DNA barcoding is an effective technique in species identification. To determine the candidate sequences which can be used as DNA barcode to identify in Papaver genus, five potential sequences (ITS, matK, psbA-trnH, rbcL, trnL-trnF) were screened. 69 sequences were downloaded from Genbank, including 21 ITS sequences, 10 matK sequences, 8 psbA-trnH sequences, 14 rbcL sequences and 16 trnL-trnF sequences. Mega 6.0 was used to analysis the comparison of sequences. By the methods of calculating the distances in intraspecific and interspecific divergences, evaluating DNA barcoding gap and constructing NJ and UPMGA phylogenetic trees. The sequence trnL-trnF performed best. In conclusion, trnL-trnF can be considered as a novel DNA barcode in Papaver genus, other four sequences can be as combination barcode for identification.
DNA Barcoding, Taxonomic ; methods ; Papaver ; classification ; genetics

OBJECTIVETo identify Menthae Haplocalycis Herba and its closely related species using DNA barcoding technique.

METHODTotal genomic DNA was isolated from Mentha canadensis and its closely related species. Nuclear DNA ITS2 sequences were amplified, and purified PCR products were sequenced. Sequence assembly and consensus sequence generation were performed using the CodonCode Aligner V3.0. The Kimura 2-Parameter (K2P) distances were calculated using software MEGA 5.0. Identification analyses were performed using BLAST1, Nearest Distance and neighbor-joining (NJ) methods.

RESULTThe intra-specific genetic distances of M. canadensis were ranged from 0 to 0.006, which were lower than inter-specific genetic distances between M. canadensis and its closely related species (0.071-0.231). All the three methods showed that ITS2 could discriminate M. canadensis from its closely related species correctly.

CONCLUSIONThe ITS2 region is an efficient barcode for identification of Menthae Haplocalycis Herba, which provides a scientific basis for fast and accurate identification of the herb.

DNA Barcoding, Taxonomic ; methods ; DNA, Ribosomal Spacer ; genetics ; Plants, Medicinal ; classification ; genetics ; Sequence Analysis, DNA ; methods

OBJECTIVETo identify Junci Medulla using the ITS2 barcode.

METHODThe ITS2 regions of Juncus effuses and its closely related species were PCR amplified and sequenced. Sequence assembly and consensus sequence generation were performed using the CodonCode Aligner. The Kimura 2-Parameter (K2P) distances were calculated using software MEGA 5.0. Identification analyses were performed using BLAST1, Nearest Distance, PWG Distance and neighbor-joining (NJ) methods.

RESULTThe intra-specific genetic distances of J. effuses were ranged from 0 to 0.005, which were far lower than inter-specific genetic distances between J. effuses and its closely related species (0.215-0.614). All the four methods showed that ITS2 could discriminate J. effuses from its closely related species correctly.

CONCLUSIONThe ITS2 region is an efficient barcode for authentication of Junci Medulla, and our study further confirmed the ability of ITS2 to identify traditional Chinese medicinal materials.

DNA Barcoding, Taxonomic ; methods ; DNA, Plant ; DNA, Ribosomal Spacer ; Plants, Medicinal ; classification ; genetics

OBJECTIVETo identify Ephedrae Herba using the ITS2 barcode and to secure its quality and safety in medication.

METHODTotal genomic DNA was isolated from Ephedrae Herba and its closely related species. Nuclear DNA ITS2 sequences were amplified, and purified PCR products were sequenced. Sequence assembly and consensus sequence generation were performed using the CodonCode Aligner. The Kimura 2-Parameter (K2P) distances were calculated using software MEGA 5.0. Identification analyses were performed using BLAST1, Nearest Distance and neighbor-joining (NJ) methods.

RESULTThe intra-specific genetic distances of Ephedrae Herba were ranged from 0 to 0.002. The inter-specific genetic distances between Ephedrae Herba and its closely related species were ranged from 0.004 to 0.034. All the three methods showed that ITS2 could discriminate Ephedrae Herba from its closely related species correctly.

CONCLUSIONThe ITS2 region is suitable to be used for authentication of Ephedrae Herba, and our study further confirmed the effectiveness of ITS2 to identify traditional Chinese medicinal materials.

DNA Barcoding, Taxonomic ; methods ; DNA, Ribosomal Spacer ; genetics ; Ephedra sinica ; classification ; genetics

In order to identify Peucedani Radix, Peucedani Decursivi Radix and their adulterants, the internal transcribed spacer 2 (ITS2) regions of Peucedani Radix, Peucedani Decursivi Radix and their adulterants were amplified and bidirectionally sequenced based on the Principles for Molecular Identification of Traditional Chinese Materia Medica Using DNA Barcoding, which has been promulgated by Chinese Pharmacopoeia Commission. Sequences were analyzed and assembled by Codon Code Aligner V3. 7.1. The relevant data were analyzed by MEGA 5. 0. Species identification analyses were performed by using the nearest distance methods and neighbor-joining (NJ) methods. The result showed that the ITS2 sequence lengths of Peucedani Radix were 229-230 bp and the average intra-specific genetic distances were 0.005. The ITS2 sequence lengths of Peucedani Decursivi Radix were 227 bp and the sequences contained no variation site. The average inter-specific K2P genetic distance of Peucedani Radix, Peucedani Decursivi Radix and their adulterants species were 0.044 and 0.065 respectively. The minimum inter-specific divergence is larger than the maximum intra-specific divergence of Peucedani Decursivi Radix. The nearest distance methods and NJ trees results indicated that Peucedani Radix, Peucedani Decursivi Radix and their adulterants species could be identification clearly. The ITS2 regions can stably and accurately distinguish Peucedani Radix, Peucedani Decursivi Radix and their adulterants.
Apiaceae ; classification ; genetics ; DNA Barcoding, Taxonomic ; methods ; DNA, Ribosomal Spacer ; Drug Contamination

Scutellaria baicalensis is a commonly used Chinese medicinal herb. In this study, we identified the germplasm resources of commercial S. baicalensis samples based on trnH-psbA, petA-psbJ, and ycf4-cemA sequences according to the available chloroplast genome sequencing results, and measured the content of baicalin by HPLC. Through the above means we determined the best DNA barcode that can be used to detect the germplasm resources and evaluate the quality of commercial S. baicalensis samples. A total of 104 samples were collected from 24 provinces, from which DNA was extracted for PCR amplification. The amplification efficiencies of trnH-psbA, petA-psbJ, and ycf4-cemA sequences were 100%, 59.62%, and 25.96%, respectively. The results of sequence analysis showed that 5, 4, and 2 haplotypes were identified based on trnH-psbA, petA-psbJ, and ycf4-cemA sequences, respectively. However, the sequences of haplotypes in commercial samples were different from that of the wild type, and the joint analysis of three fragments of S. baicalensis only identified 6 haplotypes. Furthermore, the phylogenetic analysis and genetic distance analysis indicated that trnH-psbA could be used to identify S. baicalensis from adulterants. The above analysis showed that trnH-psbA was the best fragment for identifying the germplasm resources of commercial S. baicalensis samples. We then analyzed the haplotypes(THap1-THap5) of commercial S. baicalensis samples based on trnH-psbA and found that THap2 was the main circulating haplotype of the commercial samples, accounting for 86.55% of the total samples, which indicated the scarce germplasm resources of commercial S. baicalensis samples. The content of baicalin in all the collected commercial S. baicalensis samples exceeded the standard in Chinese Pharmacopoeia and had significant differences(maximum of 12.21%) among samples, suggesting that the quality of commercial S. baicalensis samples varied considerably. However, there was no significant difference in baicalin content between different provinces or between different haplotypes. This study facilitates the establishment of the standard identification system for S. baicalensis, and can guide the commercial circulation and reasonable medication of S. baicalensis.
Chromatography, High Pressure Liquid ; DNA Barcoding, Taxonomic/methods* ; DNA, Plant/genetics* ; Phylogeny ; Scutellaria baicalensis/genetics*

In order to construct an integrated DNA barcoding database for identifying Chinese animal medicine, the authors and their cooperators have completed a lot of researches for identifying Chinese animal medicines using DNA barcoding technology. Sequences from GenBank have been analyzed simultaneously. Three different methods, BLAST, barcoding gap and Tree building, have been used to confirm the reliabilities of barcode records in the database. The integrated DNA barcoding database for identifying Chinese animal medicine has been constructed using three different parts: specimen, sequence and literature information. This database contained about 800 animal medicines and the adulterants and closely related species. Unknown specimens can be identified by pasting their sequence record into the window on the ID page of species identification system for traditional Chinese medicine (www. tcmbarcode. cn). The integrated DNA barcoding database for identifying Chinese animal medicine is significantly important for animal species identification, rare and endangered species conservation and sustainable utilization of animal resources.
Animals ; DNA Barcoding, Taxonomic ; methods ; Databases, Nucleic Acid ; Eukaryota ; classification ; genetics ; Medicine, Chinese Traditional

The DNA barcoding of traditional Chinese medicine was summarized in this article. Based on analyzing a number of research findings, the authors discussed the possibility of nuclear DNA sequence and chloroplast genes in identifying medicinal materials. ITS was considered to evolve faster, which was used for plant molecular systematics analysis and species identification,while ITS2 was more suitable to identify medicinal materials. So, it is important that we should select suitable DNA sequences as barcodes based on the objective of a study. With the cost reduction of sequencing, identifying medicinal materials by cp-genome barcoding would be applied broadly and effectively in the future.
DNA Barcoding, Taxonomic ; methods ; Genes, Chloroplast ; Medicine, Chinese Traditional ; Plants, Medicinal ; classification ; genetics

To optimize indices of molecular identification for authentication of Ginseng Radix et Rhizoma and Panacis Quinquefolii Radix, four indices, including sequence similarity, specific positions, genetic distance and phylogenetic tree, were compared based on trnL-trnF sequences. Total DNA was extracted from Ginseng Radix et Rhizoma and Panacis Quinquefolii Radix, and trL-trnF sequences were amplified and sequenced. Sequence similarity was calculated by BLAST analysis. Specific positions were compared by DNAman software. Genetic distance and phylogenetic tree were analyzed by Mega software. The results showed that the inter-specific and intra-specific similarity of P. ginseng and P. quinquefolius respectively was 100% and 99. 6%. There were four specific positions at G153A, T463A, C732G and T818C. The inter-specific genetic distance (0) of trL-trnF sequences was lower than intra-specific genetic distance (0. 004). P. ginseng can be distinguished from P. quinquefolius based on the phylogenetic tree. It is concluded that Ginseng Radix et Rhizoma and Panacis Quinquefolii Radix can be authenticated by identification indices of sequence similarity, specific positions, genetic distance and phylogenetic tree. Index of specific positions based on trnL-trnF sequences is the most efficient index to authenticate Ginseng Radix et Rhizoma and Panacis Quinquefolii Radix.
Chloroplasts ; genetics ; DNA Barcoding, Taxonomic ; methods ; Panax ; classification ; genetics ; Phylogeny ; Plant Proteins ; genetics ; Rhizome ; classification ; genetics

OBJECTIVETo evaluate the ability of several hotspot candidate sequence of DNA barcodes for identifying medicinal plant species in Verbenaceae.

METHODUsing universal primers, three chloroplast sequences, psbA-trnH, rbcL, matK, two nuclear ribosomal DNA ITS2 and ITS were amplified and sequenced. PCR amplification and sequencing efficiency, intra- and inter-specific variation, barcoding gap and identification efficiency (with BLAST 1 and Nearest Distance methods) were used to evaluate these loci.

RESULTThe rate of successful amplification using matK was too low to further analyze, and the rate of successful amplification and sequencing using psbA-trnH, ITS, and ITS2 and rbcL sequence was 83.6%, 83.6%, 96.4%, 98.2%, respectively. The rate of successful identification using psbA-trnH, ITS, and ITS2 was 100% at the species level except that rbcL was 77.8%, 75.9% for 55 samples belonging to 32 species, but ITS2 did better in intra- and inter-specific variation, barcoding gap than the other loci. The rate of successful identification of ITS2 was 89.5%, 87.6% even when joining the date of 165 samples from GenBank.

CONCLUSIONIt proposes that the combination of ITS2 and psbA-trnH senquence is promising for the identification of the species in Verbenaceae.

DNA Barcoding, Taxonomic ; methods ; DNA, Plant ; genetics ; DNA, Ribosomal Spacer ; genetics ; Plants, Medicinal ; classification ; genetics ; Verbenaceae ; classification ; genetics