Phylogenetic relationship in the genus Panax: inferred from chloroplast trnK gene and nuclear 18S rRNA gene sequences

Chloroplast trnK gene and nuclear 18S rRNA gene sequences of 13 Panax taxa, collected mainly from Sino-Japanese floristic region, were investigated in order to construct phylogenetic relationship and to assist taxonomic delimitation within this genus. The length of trnK gene sequence varied from 2537 bp to 2573 bp according to the taxa, whereas matK gene sequences, embedded in the intron of trnK gene, were of 1512 bp in all taxa. Species-specific trnK/ matK sequence provided much insight into phylogeny and taxonomy of this genus. 18S rRNA gene sequences were of 1808 or 1809 bps in length, only 9 types of 18S rRNA sequences were observed among 13 taxa. Parsimony and neighbor-joining analyses of the combined data sets of trnK-18S rRNA gene sequences yielded a well-resolved phylogeny within genus Panax, where three main clades were indicated. P. pseudoginseng and P. stipuleanatus formed a sister group located at a basal position in the phylogenetic tree, which suggested the relatively primitive position of these two species. Monophyly of P. ginseng, P. japonicus (Japan) and P. quinquefolius, which are distributed in northern parts of Asia or America, was well supported (Northern Clade). The remaining taxa distributed in southern parts of Asia formed a relatively large clade (Southern Clade). The taxonomic debated taxa traditionally treated as subspecies or varieties of P. japonicus or P. pseudoginseng showed various nucleotide sequences, but all fell into one cluster. It might suggest these taxa are differentiated from a common ancestor and are in a period of high variation, which is revealed not only on morphological appearance, but also on molecular divergence. By comparing trnK and 18S rRNA gene sequences among 13 Panax taxa, a set of valuable molecular evidences for identification of Ginseng drugs was obtained.     

Sequence analysis of Chinese and Japanese Curcuma drugs on the 18S rRNA gene and trnK gene and the application of amplification-refractory mutation system analysis for their authentication

The botanical origins of Chinese and Japanese Curcuma drugs were determined to be Curcuma longa, C. phaeocaulis, the Japanese population of C. zedoaria, C. kwangsiensis, C. wenyujin, and C. aromatica based on a comparison of their 18S rRNA gene and trnK gene sequences with those of six Curcuma species reported previously. Moreover, to develop a more convenient identification method, amplification-refractory mutation system (ARMS) analysis of both gene regions was performed on plants. The ARMS method for the 18S rRNA gene was established using two types of forward primers designed based on the nucleotide difference at position 234. When DNAs of four Curcuma species were used as templates, PCR amplification with either of the two primers only generated a fragment of 912 base pairs (bp). However, when DNAs of the purple-cloud type of C. kwangsiensis and C. wenyujin were used, PCR amplifications with both primers unexpectedly generated the fragment, suggesting that these two were heterozygotes. The ARMS method for the trnK gene was also established using a mixture of four types of specific reverse primers designed on the basis of base substitutions and indels among six species, and common reverse and forward primers. C. phaeocaulis or the Chinese population of C. zedoaria, the Japanese population of C. zedoaria or the purple-cloud type of C. kwangsiensis, the pubescent type of C. kwangsiensis or C. wenyujin, and C. aromatica were found to show specific fragments of 730, 185, 527 or 528, and 641 or 642 bp, respectively. All species including C. longa also showed a common fragment of 897-904 bp. Using both ARMS methods, together with information on producing areas, the identification of Curcuma plants was achieved. Moreover, the ARMS method for the trnK gene was also useful for authentication of Curcuma drugs.     

Rapid identification of Curcuma longa and C. aromatica by LAMP

We have developed a novel method for the identification of Curcuma longa and C. aromatica called "loop-mediated isothermal amplification (LAMP)," based on trnK gene sequences. LAMP employs four primers that recognize six regions on the target DNA. Cycling elongation was initiated when the four primers were annealed to the target DNA. Amplifications were detected by measuring turbidity due to the formation of magnesium pyrophosphate. We designed allele-specific primer sets for C. longa and C. aromatica, respectively. LAMP using a primer set for C. longa and total DNA extracted from C. longa rhizome (0.5-10.0 ng) as template was detected up to 70 min. On the other hand, in the reaction using a primer set for C. longa and total DNA from C. aromatica as template, no amplifications were detected. The same tendency could be seen in the reactions using a set of primers for C. aromatica. LAMP enabled not only identification but also detection with high specificity. This rapid, specific, sensitive, and convenient method is expected to be applicable to the identification of the botanical origin of commercially available herbal products.     

Rapid detection of Panax ginseng by loop-mediated isothermal amplification and its application to authentication of Ginseng

We have developed a novel method called loop-mediated isothermal amplification (LAMP) to detect Panax ginseng, the botanical source of Ginseng (Ginseng Radix), and to distinguish P. ginseng from Panax japonicus. Six allele-specific primers (two outer primers, two inner primers, and two loop primers) were designed based on the 18S ribosomal RNA gene sequence of P. ginseng, and LAMP was performed using those primers and total DNA extracted from P. ginseng as template. Amplifications were observed from approximately 30 min onwards at DNA concentrations of 0.5 to 10.0 ng. The presence of loop primers shortened the reaction time considerably. In contrast, in the reactions using total DNA from P. japonicus as template, no amplifications were observed. LAMP also enabled us to distinguish Ginseng from Japanese Ginseng (Panacis Japonici Rhizoma). LAMP was proven to be a rapid, highly sensitive, and specific method for the detection of P. ginseng and Ginseng.     

Authentication of Curcuma species (Zingiberaceae) based on nuclear 18S rDNA and plastid trnK sequences

Curcuma drugs have been used discriminatingly for invigorating blood circulation, promoting digestion, and as a cholagogic in China. However, there is confusion about the drug's botanical origins and clinical uses because of morphological similarity of Curcuma plants and drugs. Comparative sequencing of the 18S rRNA gene in nuclear ribosomal DNA (rDNA) and trnK gene in chloroplast DNA (cpDNA) was carried out in order to examine interspecies phylogeny and to identify ultimately Curcuma species. A total of a hundred of accessions of eighteen species were analyzed. This resulted in an aligned matrix of 1810 bp for 18S rDNA and 2 800 bp for trnK. 18S rDNA sequence divergence within the ingroup ranged from 0-0.05%, trnK ranged from 0-0.19%. One base transversion-substituted site (from cytosine to thymine) was observed from the upstream of 18S rDNA at nucleotide position 234 in C. kwangsiensis and Japanese population of C. zedoaria which have separated genetic distance to other Curcuma taxa. Two noncoding regions embedded in trnK intron showed higher variability, including nucleotide substitutions, repeat insertion and deletions. Based on consensus of relationship, eighteen major lineages within Curcuma are recognized at the species level. The results suggest that Curcuma is monophyletic with 100% bootstrap support and sister to the genera Hedychium and Zingiber. The trnK sequences showed considerable variations between Curcuma species and thus were revealed as a promising candidate for barcoding of Curcuma species, which provide valuable characters for inferring relationship within species but are insufficient to resolve relationships among closely related taxa.     

三七的18S rRNA,matK基因序列和HPLC化学指纹图谱分析研究

目的分析中药三七Panaxnotoginseng的18SrRNA和matK基因的分子特征和三七的化学指纹特征,为三七的正品药材基原鉴定提供分子和化学依据。方法采用PCR直接测序技术测定三七及其7种伪品的18SrRNA和matK基因部分核苷酸序列以及不同产地三七的DNA分子特征。利用HPLC的化学分析技术,明确产地对三七化学成分的影响,以及三七不同部位的化学指纹特征。结果(1)三七及其7种常见伪品的核糖体18SrRNA基因序列存在很大的差异。(2)不同产地的三七的核糖体18SrRNA和叶绿体matK基因序列特征完全一致,分别与GenBank上已报道的R1型(D85171)和M1型(AB027526)序列吻合。(3)不同产地的三七HPLC指纹图谱相似。(4)三七不同部位均具有其相对稳定的HPLC指纹特征,其中花、叶具有特有的指纹区,根、须根、剪口、筋条等不同商品规格的HPLC指纹图谱比较相似。结论基因序列标记能从分子水平定性分辨三七及其伪品的遗传背景差异,为中药品种标准化提供了先进可行、稳定可靠的分子标准;HPLC指纹图谱分析可以直观地为三七的化学成分定性,三七不同商品规格的特征性指纹有望成为以其为原材料的各种产品的质控标准,而三七不同部位(尤其是花和叶)的HPLC指纹图谱将有望成为制定三七花、三七叶新药用资源质控标准的依据。     

Genetic heterogeneity of ribosomal RNA gene and matK gene in Panax notoginseng

Previously, 185 ribosomal RNA gene and matK gene sequences of Chinese herbal medicines, Ginseng Radix, Panacis Japonici Rhizoma and Panacis Quinquefolli Radix were shown to correspond with those of the original plants, Panax ginseng, P. japonicus and P. quinquefolius, respectively, with the species-specific sequences especially for 18S rRNA gene sequences. In P. notoginseng and its derivative, Notoginseng Radix, however, we found two genetic groups with respect to both gene sequences. Five base substitutions were detected on both gene sequences and the homology between two groups was 99.7% for the 18S rRNA gene and 99.6% for the matK gene, respectively. One genetic group was found to have the identical sequences as those of P. ginseng.     

Molecular analysis of medicinally-used Chinese and Japanese Curcuma based on 18S rRNA gene and trnK gene sequences.

Curcuma drugs have been used discriminatingly for invigorating blood circulation, promoting digestion, and as a cholagogic in China. However, there is confusion about the drug's botanical origins and clinical uses because of morphological similarity of Curcuma plants and drugs. In order to develop an ultimate identification, molecular analysis based on 18S rRNA gene and trnK gene sequences were performed on 6 Curcuma species used medicinally in China and Japan. The 18S rRNA gene sequences were found to be of 1810 bps in length. In comparison with the common sequence of C. longa, C. phaeocaulis, C. wenyujin and C. aromatica, that of C. kwangsiensis had one base substitution, and the same base difference was observed between the Chinese and the Japanese populations of C. zedoaria. The trnK gene sequences were found to span 2698-2705 bps. There were base substitutions, small deletions or insertions at some sites between the trnK coding region and matK region among each species. Based on the base substitutions, C. zedoaria and C. kwangsiensis specimens were divided into two groups, respectively. An identical sequence was detected in C. phaeocaulis and in the Chinese population of C. zedoaria, as well as in the Japanese population of C. zedoaria and in one group of C. kwangsiensis with a purple-colored band in leaves. New taxonomic information to be used for authenticating Curcuma drugs was obtained.     

基因测序技术在中药质量研究中的应用（Ⅰ）——山东郓城猴头半夏基原的DNA测序鉴别

目的：分析半夏Pinellia ternata(Thunb.)Breit.及其伪品虎常南星Pinellia pedatisecta Schott的核基因组序列,为半夏正品基原鉴别提供分子依据。方法：采用PCR直接测序技术测定半夏及其伪品的18S rRNA基因核苷酸序列并作序列变异和选择性内切酶谱（PCR－SR）分析。结果：半夏和伪品的18S rRNA序列长度均为1805bp,根据排序比较,半夏原植物与商品药材间的序列完全相同,虎掌南星亦如此。而半夏与其伪品虎掌南星间则存在序列差异（有4个变异位点）。在半夏18S rRNA序列中有一个限制性内切酶Ase Ⅰ识别位点,通过PCR－SR图谱显示800bp和900bp2个酶切片断,而虎掌南星则无此位点,PCR－SR图谱显示1个未消化的1800bp片断。结论：通过核基因组序列和PCR－SR图谱差异DNA测序技术可成为半夏正品基原鉴别准确而有效的分子方法。     

Phylogenetic analysis based on 18S rRNA gene and matK gene sequences of Panax vietnamensis and five related species

Panax vietnamensis was discovered recently in Vietnam. Its bamboo-like rhizomes, called Vietnamese Ginseng, have attracted considerable attention because of their specific pharmacological activities. In order to define the taxonomic position of this new species and include it in the molecular authentication of Ginseng drugs, the 18S ribosomal RNA gene and matK gene sequences of P. vietnamensis were determined and compared with those of its related taxa, P. japonicus var. major and P. pseudo-ginseng subsp. himalaicus, besides previously reported P. ginseng, P. japonicus and P. quinquefolius. The 18S rRNA gene sequences were found to be 1809 bps in length. The sequence of P. vietnamensis was identical to that of P. quinquefolius, and presented one base substitution from those of both P. japonicus var. major and P. pseudo-ginseng subsp. himalaicus. The matK gene sequences of 6 taxa were found to be 1509 bps in length. The sequence of P. vietnamensis differed from those of P. japonicus var. major, P. pseudo-ginseng subsp. himalaicus, P. ginseng, P. japonicus and P. quinquefolius at 4, 5, 9, 9 and 10 nucleotide positions, respectively. The phylogenetic tree reconstructed by the combined 18S rRNA-matK gene analysis using the maximum parsimony method showed that P. vietnamensis was sympatric with other Panax species and had a close relationship with P. japonicus var. major and P. pseudo-ginseng subsp. himalaicus.     

安罗替尼联合AP方案治疗晚期非小细胞肺癌的临床研究

目的 基于线粒体cytochrome coxidase I（CO I）和16 S rRNA基因开发DNA双重条形码鉴定方法,由此验证并补充形态鉴定,以期建立一种准确、有效地鉴定地龙及混淆品原动物的方法。方法 对收集到的66份样品依据形态特征进行初步鉴定,使用优化后的引物同时扩增CO I和16 S rRNA序列。优化一步法双重PCR实验条件。用MEGA 5.1计算地龙及其混淆品的种内、种间遗传距离,基于K2P模型构建NJ树。结果 CO I和16 S rRNA双重DNA条形码鉴定与形态鉴定结合,可准确鉴别地龙及混淆品原动物。结论 形态鉴定是分子鉴定的基础,分子鉴定是形态鉴定的有力补充。二者结合可最大程度地实现地龙及其混淆品原动物的准确鉴定。DNA双重条形码鉴定方法也可为地龙药材鉴定以及其他动物药材的分子鉴定提供参考。     

Molecular identification of "Chuanxiong" by nucleotide sequence and multiplex single base extension analysis on chloroplast trnK gene

Chloroplast trnK gene sequences of Cnidium officinale and Ligusticum chuanxiong were determined to establish an effective method for identifying Japanese Senkyu and Chinese Chuanxiong, the two which have the same drug name in Chinese characters, similar external feature, but different botanical origins. Three sites of nucleotide differences were found between these 2 species at positions 767,924 and 964 from upstream in trnK gene sequence, allowing molecular identification of the two plants and crude drugs. Further, three kinds of specific primers of 14 mer, 23 mer and 30 mer long were designed to detect these 3 sites of marker nucleotides. By using multiplex single base extension (MSBE) analysis with the 3 specific primers, C. officinale and L. chuanxiong could be distinguished clearly by the electrophoretograms, where 3 peaks with different color of ddTMP, ddCMP and ddTMP were observed in case of C. officinale and those of ddGMP, ddAMP and ddGMP in L. chuanxiong. Moreover, trnK gene sequence of "Dongxiong," a kind of Chuanxiong cultivated in Northeast China, suggested that its botanical origin was C. officinale.     

基于COⅠ与16S rRNA基因对广地龙的DNA分子鉴定研究

目的:建立一种快速、准确和标准化的广地龙DNA分子标记鉴别方法。方法:测定了5个不同居群广地龙的线粒体细胞色素酶亚单位(CO)Ⅰ和16S rRNA基因序列,采用CodonCode Aligner进行序列拼接,通过下载GenBank地龙原动物的COⅠ与16S rRNA序列,采用MEGA4.1计算广地龙及其伪品地龙的种内、种间的K2P遗传距离,并基于K2P模型构建NJ和MP树。结果:COⅠ变异位点、信息位点均高于16SrRNA,COⅠ基因无插入和缺失,16S rRNA存在4个插入和缺失。COⅠ和16S rRNA序列种间遗传距离均明显大于种内,COⅠ和16S rRNA基因均能将广地龙从其他地龙或蚯蚓物种鉴别开来。结论:获得的广地龙COⅠ和16S rRNA序列可为动物性中药材地龙的分子水平鉴定提供参考,为动物性中药材DNA条形码数据库积累了相关信息数据。     

6种川产姜黄属药用植物叶绿体trnK基因序列变异分析及其分子鉴定

目的建立6种川产姜黄属（Curcuma）药用植物快速简单的分子鉴定方法。方法采用叶绿体赖氨酸tRNA基因（trnK）测序与序列变异分析方法。结果6种姜黄属药用植物（包括姜黄C. longa、莪术C. phaeocaulis、川郁金C. sichuanensis、川郁金C. chuanyujin、川黄姜C. chuanhuangjiang、川莪术C. chuanezhu）完整trnK基因长度在2699～2705 bp。序列可变区包括matK基因编码区和trnK外显子与matK内含子之间区域，共有6个单核苷酸多态性（SNPs）位点、1个9-bp的缺失重复序列和2个4-bp、14-bp插入重复序列。结论trnK基因序列可变位点可以作为6种川产姜黄属药用植物快速简单的分子鉴定标记，并为它们之间种的归并提供了分子依据。     

6种川产姜黄属药用植物叶绿体trnK基因序列变异分析及其分子鉴定

目的建立6种川产姜黄属(Curcuma)药用植物快速简单的分子鉴定方法.方法采用叶绿体赖氨酸tRNA基因(trnK)测序与序列变异分析方法.结果 6种姜黄属药用植物(包括姜黄C. longa、莪术C. phaeocaulis、川郁金C. sichuanensis、川郁金C. chuanyujin、川黄姜C. chuanhuangjiang、川莪术C. chuanezhu)完整trnK基因长度在2699～2705 bp.序列可变区包括matK基因编码区和trnK外显子与matK内含子之间区域,共有6个单核苷酸多态性(SNPs)位点、1个9-bp的缺失重复序列和2个4-bp、14-bp插入重复序列.结论 trnK基因序列可变位点可以作为6种川产姜黄属药用植物快速简单的分子鉴定标记,并为它们之间种的归并提供了分子依据.     

4株脑膜炎球菌菌株的16S rRNA、PorA和PorB基因序列分析

目的  对A、C、Y和W135 4个不同血清群脑膜炎球菌菌株的16S rRNA、PorA和PorB基因进行序列分析,从分子水平对其做出鉴定。方法  提取脑膜炎球菌基因组DNA为 模板,设计特异性引物进行16S rRNA、PorA和PorB基因的PCR扩增并测序。结果  A、C、Y和W135群4个菌株的16S rRNA基因序列与GenBank中奈瑟菌属的脑膜炎球菌的同源性最高。4个菌株的PorA基因分型分别为P1.5-2,10; P1.7-1,1; P1.5-1,2-2; P1.5,2。PorB基因分别与porB3-26、porB2-40、porB3-100和porB3-25同源。结论  从基因水平分析表明4个菌株属于脑膜炎球菌,并在PorA和PorB基因分型上有差异。     

Development of species specific AFLP-derived SCAR marker for authentication of Panax japonicus C. A. MEYER

Panax japonicus is an important medicinal plant. The aim of this study was to develop species-specific molecular markers for P. japonicus. Amplified fragment length polymorphism (AFLP) was compared among P. japonicus, P. ginseng and P. quinquefolius. A clear species-specific AFLP marker for P. japonicus was generated. After isolation and sequencing of the AFLP fragment, a DNA sequence (293 bp) was obtained and named JG14. Oligonucleotide primer (23 mer) was designed for amplifying 191 bp of the sequence of JG14. PCR analysis revealed a clear amplified band for P. japonicus but not in 3 other Panax species (P. ginseng, P. quinquefolius and P. notoginseng). This sequence characterized amplified regions (SCAR) marker will be used for rapid authentication of P. japonicus among other related Panax species. This is the first report of species-specific SCAR marker development in P. japonicus.     

中药材龟甲及原动物的高特异性PCR鉴定研究

目的:建立一种简便、实用的龟甲药材DNA 分子鉴定方法。方法:根据22 种亚洲产龟类的线粒体12SrRNA 基因片段序列,设计一对专用于鉴定中药材龟甲原动物乌龟的鉴别引物,用该对引物扩增从乌龟和其他18 种龟共48 个样品的DNA 模板。结果:在72℃的复性温度下进行PCR,4 个乌龟的模板DNA 均得到约180 bp 的阳性扩增带,而其他各龟的模板DNA,在同样条件下无扩增产物,用这对鉴别引物经一次PCR 反应便可准确地鉴定受试原动物是否为乌龟。同法对江苏省药品检验所提供的17 块样品龟甲进行了鉴定,结果表明只有4 块样品为正品,其余皆为伪品,与性状鉴定和DNA序列分析鉴定结果完全一致。结论:所设计的鉴别引物对乌龟有高度特异性,所配制的龟甲药材鉴定试剂盒可在龟甲药材鉴定中使用。     

Discrimination among three species of medicinal Scutellaria plants using RAPD markers

An analysis of random amplified polymorphic DNA (RAPD) was performed using nine accessions of three species of medicinal plants in the genus Scutellaria (S. galericulata, S. lateriflora and S. baicalensis; known collectively as skullcap) in an effort to distinguish between members of these three species. Dried aerial parts of the two species S. galericulata and S. lateriflora are difficult to distinguish morphologically. Ten arbitrary primers produced 92 fragments, and eight of the primers yielded 23 species-specific fragments among the three species. Six fragments were specific for S. galericulata, seven for S. lateriflora and ten for S. baicalensis. When primers A02 and A06 were used in the polymerase chain reaction, RAPD fragments that were specific for each of the three species were generated simultaneously. Primer A02 produced five species-specific fragments: one was specific for S. galericulata; two for S. lateriflora; and two for S. baicalensis. Primer A06 produced three species-specific fragments: one for S. galericulata; one for S. lateriflora; and one for S. baicalensis. The RAPD markers that were generated with these two primers should rapidly identify members of the three species of Scutellaria. The consistency of the identifications made with these species-specific RAPD markers was demonstrated by the observation that each respective marker was generated from three accessions of each species, all with different origins. Furthermore, cluster analysis using the 92 RAPD fragments produced a dendrogram of genetic relatedness that was in good agreement with the taxonomic designations of the three species. Thus, the RAPD markers should be useful for the future identification of members of the three species of medicinal Scutellaria plants.     

广藿香的基因序列与挥发油化学型的相关性分析

目的探讨“南药”广藿香Pogostemon cablin (Blanco) Benth.不同产地间的叶绿体和核基因组的基因型与挥发油化学型的关系，为广藿香道地性品质评价、规范化种植提供分子依据。方法用PCR直接测序技术对广藿香6个产地样本的叶绿体matK基因和核18S rRNA基因核苷酸序列进行测序分析研究。结果广藿香6个样本的matK基因序列长均为1 245 bp，编码415个氨基酸成熟酶。18S rRNA基因序列长为1 803～1 805 bp。根据排序比较，广藿香6个样本间的matK基因序列存在47个变异位点，18S rRNA基因存在17个变异位点，非加权组平均法构建的系统分支树表明广藿香基因序列分化与其产地、所含挥发油化学变异类型呈良好的相关性。结论结合挥发油分析数据，基因测序分析技术可作为广藿香道地性品质评价方法这一以及规范化种植过程关键技术“物种鉴定”的强有力工具。