Characteristic and Phylogenetic Analysis of the Complete Chloroplast Genomes of Three Medicinal Plants of Schisandraceae.

Schisandra chinensis, which has a high development value, has long been used as medicine. Its mature fruits (called Wuweizi in Chinese) have long been used in the famous traditional Chinese medicine (TCM) recorded in the "Chinese Pharmacopoeia." Chloroplasts (CP) are the highly conserved primitive organelles in plants, which can serve as the foundation for plant classification and identification. This study introduced the structures of the CP genomes of three Schisandraceae species and analyzed their phylogenetic relationships. Comparative analyses on the three complete chloroplast genomes can provide us with useful knowledge to identify the three plants. In this study, approximately 5 g fresh leaves were harvested for chloroplast DNA isolation according to the improved extraction method. A total of three chloroplast DNAs were extracted. Afterwards, the chloroplast genomes were reconstructed using denovo combined with reference-guided assemblies. General characteristics of the chloroplast genome and genome comparison with three Schisandraceae species was analyzed by corresponding software. The total sizes of complete chloroplast genomes of S. chinensis, S. sphenanthera, and Kadsura coccinea were 146875 bp, 146842 bp, and 145399 bp, respectively. Altogether, 124 genes were annotated, including 82 protein-coding genes, 34 tRNAs, and 8 rRNAs of all 3 species. In SSR analysis, only S. chinensis was annotated to hexanucleotides. Moreover, comparative analysis of chloroplast Schisandraceae genome sequences revealed that the gene order and gene content were slightly different among Schisandraceae species. Finally, phylogenetic trees were reconstructed, based on the genome-wide SNPs of 38 species. The method can be used to identify and differentially analyze Schisandraceae plants and offer useful information for phylogenetics as well as further studies on traditional medicinal plants.

Dynamic evolution and phylogenomic analysis of the chloroplast genome in Schisandraceae.

Chloroplast genomes of plants are highly conserved in both gene order and gene content, are maternally inherited, and have a lower rate of evolution. Chloroplast genomes are considered to be good models for testing lineage-specific molecular evolution. In this study, we use Schisandraceae as an example to generate insights into the overall evolutionary dynamics in chloroplast genomes and to establish the phylogenetic relationship of Schisandraceae based on chloroplast genome data using phylogenomic analysis. By comparing three Schisandraceae chloroplast genomes, we demonstrate that the gene order, gene content, and length of chloroplast genomes in Schisandraceae are highly conserved but experience dynamic evolution among species. The number of repeat variations were detected, and the Schisandraceae chloroplast genome was revealed as unusual in having a 10 kb contraction of the IR due to the genome size variations compared with other angiosperms. Phylogenomic analysis based on 82 protein-coding genes from 66 plant taxa clearly elucidated that Schisandraceae is a sister to a clade that includes magnoliids, monocots, and eudicots within angiosperms. As to genus relationships within Schisandraceae, Kadsura and Schisandra formed a monophyletic clade which was sister to Illicium.

Evaluation of four commonly used DNA barcoding Loci for chinese medicinal plants of the family schisandraceae.

Many species of Schisandraceae are used in traditional Chinese medicine and are faced with contamination and substitution risks due to inaccurate identification. Here, we investigated the discriminatory power of four commonly used DNA barcoding loci (ITS, trnH-psbA, matK, and rbcL) and corresponding multi-locus combinations for 135 individuals from 33 species of Schisandraceae, using distance-, tree-, similarity-, and character-based methods, at both the family level and the genus level. Our results showed that the two spacer regions (ITS and trnH-psbA) possess higher species-resolving power than the two coding regions (matK and rbcL). The degree of species resolution increased with most of the multi-locus combinations. Furthermore, our results implied that the best DNA barcode for the species discrimination at the family level might not always be the most suitable one at the genus level. Here we propose the combination of ITS+trnH-psbA+matK+rbcL as the most ideal DNA barcode for discriminating the medicinal plants of Schisandra and Kadsura, and the combination of ITS+trnH-psbA as the most suitable barcode for Illicium species. In addition, the closely related species Schisandra rubriflora Rehder & E. H. Wilson and Schisandra grandiflora Hook.f. & Thomson, were paraphyletic with each other on phylogenetic trees, suggesting that they should not be distinct species. Furthermore, the samples of these two species from the southern Hengduan Mountains region formed a distinct cluster that was separated from the samples of other regions, implying the presence of cryptic diversity. The feasibility of DNA barcodes for identification of geographical authenticity was also verified here. The database and paradigm that we provide in this study could be used as reference for the authentication of traditional Chinese medicinal plants utilizing DNA barcoding.

Phylogeny of the Schisandraceae based on cpDNA mat-K and rpL16 intron data.

The chloroplast mat-K region and rpL16 intron region were sequenced for 14 species of Schisandraceae, representing both genera Kadsura Kaempf. ex Juss. and Schisandra Michx, to discuss the phylogeny of this family. Analyses were performed both in separate and combined sequence data sets (including the rbc-L sequence), with Illicium angustispealum A. C. Smith as the out-group. The results showed that the Schisandraceae are monophyletic. In all the analyses, Schisandra propinqua var. chinensis Oliva and Schisandra plena A. C. Smith were nested within Kadsura, which implies that the genera Kadsura and Schisandra are closely related. They might have originated from a common ancestor, but then evolved via different routes. The result inferred from the combined data showed a greater resolution within Schisandra than those from the two separate data sets. High bootstrap values supported the monophyly of most subgenera according to Law's system (1996). A combination of morphological, anatomical, and chemical analyses indicates that S. chinensis and S. rubriflora may be the primitive taxa in Schisandra.