条形码研究是近10年来进展最迅速的学科之一,其通用序列的筛选一直是该领域研究的热点问题.2009年,生命条形码联盟植物工作组推荐rbcL+matK组成复合序列作为植物通用条形码,但其研究对象中近缘属、种较少,且物种水平鉴定成功率仅为72%,所以仍在进行验证和新序列的研究工作.本研究选取nrDNAITS2序列,利用其具有Ⅱ级结构的特性、通过不同物种类型模型判定全长,将其和目前热点候选序列(matK,rbcL,psbA-trnH,rpoC1,ycf5)及nrDNAITS序列针对芸香科72属192种300个样本进行比较,试图在同一科属下更多近缘种存在时,真实判定候选序列的鉴定能力.结果表明,自行设计引物的ITS2序列具有较好的PCR扩增和测序成功率,在所考察的候选序列中具有最大的种间变异和较小的种内变异,且两者存在极显著差异,同时物种鉴定成功率最高,各评价指标均优于其他候选序列.证实ITS2序列在单一科属内的"高效性",故推荐其作为植物DNA条形码通用序列之一.     

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。     

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。     

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。     

Assessment of candidate plant DNA barcodes using the Rutaceae family

DNA barcoding is a rapidly developing frontier technology that is gaining worldwide attention.Here,seven regions (psbA-trnH,matK,ycf5,rpoC1,rbcL,ITS2,and ITS) with potential for use as DNA barcodes were tested for their ability to identify 300 samples of 192 species from 72 genera of the family Rutaceae.To evaluate each barcode’s utility for species authentication,PCR amplification efficiency,genetic divergence,and barcoding gaps were assessed.We found that the ITS2 region exhibited the highest inter-specific divergence,and that this was significantly higher than the intra-specific variation in the "DNA barcoding gap" assessment and Wilcoxon two-sample tests.The ITS2 locus had the highest identification efficiency among all tested regions.In a previous study,we found that ITS2 was able to discriminate a wide range of plant taxa,and here we confirmed that ITS2 was also able to discriminate a number of closely related species.Therefore,we propose that ITS2 is a promising candidate barcode for plant species identification.     

裸子植物DNA条形码ITS2高通用性引物的筛选

DNA条形码技术是利用标准DNA片段进行准确快速鉴定物种的一种方法,理想的DNA条形码片段应具有高通用性。虽然核糖体DNA内部转录间隔区II（ITS2）被建议作为种子植物有效的DNA条形码,但目前裸子植物还没有通用性高的引物可用。为获得高通用性的ITS2引物,本研究基于裸子植物55个属的5．8S基因的保守序列区设计了3个正向引物,与已有的ITS反向引物组合,组成了7对ITS2引物进行通用性的评价。选取了裸子植物8目、12科和40属的56个种用于本文的研究。引物组合5．8SR／ITS4、5．8SRa／ITS4和5．8SF2／S3R因为在科水平评价中通用性低或者产生的PCR产物有双带,因而排除在全部物种水平上进一步评价。其余4对引物（GYM-5．8SF1／ITS4、GYM-5．8SFl／S3R、GYM-5．8SF2／ITS4和S2F／S3R）在56个物种的PCR检测中,均有100％的扩增率。基于PCR产物的亮度、序列质量和正反向引物覆盖率的综合评价,建议引物GYM_5．8SF2／ITS4作为裸子植物条形码片段ITS2最好的通用引物。     

Testing DNA barcodes in closely related species of Curcuma (Zingiberaceae) from Myanmar and China

The genus Curcuma L. is commonly used as spices, medicines, dyes and ornamentals. Owing to its economic significance and lack of clear‐cut morphological differences between species, this genus is an ideal case for developing DNA barcodes. In this study, four chloroplast DNA regions (matK, rbcL, trnH‐psbA and trnL‐F) and one nuclear region (ITS2) were generated for 44 Curcuma species and five species from closely related genera, represented by 96 samples. PCR amplification success rate, intra‐ and inter‐specific genetic distance variation and the correct identification percentage were taken into account to assess candidate barcode regions. PCR and sequence success rate were high in matK (89.7%), rbcL (100%), trnH‐psbA (100%), trnL‐F (95.7%) and ITS2 (82.6%) regions. The results further showed that four candidate chloroplast barcoding regions (matK, rbcL, trnH‐psbA and trnL‐F) yield no barcode gaps, indicating that the genus Curcuma represents a challenging group for DNA barcoding. The ITS2 region presented large interspecific variation and provided the highest correct identification rates (46.7%) based on BLASTClust method among the five regions. However, the ITS2 only provided 7.9% based on NJ tree method. An increase in discriminatory power needs the development of more variable markers.     

DNA barcoding Chinese medicinal Bupleurum

We tested 4 markers, namely nuclear internal transcribed spacer 2 (ITS2), psbA-trnH, matK, and rbcL, to evaluate these candidate DNA barcodes for distinguishing Bupleuri radix (Chaihu) from its adulterants. 51 plant samples of Bupleurum representing 19 species were collected from different areas in China. Amplification and sequencing were attempted for all the 4 candidate barcode regions, whose validity was assessed in terms of the success rate of PCR amplification and sequencing, differential intra- and inter-specific divergences, DNA barcoding gap and the ability to discriminate species. The results showed that ITS2 had the best performance in identifying Bupleurum with an identification efficiency of 73.68%, which, after combining with psbA-trnH, increased to 83.33%. We further evaluated the efficiency of ITS2 for discriminating the species of Bupleurum using a large database from GenBank, which archived data of 223 samples from 74 species, and ITS2 successfully discriminated 64.13% of the samples at the species level. In conclusion, the ITS2 can serve as a potentially useful barcode for Bupleurum species, with psbA-trnH as a supplementary locus.     

中国石蒜属种间亲缘关系ITS序列分析

本文利用核糖体DNA内转录间隔区(ITS)序列对石蒜属13个种(含变种)的亲缘关系进行分析。结果表明,各样品的ITS1长度为259~260 bp,ITS2为230 bp,分别有多个特异性信息位点。以ITS序列为依据对石蒜属植物亲缘关系进行分析,表明石蒜属13个种可分为三大类,其中类Ⅰ包括中国石蒜、地笑、安徽石蒜和长筒石蒜,核型为M+T型;类Ⅱ包括矮小石蒜、换锦花、玫瑰石蒜和红蓝石蒜,核型为ST型;类Ⅲ包括稻草石蒜、乳白石蒜、短蕊石蒜和两种人工杂交种,核型为ST+M+T。系统进化树与核型分析结果相似,第Ⅲ类可能为自然杂交种。     

PCR产物直接测序还是克隆测序?——密叶杉属rDNA ITS序列的测定方法

通过PCR产物直接测序和克隆测序对三种密叶杉属 (Athrotaxis)植物rDNA内转录间隔区 (ITS)及5 .8SrDNA序列进行了测定与分析。实验表明A .selaginoidesrDNA重复序列间的纯合程度很高 ,对PCR产物直接测序就可以测定其ITS区序列。而A .laxifolia、A .cupressoides的ITS1重复序列间的纯合程度较低 ,各重复单位间序列存在插入 /缺失 ,只有对PCR产物进行克隆测序才能确定其序列。A .laxi folia、A .cupressoides的ITS2区尽管也存在多态性 ,但不同重复序列的浓度比较平均 ,对PCR产物直接测序就可确定重复序列间的变异情况。本实验表明尽管是同一属的三种植物 ,但其rDNA重复序列间的纯合程度不同 ,同一植物ITS的不同区域 ,其重复序列间的纯合程度也不同 ,针对不同的ITS片段可采用不同的方法以测定其序列。     

A Conserved Motif in the 5.8S Ribosomal RNA (rRNA) Gene is a Useful Diagnostic Marker for Plant Internal Transcribed Spacer (ITS) Sequences

The nuclear ribosomal DNA (rDNA) internal transcribed spacer (ITS) region has become an important nuclear locus for molecular systematic investigations of angiosperms at the intergenic and interspecific levels. Universal PCR primers are positioned on the conserved rRNA genes (18S, 5.8S, 26S) to amplify the entire ITS spacer region. Recent reports of fungal and algal contaminants, first described as plant ITS sequences, stress the need for diagnostic markers specific for the angiosperm ITS region. This report describes a conserved 14 base pair (bp) motif in the 5.8S rRNA gene that can be used to differentiate between flowering plants, bryophytes, and several orders of algae and fungi, including common plant pathogenic and non-pathogenic fungi. A variant of the motif (found in fungi and algae) contains a convenient EcoRI restriction site that has several applications for eliminating problematic contaminants from plant ITS preparations.     

Detecting Nucleotide Additivity from Direct Sequences is a SNAP: An Example from Sidalcea (Malvaceae)

Abstract: Superimposed nucleotide additivity patterns (SNAPs) were detected from direct sequences of the nuclear ribosomal DNA internal transcribed spacers in a complex of perennial Sidalcea species (Malvaceae) from the Pacific Northwest of the United States. Although only 2.8 % sequence variation exists among the eight ITS accessions, parsimony analysis identified two distinct lineages within this complex consistent with known ploidy levels. Six SNAPs were identified in a known tetraploid S. virgata, suggesting allopolyploid origins from diploid S. virgata and one of two hexaploid Sidalcea species. A dosage effect detected at all six SNAP sites is consistent with the unequal sized parental genomes of allopolyploid S. virgata.