The characteristics of complete chloroplast genome sequence and phylogenetic analysis of Dendrobium moniliforme / 药学学报

italic>Dendrobium moniliforme is an important source of Dendrobii Caulis and one of the main sources of authentic Fengdou. The complete chloroplast genome of D. moniliforme was sequenced using Illumina Hiseq technology and its gene map and genomic structure were analyzed. Then comparative and phylogenetic analysis of the complete chloroplast genomes of D. moniliforme and its related species were conducted. The chloroplast genome of D. moniliforme was 150 754 bp in length and had a typical quadripartite structure with a large single copy (LSC, 84 818 bp), a small single copy (SSC, 14 124 bp) and two inverted repeats (IRs, 25 906 bp each). A total of 123 chloroplast genes were annotated, including 77 protein-coding genes, 38 tRNA genes and 8 rRNA genes, of which 17 genes contained introns. Bioinformatics analysis identified 53 SSR sites, most of which had A-T base preference. A phylogenetic tree was constructed using the chloroplast genome sequences of 33 Dendrobium species. The results showed that Dendrobium complex species were clustered in a single large branch, indicating that they were closely related. This study provides a scientific basis for the identification of D. moniliforme and the phylogenetic relationship of D. moniliforme complex species necessary for Herbgenomics research.

Chloroplast Genomic Analysis of Pyrrosia assimilis / 中国实验方剂学杂志

Objective::The complete chloroplast genome of Pyrrosia assimilis was sequenced, its sequence characteristics was analyzed and herbgenomics of P. assimilis was discussed. Method::Its complete chloroplast genome sequence was determined through high-throughput sequencing technology, and its structural characteristics and phylogenetic relationships were analyzed by bioinformatics. Result::The chloroplast genome of P. assimilis was a circular double-chain structure with a total length of 154 964 bp, and the total content of guanine and cytosine (GC) was 41.2%. A total of 131 genes were annotated, including 88 protein-coding genes, 35 transfer RNA (tRNA) genes and 8 ribosomal RNA (rRNA) genes. A total of 43 dispersed repetitive sequences and 56 simple sequence repeats (SSRs) were detected. The frequency of codon encoding leucine was the highest, while the number of codon encoding tryptophan was the lowest. Five highly divergent regions (psbA, rrn16, petA-psbJ, ndhC-trnM, and psbM-petN) were screened, phylogenetic analysis showed that P. assimilis was closely related to P. bonii. Conclusion::Comparative analysis of the complete chloroplast genome of P. assimilis reveals that non-coding regions exhibited a higher divergence than the coding regions, the large single copy region (LSC) and small single copy region (SSC) are more divergent than the reverse repeat region (IR), the selected five highly variable regions can be used as specific DNA barcodes for identification of Pyrrosia species. Study on the chloroplast genome of P. assimilis can provide a reference for the molecular identification, genetic transformation, expression of resistance protein and secondary metabolism pathway analysis of other Pyrrosia medicinal plants.

Application of phylogenomics in Chinese medicine resources / 中国中药杂志

China is rich in the diversified Chinese medicine resources and is notable for the wide and long-term applications of Chinese medicine. However,the lack of genomic information on medicinal taxa leads to problems in relation to resource conservation and the downstream application of traditional Chinese medicine resources,which restricts the modernization process of traditional Chinese medicine. Molecular phylogenetics is an important tool to understand the origin and evolution of the earth's biodiversity and promote the conservation and use of medicinal taxa. With the development of sequencing technology,the combination of genomic data extends the traditional molecular phylogenetics to the research level of phylogenomics,making it more powerfully applied to all aspects of biological research. Undoubtedly,carrying out phylogenomic research on Chinese medicine species will greatly promote their resources conservation,molecular evaluation and identification,and the exploration and utilization of natural pharmacodynamic components,promoting the modernization of traditional Chinese medicine. This article starts with a brief introduction of the developing history and basic research methods of phylogenomics,and then reviews the current research progress in phylogenomics related to traditional Chinese medicine resources. Finally,it discusses the problems existing in the current research and the next direction of phylogenomics research in medicinal taxa. The article will hopefully provide a reference for relevant researches in future.

Current Status and Prospect of Discipline Construction of Herbgenomics / 中国实验方剂学杂志

Herbgenomics is an interdisciplinary subject between traditional Chinese medicine(TCM) and genomics.It is a comprehensive discipline covering multi-omics research in both medicinal organisms of TCM and the relationship of TCM to human body.It has been widely used in the research fields of medicinal model organisms,synthetic biology of TCM,identification of TCM molecules and breeding of medicinal plant cultivars,pharmacokinetics,and the study on the geoherbalism and medicinal of TCM.With the release of important documents,such as the Law of the People's Republic of China on TCM and the Outline of TCM Development Strategy(2016-2030),the Chinese medicine industry has entered a new and high-level development opportunity and the herbgenomic research area has got a landmark achievement.The training of well-rounded students and researchers is a key point for the development of TCM industry and the reform of medical colleges and universities.Therefore,the establishment of herbgenomics is particularly important for the modernization of TCM.At present,many colleges and universities have set up the course of Herbgenomics among graduate students and undergraduates,and initially formed a distinctive herbal genomics talent training system.This paper introduces the herbgenomics from the progress of the research,the development of teaching courses,the background of the textbook,the main content and key technologies of the discipline and the prospect of discipline construction,in order to provide theoretical basis and methodological support for the discipline construction,personal training and scientific research of herbgenomics.

Molecular Mechanism for the Quality of Medicinal Plants Affected by Drought Stress / 世界科学技术-中医药现代化

Drought stress could significantly affect the growth of medical plants, while moderate drought stress can effectively improve the quality of medicinal plants. Recently Herbgenomics promotes innovative research on the molecular mechanism for the quality of medicinal plants affected by drought stress. Here, we summarized the effects of drought stress on active compounds including alkaloids, flavonoids, terpenoids, phenols and saponins, and biomass of medicinal plants. Moreover, the studies on the quality of medicinal plants affected by drought stress using Herbgenomic technologies, the reactive oxygen species metabolism, and ABA signaling pathway, were reviewed. It is proposed to reveal the molecular mechanism for the quality of medicinal plants affected by drought stress, and to explore molecular markers closely related to drought-tolerance traits using medicinal model plant system based on Herbgenomics. This review provides a theoretical basis for improving the quality of medicinal plants, breeding of drought-tolerant medicinal plants and guiding agricultural production of traditional Chinese medicine.

Advances and Applications of Frontier Omics Technology of Chinese Materia Medica / 世界科学技术-中医药现代化

A lot of research achievements have been obtained in the field of Chinese materia medica (CMM) in recent years,which have been paid close attention to by the international community.It also promotes the internationalization of traditional Chinese medicine (TCM).However,the genetic background of CMM bioactive compounds and the effect on human genes of CMM composition after ingestion are not clear.As a frontier technology,herbgenomics provides a new method for the study of biosynthesis,breeding of new varieties and the identification of CMM.It will also promote more achievements in this field.This paper reviewed the research progress of study on the frontier omics technology of CMM in order to provide references for CMM research.

Estimation of Genome Size of Ginseng Based on Herbgenomics by Flow Cytometric Analysis And High-throughput Sequence / 世界科学技术-中医药现代化

Ginseng is the dried root and rhizome of Panax ginseng.The lack of genomic data has restricted the development of ginseng industry and basic research.The genome size of P.ginseng was estimated to be 3.42 Gb by using the genome data of Oryza sativa ssp.Nipponbare and Glycine max (L.) Merrill as the reference and the flow cytometric analysis.Meanwhile,shotgun libraries with the insert size of 250 bp and 500 bp were constructed,and sequenced for double terminal PE 150 by using Illumina Hiseq X Ten platform.Totally,183.82 Gb high quality data was obtained after filtering the raw data.The genome size of P.ginseng was 3.35 Gb and the sequencing depth was 54.87 X by K-mer analysis.In this study,flow cytometry and K-mer analysis were used to identify the genome size of ginseng,which provided basic data for the further whole genome sequencing and herbgenomics studies.

Herbgenomics / 中国中药杂志

Traditional Chinese medicine (TCM) has contributad greatly to improving human health. However, the biological characteristics and molecular mechanisms of TCM in the treatment of human diseases remain largely unknown. Genomics plays an important role in modern medicine and biology. Here, we introduce genomics and other related omics to the study of herbs to propose a new discipline, Herbgenomics, that aims to uncover the genetic information and regulatory networks of herbs and to clarify their molecular mechanisms in the prevention and treatment of human diseases. Herbgenomics includes herbal structural genomics, functional genomics, transcriptomics, proteomics, metabonomics, epigenomics and metagenomics. Genomic information, together with transcriptomic, proteomic, and metabolomic data, can therefore be used to predict secondary metabolite biosynthetic pathways and their regulation, triggering a revolution in discovery-based research aimed at understanding the genetics and biology of herbs. Herbgenomics provides an effective platform to support chemical and biological analyses of complex herbal products that may contain more than one active component. Herbgenomics is now being applied to many areas of herb related biological research to help understand the quality of traditional medicines and for molecular herb identification through the establishment of an herbal gene bank. Moreover, functional genomics can contribute to model herb research platforms, geoherbal research, genomics-assisted herb breeding, and herbal synthetic biology, all of which are important for securing the future of medicinal plants and their active compounds. In addition, Herbgenomics will facilitate the elucidation of the targets and mechanism of herbs in disease treatment and provide support for personalized precise medicine.Herbgenomics will accelerate the application of cutting-edge technologies in herbal research and provide an unprecedented opportunity to revolutionize the use and acceptance of traditional herbal medicines.