Effect of culture medium and light conditions on the morphological characteristics and carbohydrate contents of Medicago strasseri calli

Using 6 culture media (12, 12D, 12G, 11, A and B) made up of MS medium (Murashige-Skoog, 1962) supplemented or not with glycerine, with different cytokinins, and/or 2,4-D, the morphological characteristics and contents in total carbohydrates, reducing sugars, sucrose and starch were studied in calli induced from explants (cotyledon, petiole, hypocotyl and leaf) obtained from Medicago strasseri seedlings. Callus formation was induced under photoperiod (16h light/8h darkness) conditions or in the absence of light. Considerable variability in the calli was observed, depending on the explants and media used. Under photoperiod conditions, medium A with KIN (1 mg/l) and 2,4-D (3 mg/l) induced many calli with the highest contents in total carbohydrates (886.1–889.3 mg/g DW), sucrose (132.1–188.2 mg/g DW) and starch (125.2–247.6 mg/g DW) and the lowest contents in reducing sugars (118.4–173.3 mg/g DW). In media 11, A and B, under conditions of darkness, calli degenerated at the start of culture. Calli developed in darkness generally had dry weights and total carbohydrate and starch contents lower than those cultured under photoperiod conditions. However, sucrose contents were greater in calli formed in darkness. At these cultures times, differentiation, in the form of organogenesis, was only seen using medium B with cotyledons, petioles and leaves as explants. It was also observed when petioles were cultured in medium A but with a less pronounced organogenic response.     

Transcriptomics analysis investigates sesquiterpenoids accumulation pattern in different tissues of <Emphasis Type="Italic">Atractylodes lancea</Emphasis> (Thunb.) DC. plantlet

Linum usitatissimum: L. is well-known for production of pharmacologically important secondary metabolites. Due to their tremendous beneficial effects on human health, these compounds are receiving greater attention throughout the World, especially in the treatment of various types of cancers. In present study, we have developed an efficient protocol for production of lignans like secoisolariciresinol diglucoside (SDG) and lariciresinol diglucoside (LDG) and neo-lignans like dehydrodiconiferyl alcohol glucoside (DCG) and guaiacylglycerol-β-coniferyl alcohol ether glucoside (GGCG) by exploiting in vitro callus cultures of Flax. These cultures were established from stem and leaf explants, inoculated on Murashige and Skoog (MS) media supplemented with various concentrations of α-naphthalene acetic acid (NAA), thidiazuron (TDZ) and 6-benzyl adenine (BA). Results revealed that the leaf-derived calli (1.0 mg/l NAA) accumulated highest levels of biomass (DW; 15.7 g/l) and antioxidant activity, while highest production of total phenolics (111.09 mg/l) and flavonoids (45.02 mg/l) were observed in stem-derived calli (1.0 mg/l NAA). The high-performance liquid chromatography (HPLC) analysis revealed that the stem-derived calli (1.0 mg/l NAA) accumulated optimum concentrations of SDG (2.7?±?0.021 mg/g DW), LDG (9.8?±?0.062 mg/g DW) and DCG (13.8?±?0.076 mg/g DW), while leaf-derived calli (1.0 mg/l NAA) showed optimum accumulation of GGCG (3.8?±?0.022 mg/g DW) as compared to all other treatments. These results provided definite evidence that the NAA differentially influence the production of lignans and neo-lignans in callus culture of Flax. This study opens new dimensions to devise strategies to enhance the production of these valuable metabolites.     

Resveratrol content and expression patterns of stilbene synthase genes in <Emphasis Type="Italic">Vitis amurensis</Emphasis> cells treated with 5-azacytidine

DNA methylation is known to be involved in the regulation of plant development and defense mechanisms. However, there is a general lack of data on the role of methylation in plant secondary metabolism. We have investigated the effect of a cytidine analog, 5-azacytidine (azaC), which is known to block DNA methylation, on resveratrol biosynthesis and stilbene synthase (STS) gene expression in Vitis amurensis cultured cells. Resveratrol is a naturally occurring polyphenol that has been reported to exhibit a wide range of important biological and pharmacological properties. We previously obtained a control cell line of V. amurensis (VV) as well as a rolB-transgenic cell line of V. amurensis (VB2) that has a higher level of resveratrol accumulation. In our experimental setup, the azaC-treated VV and VB2 calli produced 0.092% and 0.455% dry weight (DW) resveratrol, respectively. We found that treatment with 200 μM of azaC resulted in 1.9- and 2.0-fold increases in resveratrol production in VV and VB2 calli, respectively. A quantitative real-time PCR assay for STS gene expression in the azaC-treated VV and VB2 cells revealed that there were statistically increased expression levels of VaSTS10 in VV calli and of VaSTS5, VaSTS6, and VaSTS10 in VB2 calli. These results demonstrate that azaC is able to increase resveratrol production in V. amurensis calli through a mechanism that involves the induction of STS gene expression.     

A revised scheme for mass propagation of Easter Lily

Lilium longiflorum Thunb., commonly known as Easter Lily is widely propagated by vegetative means for its high ornamental value as a pot plant. Following in vitro technique, mass propagation has been achieved through direct production of bulblets from the explant as well as regeneration from callus. The chromosome analysis of the progeny derived from callus even from long term culture, did not reveal any marked variability in chromosome morphology. The stable nature of callus maintained in modified MS medium in long term culture has been confirmed. Along with rapid growth, the regenerating capacity of calli has been maintained for 3 years of culture in the above medium. Following shake culture, large number of bulblets could be obtained from such differentiated calli within 3–4 weeks. The shake culture technique of calli is ideally suited for securing stable regenerants on a mass scale in this species.Abbreviations MS Murashige & Skoog's medium - NAA -napthaleneacetic acid - IAA indole-3-acetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - BA 6-benzyladenine     

Biosynthesis of precious metabolites in callus cultures of <Emphasis Type="Italic">Eclipta alba</Emphasis>

Eclipta alba (False daisy) is an important medicinal plant with well-known antihepatotoxic activity. However, no previous in vitro studies are available for its callus culture for increased production of antioxidant secondary metabolites. Herein, we maintained a competent protocol for callus culture of E. alba using stem and leaf explants grown on MS medium containing various concentrations of thidiazuron, 6-benzylaminopurine (BAP) either alone or in association with α-naphthalene acetic acid (NAA). Among all the applied plant growth regulators, BAP along with NAA resulted in maximal dry biomass of 18.0 and 13.8 g/l for stem and leaf explants, respectively. Furthermore, the highest production of phenolics (375.7 mg/l for stem-associated callus and 298 mg/l for leaf-associated callus) and flavonoids (62.0 and 52.3 mg/l for stem- and leaf-associated callus, respectively) were found to be present in optimized callus culture. Antioxidant activity was also elucidated for both stem and leaf derived calli. The highest antioxidant activities (~?93.5%) were witnessed for stem and leaf associated calli at set concentrations of 3.0 mg/l BAP?+?1.0 mg/l NAA and 4.0 mg/l BAP, respectively. High-performance liquid chromatography analyses revealed optimum accumulation of coumarin (1.98 mg/g DW) and wedelolactone (49.63 mg/g DW) in leaf associated callus and desmethylwedelolactone (69.96 mg/g DW), β-amyrin (0.8179 mg/g DW) and eclalbatin (0.3202 mg/g DW) in stem associated callus at optimized concentration.     

An optimized biotechnological system for the production of centellosides based on elicitation and bioconversion of Centella asiatica cell cultures

Centella asiatica is a herbaceous plant of Asian traditional medicine. Besides wound healing, this plant is recommended for the treatment or care of various skin conditions such as dry skin, leprosy, varicose ulcers, eczema, and/or psoriasis. Triterpene saponins, known as centellosides, are the main metabolites associated with these beneficial effects. Considering the interest in these high value active compounds, there is a need to develop biosustainable and economically viable processes to produce them. Previous work using C. asiatica plant cell culture technology demonstrated the efficient conversion of amyrin derivatives into centellosides, opening a new way to access these biomolecules. The current study was aimed at increasing the production of centellosides in C. asiatica plant cell cultures. Herein, we report the application of a new elicitor, coronatine, combined with the addition of amyrin‐enriched resins as potential sustainable precursors in the centelloside pathway, for a positive synergistic effect on centelloside production. Our results show that coronatine is a powerful elicitor for increasing centelloside production and that treatments with sustainable natural sources of amyrins enhance centelloside yields. This process can be scaled up to an orbitally shaken CellBag, thereby increasing the capacity of the system for producing biomass and centellosides.     

Cell line selection through gamma irradiation combined with multi-walled carbon nanotubes elicitation enhanced phenolic compounds accumulation in Salvia nemorosa cell culture

The current study focused on improving the production of phenolic acids in the Woodland Sage cell suspension culture (CSC) through attaining high-yielding cell lines and carboxyl functionalized multi-walled carbon nanotubes (MWCNT-COOH) elicitation. The leaf-derived callus was irradiated at different doses of gamma irradiation 10 to 100 Gy. The maximum content of rosmarinic acid (RA), salvianolic acid B (SAB), ferulic acid (FA), and cinnamic acid (CA) was recorded in callus cultures irradiated with 70 Gy, which was 18.53, 5.21, 1.9, and 7.59 mg/g DW, respectively. The CSC that established from 70 Gy γ-irradiated calli accumulated 1.7-fold RA more higher irradiated callus culture. The CSC elicited with various concentrations of MWCNT-COOH in range 25 to 100 mg/l significantly increased fresh weight (FW), dry weight (DW), and phenolic acid contents of cells. The highest FW with 268.47 g/l and DW with 22.17 g/l was obtained in 100 mg/l MWCNT-COOH treatment. The RA, SAB, CA and FA content of CSC treated with 100 mg/l MWCNT-COOH were 13-fold, 14.2-fold, 20-fold, and 3- fold higher than wild S. nemorosa plant at flowering stage, respectively. The antioxidant activity of cultures significantly enhanced with both gamma and MWCNT-COOH based on DPPH and FRAP assay. Our results showed that the combination of cell line selection and MWCNT-COOH elicitation significantly improved the production of secondary metabolites in Woodland Sage, which is useful for large-scale production of phenolic compounds.

     

Transgenic periwinkle tissues overproducing cytokinins do not accumulate enhanced levels of indole alkaloids

Cytokinins play a critical role in several aspects of plant growth, metabolism and development. We previously reported that adding cytokinins to the culture medium of a suspension-cultured cell line of periwinkle increased the accumulation of indole alkaloids, and our aim was to compare the effect of exogenously-applied cytokinins with that of elevated levels of endogenous cytokinins on indole alkaloid production. We used an Agrobacterium tumefaciens strain yielding a plasmid with the isopentenyl transferase gene under control of its own promoter. Co-culture of suspension cells with the bacteria caused a severe stress response leading to cell necrosis. Therefore, we failed to transform this material but we succeeded in transforming periwinkle cotyledons. We verified that callus cultures generated from the isopentenyl transferase-transgenic cotyledons accumulated high cytokinin concentrations. Treating normal callus cultures (generated from untransformed cotyledons) with cytokinins enhanced their alkaloid production. By contrast, the enhanced concentration of endogenous cytokinins in transgenic calli did not increase indole alkaloid production, and thus did not mimic the effect of exogenously-applied cytokinins. Hypothesis to explain this discrepancy are discussed.Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - DW dry cell mass - ipt isopentenyl transferase gene     

Copper-Induced Modulation of Biomass Growth,Physiological Parameters,Bioactive Centellosides,and Expression of Biosynthetic Pathway Genes in an Important Medicinal Herb, <Emphasis Type="Italic">Centella asiatica</Emphasis>

Hydroponically established Centella asiatica plants were studied under different concentrations of copper (0, 0.32,1.6, and 3.2 µM) for their morphological, physiological, and biochemical characteristics. The plants grown in the medium without any exogenous supply of copper showed improved biomass accumulation with maximum fresh weight (FW?=?24.7 g plant^?1) and dry weight (DW?=?2.35 g plant^?1). The total chlorophyll content, leaf number, and the leaf area were higher (0.27 mg g^?1 DW, 20 and 100.54 cm²) in the plants grown under copper-deficient conditions. The toxic effects of increased levels of copper were evident by significant inhibition in growth and other morphological parameters. Copper treatment showed an increase in malondialdehyde (MDA) content and SOD activity. Bioactive phytochemical profiling using HPLC analysis revealed that higher levels of copper (1.6 and 3.2 µM) inhibit the accumulation of total centelloside content. The differential accumulation of centelloside content was further validated by the consistent pattern of expression of key pathway genes related to centelloside production in copper-treated C. asiatica plants. The study unveiled some of the important facts associated with the mechanism of copper tolerance in this important medicinal herb C. asiatica. The findings of the present study can be further used to provide better production of high value, in demand centellosides.     

The influence of auxins,light and cell differentiation on solasodine production bySolanum eleagnifolium Cav. calli

The effect of auxins, light and cellular production ofSolanum eleagnifolium Cav. calli were studied. 2,4-dichlorophenoxyacetic acid (4.5 M) was the plant growth regulator used for calli initiation and this produced the highest solasodine concentration. The solasodine concentration in darkness was significantly lower than that achieved under a photoperiod of 16 h. Differentiated tissue obtained by adequate hormonal balance (several ratios of 3-indolebutyric acid to 6-benzylaminopurine) produced higher yields of solasodine than non-differentiated tissue. 3-indolebutyric acid (2.5 M) and 6-benzylaminopurine (8.8 M) increased the productivity of solasodine by 100%.Abbreviations BAP 6-benzylaminopurine - KIN Kinetin - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA 3-indoleacetic acid - NAA 1-naphtaleneacetic acid - IBA 3-indolebutyric acid - 2,4,5-T 2,4,5-trichlorophenoxyacetic acid - DW dry weight - GI      

Agrobacterium-mediated transformation of yellow lupin to generate callus tissue producing HBV surface antigen in a long-term culture

The idea of an oral vaccine administered as a portion of plant tissue requires a high level of antigen production. An improved protocol for the induction of transgenic yellow lupin calli or tumours, reaching 44% of transformation rate, is presented here. It has been developed by using the nptII marker gene and the uidA reporter gene as well as various Agrobacterium strains and plant explants. This method of seedling and hypocotyl transformation was applied to raise calli or tumours producing a small surface antigen of Hepatitis B Virus (S-HBsAg). Lupin tissue lines were long-term cultured on selection media maintaining the growth rate and high expression level of the native form of S-HBs, up to 6 microg per g of fresh tissue.     

Variation in nicotine content of tobacco callus cultures

Plants ofNicotiana tabacum L. cv. Burley 21 which showed no difference in nicotine content were used to establish callus cultures. Cultures were initiated from different plants and from different leaves within each plant. The nicotine content of the calli was determined, and the results subjected to an analysis of variance. Differences between plants and differences within plants significantly affected the nicotine content of the cultures. The differences between plants were transmitted sexually and asexually, providing evidence that they are genetically determined. No such differences in nicotine content were found between the plants from which the cultures were established, indicating that nicotine production in vitro involves additional genes to those which are needed for nicotine production in the plant. The differences within plants were further investigated by establishing callus cultures from pith explants taken from different parts of the stem. Explants from apical pith tissue gave calli having far more nicotine and more roots than cultures derived from basal pith explants. This results may reflect the proximity of the apical pith explants to the site of auxin synthesis in the stem apex. Callus cultures derived from pith explants showed greater growth and nicotine production than those derived from leaf explants when the calli were induced on Murashige-Skoog medium containing -naphthalene acetic acid. This result is in conflict with the widely held belief that explants from different parts of the plant give cultures with similar yields of species-specific compounds.Abbreviations HN High nicotine - LN low nicotine     

Genetic transformation of Leymus chinensis with the PAT gene through microprojectile bombardment to improve resistance to the herbicide Basta

Chinese leymus [Leymus chinensis (Trin.) Tzvel.] is a perennial grass (tribe Gramineae) that is widely distributed throughout northern China and Mongolia where it is produced as a forage product. Severe production losses due to weed growth have serious economic consequences, and as non-selective herbicides not only kill the weeds but are also harmful to this forage grass, the introduction of a foreign gene for resistance to the herbicide Basta is necessary since this species lacks herbicide resistance. We have investigated the transformation of a gene for phosphinothricin acetyltransferase (PAT) through microprojectile bombardment in Chinese leymus. Calli from immature inflorescences cultured on N6 medium supplemented with 2.0 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D) and 5.0 mg/l of glutamine were bombarded. The bombarded calli survived on selection medium with 1.0 mg/l of phosphinothricin (PPT). Twenty-three plantlets regenerated from resistant calli on differentiation medium supplemented with 1.0 mg/l 6-benzylaminopurine, 1.0 mg/l kinetin, and 1.0 mg/l PPT, and five of these regenerated plantlets survived on rooting medium with 1.0 mg/l of PPT. PCR and Southern blotting analyses indicated that the PAT gene had been integrated into the genomes of two Chinese leymus plantlets and that the gene was stably transferred to its clonal offsprings. There were no other phenotypic effects associated with transgene expression during vegetative growth except tolerance to the herbicide Basta.The Biotechnology of Pasture Plant Program is funded by the Key Project of the Chinese Academy of Sciences (KSCX1-08)     

葡萄细胞悬浮培养生产白藜芦醇

以巨峰葡萄果皮为外植体,在添加2.0 mg/L 6-苄基嘌呤（6-BA）和0.1 mg/L 2,4-二氯苯氧基（2,4-D）的B5培养基上诱导葡萄愈伤组织; 以50 g/L的初始接种量在添加1.0 mg/L 6-BA和0.05 mg/L 2,4-D的B5液体培养基上建立葡萄悬浮培养体系。在25～27 ℃下,摇床振荡暗培养（120～130 r/min）18 d后,葡萄细胞生物量和白藜芦醇含量达到最大值（16.17 g/L、95.69 μg/g干质量）。在培养第12天时,向培养基中添加100 μmol/L茉莉酸甲酯（MeJA）,经过6 d处理,细胞中白藜芦醇含量达235.73 μg/g干质量。     

霍山石斛类原球茎二步法培养细胞生长和多糖合成的动力学研究

磷是调控类原球茎细胞生长和多糖积累的有效因素。为了获得较高的多糖产量,根据霍山石斛类原球茎生长和多糖积累的动力学特性,提出了二步培养方式,采用了补料策略,研究了其培养过程的动力学特性,并建立了相关模型。结果表明,采用二步法培养,生物量从28.7g DW/L提高到44.2g DW/L, 多糖产量从1.86g/L提高到5.22g/L,多糖含量从6.4%提高到11.9%。建立的模型基本反映了类原球茎生长和多糖积累的动力学机制。