Differential rubisco content and photosynthetic efficiency of rol gene integrated Vinca minor transgenic plant: Correlating factors associated with morpho-anatomical changes, gene expression and alkaloid productivity.

Transgenic plants obtained from a hairy root line (PVG) of Vinca minor were characterized in relation to terpenoid indole alkaloids (TIAs) pathway gene expression and vincamine production. The hairy roots formed callus with green nodular protuberances when transferred onto agar-gelled MS medium containing 3.0mg/l zeatin. These meristematic zones developed into shoot buds on medium with 1.0mg/l 2, 4-dichlorophenoxyacetic acid and 40mg/l ascorbic acid. These shoot buds subsequently formed rooted plants when shifted onto a hormone-free MS medium with 6% sucrose. Transgenic nature of the plants was confirmed by the presence of rol genes of the Ri plasmid in them. The transgenic plants (TP) had elongated internodes and a highly proliferating root system. During glass house cultivation TP consistently exhibited slower growth rate, low chlorophyll content (1.02±0.08mg/gm fr. wt.), reduced carbon exchange rate (2.67±0.16µmolm-2s-1), less transpiration rate (2.30±0.20mmolm-2 s-1) and poor stomatal conductance (2.21±0.04mmolm-2 s-1) when compared with non-transgenic population. The activity of rubisco enzyme in the leaves of TP was nearly two folds less in comparison to non-transgenic controls (1.80milliunitsml-1mgprotein-1 against 3.61milliunits ml-1mgprotein-1, respectively). Anatomically, the TP had a distinct tetarch arrangement of vascular bundles in their stem and roots against a typical ployarched pattern in the non-transgenic plants. Significantly, the transgenic plants accumulated 35% higher amount of total TIAs (3.10±0.21% dry wt.) along with a 0.03% dry wt. content of its vasodilatory and nootropic alkaloid vincamine in their leaves. Higher productivity of alkaloids in TP was corroborated with more than four (RQ=4.60±0.30) and five (RQ=5.20±0.70) times over-expression of TIAs pathway genes tryptophan decarboxylase (TDC) and strictosidine synthase (STR) that are responsible for pushing the metabolic flux towards TIAs synthesis in this medicinal herb.

Over-expression of Catharanthus roseus tryptophan decarboxylase and strictosidine synthase in rol gene integrated transgenic cell suspensions of Vinca minor.

Tryptophan decarboxylase (TDC) and strictosidine synthase (STR) genes from Catharanthus roseus have been successfully over-expressed in the rol gene integrated cell suspensions of V. minor. Thirty seconds SAAT (sonication-assisted Agrobacterium transformation) treatment of plant cell suspension with LBA1119 having construct () generated three stable TDC + STR over-expressing cell lines--PVG1, PVG2, and PVG3. The transgenes were confirmed by ß-glucuronidase GUS histochemical assay and PCR amplification of rol genes/GUS gene. All the three cell suspension lines were found to be slow growing. In comparison to the control cell suspensions (GI = 241.0 ± 5.8), PVG3 cell line registered a growth index (GI) of 208.0 ± 10.0 followed by PVG1 (GI = 140.0 ± 14.2) and PVG2 (GI = 85.0 ± 9.6). The PVG3 cell line was also up-scaled in the 5-l stirred tank bioreactor with GI of 745.6 ± 35.3 under optimized parameters. Only PVG3 line registered a twofold increase in total alkaloid content (2.1 ± 0.1% dry wt.) and showed vincamine presence (0.003 ± 0.001% dry wt.) which was further enhanced at the bioreactor level (2.7 ± 0.3 and 0.005 ± 0.001% dry wt., respectively). Real-time (RT) qPCR analysis of PVG3 showed more than sevenfold to eightfold increase in TDC and STR expression [relative quantity value (RQ) = 7.6 ± 0.8 (TDC); RQ = 8.5 ± 0.9 (STR)].

Morphological, chemical and molecular characterization of Centella asiatica germplasms for commercial cultivation in the Indo-Gangetic plains.

Centella asiatica germplasm collected from north, north-eastern and southern parts of India was compared for biomass and centellosides productivity under uniform agro-climatic conditions of the Indo-Gangetic plains at Lucknow. The highest biomass accumulation (411.9 g FW/m2 area) was recorded in accession A from north India, followed by 284.0, 135.7 and 29.2 g FW/m2 in accessions M, B and E from southern, eastern and north-eastern regions, respectively. Accession M possessed the highest asiaticoside content (52.1 mg/gDW) that was 1.58, 2.34 and 21.7 folds more than accessions A, B and E, respectively. The madecassoside level in leaves of accessions B and M was comparable (28.9 and 25.7 mg/gDW) and two folds more than accession A (13.9 mg/gDW). The madecassic and asiatic acid content in leaf tissue of all four accessions remained low in Lucknow. Amplified fragment length polymorphism (AFLP) analysis with 23 primers yielded 696 fragments, 563 of which were polymorphic. Accession M out-grouped with genetic dissimilarity indices of 83, 85 and 95% from accessions A, E and B, respectively. Commercial cultivation of accessions M and A through a four months growth cycle (June to September) in agro-climatic conditions of the Indo-Gangetic plains is suggested.

Improved sanguinarine production via biotic and abiotic elicitations and precursor feeding in cell suspensions of latex-less variety of Papaver somniferum with their gene expression studies and upscaling in bioreactor.

Elicitors play an important role in challenging the plant defense system through plant-environment interaction and thus altering the secondary metabolite production. Culture filtrates of four endophytic fungi, namely, Chaetomium globosum, Aspergillus niveoglaucus, Paecilomyces lilacinus, and Trichoderma harzianum were tested on embryogenic cell suspensions of latex-less Papaver somniferum in dose-dependent kinetics. Besides this, abiotic elicitors salicylic acid, hydrogen peroxide, and carbon dioxide were also applied for improved sanguinarine production. Maximum biomass accumulation (growth index (GI) = 293.50 ± 14.82) and sanguinarine production (0.090 ± 0.008 % dry wt.) were registered by addition of 3.3 % v/v T. harzanium culture filtrate. Interestingly, it was further enhanced (GI = 323.40 ± 25.30; 0.105 ± 0.008 % dry wt.) when T. harzanium culture filtrate was employed along with 50 µM shikimate. This was also supported by real-time (RT) (qPCR), where 8-9-fold increase in cheilanthifoline synthase (CFS), stylopine synthase (STS), tetrahydroprotoberberine cis-N-methyltransferase (TNMT), and protopine 6-hydroxylase (P6H) transcripts was observed. Among abiotic elicitors, while hydrogen peroxide and carbon dioxide registered low level of sanguinarine accumulation, maximum sanguinarine content was detected by 250 µM salicylic acid (0.058 ± 0.003 % dry wt.; GI = 172.75 ± 13.40). RT (qPCR) also confirms the downregulation of sanguinarine pathway on CO2 supplementation. Various parameters ranging from agitation speed (70 rpm), impeller type (marine), media volume (2 l), inoculum weight (100 g), and culture duration (9 days) were optimized during upscaling in 5-l stirred tank bioreactor to obtain maximum sanguinarine production (GI = 434.00; 0.119 ± 0.070 % dry wt.). Addition of 3.3 % v/v T. harzanium culture filtrate and 50-µM shikimate was done on the 6th day of bioreactor run.

Tryptophan over-producing cell suspensions of Catharanthus roseus (L) G. Don and their up-scaling in stirred tank bioreactor: detection of a phenolic compound with antioxidant potential.

Five cell suspension lines of Catharanthus roseus resistant to 5-methyl tryptophan (5-MT; an analogue of tryptophan) were selected and characterized for growth, free tryptophan content and terpenoid indole alkaloid accumulation. These lines showed differential tolerance to analogue-induced growth inhibition by 30 to 70 mg/l 5-MT supplementation (LD(50) = 7-15 mg/l). Lines P40, D40, N30, D50 and P70 recorded growth indices (i.e. percent increment over the initial inoculum weight) of 840.9, 765.0, 643.9, 585.7 and 356.5 in the absence and, 656.7, 573.9, 705.8, 489.0 and 236.0 in the presence of 5-MT after 40 days of culture, respectively. A corresponding increment in the free tryptophan level ranging from 46.7 to 160.0 µg/g dry weight in the absence and 168.0 to 468.0 µg/g dry weight in the presence was noted in the variant lines. Higher tryptophan accumulation of 368.0 and 468.0 g/g dry weight in lines N30 and P40 in 5-MT presence also resulted in higher alkaloid accumulation (0.65 to 0.90 % dry weight) in them. High-performance liquid chromatography (HPLC) analysis of the crude alkaloid extracts of the selected lines did not show the presence of any pharmaceutically important monomeric or dimeric alkaloids except catharanthine in traces in the N30 line that was also unique in terms of a chlorophyllous green phenotype. The N30 line under optimized up-scaling conditions in a 7-l stirred tank bioreactor using Murashige and Skoog medium containing 2 mg/l α-naphthalene acetic acid and 0.2 mg/l kinetin attained 18-folds biomass accumulation within 8 weeks. Interestingly, the cell biomass yield was enhanced to 30-folds if 30 mg/l 5-MT was added in the bioreactor vessel one week prior to harvest. Crude alkaloid extract of the cells grown in shake flask and this bioreactor batch also showed the formation of yellow-coloured crystals which upon (1)HNMR and ESI-MS analysis indicated a phenolic identity. This crude alkaloid extract of bioreactor-harvested cells containing this compound at 50 µg/ml concentration registered 65.21, 17.75, 97.0, 100 % more total antioxidant capacity, reducing power, total phenolic content, and ferric-reducing antioxidant power, respectively, when compared with that of extracts of cells grown in shake flask cultures. The latter, however, showed 57.47 % better radical scavenging activity (DPPH) than the bioreactor-harvested cells.

Increased availability of tryptophan in 5-methyltryptophan-tolerant shoots of Catharanthus roseus and their postharvest in vivo elicitation induces enhanced vindoline production.

Ten 5-methyltryprophan (5-MT)-resistant multiple shoot culture lines in three genotypes of Catharanthus roseus were selected in vitro. The variant shoot lines displayed a differential threshold tolerance limit against the analogue stress, ranged from 20 to 70 mg/l 5-MT in the medium. The lines tolerant to 40 mg/l 5-MT stress were most stable and fast proliferating. All the selected lines in the presence of 5-MT stress recorded increased level of tryptophan in their free amino acid pool. Highest tryptophan accumulation occurred in lines P40, P30, D40, and N40 (i.e., 296.5, 241.0, 200.6, and 202.0 µg/g dry wt., respectively). A concomitant increase in the total alkaloid content (2.3-3.8 % dry wt.) under the analogue stress was also noticed in these lines when compared to 1.0-1.58 % dry wt. in the respective wild-type shoot maintained on a stress-free medium. The HPLC analysis of the alkaloid extracts of the 5-MT-tolerant lines grown under analogue stress also revealed vindoline as a major constituent with maximum accumulation in lines N40, N30, D30, D40, and P40 (0.046, 0.032, 0.034, and 0.022 % dry wt., respectively). The rooted shoots of 5-MT-tolerant lines were successfully acclimatized under glasshouse environment wherein they grew normally and set seeds. Flowering twigs or leaves excised from 1-year-old glasshouse-grown plants of 5-MT variant lines upon postharvest in vivo elicitation with 30 mg/l 5-MT or 5.0 mg/l tryptophan registered an eight-to-tenfold increment in their vindoline content within 24-48 h.

Growth and asiaticoside production in multiple shoot cultures of a medicinal herb, Centella asiatica (L.) Urban, under the influence of nutrient manipulations.

Growth and in vitro asiaticoside accumulation in multiple shoot cultures of Centella asiatica (L.) Urban was studied as a function of nutrient manipulations in the culture media. Shoot cultures raised in liquid Murashige and Skoog medium supplemented with 2.5 mg/l kinetin attained a growth index (GI) of 6.06 along with the highest asiaticoside content of 3.8 mg/g dry weight on the 35th day of the culture cycle. The shoot growth and asiaticoside accumulation were found to be influenced by the relative proportions of NH(4)(+)-N:NO(3)(-)-N or Cu(2+) concentration in the medium. Asiaticoside content in shoots increased from 5.3 to 8.9 and 8.7 mg/g dry weight when total nitrogen concentration of 60 mM in the control medium was reduced to 50 and 40 mM with a corresponding change in NH(4) (+):NO(3)(-) ratio from 20:40 to 20:30 or 20:20, respectively. Total nitrogen level higher than 60 mM drastically reduced the asiaticoside concentration in these in vitro shoot cultures. Medium devoid of Cu(2+) significantly favored higher asiaticoside accumulation in the cultured tissue (7.05 mg/g dry weight) along with an improved biomass production (GI = 7.7) when compared with shoots reared on the control medium with 0.10 µM Cu(2+) (GI = 5.8; asiaticoside content = 4.4 mg/g dry weight). Carbohydrate enrichment of the medium by increasing the sucrose concentration from 3.0 to 5.0 or 7.0% was also beneficial for biomass and asiaticoside production with GI = 17.1 and 16.9 and asiaticoside content = 7.2 and 5.2 mg/g dry weight, respectively, in comparison to control cultures maintained on medium containing 3.0% sucrose. The procedure described here provides a viable production platform for generating clean and quality material from Centella with high bioactive content.

Glycyrrhiza glabra (Linn.) and Lavandula officinalis (L.) cell suspension cultures-based biotransformation of ß-artemether.

The biotransformation of ß-artemether (1) by cell suspension cultures of Glycyrrhiza glabra and Lavandula officinalis is reported here for the first time. The major biotransformed product appeared as a grayish-blue color spot on thin-layer chromatography (TLC) with transparent crystal-like texture. Based on its infrared (IR) and (1)H nuclear magnetic resonance (NMR) spectra, the product was characterized as a tetrahydrofuran (THF)-acetate derivative (2). The highest conversion efficiencies of 57 and 60% were obtained when 8-9-day-old cell suspensions of G. glabra and L. officinalis were respectively fed with 4-7 mg of compound 1 in 40 ml of medium per culture and the cells were harvested after 2-5 days of incubation. The addition of compound 1 at the beginning of the culture cycle caused severe growth depression in a dose-dependent manner, resulting in poor bioconversion efficiency of ~25% at 2-5 mg/culture dose only.

Influence of cellular differentiation and elicitation on intermediate and late steps of terpenoid indole alkaloid biosynthesis in Catharanthus roseus.

The invaluable antineoplastic bisindole alkaloids of Catharanthus roseus and their precursor, vindoline, are not produced in cell cultures. The intricacies involved in endogenous (cellular differentiation) and exogenous (elicitation) regulation of their biosynthesis need to be dissected out for favorable exploitation. This study aimed at elucidating the effect of Pythium aphanidermatum homogenate and methyl jasmonate (MeJa) on in vitro cultures (of cv. 'Dhawal') representing increasing level of differentiation (suspension < callus < shoots) in terms of alkaloid accumulation and transcript abundance of strictosidine beta-D: -glucosidase (SGD) and acetyl-CoA: 4-O-deacetylvindoline 4-O-acetyl-transferase (DAT) genes, representing intermediate and late steps, respectively, of terpenoid indole alkaloid biosynthesis. Elicitation of suspension cultures caused transcriptional upregulation of SGD and enhanced the accumulation of total alkaloids but did not produce vindoline as DAT transcripts were always found to be absent in suspension-cultured cells. Vindoline was also not detected in unelicited and MeJa-treated callus but appeared upon elicitation with fungal homogenate for 24 h that coincided with maximal DAT transcription. Transcript levels of both genes increased upon elicitation of callus but remained below levels present in the mature plant leaf. Elicitation caused appearance of vindoline in shoots and increased the transcript abundance of both genes beyond levels observed in the mature plant leaf. Differentiation was essential for expression of DAT but not SGD, and vindoline biosynthetic potential increased with it.

Growth kinetics and ginsenosides production in transformed hairy roots of American ginseng--Panax quinquefolium L.

A thin, profusely branched, fast growing hairy root line of Panax quinquefolium (American ginseng) was established by co-culturing epicotyl explants with a wild type strain of Agrobacterium rhizogenes. The transformed roots grew by over 10-fold from the initial inoculum within 8 weeks. The crude ginsenosides content in the roots was about 0.2 g/g dry wt level up to the 10th week of culture. Ginsenosides Rb2, Rd, Re, Rf and Rg1 constituted 47-49% of the crude saponin fraction between 6 and 8 weeks of growth whereas, Rc ginsenoside was accumulated only after 9th weeks when the biomass started receding. PCR amplification analysis of the hairy roots confirmed their transgenic nature by showing the presence of Ri-TL DNA with rolA, rolB and rolC genes in their genome.