ABSTRACT
Chinese medicinal resources are the cornerstone of the sustainable development of traditional Chinese medicine industry. However, due to the fecundity of species, over-exploitation, and limitations of artificial cultivation, some medicinal plants are depleted and even endangered. Tissue culture, a breakthrough technology in the breeding of traditional Chinese medicinal materials, is not limited by time and space, and can allow the production on an annual basis, which plays an important role in the protection of Chinese medicinal resources. The present study reviewed the applications of tissue culture of medicinal plants in the field of Chinese medicinal resources, including rapid propagation of medicinal plant seedlings, breeding of novel high-yield and high-quality cultivars, construction of a genetic transformation system, and production of secondary metabolites. Meanwhile, the current challenges and suggestions for the future development of this field were also proposed.
Subject(s)
Sustainable Development , Plants, Medicinal/genetics , Plant Breeding , Medicine, Chinese Traditional , TechnologyABSTRACT
(3S)-Linalool synthase (LIS) is a key enzyme involved in the monoterpene biosynthetic pathway. Based on our previous transcriptome study, the expression level of LIS gene was exceedingly related to glycyrrhizic acid (GA) biosynthesis. Therefore, we used hairy root culturing to further investigate the effect of LIS on the GA biosynthesis. A LIS gene (GenBank accession number: MZ169552) was cloned from Glycyrrhiza uralensis. The plant binary overexpression vector pCA-LIS was constructed by gene fusion. G. uralensis hairy roots overexpressing LIS were induced by the Agrobacterium rhizogenes ATCC15834. The expression levels of LIS were analyzed by real-time quantitative PCR (RT-qPCR) and the contents of GA in hairy root lines were determined by UPLC. It was found that in the hairy root lines overexpressing LIS, the expression levels of LIS were significantly higher than that in the wild type, while the contents of GA were remarkably lower than those in the wild type and negative control. These findings indicate that the expression level of LIS is negatively correlated with the accumulation of GA. In this study, LIS was cloned from G. uralensis for the first time and the negative regulatory effect of LIS on GA biosynthesis was confirmed by reverse genetics. This work provides support for further improvement of the molecular regulatory network of GA biosynthesis in G. uralensis.
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1-Deoxy-D-xylulose-5-phosphate synthase (DXS) is a rate-limiting enzyme involved in the 2-C-methyl-D-erythritol 4-phosphate (MEP) pathway for terpenoid precursor biosynthesis. DXS plays an essential role in glycyrrhizic acid (GA) biosynthesis. Based on our previous transcriptome study, there was a negative correlation between DXS expression and GA content. Therefore, we explored the regulatory role of DXS in GA biosynthesis using both gene overexpression and gene knockout in a hairy root culture system. DXS was cloned from Glycyrrhiza glabra L. (GenBank Accession No. MN158121). A plant binary expression vector pCA-DXS was constructed by a gene fusion method. The sgRNA sequence was designed based on the first exon of DXS to construct the gene editing vector pHSE-DXS. Hairy roots overexpressing or knocking out DXS were generated through an Agrobacterium-mediated method with licorice hypocotyls as explants. Wild-type hairy roots and negative control hairy roots containing empty plasmids were also evaluated. UPLC was used to determine the GA content in each licorice hairy root line. Results showed that the content of GA in the hairy root group knocking out DXS was significantly higher than that in the wild-type and negative control groups, while in the hairy root group overexpressing DXS was significantly lower, suggesting that DXS plays a negative role in GA biosynthesis. This study provides a foundation for determining the function of DXS in terpenoid metabolism and for further establishment of a molecular regulatory network of GA biosynthesis.
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Chalcone isomerase (CHI) is the second rate-limiting enzyme involved in the biosynthetic pathway of flavonoids in Glycyrrhiza uralensis. Based on our previous studies, we selected the specific CHI haplotype (GenBank Accession No. KY115232) to maximize flavonoid accumulation. We constructed a plant binary expression vector for overexpression of this CHI gene by the gene fusion method and transfected the plasmid into Agrobacterium tumefaciens ACCC10060 by electroporation. The recombinant A. tumefaciens ACCC10060 subsequently was used to infect cotyledons and hypocotyls of G. uralensis to obtain transgenic hairy roots. A qRT-PCR method was used to determine the copy number of CHI and a UPLC method was used to assay the content of four flavonoids in different hairy root lines. The qRT-PCR results showed that the copy number of CHI in hairy roots was 1 or 5. UPLC results showed that the content of total flavonoids, liquiritin, liquiritigenin, and isoliquiritigenin in transgenic hairy root samples was significantly higher than that in wild-type samples. This study demonstrates that overexpression of CHI significantly increases the content of flavonoids in hairy roots of G. uralensis. This work provides a theoretical basis for clarifying the function of CHI. Three transgenic hairy root lines of G. uralensis were isolated which can be used to increase the accumulation of licorice flavonoids in vitro.
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Ferulate 5-hydroxylase (F5H) is a key enzyme involved in the phenylpropane metabolism pathway. Based on our previous transcriptome sequencing study, F5H played a negative regulatory role in glycyrrhizic acid (GA) biosynthesis. Therefore, in this study we cloned the F5H gene and investigated its regulatory effect on GA accumulation through gene overexpression and knockout. F5H was cloned from Glycyrrhiza glabra L. (GenBank Accession No. MK882511). A plant binary expression vector pCA-F5H was constructed by inserting F5H into pCAMBIA1305.1 at Spe I and Bgl II sites. The sgRNA sequences were designed based on the first exon of F5H. The CRISPR/Cas9 gene editing vector pHSE-F5H was constructed by inserting F5H sgRNA into pHSE401 at two Bsa Ⅰ sites. PCA-F5H and pHSE-F5H were transfected into Agrobacterium tumefaciens ATCC15834, which was used to induce hairy root overexpressing or knocking out F5H with licorice hypocotyl as explants. At the same time, wild type and negative control hairy roots were also generated. UPLC was used to assay the GA content in different hairy root lines, and results showed that the GA content in hairy root lines knocking out F5H was significantly higher, whereas in hairy root lines overexpressing F5H GA content was lower than that in the wild-type and negative control. In this work, through a reverse genetics strategy, the negative regulatory effect of F5H on GA biosynthesis was confirmed through gene overexpression and knockout. This work will lay a foundation for further elucidation of the molecular regulatory network of GA biosynthesis.
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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.
Subject(s)
Abietanes , Biosynthetic Pathways , Plant Roots , Salvia miltiorrhizaABSTRACT
In this study, based on the transcriptome database of suspension cells of Arnebia euchroma, we explored two candidate cytochrome P450 enzyme genes that might relate to the shikonin biosynthesis downstream pathway when CYP76B74 sequence was referenced. We constructed interference-type hairy roots of candidate genes and cultured them. We measured the fresh weight, dry weight, total naphthoquinone content, shikonin and its derivatives content and expression levels of key enzyme genes involved in shikonin biosynthesis pathway. The effects of candidate genes on the growth and shikonin production of A. euchroma hairy roots were discussed, and the possible regulatory mechanisms that candidate genes affected shikonin synthesis were discussed. Through local Blast and phylogenetic analysis, two candidate CYP450 genes(CYP76B75 and CYP76B100) with high homology to CYP76B74 in A. euchroma were screened, and corresponding interference hairy roots were constructed. Compared with the control(RNAi-control), the fresh weight of CYP76B75 interfered hairy root(RNAi-CYP76B75) and CYP76B100 interfered hairy root(RNAi-CYP76B100) were significantly reduced, while dry weight were not affected, so the dry rate increased significantly. Except for β-acetoxyisovalerylalkannin, which is high in three groups of hairy roots, the contents of shikonin, deoxyshikonin, acetylshikonin, β,β'-dimethacrylicalkannin, β-hydroxyisovalerylshikonin,β-hydroxyisovalerylshikonin, isobutyrylshikonin and total naphthoquinones showed a consistent pattern: RNAi-CYP76B75>RNAi-CYP76B100>RNAi-control. Among them, the synthesis of β-hydroxyisovalerylshikonin was most significantly promoted by interfering with the expression of CYP76B75. The content of β-hydroxyisovalerylshikonin in RNAi-CYP76B75 was 11.7 times that of RNAi-control. RESULTS:: of real-time qPCR analysis showed that compared to RNAi-control, the expression levels of AePGT gene in RNAi-CYP76B75 and RNAi-CYP76B100 were not changed significantly, and the expression levels of CYP76B74 and AeHMGR were up-regulated. In addition, the expression level of CYP76B100 in RNAi-CYP76B75 was down-regulated, whereas in RNAi-CYP76B100, the expression of CYP76B75 was significantly up-regulated. Therefore, this study confirmed that when the expression of CYP76B75 and CYP76B100 were interrupted, the growth of hairy roots were suppressed, but the synthesis of shikonin were promoted. They might increase the shikonin biosynthesis by up-regulating the expression of CYP76B74 in the hairy roots of A. euchroma.
Subject(s)
Boraginaceae , Genetics , Cytochrome P-450 Enzyme System , Naphthoquinones , Phylogeny , Plant Roots , RNA , RNA InterferenceABSTRACT
The electroporation method was performed to transfer plasmid DNA of PBI-1300 carrying GFP gene into Agrobacterium rhizogenes C₅₈C₁ strains. Mediated by A. rhizogenes C₅₈C₁, the GFP gene were transformed into Erigeron breviscapus aseptic leaves by leaf disc method, then the hairy roots were induced and the infected hairy roots were screened by hygromycin resistance. The chromosomal DNA of the hairy root was used as the templates for the PCR amplification with the GFP-specific primers and then the expected amplified DNA bands appeared, the green fluorescent of GFP in the cut hairy roots was observed by two-photon microscope. These results indicated that GFP gene was integrated into the genome of E. breviscapus and was expressed stably. This study laid the groundwork for foreign gene high-efficiency expression inthe genetic transformation system for hairy root culture of E. breviscapus.
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Protein complexes are involved in the synthesis of multiple secondary metabolites in plants, and their separation is essential to elucidate plant secondary metabolism and improve in vitro catalytic efficiency. In this study, the transgenic hairy roots of CYP76AH1, a key enzyme of tanshinone synthesis pathway, was constructed and the transgenic hairy roots of Danshen overexpressing CYP76AH1 protein were screened by Western blotting and used as a tissue culture material for the subsequent extraction of protein complex in tanshinone synthesis pathway. By optimizing the type and concentration of the detergent in the protein extraction buffer, the buffer containing 0.5% Triton X-100 was selected as the best extraction buffer, and a relatively large amount of soluble CYP76AH1 protein was isolated. This study lays the foundation for the further separation and purification of protein complexes interacting with CYP76AH1, and provides the idea for deep analysis of tanshinone metabolic pathway.
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In order to obtain the expression of ginsenoside biosynthetic pathway related enzyme gene in ginseng hairy root under the control of elicitors, methyl jasmonate (MeJA) was added exogenously as elicitors. Ginseng hairy root clones induced by 4-year-old ginseng root was used as material, total saponin content in ginseng hairy root before and after MeJA treatment was determined by vanillin-sulfuric acid colorimetry, Meanwhile, relative expression of squalene synthase genes, squalene epoxidase genes, oxidized squalene cyclase genes, dammarenediol synthase genes, β-amyrin synthase genes, cycloartenol synthase genes before and after MeJA treatment were determined by Real-time PCR. The optimum conditions of MeJA which added to ginseng hairy root were obtained, the optimum additional concentration was 6×10⁻⁴ μmol•L⁻¹, the optimum additional time was 22 d, and the optimum action time was 5 d. The addition of MeJA could improve the enzymatic activity of peroxidase (PPD), catalase (CAT) and peroxidase (PPD) in ginseng hairy root. The expression of SQS,SQE,OSC,DS and β-AS genes of ginsenoside biosynthetic pathway increased significantly after MeJA treatment, while the change of CAS gene expression were not significant. The expression of key enzyme SQS,SQE,OSC,DS and β-AS genes in ginsenoside biosynthetic pathway was consistent with the changes of PPD,CAT,PPO enzymatic activity.
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ABSTRACT Momordica charantia (Cucurbitaceae) is an important vegetable and also medicinal crop which produces the bioactive compounds for various biological activities with potential uses in human health. The present investigation relates to elicitors of jasmonic acid (JA) and salicylic acid (SA) to enhance biomass accumulation and phenolic compound production in hairy root cultures of M. charantia. Hairy root cultures were elicited with JA and SA at 0, 25, 50 and 100 μM concentrations respectively. The adding of elicitation to the hairy root cultures on the 15th day of culture and the roots were harvested on day 25. Cultures supplemented with 100 μM JA and SA enhanced the phenolic compounds significantly compared to that of non-elicited hairy root cultures. The biomass of hairy root culture significantly increased by SA whereas decreased in JA elicitation at 100 μM. JA and SA-elicited hairy root cultures significantly produced a higher amount of phenolic compounds (12811.23 and 11939.37µg/g), total phenolic (4.1 and 3.7 mg/g) and flavonoid (3.5 and 3.2 mg/g) contents than non-elicited hairy root cultures (10964.25 µg/g, 2.8 and 2.5 mg/g). JA and SA-elicited hairy root cultures were significantly higher antioxidant activity of DPPH (84 and 78%), reducing potential (0.53 and 0.48), phosphomolybdenum (3.6 and 3.2 mg/g) and ferrous ion chelating assays (80 and 74%) than non-elicited hairy root cultures. The higher antimicrobial and anticancer activity were exhibited in JA and SA-elicited than non-elicited hairy root cultures. This protocol can be developed for the production of phenolic compounds from JA and SA-elicited hairy root cultures.
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Objective To establish an HPLC method for the quantitation of nine ginsenosides (Rc ,Rb1 ,Rb2 ,Re ,Rd , Rg1 ,Rg2 ,Rg3 and Rh2 ) in Panax ginseng samples .Methods An HPLC method was developed to determine the quantities of the nine ginsenosides .The determination was performed on a Zorbax SB C18 column (4 .6 mm × 250 mm ,5μm) with an Extend-C18 guard column (4 .6 mm × 12 .5 mm ,5 μm) at 35 ℃ .The mobile phase was a multi-step acetonitrile-water gradient run at a flow rate of 1 .0 ml/min .The detection wavelength was 203 nm .Results The nine ginsenosides were baseline separated with-in 120 min .The method had good linearity ,precision ,stability and reproducibility with RSDs all less than 2 .0% .The sample recoveries were between 98 .3% to 102% .The quantity of total saponins in leaves and fibrous roots of Panax ginseng ,which were measured as 48 .9 mg/g and 23 .6 mg/g ,respectively ,were higher than those in the other plant components .The amounts of total saponins in Panax ginseng hairy roots were similar to those in taproots and fruits of Panax ginseng ,which was 7 .47 mg/g .Conclusion The established HPLC method is accurate ,simple ,rapid ,precise and reproducible and could be used for the quantitation of these nine ginsenosides in Panax ginseng samples .
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The effect of Lanthanum on the accumulation of active constituent and key enzymes expression of Salvia miltiorrhiza hairy root were studied and furthermore signaling molecules mediating the synthesis of secondary metabolism was also defined in order to provide references for the reveal of synthesis mechanism of active constituent of S. miltiorrhiza hairy root inducing by Lanthanum. The content of active constituents were detected by HPLC. RNA was extracted with RNA prep Pure RNA purification kit (Tiangen). The results shows that LaCl3 processing promoted the accumulation of tanshinones and phenolic acids in S. miltiorrhiza hairy root. The accumulation of phenolic acids reached the highest at 9 d after treatment, and tanshinones accumulation continued to increase in 15 days. Accumulation of active substance in S. miltiorrhiza may relate with FPPS, TAT, HPPR several key enzyme activation.
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The aim of this study was to use the, hairy root system for increasing the scopolamine content in Atropa belladonna. Agrobacterium rhizogenes ATCC15834 was utilized to produce hairy roots. The culture was carried out in a 1.5-l bioreactor using the inoculum size of 0.5 g fr. wt of 10-day-old hairy roots and various parameters, including agitation, aeration, conductivity and the consumption of sucrose were evaluated. Results revealed that the highest amount of scopolamine production (1.59 mg/g-1 dry wt) occurred in the bioreactor with aeration and agitation 1.25 vvm (volume per volume per minute) and 70 rpm, respectively. Study of conductivity and the consumption of sucrose showed that the highest amount of sucrose consumption and the highest amount of minerals consumption also was at 1.25 vvm and 70 rpm. Transgenic hairy root lines were confirmed by polymerase chain reaction (PCR).
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Objective: To increase biomass and saponin production in hairy root culture of Talinum paniculatum Gaertn. (T. paniculatum) in balloon-type bubble bioreactor (BTBB). Methods: Hairy roots which were collected from leaf explants of T. paniculatum were infected by Agrobacterium rhizogenes strain LB510. The hairy roots were cultivated at 400 mL Murashige and Skoog liquid medium without growth regulator (MS0) in 1. 000 mL BTBB. Each BTBB had 2 g hairy roots as initial inoculum and these cultures were treated with various concentrations of sucrose (3%, 4%, 5%, 6% w/v) and potassium nitrate (0.5, 1.0, 1.5 and 2.0 strength of MS medium). Cultures were maintained for 14 days. Fresh and dry weights of hairy roots at the end of culture were investigated. Results: Various concentrations of sucrose influenced the biomass accumulation of hairy roots. Maximum biomass was reached by MS medium supplemented with 6% sucrose and it was approximately threefold higher than control. Culture supplemented with potassium nitrate at 2.0 strength of MS0 could increase biomass accumulation of hairy roots until 0.14 g dry weight and it was almost threefold higher than control. However, the maximum saponin content was obtained by MS medium supplemented with 5% sucrose and 2.0 strength potassium nitrate of MS. Conclusions: Based on this research, those conditions can be used to produce biomass and saponin of hairy root of T. paniculatum in the large scale.
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Objective: To increase biomass and saponin production in hairy root culture of Talinum paniculatum Gaertn. (T. paniculatum) in balloon-type bubble bioreactor (BTBB). Methods: Hairy roots which were collected from leaf explants of T. paniculatum were infected by Agrobacterium rhizogenes strain LB510. The hairy roots were cultivated at 400 mL Murashige and Skoog liquid medium without growth regulator (MS0) in 1 000 mL BTBB. Each BTBB had 2 g hairy roots as initial inoculum and these cultures were treated with various concentrations of sucrose (3%, 4%, 5%, 6%w/v) and potassium nitrate (0.5, 1.0, 1.5 and 2.0 strength of MS medium). Cultures were maintained for 14 days. Fresh and dry weights of hairy roots at the end of culture were investigated. Results: Various concentrations of sucrose influenced the biomass accumulation of hairy roots. Maximum biomass was reached by MS medium supplemented with 6% sucrose and it was approximately threefold higher than control. Culture supplemented with po-tassium nitrate at 2.0 strength of MS0 could increase biomass accumulation of hairy roots until 0.14 g dry weight and it was almost threefold higher than control. However, the maximum saponin content was obtained by MS medium supplemented with 5%sucrose and 2.0 strength potassium nitrate of MS. Conclusions: Based on this research, those conditions can be used to produce biomass and saponin of hairy root of T. paniculatum in the large scale.
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OBJECTIVE: To establish the hairy roots culture system of Atractylodes japonica Koidz. ez Kitam. and study the hairy roots growth and analyze the polysaccharide content in hairy roots culturing system.
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Being a good anti-tumor drug, camptothecin (CPT) is a kind of modified monoterpene indole alkaloid firstly isolated from the deciduous Chinese happy tree with rapidly increasing clinical demand. Due to the great importance and low content of this compound, it is very important to improve CPT production by modern biotechnology. ORCA3 is a jasmonateresponsive APETALA2-domain transcript factor isolated from Catharanthus roseus, with strong ability to up-regulate expression of serveral key genes involved in TIA biosynthetic pathway. To investigate physiological function of ORCA3 gene in Camptotheca acuminata, the ORCA3 gene was transformed using Agrobacterium-mediated gene transfer technology. PCR analysis confirmed that the ORCA3 gene was integrated into the plant genome. HPLC showed that overexpression of ORCA3 in transgenic hairy root lines can effectively enhance the production of camptothecin with 1.5-fold compared with the control (1.12 mg/g dw). The results revealed that ORCA3 is an effective regulatory gene for improving metabolic flux in camptothecin biosynthetic pathway at the first time.
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Establishment of a hairy root culture system from the medicine plants transformed by the Agrobacterium rhizogenes has unique advantages in large scale production of secondary metabolites and provides an effective solution to the shortage of resources. Meanwhile, root-induced(Ri) plasmid is also an ideal vector for plant genetic engineering. Insect-resistant, disease-resistant genes or genes encoding key enzymes involved in biosynthesis of plant secondary metabolites can be harbored by Ri plasmid and integrated into the host plant genome for expression, thus improving the plant traits and enhancing the secondary metabolite content. Establishment of plant transgenic hairy root culture system has laid a solid foundation for regulating plant secondary metabolites content and for industrial production of pharmaceutical active ingredients by using of genetic metabolic engineering strategies. This paper reviews the latest research advances in this field and the related applications.
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Objective: To establish the culture system of hairy root of Isatis indigotica and to induce the regeneration plant of hairy root. Methods: Hairy root of Isatis indigotica was obtained from infected cotyledon explants after infection with Agrobacterium rhizogenes strains A4, R1601 and ATCC15834. The better lines were selected. The growth curve was surveyed and extrinsic factors affecting the growth of hairy roots were investigated. The regeneration plant was induced on MS media with different hormones. The transformation of Ri T DNA was examined through high voltage paper electrophoresis. Results: The hairy root was originally obtained from Isatis indigotica . The regeneration plant was induced on MS media with BA. The result of high voltage paper electrophoresis confirmed the transformation of T DNA from Ri plasmid to the hairy root and regeneration plant. Conclusion: The acquisition of hairy root of Isatis indigotica and regeneration plant of it lay a foundation for the production of active component and introduction of foreign gene. [