Response surface methodology in media optimization for production of β-carotene from <Emphasis Type="Italic">Daucus carota</Emphasis>

Plants are a valuable source of a vast array of chemical compounds including fragrances, flavours, food additives, colours, natural sweeteners, industrial feedstocks, anti-microbials and pharmaceuticals. The present study reports on application of Response Surface Methodology (RSM) in media optimization for suspension culture for the production of β-carotene. Growth kinetics of carrot cells in suspension culture has been carried out to understand the relationship between growth and β-carotene formation. The maximum production of β-carotene obtained using the optimized medium was 13.614 μg/g dry weight cell mass. The μ (specific growth rate) and t _d (doubling time) were found to be higher for 20 g DW/l inoculum size.     

Influence of endophytic fungal elicitation on production of inophyllum in suspension cultures of <Emphasis Type="Italic">Calophyllum inophyllum</Emphasis> L.

The influence of dried cell powder and culture filtrates of endophytic fungi on production of inophyllum in cell suspension cultures of leaf- and stem-derived callus of Calophyllum inophyllum was investigated. Two fungi, Nigrospora sphaerica and Phoma spp., endophytic to C. inophyllum, were isolated from leaf tissues, and were identified by both 18S rRNA gene amplification and sequencing. Elicitation of suspension cultures of both callus types of C. inophyllum with dried cell powder and culture filtrates of both fungi consistently elicited production of inophyllum A, B, C, and P. In comparison to stem-derived callus, suspension cultures of leaf-derived callus enhanced production of most inophyllum. Of the four inophyllum studied, the highest production of inophyllum A, C, and P was achieved in elicited suspension cultures of leaf-derived callus. Suspension cultures of stem-derived callus enhanced production only of inophyllum B. When suspension cultures of leaf-derived callus were elicited with 40 mg dried cell powder of Phoma spp., a level of 751-fold (6.84 mg/100 g elicited biomass) of inophyllum A was produced, compared to control. Whereas, a level of 414-fold (6.22 mg/100 g elicited biomass) of inophyllum B was produced when suspension cultures of stem-derived callus were elicited with 20 mg dried cell powder of N. sphaerica. When compared to control, a 10% culture filtrate of N. sphaerica in suspension cultures of leaf-derived callus elicited inophyllum C and P production by 928-fold (7.43 mg/100 g elicited biomass) and 750-fold (1.5 mg/100 g elicited biomass), respectively.     

Oxytocin influences the production of glycyrrhizin from cell cultures of Abrus precatorius Linn.

Oxytocin, a peptide animal hormone, was used as a growth regulator to test its effect on biomass accumulation and production of secondary plant constituent glycyrrhizin in the cell cultures of Abrus precatorius. Glycyrrhizin is an important phytoconstituent of liquorice which is widely used in the pharmaceutical and food industries. Cell suspension cultures of A. precatorius were developed from leaf explant of in vitro germinated plant in Murashige and Skoog medium supplemented with 30 g/l sucrose, 1 mg/l naphthalene acetic acid and 1 mg/l kinetin. The influence of oxytocin on biomass accumulation as well as on the production of glycyrrhizin was observed in the cell cultures of A. precatorius. Treatment of A. precatorius cell cultures with 100 μg/l oxytocin, improved glycyrrhizin production up to 34.27 mg/l on the dry cell weight basis third day after oxytocin treatment, which is over four times that of the control cultures, simultaneously nearly two fold increase in the biomass 2 days after the oxytocin treatment was recorded over the control cultures.     

Establishment of anthocyanin-producing cell suspension cultures of Cleome rosea Vahl ex DC. (Capparaceae)

The effects of different levels of Murashige and Skoog (MS) basal medium, 2,4-dichlorophenoxyacetic acid (2,4-D), and sucrose on anthocyanin production and biomass accumulation of cell suspension cultures of Cleome rosea were investigated. Cultures were established in liquid MS medium containing 30 g l⁻¹ sucrose and supplemented with 0.90 μM 2,4-D. Proliferating cell suspension cultures achieved the highest growth capacity, a fourfold increase in biomass accumulation, following subculture at the exponential growth phase, 14–18 days of culture. Moreover, the presence of 2,4-D was essential for anthocyanin production and biomass accumulation. On the other hand, increasing levels of sucrose above 30 g l⁻¹ resulted in a drastic reduction in biomass accumulation. Anthocyanin production was highest in cell suspension cultures grown on half-strength MS medium (1/2 MS), 30 g l⁻¹ sucrose, and 0.45 μM 2,4-D. These cell suspension cultures were mainly composed of small aggregates of spherical cells with similar morphology observed in anthocyanin-producing and non-producing cultures. Moreover, microscopic analysis of anthocyanin-producing cultures showed the presence of mixtures of non-pigmented, low-pigmented, and high-pigmented cells.     

Azadirachtin production in stirred tank reactors by Azadirachta indica suspension culture

Successful scale-up of Azadirachta indica suspension culture for azadirachtin production was done in stirred tank bioreactor with two different impellers. The kinetics of biomass accumulation, nutrient consumption and azadirachtin production of A. indica cell suspension culture were studied in a stirred tank bioreactor equipped with centrifugal impeller and compared with similar bioreactor with a setric impeller to investigate the role of O₂ transfer efficiency of centrifugal impeller bioreactor on overall culture metabolism. The maximum cell mass for centrifugal impeller bioreactor and stirred tank bioreactor (with setric impeller) were 18.7 and 15.5 g/L (by dry cell weight) and corresponding azadirachtin concentrations were 0.071 and 0.05 g/L, respectively. Glucose and phosphate were identified as the major growth-limiting nutrients during the bioreactor cultivation. The centrifugal impeller bioreactor demonstrated less shearing and improved O₂ transfer than the stirred tank bioreactor equipped with setric impeller with respect to biomass and azadirachtin production.     

Rosmarinic acid production by Lavandula vera MM cell-suspension culture

The time courses of growth and rosmarinic acid production by Lavandula vera MM cell suspension were investigated. The uptake of the main nutrients (sucrose, nitrogen, phosphorus, K, Ca, Mg) was followed during cultivation and the data on the physiology of the L. vera MM cell culture are presented. It was established that the cell culture synthesizes rosmarinic acid during the linear phase of growth for a relatively short period (between the 4th and 8th days of cultivation). The influence of sucrose concentration in the nutrient medium on cell growth and accumulation of rosmarinic acid by L. vera MM cell culture was investigated. The results showed that 7% sucrose in the nutrient medium ensured a steady growth of the cell suspension and increased the yield of rosmarinic acid (29.2 g/l dry biomass and 507.5 mg/l rosmarinic acid compared to 13.0 g/l dry biomass and 68.6 mg/l rosmarinic acid for the control cultivation with 3% sucrose). Received: 17 September 1996 / Received revision: 31 January 1997 / Accepted: 1 February 1997     

Selection of cell lines for the production of rosmarinic acid from cell suspension cultures of Orthosihon stamineus benth

Summary Cell suspension cultures of Orthosiphon stamineus were established from friable calluses produced from leaf pieces of in vitro plantlets that were derived from nodal segments of the mother plants collected from three different geographical locations. Eight lines were eventually selected after seven subculture cycles based on the growth characteristic (plant height) of the plantlets from the three locations: two fast-growing lines (>5.1 cm tall), three intermediate-growing lines (3.1–5.0 cm tall), and three slow-growing lines (<3.0 cm tall). All eight lines grew well in liquid Murashige and Skoog medium supplemented with 4.5 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 5.4 μM 1-naphthaleneacetic acid (NAA). All cell lines exhibited the same growth pattern but produced different maximum cell biomass when cultured in this medium. The time of harvesting the plant cells from the culture medium and the geographical source of the original plant material were both found to affect the production of rosmarinic acid (RA) in cell cultures. Two cell lines were successfully selected and identified to produce high amounts of RA. These cell lines were a fast-growing cell line from Air Itam, Penang and an intermediate-growing cell line from Relau Agriculture Research Centre, Penang which could produce 5% [(w/w) dry weight] and 4.5% [(w/w) dry weight] of RA, respectively.     

High-level production of a kringle domain variant by high-cell-density cultivation of <Emphasis Type="Italic">Escherichia coli</Emphasis>

Human kringle domains (KDs) are ubiquitously expressed binding modulators that fold into seven flexible loops and it has been previously demonstrated that KDs can be engineered toward target-specific binding proteins as a non-antibody protein scaffold. Here, we report a method for efficient expression of a KD derivative (KD548)—a promising anti-cancer agent—by high-cell-density culture of Escherichia coli at a preparative scale production. The correct folding of KD548 requires three disulfide bonds. Nevertheless, cytoplasmic expression of KD548 in E. coli led to good yields of highly soluble proteins with high activity. For efficient expression, four sets of expression systems consisting of different promoters (lac or T7) and fusion tags (His or FLAG) were examined. Of these, the expression system using a combination of the T7 promoter with the FLAG tag resulted in the highest production in shake flask cultivation as well as in high-cell-density cultivation performed in a 6.6-L jar bioreactor. When protein expression was induced at high-cell density (optical density [OD] = 100) and when complex feeding solutions were supplemented, cell density (maximum OD = 184) and production yield (∼5.4 g/L) were significantly enhanced to values that were much higher than those found previously with Pichia cultivation (<8 mg/L).     

A transgenic plant cell‐suspension system for expression of epitopes on chimeric Bamboo mosaic virus particles

We describe a novel strategy to produce vaccine antigens using a plant cell‐suspension culture system in lieu of the conventional bacterial or animal cell‐culture systems. We generated transgenic cell‐suspension cultures from Nicotiana benthamiana leaves carrying wild‐type or chimeric Bamboo mosaic virus (BaMV) expression constructs encoding the viral protein 1 (VP1) epitope of foot‐and‐mouth disease virus (FMDV). Antigens accumulated to high levels in BdT38 and BdT19 transgenic cell lines co‐expressing silencing suppressor protein P38 or P19. BaMV chimeric virus particles (CVPs) were subsequently purified from the respective cell lines (1.5 and 2.1 mg CVPs/20 g fresh weight of suspended biomass, respectively), and the resulting CVPs displayed VP1 epitope on the surfaces. Guinea pigs vaccinated with purified CVPs produced humoral antibodies. This study represents an important advance in the large‐scale production of immunopeptide vaccines in a cost‐effective manner using a plant cell‐suspension culture system.     

Production of withanolide-A from adventitious root cultures of Withania somnifera

Withanolides are biologically active secondary metabolites present in roots and leaves of Withania somnifera. In the present study, we have induced adventitious roots from leaf explants of W. somnifera for the production of withanolide-A, which is having pharmacological activities. Adventitious roots were induced directly from leaf segments of W. somnifera on half strength Murashige and Skoog (MS) semisolid medium (0.8% agar) with 0.5 mg l⁻¹ indole-3-butyric acid (IBA) and 30 g l⁻¹ sucrose. Adventitious roots cultured in flasks using half strength MS liquid medium with 0.5 mg l⁻¹ IBA and 30 g l⁻¹ showed higher accumulation of biomass (108.48 g l⁻¹FW and 10.76 g l⁻¹ DW) and withanolide-A content (8.8 ± 0.20 mg g⁻¹ DW) within five weeks. Nearly 11-fold increment of fresh biomass was evident in suspension cultures and adventitious root biomass produced in suspension cultures possessed 21-fold higher withanolide-A content when compared with the leaves of natural plants. An inoculum size of 10 g l⁻¹ FW favoured the biomass accumulation and withanolide-A production in the tested range of 2.5, 5.0, 10.0 and 20.0 g l⁻¹ FW. Among different media tested [Murashige and Skoog (MS), Gamborg’s (B5), Nitsch and Nitsch (NN) and Chu’s (N6)], MS medium favoured both biomass accumulation and withanolide-A production. Half strength MS medium favoured the biomass accumulation and withanolide-A production among the different strength MS medium tested (0.25, 0.5, 0.75, 1.0, 1.5 and 2.0). The current results showed great potentiality of adventitious roots cultures for the production of withanolide-A.     

Elicitor-enhanced production of gymnemic acid in cell suspension cultures of <Emphasis Type="Italic">Gymnema sylvestre</Emphasis> R. Br.

Cell suspension cultures of Gymnema sylvestre treated with four different elicitors, methyl jasmonate (MJ), yeast extract, chitin and pectin were studied for the production of gymnemic acid as gymnemagenin equivalent, that was analyzed by high performance liquid chromatography (HPLC). All the four tested elicitors induced gymnemic acid production in cell suspension cultures. Highest gymnemic acid content was achieved following treatment with yeast extract (100.47 ± 0.28 mg/l), this was followed by MJ (70.43 ± 0.26 mg/l), pectin (64.19 ± 0.23 mg/l) and chitin (62.72 ± 0.13 mg/l). The addition of elicitors has shown a significant influence on cell growth that affected cell growth compared to respective controls. The highest gymnemic acid production was obtained after 20 days of elicitation in cultures treated with 0.5 g l^−l yeast extract, it was 5.25-folds greater than in control. These results suggest that the addition of an elicitor to Gymnema sylvestre cell suspension cultures could stimulate and enhance gymnemic acid production. In our present study we could able to overproduce gymnemic acid up to 51.97 ± 0.26 mg l^−l (dry weight basis) in yeast extract treated cell suspension cultures.     

Production of recombinant albumin by a herd of cloned transgenic cattle

Purified plasma derived human albumin has been available as a therapeutic product since World War II. However, cost effective recombinant production of albumin has been challenging due to the amount needed and the complex folding pattern of the protein. In an effort to provide an abundant source of recombinant albumin, a herd of transgenic cows expressing high levels of rhA in their milk was generated. Expression cassettes efficiently targeting the secretion of human albumin to the lactating mammary gland were obtained and tested in transgenic mice. A high expressing transgene was transfected in primary bovine cell lines to produce karyoplasts for use in a somatic cell nuclear transfer program. Founder transgenic cows were produced from four independent cell lines. Expression levels varying from 1–2 g/l to more than 40 g/l of correctly folded albumin were observed. The animals expressing the highest levels of rhA exhibited shortened lactation whereas cows yielding 1–2 g/l had normal milk production. This herd of transgenic cattle is an easily scalable and well characterized source of rhA for biomedical uses.     

Effects of nitrogen sources on cell growth and lipid accumulation of green alga <Emphasis Type="Italic">Neochloris oleoabundans</Emphasis>

Microalgal lipids are the oils of future for sustainable biodiesel production. However, relatively high production costs due to low lipid productivity have been one of the major obstacles impeding their commercial production. We studied the effects of nitrogen sources and their concentrations on cell growth and lipid accumulation of Neochloris oleoabundans, one of the most promising oil-rich microalgal species. While the highest lipid cell content of 0.40 g/g was obtained at the lowest sodium nitrate concentration (3 mM), a remarkable lipid productivity of 0.133 g l⁻¹ day⁻¹ was achieved at 5 mM with a lipid cell content of 0.34 g/g and a biomass productivity of 0.40 g l⁻¹ day⁻¹. The highest biomass productivity was obtained at 10 mM sodium nitrate, with a biomass concentration of 3.2 g/l and a biomass productivity of 0.63 g l⁻¹ day⁻¹. It was observed that cell growth continued after the exhaustion of external nitrogen pool, hypothetically supported by the consumption of intracellular nitrogen pools such as chlorophyll molecules. The relationship among nitrate depletion, cell growth, lipid cell content, and cell chlorophyll content are discussed.     

Increased miroestrol, deoxymiroestrol and isoflavonoid accumulation in callus and cell suspension cultures of Pueraria candollei var. mirifica

Miroestrol and deoxymiroestrol are highly active phytoestrogens derived from the tuberous roots of Pueraria candollei var. mirifica. To date, there have been no reports regarding the production of miroestrol and deoxymiroestrol in in vitro cell culture. In this study, callus and cell suspension cultures were established for the purpose of investigating miroestrol and deoxymiroestrol content in P. candollei var. mirifica cells. Stem-derived callus cultured on Murashige and Skoog (MS) medium supplemented with 0.1 mg l⁻¹ thidiazuron (TDZ), 0.5 mg l⁻¹ naphthaleneacetic acid (NAA), and 1.0 mg l⁻¹ benzyladenine (BA) provided optimal conditions for the accumulation of deoxymiroestrol and total isoflavonoids. The calli produced 184.83 ± 20.09 μg g⁻¹ dry weight of total chromene and 20.72 ± 2.38 mg g⁻¹ dry weight of total isoflavonoid. This is the first report to suggest that callus culture is a suitable alternative method for producing miroestrol and deoxymiroestrol. Carbon sources were evaluated for the cell suspension cultures of P. candollei var. mirifica. Sucrose provided optimal conditions for biomass production, whereas fructose was the most suitable carbon source for deoxymiroestrol and isoflavonoid production. The information from our study can be employed for enhancing the production of miroestrol, deoxymiroestrol, and total isoflavonoids using in vitro cell culture of P. candollei var. mirifica.     

The quorum-sensing effect of aerobic granules on bacterial adhesion, biofilm formation, and sludge granulation

Quorum sensing (QS) through signal chemical molecules is known to be essential to bacterial adhesion and biofilm formation. In this study, the QS ability of aerobic granules—a special form of biofilms used for biological wastewater treatment—was investigated and compared with that of conventional activated sludge flocs. A novel sectional membrane bioreactor was used together with a flow-cell to evaluate the possible influence of signal chemicals produced by the source sludge on the growth mode of bacterial cells. The results demonstrate the apparent production of QS chemicals from granules and its impact on initial cell attachment and granule formation. When granules were used as the signal-producing biomass, the attached-growth mode was dominant for the free cells, and the biofilm formation rate in the flow-cell was about ten times faster than in cases which used activated sludge as the signal source biomass. In addition, the intracellular extract from mature granules significantly accelerated the sludge granulation process. It is argued that the production and expression of QS signal chemicals from granules and granule precursors might have induced the gene expression of bacteria in suspension for attached growth rather than suspended growth, leading to granule formation and its stable structure.     

A two-stage solar photobioreactor for cultivation of microalgae based on solar concentrators

A novel two-stage experimental photobioreactor (PBR) with a total volume of 450 L and based uniquely on solar concentrators—linear Fresnel lenses—has been constructed and tested. Daily courses of irradiance, and also its distribution inside cultivation tubes, were studied in two unit types. The supra-high irradiance units in the ‘roof’ achieved a maximum summer value above 6 mmol photon m⁻² s⁻¹, while irradiance in the vertical-facade units was lower than ‘ambient’. In model cultivations, cultures of the cyanobacterium Arthrospira platensis were cultivated at much higher solar irradiances than those usually recorded outdoors in summer, indicating that this organism is resilient to high-irradiance (photoinhibition). Starting from a biomass density of 0.5 g L⁻¹ at optimum temperature, the cultures grew exponentially. A two-stage cultivation process of the green microalga Haematococcus pluvialis was investigated with respect to correlations between photochemical activities and astaxanthin production. The culture was first grown in low-irradiance units, and then exposed to supra-high irradiance when the rate of astaxanthin production was 30–50% higher than in the culture exposed to ‘ambient’ irradiance. Within 4 days, the astaxanthin content reached 3% of dry weight, whereas under ambient irradiance the astaxanthin content was 25% lower.     

Effects of abiotic and biotic elicitors on growth and isoflavonoid accumulation in Pueraria candollei var. candollei and P. candollei var. mirifica cell suspension cultures

This study demonstrates the effects of various concentrations of abiotic and biotic elicitors on the cell growth and isoflavonoid accumulation of P. candollei var. mirifica (PM) and P. candollei var. candollei (PC) cell suspension cultures. The two plant varieties exhibited different growth responses and varied isoflavonoid accumulation after the addition of elicitors. Copper sulfate, methyl jasmonate (MeJA), and yeast extract did not significantly affect the growth of either plant variety, whereas oligosaccharide and the biotic elicitors used in this study [i.e., 50 mg l⁻¹ chitosan and all concentrations of laminarin (LAM)] suppressed the growth of PM. The addition of MeJA to the medium principally induced an effect on the isoflavonoid content in both PM and PC, with 2.0 μM MeJA inducing the highest isoflavonoid content, as indicated by the induction index—4.41 in PM and 9.62 in PC cells on the 12th and ninth day of culture, respectively. A maximum total isoflavonoid content of 40.49 mg g⁻¹ dry weight was achieved in PM 21 days after elicitation with 2.0 μM MeJA. LAM elicited the PM cell suspension culture to produce puerarin, which was not found in the unelicited culture. The results of this study provide information that will be useful for enhancing the accumulation of isoflavonoids in P. candollei cell suspension cultures.     

Establishment of <Emphasis Type="Italic">Cyperus aromaticus</Emphasis> cell suspension cultures for the production of Juvenile hormone III

Cell suspension cultures of Cyperus aromaticus were established from the yellow friable callus derived from the root explants of in vitro plantlets. Four callus cell lines were selected based on their growth index from two populations of callus cultures originated from the mother plants grown in two different locations. The selected four cell lines (Z1, Z6, P4, P9) showed uniform cell growth but produced different amounts of juvenile hormone III (JHIII). The Z1 cell line possessed fast-growing characteristics, produced a high JHIII content, and was chosen as the elite cell line for an optimization study of C. aromaticus cell suspension cultures. An inoculum cell mass of 0.3 g from 12-d cultures in 30 ml culture medium was found to be the optimum inoculum size and culture age for establishing the cell suspension culture of C. aromaticus. MS basal medium supplemented with 4.5 mg/l 2,4-D and 5.5 mg/l NAA was found to be the best medium for production of maximum cell biomass and JHIII. These results indicated that JHIII can be produced from suspension culture of C. aromaticus using a single-stage cell-culture system.     

Net Primary Production and Carbon Stocks for Subarctic Mesic–Dry Tundras with Contrasting Microtopography, Altitude, and Dominant Species

Mesic–dry tundras are widespread in the Arctic but detailed assessments of net primary production (NPP) and ecosystem carbon (C) stocks are lacking. We addressed this lack of knowledge by determining the seasonal dynamics of aboveground vascular NPP, annual NPP, and whole-ecosystem C stocks in five mesic–dry tundras in Northern Sweden with contrasting microtopography, altitude, and dominant species. Those measurements were paralleled by the stock assessments of nitrogen (N), the limiting nutrient. The vascular production was determined by harvest or in situ growing units, whereas the nonvascular production was obtained from average species growth rates, previously assessed at the sites. Results showed that aboveground vascular NPP (15–270 g m⁻²), annual NPP (214–282 g m⁻² or 102–137 g C m⁻²) and vegetation biomass (330–2450 g m⁻²) varied greatly among communities. Vegetation dominated by Empetrum hermaphroditum is more productive than Cassiope tetragona vegetation. Although the large majority of the apical NPP occurred in early-mid season (85%), production of stems and evergreen leaves proceeded until about 2 weeks before senescence. Most of the vascular vegetation was belowground (80%), whereas most of the vegetation production occurred aboveground (85%). Ecosystem C and N stocks were 2100–8200 g C m⁻² and 80–330 g N m⁻², respectively, stored mainly in the soil turf and in the fine organic soil. Such stocks are comparable to the C and N stocks of moister tundra types, such as tussock tundra. Author Contributions  Matteo Campioli, Anders Michelsen, Roeland Samson, Raoul Lemeur—conceived and designed study, Matteo Campioli, Anders Michelsen, Andreas Demey, Annemie Vermeulen—performed research, Matteo Campioli—analyzed data, and Matteo Campioli—wrote the paper.     

Use of allylthiourea to produce soluble methane monooxygenase in the presence of copper

Methanotrophs expressing soluble methane monooxygenase (sMMO) may find use in a variety of industrial applications. However, sMMO expression is strongly inhibited by copper, and the growth rate may be limited by the aqueous solubility of methane. In this study, addition of allylthiourea decreased intracellular copper in Methylosinus trichosporium OB3b, allowing sMMO production at Cu/biomass ratios normally not permitting sMMO synthesis. The presence of about 1.5 μmoles intracellular Cu g⁻¹ dry biomass resulted in sMMO activity of about 250 μmoles 1-napthol formed per hour gram dry biomass whether this intracellular Cu concentration was achieved by Cu limitation or by allylthiourea addition. No loss of sMMO activity occurred when the growth substrate was switched from methane to methanol when allylthiourea had been added to growth medium containing copper. Addition of copper to medium that was almost copper-free increased the yield of dry biomass from methanol from 0.20 to 0.36 g g⁻¹, demonstrating that some copper was necessary for good growth. This study demonstrated a method by which sMMO can be produced by M. trichosporium OB3b while growing on methanol in copper-containing medium.