Integrated analysis of metabolome and transcriptome reveals key candidate genes involved in flavonoid biosynthesis in Pinellia ternata under heat stress.

Pinellia ternata (Thunb.) Breit. is an important traditional Chinese medicinal herb and very sensitive to high temperatures. To gain a better understanding of flavonoid biosynthesis under heat stress in P. ternata, we performed integrated analyses of metabolome and transcriptome data. P. ternata plants were subjected to a temperature of 38 °C, and samples were collected after 10 d of treatment. A total of 502 differential accumulated metabolites and 5040 different expressed transcripts were identified, with flavonoid biosynthesis predominantly enriched. Integrated metabolomics and transcriptome analysis showed that high temperature treatment upregulated the expression of CYP73A and downregulated the expression of other genes (such as HCT, CCoAOMT, DFR1, DFR2), which might inhibit the biosynthesis of the downstream metabolome, including such metabolites as chlorogenic acid, pelargonidin, cyanidin, and (-)-epigallocatechin in the flavonoid biosynthesis pathway. The transcription expression levels of these genes were validated by real-time PCR. Our results provide valuable insights into flavonoid composition and accumulation patterns and the candidate genes participating in the flavonoid biosynthesis pathways under heat stress in P. ternata.

First report of Ilyonectria robusta causing root rot on Coptis chinensis in Chongqing, China.

Coptis chinensis belongs to the Ranunculaceae family and is a widely used traditional Chinese herb. Chongqing Municipality produces >60% of China's production. Root rot seriously reduced yield and quality (Mei et al. 2021). In May 2020, root rot of C. chinensis were observed on 3-year-old roots with an average incidence of 45.3% in three commercial fields (about 0.5 acre) in Fengmu Town, Shizhu County (30.24°N; 108.48°E) from Chongqing. Diseased plants were stunted and less vigorous with wilting and twisting leaves. Brown or black discoloration lesion was appeared in the vascular and cortical tissue of roots and rhizomes. Ten fresh symptomatic plants were randomly sampled from the fields. Root tissues were surface sterilized in 75% ethanol for 60s, rinsed thrice with sterile water, placed on potato dextrose agar (PDA), and incubated at 25°C for 7 days. A total of 11 isolates were obtained from the infected tissues. Pure colonies of all fungal isolates had similar characteristics, and five isolates (a2, a4, a9, a11, a12) were randomly selected for further study. Colonies of this fungus were aurantium and felty at first, and then became brownish grey. Macroconidia (n=50) were predominating, hyaline, cylindrical, predominantly straight with both ends broadly rounded, 1~3 septate; one septate, 18.8~25.5×5.9~6.8µm; two septate, 22.6~35.4×6.1~7.2µm; three septate, 26.1~42.5×7.2~8.0 µm. Microconidia (n=50) were hyaline, ellipsoid to ovoid, 0 to 1 septate; aseptate, 7.5~8.8×3.4~4.3µm. Chlamydospores (n=50) were hyaline at first, and becoming brown, globose to subglobose, smooth, 8.3~12.5×8.1~13.5µm, mostly occurring intercalary in chains. The DNA of isolates were extracted and the ITS, HIS, TEF, TUB2 genes were amplified and sequenced using the primers ITS1/ITS4, CYLH3F/CYLH3R, EF1/EF2, T1/CYLTUB1R, respectively (Cabral et al. 2012). The representative isolate a2 were deposited in GenBenk (OK105140, ITS; OM799544, HIS; OK493444, TEF; OK493445, TUB2). BLAST analysis showed the ITS, HIS, TEF, TUB2 sequences of a2 were 100% (417/417), 100% (472/472), 100% (762/762), and 99.7% (490/491) homology with those of Ilyonectria robusta (CBS 605.92) from Tilia petiolaris in Germany. Phylogenetic analysis using Maximum Likelihood and concatenated sequences (ITS+HIS+TEF+TUB2) with MEGA7 placed isolate a2 in I. robusta with 100% bootstrap support. The isolate was thus identified as I. robusta based on morphological and molecular characteristics (Cabral et al. 2012). Thirty healthy 6-month-old C. chinensis plants were used for the pathogenicity tests, and five plants were into each of 6 pots. 10ml of conidia suspension (1×106conidia/ml) of 10-day-old isolate a2 was gently applied to the soil in each of 6 pots. Sterile water (10ml) was applied to each of 6 pots as control. All 12 pots were placed in a greenhouse (25°C, 12h photoperiod). After 6 weeks inoculation, all inoculated plants showed twisting and wilting symptoms, and the roots showed light-brown to dark-brown lesions. No symptoms were observed on the controls. The pathogen was reisolated from all symptomatic roots and identified as I.robustaas previously described above. The test was repeated twice with similar results. Although this fungus was previously reported to cause root disease on many plants (Zheng et al. 2022; Qiao et al. 2019; Guggenheim et al. 2019), this is the first report of I. robusta causing root rot on C. chinensis in China, and will establish a foundation for controlling the disease.

Design, synthesis and bioactive evaluation of geniposide derivatives for antihyperuricemic and nephroprotective effects.

Hyperuricemia is a principal factor mediating gout and kidney damage, and xanthine oxidase (XOD) is a key enzyme in the pathogenesis of hyperuricemia. In this context, a series of geniposide derivatives were designed and synthesized, and antihyperuricemic and nephroprotective effects of all derivatives was evaluated in vitro and in vivo. Compound 2e emerged as the most potent XOD inhibitor, with an IC50 value of 6.67 ± 0.46 µM. Simultaneously, cell viability, ROS generation, and SOD levels assay showed that compound 2e could repair the damage of HKC cells by inhibiting the oxidative stress response. The results of the study indicated compound 2e significantly decreased uric acid levels by inhibiting the XOD activity, and repaired kidney damage by inhibiting the expression of TLR4/TLR2/MyD88/NF-κB and NALP3/ASC/caspase-1 signaling pathways. Enzyme inhibition kinetics suggested that compound 2e functioned via reversible mixed competitive inhibition. Moreover, a molecular docking study was performed to gain insight into the binding mode of compound 2e with XOD. These results suggest that geniposide derivatives were potential to be developed into a novel medicine to reveal healthy benefits in natural prevention and reduction risk of hyperuricemia and kidney damage.

[Different development phase of transcription proteomics and metabolomics of flower of Lonicera macranthoides].

In order to study the regulation mechanism of secondary metabolites biosynthesis in Lonicera macranthoides, the key genes involved in the regulation of biosynthesis and the mechanism of differential metabolites were explored. In this study, high-throughput sequencing technology was used for transcriptome sequencing of L. macranthoides at different development stages. By using Liquid chromatography-tandem mass spectrometry(LC-MS/MS) technology, the laws of qualitative, quantitative and synthetic accumulation of its metabolites were studied, and the key enzyme genes for the biosynthesis of phenolic acid and flavonoids were screened out according to the differentially expressed genes. A total of 111 differentially accumulate metabolites(DAM) and 6 653 differentially expressed genes(DGE) were obtained by metabonomics and transcriptomics analysis. The metabolites and key enzyme genes in the Erqing(KE) were significantly different from those in the Dabai(KD) and Yinhua(KY) stages. In the phenylalanine biosynthesis pathway, the ion abundance of chlorogenic acid, naringin, quercetin, rutin, coniferol and other metabolites decreased with the development of flowers, while the ion abundance of ferulic acid, coumarin and syringoside increased with the development of flowers. Key enzyme genes such as CHS, HCT, CCR, FLS and COMT positively regulate the downstream metabolites, while PAL, C4H and 4CL negatively regulate the downstream metabolites. This study provides candidate genes and theoretical basis for the further exploration of key enzymes in the biosynthesis of secondary metabolites and for the regulation of the accumulation of secondary metabolites in L. macranthoides by molecular biological methods.

[Transcriptome analysis of Platycodon grandiflorum at different growth years and discovery of key genes for platycodin biosynthesis].

Platycodon grandiflorum is a medicinal and edible medicinal material. Our study is aimed to explore the differences in the gene expression of P. grandiflorum in different growth years, and the expression rules of key genes in the biosynthesis of the main active substances of P. grandiflorum. Illumina Hiseq 4000 sequencing platform was used to sequence the transcriptome of P. grandiflorum in different years. Then, 59 654 unigenes were obtained through filtering, assembly, splicing and bioinformatics analysis of the sequencing data, of which 1 671 unigenes were differentially expressed between at least two samples. The results of cluster analysis showed that there was a great difference in the gene expression of P. grandiflorum from one-year-old to two/three-year-old. There were 1 128 different genes between one-and three-year old P. grandiflorum, and only 57 different genes between two-and three-year-old P. grandiflorum. KEGG enrichment results showed that the differential genes of P. grandiflorum in different years were mainly concentra-ted in the biosynthesis of sesquiterpenes and triterpenes, and the biosynthesis of terpenoid skeletons. In the triterpenoid biosynthesis-related pathways, a total of 15 unigenes were identified, involving 5 enzymes. The expression levels of ACAT, HMGR, FDFT1, SQLE decreased with the increase of the growth year of P. grandiflorum. The expression of HMGS was the highest in the one-year-old P. grandiflorum, followed by the three-year-old sample. This study provides useful data for the development of P. grandiflorum, and also provides a basis for the study of related genes in the biosynthetic pathway of platycodin.

[Variation in physicochemical properties and bacterial community structure in rhizosphere soil of Coptis chinensis tow cropping modes].

The natural forest and artificial shed are the main cropping modes of Coptis chinensis. This study is aimed to reveal the rhizosphere soil bacterial community structure difference between under tow C. chinensis cropping modes-natural forest and artificial shed, and to assist us to completely understand soil quality condition,and provide theoretical guidance for soil improvement and C. chinensis planting. The rhizosphere soil samples of 1-5-year-old C. chinensis under tow cropping modes-natural forest and artificial shed were collected. Illumina high-throughput sequencing technology was used to analyze the alpha diversity, community composition, community structure of soil bacteria under the tow cropping modes,and the effects of soil nutriment indices on soil bacterial community structure. Through the analysis of species number, Shannon, Chao1 index and ACE index of bacterial community, it was found that the bacterial diversity of 1-year-old C. chinensis soil under natural forest cropping mode was significantly lower than that under artificial shed cropping mode, and the diversity of bacterial communities in soil of 2-5-years old C. chinensis were not significant different between two cropping modes. A total of 53 phyla,60 classes,140 orders and 266 families were detected in the rhizosphere soil of C. chinensis under the cropping modes of natural forest, respectively. The rhizosphere soil of C. chinensis under the cropping modes of artificial shed included 54 phyla,65 classes,140 orders and 264 families, respectively. Under the two cropping modes, the top 10 dominant species of bacterial community abundance are the same, they are Proteobacteria, Acidobacteria, Actinobacteria,Bacteroidetes, Planctomycetes, Chloroflexi, Verrucomicrobia, Gemmatimonadetes, Firmicutes and Cyanobacteria, but there are differences in the abundance sequence. The top 10 dominant species of bacterial community abundance accounted for 74.36% to 74.30% of the total bacteria, and 3.15% to 3.92% of the bacteria are unclassified. The results of Metastat analysis showed that the abundance of Gemmatimonadetes in the rhizosphere soil of C. chinensis under the cropping modes the artificial shed was significantly higher than that under the natural forest cropping mode(P<0.05). MRPP analysis of community structure differences showed that under tow cropping modes, there were significant differences in the bacterial community structure of 1-4-year-old soil bacteria, among which the difference between 1-year-old soil samples was the largest. With the increase of cropping years, the difference gradually decreases, and there is no significant difference in the bacterial community structure between 5-year-old soil samples. RDA analysis and correlation analysis of bacterial community structure and soil physical and chemical properties showed that the order of environmental factors on the rhizosphere soil bacteria of Coptis chinensis was: pH>available P> total P> total K>bulk density>total N>available N>organic matter. The results are helpful to understand the soil health of C. chinensis and provide scientific basis and theoretical guidance for soil improvement and C. chinensis planting.

[Identification of Coptis chinensis root rot disease pathogenic Fusarium spp. fungi].

Root rot disease is vital disease of Coptis chinensis, it has bursted in most producing area in recent years, and has caused severe damage. To identify the pathogenic fungi, Fusarium spp. fungi were isolated from rot root, of which the pathogenic fungi were screened with inoculation on C. chinensis root and plant, and identified with molecular and morphological method. The 20 Fusarium spp. fungi were obtained, of which 5 displayed high pathogenicity. It was deduced that F. oxysporum, F. solani and F. tricinctum were the pathogen, possibly pioneer pathogen of C. chinensis root rot disease. Among which F. oxysporum was dominant and deserved to pay more attention. High temperature and high humidity can increase pathogenicity of Fusarium spp. So the global climate warming may lead to temperature rising of C. chinensis producing area and favor the pathogen fungi, which may be one of the main factors leading to bursting of C. chinensis root rot disease. To control the root rot, beside developing and using pesticide, producing base should be moved to a high altitude area.

Variations in the Components and Antioxidant and Tyrosinase Inhibitory Activities of Styphnolobium japonicum (L.) Schott Extract during Flower Maturity Stages.

Styphnolobium japonicum (L.) Schott is widely cultivated in China, and its flowers and flower buds (FFB-SJ) are commonly used as traditional Chinese medicine. This work aimed to assess variations in the chemical components and antioxidant and tyrosinase inhibitory activities of S. japonicum extract during five flower maturity stages (ES1-ES5). The results showed that the contents of total flavonoids, rutin, and narcissin were highest at ES1, whereas the contents of quercetin and isorhamnetin were highest at ES3. ES1 presented considerable antioxidant activities in terms of reducing power (RP) and 1,1-diphenyl-2-picrylhydrazyl radical (DPPH. ) and hydroxyl radical (. OH) scavenging capacity, whereas ES3 showed excellent tyrosinase inhibitory activity and 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) radical (ABTS.+ )- and O2 .- -scavenging capacity. Rutin and quercetin are the main bioactive components of FFB-SJ with antioxidant and tyrosinase inhibition, and the immature flower buds of S. japonicum (S2 and S3) with excellent biological activities and relatively high extract yields were the best for product development.

[Diversity of culturable fungi isolated from Coptis chinensis rot root in Shizhu city of Chongqing].

Root rot disease restricts the Coptis chinensis industry in Shizhu of Sichuan province. To disclose fungi composition and pathogen in rot root,so as to prevent and treat the root rot disease,the C. chinensis rot root of 5 years from 4 areas in Shizhu were collected in 3 seasons respectively. The fungi were isolated and molecularly and morphological identified,followed with population statistics. 437 fungi were isolated,belonging to 5 subphylum,11 classes,16 orders,22 families and 28 genus respectively. There are great difference among the fungi compositions of different area,year and sampling season,while there was no obvious variation rule. Ilyonectria sp.,Pythium sp.,Phoma sp,Trichoderma sp.are dominant genus,while Pythium sp.,Ilyonectria sp.,Phoma sp.,Fusarium sp. may contain root rot pathogen. Antagonistic bacteria may be screened from the strains of Trichoderma sp. isolated.

[Transcriptome analysis reveals candidate genes involved in flavonols biosyhthesis in Sophora japonica].

In order to study the pathways of biosynthesis of flavonoids in Sophora japonica, 113 797 unigenes were obtained by Trinity software, with an average length of 803 bp, of which 72 752 unigenes were obtained from the database by high-throughput sequencing, and a total of 38 891 SSR loci were searched. Through the metabolic pathway analysis, we found that there were 135 unigenes involved in the biosynthesis of flavonoids and 959 unigene involved in other secondary metabolic pathways. Further analysis of genes involved in rutin biosynthesis revealed that 24 were associated with CHS, 52 were associated with FLS, and 11 were associated with UFGT. The obtained data of S. japonica transcriptome lays the foundation for studying the pathways of biosynthesis of flavonoids in S. japonica and provides theoretical basis for the formation of the quality of S. japonica.

[Research for dynamic changes of growth and alkaloids of Coptis chinensis].

With Coptis chinensis in high-yielding soil as the object,the growth regularity of plant and dynamic change of alkaloid content was studied. The plant growth model of C. chinensis was constructed. The plant height equation was y=3.030 9+0.732 6x-0.009 6x²,the number of leaves equation was y=111.882 6-2 234.881 7/x+15 218.960 8/x²-31 740.960 8/x³,the leaf area equation was y=-217.136 1+30.552 2x-0.359 0x²,the roots talk biomass equation was y=-2.748 8+0.210 3x+0.006 4x²,the number of rootstalk equation was y=-1.246 0+0.192 6x+0.000 8x²,the fibrous root biomass equation was y=-4.973 5+0.589 4x -0.002 6x². The results indicated that the number of leaves and leaf area were increasing continuously after seedling transplanting,the leaf area of 3-year-old C. chinensis reached a maximum value of 425.83 cm²/plant,after declining.The number of leave of 5-year-old C. chinensis reached a maximum value of 70.91. With the increasing of years of growth, the number of rootstalk and rootstalk biomass of C. chinensis was increasing continuously. The biomass growth of 3-year-old and 4-year-old rootstalk was the fastest in the whole development stage of C. chinensis,the annual increase of more than 300%. The change curve of rootstalk number, rootstalk biomass and fibrous root biomass in the whole growth stage was a s-type.The dry matter partition of leafwas the highest in 1-year-old C. chinensis, and then gradually decreased,the change trend of dry matter partition of rootstalk was just the opposite, the dry matter partition of fibrous root increases with the increase of the growing year, reaching the maximum value in 3-year-old, then gradually lower trend. The root-shootratio of 1-year-old C. chinensis was the smallest, then gradually increases, the growth center gradually shifted to the roots from stems and leaves, The weight of underground part of 3-year-old C. chinensis exceeded the aboveground part, the 5-year-old C. chinensis root-shoot ratio reached the maximum value of 1.91:1.With the increasing of years of growth, the contents of coptisine, berberine, epiberberine and palmatine in rootstalk was increasing continuously. The jatrorrhizine content in 2-year-old C. chinensis was significantly lower than that in other years, the content was no significant change after that. The columbamine content reached a maximum value in 3-year-old C. chinensis,then the decreased gradually. The content of magnoflorine gradually increased and reached maximum value in 5-year-old C. chinensis.

[Transcriptome characterization for Scrophularia ningpoensis based on high-throughput sequencing technology and related genes for synthesis of terpenoid compounds].

To investigate the profile of gene function and search for SSR, a new technology of high-throughput Solexa/Illumina sequencing was used to generate the root transcriptome of Scrophularia ningpoensis, and 65 602 036 raw reads were obtained. Based on the bioinformatics analysis and Trinity, 73 983 unigenes were obtained with an average length of 823 bp. The comparison of sequence homology in database showed that 56 389 unigenes had different degrees of homology. A total of 520 metabolic pathways related genes and 191 relDODO transcription factors were identified by the Swiss-Prot, GO, KEGG and COG.The 11 659 SSRs were found by MISA and the highest frequency was AG/CT. In this study, we obtained numerous SSRs to provide references for the study of functional gene cloning and genetic diversity of S. ningpoensis. The key genes involved in the secondary metabolism are the basis for the study of biosynthesis and regulatory mechanism of the secondary metabolites.

[Analysis on genetic diversity and genetic relationship of medicinal species in Coptis by SCoT].

The genetic diversity and genetic relationship among four medicinal species of Coptis were detected by the approach of sequence-related amplified polymorphism (SCoT). The associated genetic parameters were calculated by POPGENE1.31. The systematic diagram of genetic relationship were clustered by TREECONW. The results showed that a total of 434 bands were produced by using 28 primers, of which 430 were polymorphic loci. There was a high level of genetic diversity among species (PPB=99.1%,Na=1.990 6,Ne=1.329 3,H=0.212 2,I=0.337 8). However, genetic diversity was lower within species, the average of genetic parameters wasPPB=16.8%,Na=1.168 2, Ne=1.073 0,H=0.043 7,I=0.067 7. The Nei's genetic differentiation coefficient was 0.794 0, that indicated that most of the genetic variation existed among species. By clustering analysis, different individuals gathered in the same group. The results confirmed that SCoT marker can be used as one of the effective methods to reveal the genetic diversity and relationship among medicinal species of Coptis.

[Study on associated plants and spatial distribution pattern of Dipsacus asperoides populations].

In order to understand the associated species and the population distribution pattern, the investigation of 32 sample plotsfrom the main natural distribution area in Dipsacus asperoides community was carried by quadrat method .The results showed that there were 156 species, which belong to 131 genera and 60 families. There were more species in the two dominant families, Asteraceae and Rosaceae. There were many types of associated, but most appeared at a low frequency. The vegetation type were mostly herbaceous and shrub species, which accounted for 77.6% of the total species. The value of t was greater than t0.05 by methods of variance/mean, showed the difference was significant and the distribution pattern of D. asperoides were cluster distribution. The determination results of seven aggregation intensity index also showed that D. asperoides population accorded with the characteristics of cluster distribution（C>1，K>0，Ca>0，m*>1，m*/m>1，I>0，GI>0）.

[Antifungal effects of three medicinal crops on Phytophthora nicotianae].

Tobacco black shank is one of the most harmful soil-borne diseases infected by Phytophthora parasitica. In order to probe the control method to this disease, in this study, the mycelial growth rate method was employed to investigate the antifungal effects of extracts from stem-leaf and root, root exudates, and their combination of Scrophularia ningpoensis, Chuanmingshen violaceum and Pinellia ternata The results showed that: ①Stem-leaf and root extracts of S. ningpoensis, C. violaceum and P. ternata exhibited different antifungal activities, and the inhibition increased with the increase of extract concentration. The antifungal effect of S. ningpoensis extracts at 0.5 g•mL⁻¹ was the strongest than other medicinal plants, the inhibition rate of steam-leaf and root extracts reached 74.88%, 69.27%, respectively. The inhibitory effect of C. violaceum and P. ternata was relatively lower, however, there is a significant gain effect after combination of steam-leaf and root extracts of C. violaceum. ②The root exudates of S. ningpoensis, C. violaceum and P. ternata showed fungistasis to Phytophthora nicotianae, and fungistasis was enhanced with the increase of root exudate concentration. The antifungal effect in the order of C. violaceum > S. ningpoensis > P. ternata. ③The antifungal activity of combination of extract and root exudate from S. ningpoensis was similar with the effect of C. violaceum, they were both stronger than P. ternata, and the antifungal activity for three combination were located between the antifungal activity of their extracts and root exudates. S. ningpoensis and C. violaceum can be potentially applied to prevent and control the tobacco black shank.

[Identification and phylogenetic analysis of endophytic fungi isolated from Scrophularia ningpoensis].

The endophytic fungi from root, main stem, branch and leaf of Scrophularia ningpoensis were isolated and identified from Wulong and Chongqing, and the population diversity analysis and phylogenetic analysis were followed. The result indicated that, as to population diversity index, S. ningpoensis from Wulong： leaf>main stem=branch>root, branch from Chongqing>branch from Wulong. Fifty-eight endophytic fungi were obtained, most of which were the pathogens of the plant. Colletotrichum was the prevailing genus, of which C. gloeosporioides and C. boninense were the prevailing strains. Leaf and seedlings might be the main path of infection. Endophytic fungi and pathogen might convert to each other, influenced by such factors as environment, genotype et al.

[Progress on molecular biology of Isaria farinosa, pathogen of host of Ophiocordyceps sinensis during the artificial culture].

Isaria farinosa is the pathogen of the host of Ophiocordyceps sinensis. The present research has analyzed the progress on the molecular biology according to the bibliometrics, the sequences (including the gene sequences) of I. farinosa in the NCBI. The results indicated that different country had published different number of the papers, and had landed different kinds and different number of the sequences (including the gene sequences). China had published the most number of the papers, and had landed the most number of the sequences (including the gene sequences). America had landed the most numbers of the function genes. The main content about the pathogen study was focus on the biological controlling. The main content about the molecular study concentrated on the phylogenies classification. In recent years some protease genes and chitinase genes had been researched. With the increase of the effect on the healthy of O. sinensis, and the whole sequence and more and more pharmacological activities of I. farinosa being made known to the public, the study on the molecular biology of the I. farinosa would be deeper and wider.

[Quality classification standard of Scrophularia ningpoensis seedlings].

The morphological indexes of the Scuophularia ningpoensis seedlings including the longth, diameter and weight were measured, clustering analysis was used to set up the standard quality grading of seedlings of S. Ningpoensis by SPSS. Field experiment was carried out to measure the indicators of plants growth and development, the yield and the quality. The results showed that the growth and yield of class I seedlings were better than those of class II and III. The content of main active ingredients was affected barely by seedlings classification. To ensure the quality, class II seedlings or above should be used for plantation. The established quality classification standard of S. ningpoensis seedlings was scientific and feasible, and provides the basis for the standardized cultivation of S. ningpoensis.

Analysis on genetic diversity and genetic relationship of medicinal species in Dipsacus from China by SRAP.

The author detected the genetic diversity and genetic relationship within and among eight medicinal species of Dipsacus by the approach of sequence-related amplified polymorphism (SRAP). The associated genetic parameters were calculated by POPGENE 1.31. The Genetic distance was calculated by TREECONW and the systematic diagrams of genetic relationship were clustered by UPG-MA. The results showed that, using 26 primers, a total of 558 bands were produced, of which 539 were polymorphic loci. There was a high level of genetic diversity among species (PPB = 96.59%, Na = 1.9659, Na = 1.3375, H = 0.2143, I = 0.3423). However, genetic diversity was lower within species, the average of genetic parameters was PPB = 6.97%, Na = 1.0697, Na = 1.0311, H = 0.0187, I = 0.0291. The Nei's genetic differentiation coefficient was 0.9126, indicated that most of the genetic variation existed among species. By clustering analysis, different individuals gathered in the same group and the classified result of SRAP marker between traditional modal characters was almost same. The results confirmed that SRAP marker can be used as one of the effective methods to reveal the genetic diversity and relationship among medicinal species of Dipsacus.