Gentiana is an important but complicated group in Gentianaceae. The genus covers numerous medicinal plants which are difficult to be identified. In the present study, several medicinal species in Gentiana from Yunnan province, including G. rigescens, G.rhodantha, and G. delavayi, were sequenced using the Illumina HiSeq 2500 system. Three complete chloroplast genome sequences were obtained after assembly and annotation. According to several published genome sequences of G. crassicaulis, the DNA super-barcoding of species in Gentiana was preliminarily carried out. The results revealed that chloroplast genomes of the three species were conservative with short lengths(146 944, 148 992, and 148 796 bp, respectively). The genomes encoded 114 genes, including 78 protein-coding genes, 30 tRNA genes, 4 rRNA genes, and 2 pseudogenes. Furthermore, these medicinal species in Yunnan province were identified using DNA super-barcoding based on chloroplast genomes. The results showed that the Gentiana species could be gathered into monophyletic branches with a high support value(100%). It indicated that DNA super-barcoding possessed obvious advantages in discriminating species in complicated genera. This study is expected to provide a scientific basis for the identification, utilization, and conservation of Gentiana species.
China ; DNA ; Genome, Chloroplast/genetics* ; Gentiana/genetics* ; Phylogeny

The genetic diversity of three Tibetan herbs, i. e., Sang-Di, E-Dewa and Ye-Xingba (Tibetan names), was studied based on the field collection, specimen identification and DNA sequence analysis. Swertia hispidicalyx, Gentiana lhassica and Scrophularia dentata, as the original plants of the three Tibetan herbs, were collected and identified. The regions of ITS, matK, rbcL, rpoC1, trnL(UAA), psbA-trnH, atpB-rbcL, trnS (GCU)-trnG(UCC), rpl20-rps12, trnL(UAA)-trnF(GAA) and nadl 2nd intron were amplified and sequenced. The ITS regions of S. hispidicalyx and S. dentata were cloned and sequenced, and the sequences were classified into different genotypes. All the sequences were analyzed and compared with those of closely related species. Our studies may provide reference for the genetic diversity analysis and molecular identification of the three Tibetan herbs.
Genetic Variation ; Gentiana ; classification ; genetics ; Phylogeny ; Plant Proteins ; genetics ; Plants, Medicinal ; classification ; genetics ; Scrophularia ; classification ; genetics ; Swertia ; classification ; genetics ; Tibet

OBJECTIVETo find the patterns of the rDNA ITS sequence variation in Gentiana, and establish the molecular biological method for the identification of the four kinds wild Gentiana from different regions in Gansu.

METHODThe ITS gene fragments were PCR amplified and sequenced. The rDNA ITS regions were analyzed by means of the software of Clustal X, MEGA3.

RESULTThe Complete ITS sequence of G. macrophylla, G. straminea, G. dahurica and G. officinale was 800 bp. The sequences of ITS1, ITS2 and 5.8S were 290, 340, 170 bp, respectively. Phylogenetic tree based on ITS1 and ITS2 sequences data was constrcuted by Neighbor-joining method.

CONCLUSIONITS sequence could be as the evidence for the molecular authentication of Gentiana.

DNA, Plant ; chemistry ; DNA, Ribosomal ; chemistry ; DNA, Ribosomal Spacer ; chemistry ; Gentiana ; genetics ; Phylogeny

As the main chemical constituents, iridoids are widely distributed within Gentiana, Gentianaceae, with promising bioactivities. Based on the previous work, the transcriptome of G. lhassica, an original plant of Tibetan herb "Jieji Nabao", was sequenced and analyzed in this study, and the transcriptome databases of roots, stems, leaves, and flowers were constructed so as to explore unigenes that may encode the key enzymes in the biosynthetic pathway of iridoids. Then, qRT-PCR was used to validate the relative expression levels of 11 genes named AACT, DXS, MCS, HDS, IDI, GPPS, GES, G10H, 7-DLNGT, 7-DLGT, and SLS in roots, stems, leaves, and flowers. Also, the total contents of gentiopicroside and loganic acid were determined by HPLC, respectively. The results are as follows:(1)a total of 76 486 unigenes with an average length of 852 bp were obtained;(2)335 unigenes were involved in 19 stan-dard secondary metabolism pathways in KEGG database, with phenylpropanoid biosynthesis having the maximum number(75 unigenes), and no isoflavone biosynthetic pathway was annotated;(3)171 unigenes participatedin 27 key enzymes encoding in the biosynthetic pathway of iridoids, and 1-deoxy-D-xylulose-5-phosphate reductoisomerase(DXR) gene was highly expressed;(4)qRT-PCR results were approximately consistent with RNA-Seq data and the relative expression levels of the 11 genes were higher in the aboveground parts(stem, leaf, and flower) than in the underground part(root);(5)the total contents of gentiopicroside and loganic acid were higher in the aboveground parts(stem, leaf, and flower) than in the underground part(root), and the difference was significant. This study provides basic scientific data for accurate species identification, evaluation of germplasm resources, research on secondary pro-duct accumulation of medicinal plants within Gentianaceae, and protection of endangered alpine species.
Gene Expression Profiling ; Gene Expression Regulation, Plant ; Gentiana/genetics* ; Iridoids ; Transcriptome

The alpine plant Gentiana robusta is an endemic species to the Sino-Himalayan subregion. Also, it is one of the original plants used as traditional Tibetan medicine Jie-Ji. We sequence the nuclear ribosomal internal transcribed spacer (ITS) regions, matK, rbcL, rpoC1, trnL (UAA), psbA-trnH, atpB-rbcL, trnS( GCU)-trnG(UCC), rpl20-rps12, trnL(UAA)-trnF( GAA) fragments of cp DNA in both G. robusta and such relative species as G. straminea, G. crassicaulis and G. waltonii. With Halenia elliptica as the outgroup, molecular systematic analysis reveals that G. robusta is a natural hybrid. G. straminea is the mother of hybrids, but the father is not very clear. In addition, the molecular markers for distinguishing G. robusta from the parental species or closely related species are identified, respectively. Our studies may provide valuable reference for the species identifications of medicinal plants with complex genetic backgrounds.
DNA Barcoding, Taxonomic ; DNA, Plant ; genetics ; Gentiana ; classification ; genetics ; Molecular Sequence Data ; Phylogeny ; Plant Proteins ; genetics ; Plants, Medicinal ; classification ; genetics

OBJECTIVETo amplify the PCR with the internal transcribed spacerl regions measure the base sequence of the amplified products of DNA, and to set up an identified standard on the level of molecule.

METHODDNA from the seeds of G. dahurica was extracted by conventional method, and composed peculiar primer was used to amplify with the internal transcribed spacerl regions of the rRNA gene, and the base sequence of the amplified products by stopping the circle of the end of double deoxidation of four color fluorescent mark was measured.

RESULTIt was proved by agar sugar gel electrophoresis that the PCR amplified products of the internal transcribed spacerl regions of the rRNA gene existed. The base sequence of the seeds of G. dahurica's internal transcribed spacerl regions of the rRNA gene was measured.

CONCLUSIONTo measure the base sequence of internal transcribed spacerl regions of the rRNA gene in the seeds of G. dahurica's is a method to identify vegetal Chinese traditional medicine on the level of molecule.

Base Sequence ; DNA, Plant ; genetics ; DNA, Ribosomal Spacer ; genetics ; Gentiana ; genetics ; Molecular Sequence Data ; Plants, Medicinal ; genetics ; Polymerase Chain Reaction ; RNA, Ribosomal ; genetics ; Seeds ; genetics

DNA barcoding is a rapidly developing frontier technology in the world and will be useful in promoting the quality control and standardization of traditional Chinese medicine. Until now, many studies concerning DNA barcoding have focused on leaf samples but rarely on Chinese herbal medicine. There are three issues involved in DNA barcoding for traditional Chinese medicinal materials: (1) the extraction methods for total DNA of the rhizomes of the medicinal materials; (2) intra-specific variation among samples from different places of origin; (3) accuracy and stability of this method. In this study, Gentianae Macrophyllae Radix was used to verify the stability and accuracy of DNA barcoding technology. Five regions (ITS2, psbA-trnH, matK, rbcL, and ITS) were tested for their ability to identify 86 samples of Gentianae Macrophyllae Radix and their adulterants. After improving the DNA extraction method, genomic DNA from all samples was successfully obtained. To evaluate each barcode's utility for species authentication, PCR amplification efficiency, genetic divergence, and species authentication were assessed. Among all tested regions only ITS2 locus showed 100% of PCR amplification and identification efficiencies. Based on the established method, we successfully identified two samples of Gentianae Macrophyllae Radix bought in pharmacy to the original species.
DNA Barcoding, Taxonomic ; methods ; DNA, Plant ; analysis ; genetics ; Drug Contamination ; Genetic Variation ; Genome, Plant ; Gentiana ; classification ; genetics ; Plant Roots ; genetics ; Plants, Medicinal ; genetics ; Polymerase Chain Reaction ; methods ; Quality Control ; Sequence Analysis, DNA ; Species Specificity