Expression of <Emphasis Type="Italic">Withania somnifera</Emphasis> Steroidal Glucosyltransferase gene Enhances Withanolide Content in Hairy Roots

In Withania somnifera, sterol molecules of immense medicinal value are diversified by means of glycosylation. Identifying sterol glycosyltransferases provides an imperative insight of diverse sterol modifications, thereby helping to comprehend the underlying plant mechanisms. In the present study, one of the W. somnifera sterol glycosyltransferase-4 (Ws-Sgtl4) gene was transformed into the W. somnifera leaf explant through Agrobacterium rhizogene. Transformed W. Somnifera Ws-Sgtl4 leaf explants were subjected to hairy root induction and analyzed for biomass accumulation. The analysis of Ws-Sgtl4 gene expression was performed at different time exposures with the application of salicylic acid and methyl jasmonate. The elicitation of W. somnifera hairy root expressing the Ws-Sgtl4 gene was also evaluated for the enhancement if any, in the total withanolide yield as well as the withanolides-A contents. The results suggested that Ws-Sgtl4 gene expression enhanced the production of total withanolide yield and withanolides-A in the hairy root culture of W. somnifera in the response to the elicitors.     

Arbuscular mycorrhizal fungal diversity in high-altitude hypersaline Andean wetlands studied by 454-sequencing and morphological approaches

Withania somnifera, also known as Indian ginseng is known to contain valuable bioactive compounds, called withanolides that structurally resemble ginsenosides of Panax ginseng. These compounds provide the basis of pharmacological relevance in traditional systems of medicine. In the present study, 150 hairy root lines of W. somnifera were induced of which nine fast growing lines were analysed for their growth and withanolide content. Hairy root line W9 was selected due to its high specific growth rate (0.196 ± 0.005 d^?1) and high withanolide content. The response to different concentrations of elicitors (methyl jasmonate and P. indica cell homogenate) and various exposure durations was assessed in the W9 hairy root line. The withanolide content as well as the pattern of gene expression from MVA, MEP and sterol pathway, was evaluated using qPCR. Though gene expression and withanolide content were found to be elevated in almost all MeJ and CHP treatments, the exposure of hairy roots to 15 μM MeJ for 4 h gave the maximum withanolide yield. The results suggest that the elicitation potential of methyl jasmonate was higher than that of P. indica cell homogenate for increasing withanolide levels in hairy roots of W. somnifera.     

Microbial secondary metabolites ameliorate growth, <Emphasis Type="Italic">in planta</Emphasis> contents and lignification in <Emphasis Type="Italic">Withania somnifera</Emphasis> (L.) Dunal

In the present investigation, metabolites of Streptomyces sp. MTN14 and Trichoderma harzianum ThU significantly enhanced biomass yield (3.58 and 3.48 fold respectively) in comparison to the control plants. The secondary metabolites treatments also showed significant augmentation (0.75–2.25 fold) in withanolide A, a plant secondary metabolite. Lignin deposition, total phenolic and flavonoid content in W. somnifera were maximally induced in treatment having T. harzianum metabolites. Also, Trichoderma and Streptomyces metabolites were found much better in invoking in planta contents and antioxidants compared with their live culture treatments. Therefore, identification of new molecular effectors from metabolites of efficient microbes may be used as biopesticide and biofertilizer for commercial production of W. somnifera globally.     

An efficient <Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis>-mediated transformation protocol of <Emphasis Type="Italic">Withania somnifera</Emphasis>

This is the first report on Agrobacterium rhizogenes-mediated transformation of Withania somnifera for expression of a foreign gene in hairy roots. We transformed leaf and shoot tip explants using binary vector having gusA as a reporter gene and nptII as a selectable marker gene. To improve the transformation efficiency, acetosyringone (AS) was added in three stages, Agrobacterium liquid culture, Agrobacterium infection and co-culture of explants with Agrobacterium. The addition of 75 μM AS to Agrobacterium liquid culture was found to be optimum for induction of vir genes. Moreover, the gusA gene expression in hairy roots was found to be best when the leaves and shoot tips were sonicated for 10 and 20s, respectively. Based on transformation efficiency, the Agrobacterium infection for 60 and 120 min was found to be suitable for leaves and shoot tips, respectively. Amongst the various culture media tested, MS basal medium was found to be best in hairy roots. The transformation efficiency of the improved protocol was recorded 66.5 and 59.5?% in the case of leaf and shoot tip explants, respectively. When compared with other protocols the transformation efficiency of this improved protocol was found to be 2.5 fold higher for leaves and 3.7 fold more for shoot tips. Southern blot analyses confirmed 1–2 copies of the gusA transgene in the lines W1-W4, while 1–4 transgene copies were detected in the line W5 generated by the improved protocol. Thus, we have established a robust and efficient A. rhizogenes mediated expression of transgene (s) in hairy roots of W. somnifera.     

Genotype independent and efficient <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated genetic transformation of the medicinal plant <Emphasis Type="Italic">Withania somnifera</Emphasis> Dunal

Withania somnifera one of the most reputed Indian medicinal plant has been extensively used in traditional and modern medicines as active constituents. A high frequency genotype and chemotype independent Agrobacterium-mediated transformation protocol has been developed for W. somnifera by optimizing several factors which influence T-DNA delivery. Leaf and node explants of Withania chemotype was transformed with A. tumefaciens strain GV3101 harboring pIG121Hm plasmid containing the gusA gene encoding β-glucuronidase (GUS) as a reporter gene and the hptII and the nptII gene as selection markers. Various factors affecting transformation efficiency were optimized; as 2 days preconditioning of explants on MS basal supplemented with TDZ 1 μM, Agrobacterium density at OD₆₀₀ 0.4 with inclusion of 100 μM acetosyringone (As) for 20 min co-inoculation duration with 48 h of co-cultivation period at 22 °C using node explants was found optimal to improved the number of GUS foci per responding explant from 36?±?13.2 to 277.6?±?22.0, as determined by histochemical GUS assay. The PCR and Southern blot results showed the genomic integration of transgene in Withania genome. On average basis 11 T₀ transgenic plants were generated from 100 co-cultivated node explants, representing 10.6 % transformation frequency. Our results demonstrate high frequency, efficient and rapid transformation system for further genetic manipulation in Withania for producing engineered transgenic Withania shoots within very short duration of 3 months.     

In vitro induction of allohexaploid and resulting phenotypic variation in <Emphasis Type="Italic">Populus</Emphasis>

Although triploid Populus varieties have been used widely in timber and pulpwood production, the performance of economic traits in Populus with higher ploidy levels remains unknown due to a lack of germplasms with higher ploidy. In this study, we first successfully induced hexaploids in Populus by treating triploid leaf explants with colchicine in vitro. In total, 32 hexaploids were produced. The frequency of hexaploids was significantly affected by the interaction between colchicine concentration and exposure time. The highest hexaploid induction efficiency was 16.89% (±?2.26), which was achieved by treating explants with 0.04% colchicine for 7 days. Compared to triploids, hexaploids had thinner epidermal hair, larger stomata and protoplasts, and fewer chloroplasts, indicating that significant phenotypic changes accompanied an increase in ploidy level. These hexaploids are valuable for investigating the performance of economic traits in Populus with higher ploidy levels and have the potential to be used as parents to produce new tetraploid and pentaploid germplasms in Populus breeding programs.     

<Emphasis Type="Italic">Withania somnifera</Emphasis> (Linn.) Dunal: a review of chemical and pharmacological diversity

Withania somnifera Dunal, is a commonly used herb in Indian Ayurvedic medicine system. Due to its pharmacological value and an inexhaustible source of novel biologically active compounds, it has been a great interest for researchers. The plant is known to possess anti-inflammatory, antitumor, antistress, antioxidant, immunomodulatory and hemopoetic properties. Various withanolides, steroidal lactones, have been isolated from W. somnifera and were known to have high therapeutic value. Based on the differences in the substitution patterns of withanolides the species has been classified into various chemotypes. So far, three different chemotypes have been identified, which have been further classified into ecotypes based on the contents of withanolides. Present review summarizes the phytochemical variability and pharmacological advances reported in literature.     

Production of phenolic compounds,antioxidant and antimicrobial activities in hairy root and shoot cultures of <Emphasis Type="Italic">Hypericum perforatum</Emphasis> L.

Three hairy root clones of Hypericum perforatum (HR 2, HR 15 and HR 27) transformed with Agrobacterium rhizogenes A4M70GUS and their corresponding regenerated shoot culture clones (HRRS) were compared for differences in growth, production of phenolic compounds, antioxidant and antimicrobial activities. Transgenic clones were selected on the basis of morphological evaluation, genetic and molecular analyses. The clone HR 2 had the highest biomass accumulation, while HR 27 showed the highest shoot regeneration potential. The total phenolics and flavan-3-ols were enhanced in all tested transgenic cultures, while total flavonoids and hypericins were augmented in HRRS clones compared to non-transformed shoots. The HRRS clones produced substantial amounts of chlorogenic acid and 3-p-coumaroylquinic acid. Regarding the flavonoids, they produced significant contents of luteolin hexoside (HRRS 2), quercitrin and quercetin (HRRS 15) and isoquercetin (HRRS 27), while HR 2 and 15 accumulated 4-O-methylkaempferol-O-hexoside and quercetin 6-C-glucoside, respectively. The HR 15 was promising for the production of catechin and procyanidin derivatives and together with its HRRS clone exhibited a high potential for hyperforin and adhyperforin production. All identified naphtodianthrones were confirmed in HRRS 2 and 15 clones. Among xanthones, mangiferin was found as the major compound in HRRS, while trihydroxy-1-metoxy-C-prenyl xanthone was dominant in HR clones. Antimicrobial activity of transgenic cultures revealed that HRRS 15 strongly inhibited the growth of Bacillus cereus, Micrococcus flavus, Pseudomonas aeruginosa and Escherichia coli. Altogether, H. perforatum HR and HRRS cultures could be proposed as promising experimental systems for enhanced production of phenolic compounds with antioxidant and antibacterial properties.     

Connection between proliferation rate and temozolomide sensitivity of primary glioblastoma cell culture and expression of <Emphasis Type="Italic">YB-1</Emphasis> and <Emphasis Type="Italic">LRP/MVP</Emphasis>

Glioblastomas (GBL) are the most common and aggressive brain tumors. They are distinguished by high resistance to radiation and chemotherapy. To find novel approaches for GBL classification, we obtained 16 primary GBL cell cultures and tested them with real-time PCR for mRNA expression of several genes (YB-1, MGMT, MELK, MVP, MDR1, BCRP) involved in controlling cell proliferation and drug resistance. The primary GBL cultures differed in terms of proliferation rate, wherein a group of GBL cell cultures with low proliferation rate demonstrated higher resistance to temozolomide. We found that GBL primary cell cultures characterized by high proliferation rate and lower resistance to temozolomide expressed higher mRNA level of the YB-1 and MDR1 genes, whereas upregulated expression of MVP/LRP mRNA was a marker in the group of GBL with low proliferation rate and high resistance. A moderate correlation between expression of YB-1 and MELK as well as YB-1 and MDR1 was found. In the case of YB-1 and MGMT expression, no correlation was found. A significant negative correlation was revealed between mRNA expression of MVP/LRP and MELK, MDR1, and BCRP. No correlation in expression of YB-1 and MVP/LRP genes was observed. It seems that mRNA expression of YB-1 and MVP/LRP may serve as a marker for GBL cell cultures belonging to distinct groups, each of which is characterized by a unique pattern of gene activity.     

Morphological and Molecular Analysis of Isolated Cultures of Tobacco Adventitious Roots Obtained by the Methods of Biolistic Bombardment and <Emphasis Type="Italic">Agrobacterium</Emphasis>-Mediated Transformation

Plant infection with Agrobacterium rhizogenes leads to the development of a hairy root disease notable for the rapid agravitropic growth of roots on hormone-free nutrient media. In order to look into the interaction of A. rhizogenes with plants and assess opportunities of practical application of hairy root culture, new approaches to their production are elaborated. A method of bacterium-free and plasmid-free production of genetically modified roots (hairy roots) by means of biolistic transformation of leaf explants with a DNA fragment (size of 5461 bp) consisting of genes rolA, rolB, rolC, and rolD are proposed. In most cases, such transformation resulted in the emergence of only adventitious roots with transient expression of rol-genes, and the growth of such roots on hormone-free media ceased in 2–3 months in contrast to genuine hairy roots capable of unrestricted growth. Molecular analysis of different systems of target genes’ expression showed an important role of transgene rolC and host gene of cyclin-dependent protein kinase CDKB1-1 in the maintenance of rapid growth of hairy roots in vitro (in isolated cultures).     

Study on the chemical composition and antioxidant activity of extracts from shoot culture and regenerated plants of <Emphasis Type="Italic">Scutellaria altissima</Emphasis> L.

The flavonoid (baicalin, wogonoside, luteolin, luteolin-7-glucoside) and verbascoside contents of Scutellaria altissima in both shoot cultures, and the shoots and roots of micropropagated plants grown in the greenhouse for 12 weeks or in the field for 2 years were determined. The level of secondary metabolites was found to be strongly affected by the age and type of plant organ. A comparative analysis of S. altissima plants propagated in vitro and from seeds revealed no differences in the level of secondary metabolites when plants of the same age were studied. The antioxidant potential of methanolic extracts from shoot cultures, and the shoots and roots of S. altissima plants propagated in vitro, were evaluated using ABTS radical scavenging, FRAP metal reduction power and the lipid peroxidation test, in relation to the content of baicalin, wogonoside, verbascoside, total phenolic and total flavonoid compounds. Extracts from the roots of field-grown regenerated plants at the flowering stage were found to possess the strongest antioxidant activity. Correlation analysis revealed that the antioxidant activity of extracts correlated most closely with their total phenolic content estimated by the Folin-Ciocalteu method.     

Withanolide production by <Emphasis Type="Italic">in vitro</Emphasis> cultures of <Emphasis Type="Italic">Withania somnifera</Emphasis> and its association with differentiation

Withanolides-steroidal lactones, isolated from various Solanaceous plants have received considerable attention due to their potential biological activities. Five selected withanolides (withanone, withaferin A, withanolide A, withanolide B, withanolide E) were identified by HPLC-UV (DAD) — positive ion electrospray ionization mass spectroscopy in Withania somnifera (L.) Dunal cv. WSR plants and tissues cultured in vitro at different developmental phases. Cultures were established from five explants on Murashige and Skoog’s medium supplemented with different plant growth regulators. Results suggest that production of withanolides is closely associated with morphological differentiation.     

Total phenolics,resveratrol content and antioxidant activity of seeds and calluses of pinto peanut (<Emphasis Type="Italic">Arachis pintoi</Emphasis> Krapov. &amp; W.C. Greg.)

Arachis pintoi is a peanut species native to Brazil, which is cultivated in many countries for animal forage, soil cover, landscaping, and recovery of degraded areas. Tissue culture studies for this species have been focused in plant production, whereas works on in vitro secondary metabolites production are scarce. The goal of the present work was to establish callus cultures from different seed explants of A. pintoi, aiming at evaluating the potential for metabolites production and antioxidant activity. Embryonic axes, leaflets, and cotyledons were cultured on solidified MS medium supplemented with picloram (PIC), 2,4-dichlorophenoxyacetic acid (2,4-D), thidiazuron (TDZ) or different combinations of 6-benzyladenine (BA) and α-naphthaleneacetic acid (NAA), under light or dark conditions. Friable calluses with a high biomass (4.3?±?0.3 g FW per callus) were obtained from embryonic leaflets cultured on medium supplemented with 17.6 µM BA plus 5.4 µM NAA, in the dark. Cotyledons and embryonic axes cultured in the presence of 4.4 µM BA combined with 10.8 µM NAA formed heterogeneous calluses with a compact base and a large friable surface. Trans-resveratrol and other stilbenes that were not found in seeds were detected in callus extracts, especially those originated from cotyledons, although these materials showed lower total phenolic contents (TPC) when compared with seeds with and without testa, as well as cotyledons. Extracts from seeds with testa and from calluses derived from cotyledons and embryonic axes showed the highest EC₅₀ in DPPH assays. No correlation between TPC, trans-resveratrol and antioxidant activity was observed.     

<Emphasis Type="Italic">Cytisus aeolicus</Emphasis> Guss. ex Lindl. <Emphasis Type="Italic">in vitro</Emphasis> cultures and genistin production

Cytisus aeolicus Guss. ex Lindl. (Fabaceae family, subfamily Faboideae) is an endangered endemic species of the Aeolian Islands, Sicily. In vitro multiplication of C. aeolicus shoots was described in this work and cell cultures were established from cotyledons and hypocotyls to investigate their potential production of isoflavones. Aseptically germinated seeds, cultivated on LS modified basal medium, gave the initial explants used both to induce axillary propagation and callus cultures. The LS (Linsmaier and Skoog) basal medium, supplemented with 0.1 mg L^?1 of 6-benzylaminopurine were used to induce axillary propagation. The callus induction was performed using the basal medium added with 5 mg L^?1 2,4-dichlorophenoxy acetic acid and 5 mg L^?1 kinetin (control medium). Basal medium was also added with 2000 mg L^?1 casein hydrolysate (CH) or 900 mg L^?1myo-inositol (MI). C. aeolicus callus cultures on CH and MI media produced an unique compound, the isoflavone genistein 7-O-ß-D-glucopyranoside (genistin), which has not previously been isolated from wild plants. Callus cultures grown on the medium containing myo-inositol produced the greatest amount of genistin. C. aeolicus tissue culture procedures could provide suitable plant material both for germplasm preservation (by micropropagation) and for biotechnological selective isoflavone production (by callus culture).     

Changes in Formation and Localization of Phenolic Compounds in the Tissues of European and Canadian Yew during Dedifferentiation <Emphasis Type="Italic">In Vitro</Emphasis>

Changes in formation and localizations of phenolic compounds, including flavans, were investigated in the tissues of European and Canadian yew (Taxus baccata L. and T. canadensis Marsh.) during dedifferentiation in vitro. Annual shoots of European yew had the highest capacity for synthesizing these compounds. During the summer growth period, the content of total soluble phenolic compounds and flavans in these shoots was 30–40% higher than in the winter. Cell dedifferentiation and growth in vitro was accompanied by enhanced synthesis of phenolic compounds, including flavans, the change in tissue localization of these compounds, and an increase in the number of cells containing phenolics. Significant accumulation of phenolic compounds in callus cells resulted in necroses following two subcultures in the European and Canadian yew cultures initiated from summer explants, and following seven subcultures of the European yew calli initiated from winter explants. These data allow us to suggest that a high level of phenolic compounds in yew calli could be the reason for their necrosis.     

Production of sapogenins (stigmasterol and hecogenin) from genetically transformed hairy root cultures of <Emphasis Type="Italic">Chlorophytum borivilianum</Emphasis> (Safed musli)

Chlorophytum borivilianum belonging to the family Liliaceae, is distributed in the pantropical regions of India and South Africa. The sapogenins (stigmasterol and hecogenin) of C. borivilianum are well known for their appetizing and aphrodisiac properties. The present study involves enhancing the sapogenin content in C. borivilianum by genetic transformations with Agrobacterium rhizogenes strains (MTCC 2364 and 532, PRT Gus). A maximum transformation frequency of 98% was obtained with Agrobacterium rhizogenes MTCC 2364 strain with rhizome explants after a co-cultivation period of 48 h. Two potential rhizoclones (2364a and 2364b) were selected for the production of stigmasterol and hecogenin. The maximum production of stigmasterol (83.952?±?0.01 mg/g) was seen in 2364b rhizoclone, whereas, the highest accumulation of hecogenin (81.52?±?0.02 mg/g) was observed in 2364a rhizoclone. The C. borivilianum hairy root cultures obtained in this study provide a continuous and sustainable production of stigmasterol and hecogenin on a commercial scale.     

Effects of the timing of a culture temperature reduction on the comprehensive metabolite profiles of <Emphasis Type="Italic">Chlorella vulgaris</Emphasis>

This study investigated the effects of different temperature conditions on the comprehensive metabolite profiles of Chlorella vulgaris using gas chromatography–mass spectrometry coupled with multivariate statistical analysis. C. vulgaris cells cultivated at 20 °C were transferred to 10 °C incubators at different time points of cultivation [days 0 (TR0D), 7 (TR7D), and 14 (TR14D)], then they were cultivated at 10 °C until harvesting at day 21 to compare the growth and comprehensive metabolite profiles with those cultivated under a constant cultivation temperature of 20 °C (T20). There was no significant difference in algal cell growth between cultivation under the T20 and temperature reduction (TR) conditions. Algal fatty-acid profiles under TR were different from those of the T20 condition. Specifically, the contents of octadecanoic acid (C18:0), octadecenoic acid (C18:1), hexadecadienoic acid (C16:2), and octadecadienoic acid (C18:2) increased the most under TR0D. The relative levels of metabolites such as β-alanine, glutamine, glycine, isoleucine, proline, valine, and myo-inositol, which act as osmolytes, and bioactive compounds such as neophytadiene and ascorbic acid were increased under TR conditions on day 21. Among the metabolites, the contents of neophytadiene and ascorbic acid were further investigated, and the content of ascorbic acid was highest on day 14 under the TR7D condition, while the content of neophytadiene was highest on day 21 under the TR0D and TR14D condition. Therefore, we suggest that a TR from 20 to 10 °C could enhance the production in C. vulgaris cultures of bioactive fatty acids such as C18:1, C16:2, and C18:2 (TR0D), organic osmolytes such as β-alanine, glutamine, glycine, isoleucine, proline, valine, and myo-inositol (TR conditions), ascorbic acid (TR7D), and neophytadiene (TR0D and TR14D).     

Obtaining and Study of Callus and Suspension Plant Cell Cultures of <Emphasis Type="Italic">Tribulus terrestris</Emphasis> L., a Producer of Steroidal Glycosides

Callus and suspension plant cell cultures of Tribulus terrestris L., a valuable medicinal plant producing steroidal glycosides, were obtained. The seeds from an American population of T. terrestris were used as explants. Regulation of the production and growth of cell cultures, as well as the biosynthetic characteristics of the cell lines, were studied. The combination of phytohormones of 2,4-D (2.0 mg/L) and BAP (1.0 mg/L) was found to be optimal for callus induction and cultivation. Suspension cell culture obtained in liquid medium of the same composition showed such high growth characteristics during prolonged cultivation (more than 2 years) as a maximum accumulation of dry biomass of 13 g/L, specific growth rate at exponential phase of 0.24 day^–1, and economical coefficient of 0.39. A semicontinuous mode of cultivation was used to grow the plant cell suspension in a lab-scale bioreactor. Screening of the steroidal glycosides in the obtained cell cultures was carried out. Steroidal glycosides were not found in the callus cultures. However, as was demonstrated by TLC and UPLC ESI MS methods, the suspension culture contained furostanol glycosides, and their amount increased during the cultivation process. These results support the hypothesis of the autoselection of cultivated cells containing compounds promoting their proliferation in vitro.     

Peculiarities of Regeneration and Genetic Variability of <Emphasis Type="Italic">Crambe koktebelica</Emphasis> and <Emphasis Type="Italic">Crambe tataria</Emphasis> Plants in vitro

The regenerative capability of three types of explants was studied on media with different compositions of growth regulators with the purpose of selecting optimal conditions of fast reproduction of endangered Crambe species that could be used as a relevant source of genetic material for the improvement of industrially valuable plants. PCR-analysis of genotypes of C. koktebelica and C. tataria plants was conducted to identify the influence of in vitro cultivation on the genetic stability of plants. The highest regeneration rates were observed with the use of petiole explants on MS medium with BA and NAA. The absence of somaclonal variability in C. koktebelica and C. tataria in vitro regenerated plants was demonstrated.