1.Effects of different carbon sources on growth and active component contents in Salvia miltiorrhiza and S. castanea f. tomentosa hairy roots.
Yan-Hong GUO ; Fei-Yan WANG ; Hua-Qian YOU ; Yu-Kun WEI ; Zong-Qi YANG ; Zong-Suo LIANG ; Dong-Feng YANG
China Journal of Chinese Materia Medica 2020;45(11):2509-2514
Salvia miltiorrhiza(Sm) and Salvia castanea f. tomentosa(Sc) hairy roots were used as experimental materials to study the effects of six different carbon sources, galactose, fructose, lactose, glucose, arabinose and sucrose(control), on fresh weight, dry weight, contents and yields of salvianolic acids and tanshinones. The results showed that galactose was most beneficial to the growth of two kinds of hairy roots, while lactose and arabinose were not conducive to their growth. As for Sm hairy roots, fructose significantly promoted the accumulation of salvianolic acid B, and the content increased by 5.801 times and 10.151 times compared with the control group, respectively. Glucose significantly promoted the accumulation of salvianolic acids. The content and yield of rosmarinic acid were 7.674 times and 9.260 times of that of the control group, and the content and yield of salvianolic acid B were 5.532 times and 6.675 times of the control group. For the hairy roots of Sc, galactose significantly increased the content and yield of rosmarinic acid, reaching 7.820 times and 9.944 times of the control group, respectively. Fructose promoted the increase of the content and yield of cryptotanshinone, reaching 9.242 times and 6.609 times of the control group, respectively. The study confirmed the optimal carbon source for the hairy root culture of Sm and Sc, and provided theoretical guidance for large-scale production of Sm drug-derived components and the utilization of Sc.
Carbon
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Plant Roots
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Salvia
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Salvia miltiorrhiza
2.Data distribution characteristics and deviation of tanshinone IIA content in Radix Salviae Miltiorrhizae.
Yuntong MA ; Xin CHEN ; Jing CHEN ; Zhongbao HE ; Jing WANG ; Zhuyun YAN ; Deguang WAN
China Journal of Chinese Materia Medica 2010;35(16):2119-2123
OBJECTIVETo analyze the content of tanshinone IIA in Radix Salviae Miltiorrhizae from different habitats are regularly altered and find out the deviation between the studies.
METHODThe data of the content of tanshinone IIA in samples of Radix Salviae Miltiorrhizae from different areas and related information since 1997 was collected and statistically analyzed.
RESULT AND CONCLUSIONThe content of tanshinone IIA in wild Salvia was generally higher than that in the cultivated Salvia, and the content in nearly half cultivated Salvia was less than 0.2%. There existed a big difference between the used statistical model, and the data related the content in samples from Sichuan was the most divisive. The coefficient of variation of wild Salvia was below the cultivated Salvia, and the cultivated Salvia from different areas showed different coefficients of variation. The content of tanshinone IIA was lower when samples were extracted using the heating reflux method.
Diterpenes, Abietane ; Phenanthrenes ; analysis ; Salvia miltiorrhiza ; chemistry
3.Discussion on research idea of quality marker of Salvia miltiorrhiza based on biosynthetic pathway of tanshinone compounds.
Rui-Qian ZHANG ; Xiao-Yi WU ; Tian-Yuan HU ; Ya-di SONG ; Wei GAO ; Lu-Qi HUANG
China Journal of Chinese Materia Medica 2020;45(13):3098-3103
Based on the theory of Q-marker, the hairy root of Salvia miltiorrhiza and S. miltiorrhiza in many provinces were studied. The relative expressions of SmCPS, SmKSL and CYP76AH1 genes in hairy roots were detected by real-time fluorescence quantitative PCR and the contents of tanshinoneⅡ_A, cryptotanshinone, tanshinoneⅠ, 1,2-dihydrotanshinone, ferruginol and miltiradiene were detected by UPLC and GC-MS, respectively. Statistical analysis shows as fllows: in the hairy root of S. miltiorrhiza, the content of miltiradiene and ferruginol is positively correlated with the content of tanshinone compounds in the downstream, and the relative expression of important genes in the biosynthetic pathway of tanshinone can reflect the content of tanshinone compounds to a certain extent; in many provinces of S. miltiorrhiza, the content of ferruginol and tanshinone compounds can also be found that there is a positive correlation between the contents. Based on the biosynthetic pathway of tanshinone compounds, which is a special index component in S. miltiorrhiza, this study focused on the important relationship between the upstream gene, the middle intermediate compound and the downstream tanshinone compound content of the biosynthetic pathway, and explored the possible research ideas of improving the quality marker system of S. miltiorrhiza, and then provided the possible research ideas for understanding and studying the quality marker of traditional Chinese medicine from the biosynthetic pathway.
Abietanes
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Biosynthetic Pathways
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Plant Roots
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Salvia miltiorrhiza
4.Study on tanshinones regulating root-associated microbiomes of Salvia miltiorrhiza.
Li-Qiong BAO ; Tong CHEN ; Bao-Long JIN ; Feng-Sheng LI ; Zuo-Jun LI ; Mei-Lan CHEN ; Tie-Lin WANG ; Guang-Hong CUI ; Lu-Qi HUANG
China Journal of Chinese Materia Medica 2021;46(11):2806-2815
The plant root-associated microbiomes include root microbiome and rhizosphere microbiome, which are closely related to plant life activities. Nearly 30% of photosynthesis products of plants are used to synthesize root compounds, there is evidence that root compounds regulate and significantly affect the root microbiome Tanshinones are the main hydrophobic components in Salvia miltiorrhiza. In order to study whether these compounds can regulate the root-associated microbiomes of S. miltiorrhiza, our study first identified a white root S. miltiorrhiza(BG) which contains little tanshinones. Retain of the fifth intron of tanshinones synthesis key enzyme gene SmCPS1 leading to the early termination of the SmCPS1 gene, and a stable white root phenotype. Further, wild type(WT) and BG were planted in greenhouse with nutrient soil(Pindstrup, Denmark) and Shandong soil(collected from the S. miltiorrhiza base in Weifang, Shandong), then high-throughput sequencing was used to analyze the root-associated microbiomes. The results showed that the tanshinones significantly affected the root-associated microbiomes of S. miltiorrhiza, and the impact on root microbiomes was more significant. There are significant differences between WT and BG root microbiomes in species richness, dominant strains and co-occurrence network. Tanshinones have a certain repelling effect on Bacilli which belongs to Gram-positive, while specifically attract some Gram-negative bacteria such as Betaproteobacteria and some specific genus of Alphaproteobacteria. This study determined the important role of tanshinones in regulating the structure of root-associated microbiomes from multiple angles, and shed a light for further improving the quality and yield of S. miltiorrhiza through microenvironment regulation.
Abietanes
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Microbiota
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Plant Roots
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Salvia miltiorrhiza
5.Effect of combined application of inorganic and organic fertilizers on growth and quality of Salvia miltiorrhiza.
Xiu-Fu WAN ; Sheng WANG ; Yan ZHANG ; Tie-Lin WANG ; Yang GE ; Su-Xia GAO ; Chuan-Zhi KANG ; Chao-Geng LYU ; Rui-Shan WANG ; Lan-Ping GUO
China Journal of Chinese Materia Medica 2021;46(8):1927-1934
The study is aimed through field experiments to study the effect of combined application of organic and chemical fertilizers on the growth and quality of Salvia miltiorrhiza, provide ideas for reducing fertilization while increasing the efficiency as well as improving the quality of produces. The experiment included 6 treatments viz., no fertilization(CK), full application of chemical fertilizer(F), 25% orga-nic fertilizer with 75% chemical fertilizer(M25), 50% organic fertilizer with 50% chemical fertilizer(M50), 75% organic fertilizer with 25% chemical fertilizer(M75), and fully apply organic fertilizer(M100). The results showed that:(1)from the perspective of yield and economic benefits, M75 was the best and M100 second;(2)for effective components, the combined application of organic and chemical fertilizers increased the content of main water-soluble components and the total content of effective components, among which M25 and M50 were better.
Agriculture
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Fertilizers/analysis*
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Nitrogen
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Salvia miltiorrhiza
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Soil
6.The Observation of Arbuscular Mycorrhizal Roots in Horticultural Plants.
Yee KIM ; Ahn Heum EOM ; Moon Sung TAE ; Sang Sun LEE
Mycobiology 2000;28(3):115-118
To determine the degree of variability among the host plant species in their abilities to become colonized by arbuscular mycorrhizal fungi (AMF), the inoculum for AMF was collected from the various sites in Korea and was inoculated to the three horticultural plants; Tagetes patula, Torenia fournieri, and Salvia splendens. After 4-month growth under greenhouse, mycorrhizal root colonization rates and spore density were measured. The roots of T. patula showed higher colonization rate than both plants of T. fournieri and Salvia splendens. The mycorrhizal root colonization was influenced by both of the AM fungal inoculum and the host species or their interactions. The combination of the host and fungal species was suggested to be important for the application of AMF to horticultural crops.
Colon
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Fungi
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Korea
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Plants
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Salvia
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Spores
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Tagetes
7.Pathogenicity and induced systemic resistance of Fusarium oxysporum and Verticillium dahlia to Salvia miltiorrhiza.
Chun-Juan PU ; Sha LIU ; Zu-Yu LU ; Yu-Zhi LUO ; Zi-Han WANG ; Mei-Lan CHEN
China Journal of Chinese Materia Medica 2022;47(21):5832-5837
Salvia miltiorrhiza is a commonly used bulk medicinal material in China. Due to the increasing demand in recent years, the planting area is expanding. In the artificial cultivation of S. miltiorrhiza, continuous cropping obstacles are prominent, which has seriously restrained the growth of S. miltiorrhiza, resulted in serious root diseases, and affected the yield and quality of medicinal materials. The pathogen infection can induce plant resistance. Previously, this research group isolated Fusarium oxysporum and Verticillium dahlia from the roots of diseased S. miltiorrhiza. In this study, 7 days after inoculation of S. miltiorrhiza with F. oxysporum(Foc group) and V. dahlia(Vd group), the incidence rates in S. miltiorrhiza were 48% and 26%, respectively. Both the two pathogens significantly reduced the aboveground biomass of S. miltiorrhiza. Five days after inoculation, the activities of defensive enzymes, such as peroxidase(POD), phenylalanine ammonia-lyase(PAL), superoxide dismutase(SOD), and polyphenol oxidase(PPO) reached the peak. The enzyme activity of the Foc group was significantly higher than that of the Vd group. Three days after inoculation, the expression of defense genes SmPDF2.1 and SmPR10 peaked and then decreased. The results showed that F. oxysporum and V. dahlia showed pathogenicity to S. miltiorrhiza and could strongly induce systemic resistance. In terms of the above indexes, F. oxysporum was superior to V. dahlia.
Salvia miltiorrhiza
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Verticillium
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Dahlia
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Virulence
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Fusarium
8.Effects of temperature and humidity on infection of Fusarium oxysporum in seedlings of Salvia miltiorrhiza.
Sha LIU ; Chun-Juan PU ; Yu-Zhi LUO ; Zi-Han WANG ; Xia SUN ; Mei-Lan CHEN
China Journal of Chinese Materia Medica 2023;48(1):39-44
Wilt disease is a major disease of cultivated Salvia miltiorrhiza, which is caused by Fusarium oxysporum. Since the infection process of F. oxysporum in plants is affected by environment factors, this study was conducted to reveal the relationship between disease severity and concentration of the pathogen in plants in the infection process of F. oxysporum in seedlings of S. miltiorrhiza by pot experiments and to reveal the effects of temperature and humidity on the infection process. The results showed that, after inoculation of S. miltiorrhiza seedlings with F. oxysporum, the pathogen in different parts was detected at different time, and it was first detected in substrates. With the continuous propagation of the pathogen(4-5 d), it gradually infected the roots and stems of the seedlings, and the plants had yellowing leaves and withering. The number of the pathogen reached the maximum in each part after 7-8 d, and then gradually decreased in the later stage of the disease. The concentration of the pathogen in substrates, roots and stems of S. miltiorrhiza showed a trend of decreasing after increasing with the aggravation of the disease and reached the maximum in the samples of moderate morbidity, while the concentration in the samples of severe morbidity decreased. In addition, the infection of F. oxysporum in seedlings of S. miltiorrhiza was affected by temperature and humidity. The suitable temperature was 25-30 ℃ and the suitable humidity was 80%-90%. This study could provide guidance for the experiments on pathogenicity of F. oxysporum, screening of biocontrol bacteria and controlling of wilt.
Seedlings/microbiology*
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Salvia miltiorrhiza
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Temperature
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Humidity
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Fusarium
9.Study on dynamic changes of chemical constituents during different drying processes of Salvia miltiorrhiza.
Tao ZHOU ; Chun-Mei LUO ; Song-Lin ZHANG ; Zhi-Fang HUANG ; Yi-Na TANG ; Yu-Hong LIU ; Yun-Hua LIU ; Yan CHEN ; Qing-Miao LI ; Jin-Hai YI
China Journal of Chinese Materia Medica 2019;44(21):4634-4640
There is no consensus on the drying methods of Salvia miltiorrhiza in ancient and modern times,especially on the content of phenolic acid in fresh S. miltiorrhiza. In order to further explore the content of main components in fresh S. miltiorrhiza and study the dynamic changes during the drying process,the content of main components was used as the index in this study to evaluate the processing method,drying method,correlation between dehydration rate and component content for fresh S. miltiorrhiza. In addition,the sealed and unsealed parallel control groups were set to carry out verification test during the drying process. UPLC method was used for determination of seven main components including rosmarinic acid,lithosperic acid,salvianolic acid B,cryptotanshinone,tanshinoneⅠ,methylene salianolate and tanshinone ⅡAin S. miltiorrhiza. The results showed that the fresh S. miltiorrhiza contained low levels of phenolic acid,and the content of phenolic acid increased significantly with the increase of dehydration rate during drying process,while the change of tanshinone was not obvious. In the comparison of three drying methods,we found that drying at 50 ℃ was better than drying in the sun,and drying in the sun was superior to drying in the shade. So,drying at 50 ℃ was the best drying method. The correlation between dehydration and phenolic acid content of S. miltiorrhiza was analyzed by verification test and SPSS software,which further proved that the dehydration rate was significantly positively correlated with the content of phenolic acid components. This study provides reference for the production processing and drying methods of S. miltiorrhiza medicinal materials,which is of great significance for improving the quality of S. miltiorrhiza.
Abietanes
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Desiccation
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Plant Roots
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Salvia miltiorrhiza
10.Comparative study on free and bound phenolic acids before and after drying of Salvia miltiorrhiza.
Tao ZHOU ; Chun-Mei LUO ; Zhi-Fang HUANG ; Yu-Hong LIU ; Yun-Hua LIU ; Yan CHEN ; Yi-Na TANG ; Jin-Hai YI
China Journal of Chinese Materia Medica 2020;45(5):1090-1096
There were significant differences in phenolic acid content between fresh and dried Salvia miltiorrhiza before and after drying. That is to say, the content of phenolic acid in S. miltiorrhiza significantly increased with the increase of dehydration during the drying process.In order to investigate the differences and transformation of free and bound phenolic acids before and after the drying process of S.miltiorrhiza, we studied hydrolysis method, hydrolysates and hydrolysis regularity of phenolic acids in S.miltiorrhiza. UPLC method was used to determine four main hydrolysates of bound phenolic acids, namely danshensu, caffeic acid dimer(SMND-309), caffeic acid, przewalskinic acid A(prolithosperic acid), and three main free phenolic acids in S.miltiorrhiza, namely rosmarinic acid, lithospermic acid, salvianolic acid B. The results of the acid-base hydrolysis experiment of salvianolic acid showed that the alkaline hydrolysis effect was significantly better than acid hydrolysis. The optimal alkaline hydrolysis condition was hydrolysis at 70 ℃ for 4 h with 2 mol·L~(-1) NaOH solution containing 1% ascorbic acid(Vit C). The hydrolysates of free phenolic acids were the same with the hydrolysates of bound phenolic acids. Fresh S.miltiorrhiza contains a low level of free phenolic acids and a high level of bound phenolic acids, which were exactly opposite to dried S.miltiorrhiza. It was suggested that a large amount of bound phenolic acids was accumulated during the growth of S.miltiorrhiza. These bound phenolic acids were coupled with polysaccharides on the cytoderm through ester bonds to form insoluble phenolic acids, which was not easy to be detected by conventional methods. However, during drying and dehydration processes, the bound phenolic acids were converted to a large amount of free phenolic acids under the action of the relevant enzyme.
Desiccation
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Hydroxybenzoates/analysis*
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Salvia miltiorrhiza/chemistry*