Comparative plastomes of eight subgenus Chamaesyce plants and system authentication of Euphorbiae Humifusae Herba.

Euphorbiae Humifusae Herba (EHH) was provided with medicinal and edible uses, but frequently was adulterated with its closely related species. Hence, this study sought to identify EHH via an integrated approach comprising data from its morphological evaluation, HPLC analysis, comparative plastomes analysis and allele-specific PCR identification. First, the morphological characteristics of 8 subgenus Chamaesyce plants were summarized. Then, HPLC analysis showed that 18 batches of EHH were adulterated or unqualified. Furthermore, the plastomes of the 8 subg. Chamaesyce species were analyzed. Phylogenetic analysis revealed a sister relationship among the 8 subg. Chamaesyce species. The allele-specific PCR authentication was developed by the nucleotide polymorphisms (SNPs) and insertions or deletions (InDels) analysis. The results of allele-specific PCR showed that 27 batches of EHH were adulterated, indicating that the superior sensitivity of molecular authentication over the other methods used. This study provided a reference for rational use and phylogenetic research of EHH.

The complete chloroplast genome sequence of Cyathula officinalis and comparative analysis with four related species.

Cyathula officinalis is a medicinal and edible herb, which can remove blood stasis, stimulate menstrual flow, and ease joint movement. In this study, the complete chloroplast genome of Cyathula officinalis was sequenced, assembled, and analyzed. Compared with the chloroplast genomes of Cyathula capitata, Achyranthes bidentata, Achyranthes longifolianine and Achyranthes aspera, the basic characteristics, codon usage bias, repeat sequences, simple sequence repeats, and phylogenetic tree were analyzed. In addition, according to nucleotide diversity analysis and sequence alignment, DNA barcoding and allele-specific PCR primers were designed to identify and distinguish Cyathula officinalis from its fake drugs, which has effectively practical significance for the authentication of "Chuan Niuxi" crude drug in the market.

The complete chloroplast genome of Persicaria perfoliata and comparative analysis with four medicinal plants of Polygonaceae.

Polygonaceae is a large family of medicinal herbs that includes many species used as traditional Chinese medicine, such as Per sicaria per foliata. Here, we sequenced the complete chloroplast genome of P. per foliata using Illumina sequencing technology with the purpose of providing a method to facilitate accurate identification. After being annotated, the complete chloroplast genome of P. per foliata was compared with those of Fagopyrum tataricum, Per sicaria chinensis, Fagopyrum dibotrys, and Fallopia multiflora. The complete chloroplast genome of P. per foliata is 160 730 bp in length, containing a small single-copy region of 12 927 bp, a large single-copy region of 85 433 bp, and a pair of inverted repeat regions of 62 370 bp. A total of 131 genes were annotated, including 8 rRNA genes, 34 tRNA genes, and 84 protein-coding genes. Forty-two simple sequence repeats and 55 repeat sequences were identified. Mutational hotspot analyses indicated that five genes (matK, ndhF, ccsA, cemA, and rpl20) could be selected as candidates for molecular markers. Moreover, phylogenetic analysis showed that all the Polygonaceae species formed a monophyletic clade, and P. per foliata showed the closest relationship with P. chinense. The study provides valuable molecular information to accurately identify P. per foliata and assist in its development and application.