Morphometric measurements of Daucus carota suspension culture cells

Standard stereologic methods have been applied to electron micrographs of Daucus carota L. suspension culture cells. The relative frequencies of the different membrane systems within the cells have been determined and compared with published data form mature leaf cells.     

Oleosomes (Spherosomes) from Daucus carota suspension culture cells

Isolated oleosomes from Daucus carota L. cells are lipid droplets consisting mainly of triacylglycerols (>97%) and very little protein (1–2%). The boundary between the lipid phase and the cytosol, which is visible on electron micrographs, is not built up by a true phospholipid-containing unit or half unit membrane. Enzymatic activities of lipid metabolism were not found to be associated with oleosomes with the exception of very low (contaminating) acyl-CoA:1,2-diacylglycerol acyltransferase (EC 2.3.1.20) and relatively high acyl-CoA hydrolase (EC 3.1.2.2) activities. The triacylglycerols exhibited a half life time of about 70 h, which is below the generation time of the cells (80–90 h). The fatty acid pattern of triacylglycerols was very similar to that of polar cellular membrane lipids.     

Anthocyanins from cell suspension cultures of Daucus carota.

Six anthocyanins were isolated from cell suspension cultures of an Afghan cultivar of Daucus carota by PC or HPLC. The structures of these compounds were elucidated by spectroscopic methods as cyanidin 3-O-lathyroside, cyanidin 3-O-(2'-O-beta-D-xylopyranosyl-6'-O-beta-D-glucopyranosyl-beta-D- galactopyranoside), and the latter acylated with 4-coumaric, ferulic, 4-hydroxybenzoic or sinapic acid. Unusual 1H NMR chemical shifts and 1H NOE data indicate an intramolecular copigmentation of the aglycone with these aromatic residues.     

The uptake of acylated anthocyanin into isolated vacuoles from a cell suspension culture of Daucus carota

Anthocyanin-containing vacuoles were isolated from protoplasts of a cell suspension culture of Daucus carota. The vacuoles were stable for at least 2 h as demonstrated by the fact that they showed no efflux of anthocyanin. The uptake of radioactively labelled anthocyanin was time-dependent with a pH optimum at 7.5, and could be inhibited by the protonophore carbonylcyanide m-chlorophenylhydrazone. Furthermore, the transport was specific, since vacuoles from other plant species showed no uptake of labelled anthocyanin, and strongly depended on acylation with sinapic acid, as deacylated glycosides were not taken up by isolated vacuoles. Hence, it is suggested that the acylation of anthocyanin, which is also required for the stabilization of colour in vacuoles, is important for transport, and that acylated anthocyanin is transported by a selective carrier and might be trapped by a pH-dependent conformational change of the molecule inside the acid vacuolar sap.Abbreviations CCCP carbonylcyanide m-chlorophenylhydrazone - EDTA ethylenediaminetetraacetic acid - ER endoplasmic reticulum - PVP polyvinylpyrrolidone - TLC thin-layer chromatography     

Anthocyanin accumulation and PAL activity in a suspension culture of Daucus carota L.

Cells of Daucus carota grown in a liquid medium produced large amounts of cyanidin as the only flavonoid aglycon. After inoculation in fresh medium a maximum activity of phenylalanine ammonia lyase (PAL; EC 4.3.1.5) was observed within 24 h. L--aminooxy--phenylpropionic acid (L-AOPP), thought to be a competitive inhibitor of PAL, inhibited cyanidin accumulation up to 80%. In order to study the regulatory role of PAL, the effects of L-AOPP and t-cinnamic acid, the product of the deamination of phenylalanine, were investigated. Cinnamic acid, applied in vivo (10^-4 M), was not able to compensate for the inhibition of cyanidin production caused by L-AOPP (10^-4 M) in the same sample. Carrot cells treated with L-AOPP exhibited a super-induction of PAL already described for gherkin hypocotyls (Amrhein and Gerhardt 1979). This effect was not influenced by t-cinnamic acid. L-AOPP seems to be a very specific inhibitor since it affected neither growth nor soluble protein content, whereas t-cinnamic acid inhibited both. Investigations on the content of soluble amino acids in L-AOPP-treated cells revealed a specific accumulation of soluble phenylalanine, whereas treatment with t-cinnamic acid led to an increase of amino acids in general, thus indicating that the latter compound has a rather unspecific effect on cellular metabolism. In vitro studies with PAL isolated from Daucus carota revealed that L-AOPP inhibited the enzyme at very low doses (K _I=2.4·10^-9), whereas t-cinnamic acid, by comparison, affected the enzyme at high concentrations (K _I=1.8·10^-4).Abbreviations PAL phenylalanine ammonia lyase - L-AOPP L--aminooxy--phenylpropionic acid     

Chalcone synthase from cell suspension cultures of Daucus carota L

Chalcone synthase (CHS) has been partially purified about 35-fold. Withdrawal of 2-mercaptoethanol after precipitation with ammonium sulfate led to higher stability during further purification steps. In order to determine CHS activity, two procedures [according to Schr?der et al. (1979) Plant Sci. Lett. 14, 281-286] were applied. The radioactivity extracted with ethyl acetate from the assay mixture (total products) was compared to 14C-labeled flavanone purified by TLC. The activity of CHS increased with bovine serum albumin (BSA) or 2-mercaptoethanol in the assay. Both effects were synergistic, but BSA did not promote "side products" as 2-mercaptoethanol did. BSA (10 mg ml-1) and 2-mercaptoethanol (1.4 mM) were components of the standard assay. Under these conditions, the CHS from Daucus carota had different pH optima for naringenin formation (7.9) and eriodictyol formation (6.8). The apparent Km values were 0.6 microM for 4-coumaroyl-CoA (pH 7.9), 7.7 microM for caffeoyl-CoA (pH 6.8), and 3.0 microM for malonyl-CoA (pH 7.9). Substrate inhibition was observed with 4-coumaroyl-CoA (greater than 10 microM) and malonyl-CoA (greater than 50 microM). The inhibitory activity of various flavonoids and related compounds (100 microM) was investigated. Naringenin and naringenin-chalcone inhibited eriodictyol formation totally and naringenin formation by 50%. In contrast, eriodictyol and eriodictyol-chalcone inhibited only eriodictyol formation by 40%. It was shown that the inhibition with naringenin was fully uncompetitive. These in vitro data support the view that the true substrate of CHS in D. carota is 4-coumaroyl-CoA.     

The fate of surface cell layers of Daucus carota (L.) embryos raised in suspension culture

The ultrastructure and fate of surface cells covering mature somatic embryos of Daucus carota grown in suspension culture were analyzed and new information obtained concerning somatic embryogenesis in these conditions. Our studies showed that during some developmental stages, these embryos were covered irregularly and discontinuously by cells with a typical protodermal phenotype characterized by a cuticle on the outer cell wall. We observed that cells with cuticles were peeled off from the surface of mature embryos. Before peeling off, these cells underwent programmed cell death, which was confirmed by the TdT-mediated dUTP nick end labeling method. Transmission electron microscopy revealed advanced processes of autophagy in these cells.     

Lipids,lipid turnover,and phospholipase D in plant suspension culture cells (Daucus carota)

The lipid pattern of Daucus carota L. suspension culture cells and other plant cell strains was analyzed. Phosphatidylcholine, phosphatidylethanolamine, phosphatidylinositol, and triacylglycerol were the main components. The characteristic plastidal and mitochondrial lipids could also be identified. All strains tested exhibited a phospholipase D activity. Several lipid precursors were found to be well utilized by the cells and to be special markers for certain lipids or parts of the lipid molecules. The half life times of the major lipids ranged at about half a generation time of the cells.     

Gradient of anthocyanin in cell aggregates of Daucus carota in suspension cultures

Summary The size distribution of cell aggregates, and the effect of cell aggregate size on anthocyanin content of Daucus carota cells in suspension cultures, was studied. The profile of biomass distribution in various size groups of cell aggregates indicated that over 92% of biomass was present in the aggregates of 500–1500 m in diameter. The anthocyanin content increased initially with the increase in cell aggregate diameter up to 500–850 m, and decreased rapidly with the increase in the cell aggregate size above this critical diameter. On the other hand, the surface colour intensity showed a steady increase with the increase in cell aggregate size, indicating a steep radial gradient of anthocyanin content along the radius of the larger cell aggregates.     

Dihydrofolate reductase from Daucus carota cell suspension cultures: purification,molecular and kinetic characterization

Summary The purification of dihydrofolate reductase (5, 6, 7, 8 tetrahydrofolate: NADP⁺ oxidoreductase, E.C.: 1.5.1.3) from Daucus carota to apparent homogeneity, is described. The enzyme is a soluble protein with a molecular weight of 183 000±2 500, composed of identical subunits of 58 400±1 000. The enzyme is only weakly recognized by antibodies against human DHFR. The carrot DHFR is characterized by a pH optimum of 5.9, Km values for dihydrofolate and NADPH of 3.7 M and 2.2 M, respectively and a turnover number of 4 750 or 1 500 when referring to the 183 K form or the 58 K monomer, respectively. Molecular and kinetic properties are remarkably different from those reported for the soybean enzyme. Sensitivity to methotrexate is similar to that of bacterial and mammalian enzymes while sensitivity to trimethoprim and dihydrotriazine is intermediate between the two groups of organisms.     

Kinetics of carrot somatic embryo development in suspension culture

Somatic embryos in liquid culture can serve as a mass cloning system in a plant propagation program. A quantitative formulation of embryo development obtained from cell suspension cultures is used to develop a segregated kinetic model. The model is based on standard classification schemes as previously developed by plant physiologists. Dependent variables include carbohydrate concentrations (sucrose, fructose, and glucose) and biomass apportioned among the inoculum (free single cells, cell clusters), normal developmental stages, and aberrant cell and embryo types. Good agreement between the model and experimental results is indicated and allows for a rigorous approach to media optimization and reactor scaleup for embryo formation.     

Protoplast Cultures from Cell Suspensions of Daucus carota

Protoplasts, enzymatically isolated from cell suspension cultures of Daucus carota, have been grown in small Petri-dishes. After enzyme treatment and washing the protoplasts were plated in agar media. Growth and divisions were viewed through the bottom of the Petri-dishes with a light microscope. Different osmotic stabilizers were tested with respect to their ability to promote wall formation and growth of the protoplasts. Combinations of sucrose, sorbitol and “Modopeg” gave the best results. Electron micrographs of cultured protoplasts revealed normal as well as abnormal nuclear conditions.     

Purification and characterization of a soluble beta-fructofuranosidase from Daucus carota.

Soluble beta-fructofuranosidase with an intracellular location and an isoelectric point of 3.8 (isoenzyme I) was purified and characterized from dry seeds and seedlings of carrot (Daucus carota). The enzyme hydrolyzed sucrose with a Km of 5 mM and a broad pH optimum around 5.0. The purified protein, which was N-glycosylated with high-mannose-containing and high-xylose-containing complex glycans, eluted as a monomeric polypeptide with a molecular mass of 68,000 from a gel-filtration column. On SDS/PAGE, the protein separated in the presence of SDS and 2-mercaptoethanol into three polypeptides with molecular masses of 68, 43 and 25 kDa. The amount of the 68-kDa polypeptide was highest in dry seeds and decreased with increasing age of carrot seedlings. Amino acid sequence analysis and immunological studies showed that the 43-kDa and 25-kDa polypeptides were N-terminal and C-terminal proteolytic fragments of the 68-kDa polypeptide. A comparison of partial amino acid sequences of the soluble beta-fructofuranosidase with the complete sequence of carrot cell-wall beta-fructofuranosidase showed that their N-terminal sequences were different, whereas some of the internal tryptic peptide sequences were up to 70% identical.     

Coumarin inhibits the growth of carrot (Daucus carota L. cv. Saint Valery) cells in suspension culture

We used a carrot (Daucus carota L. cv. Saint Valery) cell suspension culture as a simplified model system to study the effects of the allelochemical compound coumarin (1,2 benzopyrone) on cell growth and utilisation of exogenous nitrate, ammonium and carbohydrates. Exposure to micromolar levels of coumarin caused severe inhibition of cell growth starting from the second day of culture onwards. At the same time, the presence of 50 mumol/L coumarin caused accumulation of free amino acids and of ammonium in the cultured cells, and stimulated their glutamine synthetase, glutamate dehydrogenase, glucose-6-phosphate dehydrogenase and phosphoenolpyruvate carboxylase activities. Malate dehydrogenase, on the other hand, was inhibited under the same conditions. These effects were interpreted in terms of the stimulation of protein catabolism and/or interference with protein biosynthesis induced by coumarin. This could have led to a series of compensatory changes in the activities of enzymes linking nitrogen and carbon metabolism. Because coumarin seemed to abolish the exponential phase and to accelerate the onset of the stationary phase of cell growth, we hypothesise that such allelochemical compounds may act in nature as an inhibitor of the cell cycle and/or as a senescence-promoting substance.     

Hypotensive action of coumarin glycosides from Daucus carota.

Daucus carota (carrot) has been used in traditional medicine to treat hypertension. Activity-directed fractionation of aerial parts of D. carota resulted in the isolation of two cumarin glycosides coded as DC-2 and DC-3. Intravenous administration of these compounds caused a dose-dependent (1-10 mg/kg) fall in arterial blood pressure in normotensive anaesthetised rats. In the in vitro studies, both compounds caused a dose-dependent (10-200 microg/ml) inhibitory effect on spontaneously beating guinea pig atria as well as on the K+ -induced contractions of rabbit aorta at similar concentrations. These results indicate that DC-2 and DC-3 may be acting through blockade of calcium channels and this effect may be responsible for the blood pressure lowering effect of the compounds observed in the in vivo studies.     

胡萝卜DcPAB基因的分离及其结构与功能分析

运用改进的减法杂交技术分离到胡萝卜Poly(A)结合蛋白基因DcPAB .其cDNA编码区长度为 1 977bp ,编码 6 5 8个氨基酸和 1个终止密码子 .基因组转录序列区长度为 4 6 1 6bp ,包含 9个外显子和 8个内含子 .DcPAB在胡萝卜基因组中为单拷贝基因 .该基因在胡萝卜体细胞胚中特异性表达 ,且其表达活性在调控 解调控前后有明显差异 .体外结合实验表明 ,在大肠杆菌中表达并纯化的DcPAB蛋白具有与oligo(A) 2 0 特异性结合的性能 .酵母突变体互补实验进一步证明 ,该基因可以互补PAB基因缺失的酵母突变体的功能缺陷     

N-acetyl glutamate kinase from Daucus carota suspension cultures: embryogenic expression profile, purification and characterization.

In Daucus carota, N-acetylglutamate-5-phosphotransferase (NAGK; E.C. 2.7.2.8) specific activity was shown to correlate with the progression of somatic embryogenesis and was highest in the latter stages, where growth was most rapid. The enzyme was subsequently purified greater than 1200-fold using heat treatment, ammonium sulfate fractionation, gel filtration, anion exchange and dye ligand chromatography. Carrot NAGK was shown to have a subunit molecular weight of 31 kDa and form a hexamer. The Kms for NAG and ATP are 5.24 and 2.11 mM, respectively. Arginine (Arg) is a K-type allosteric inhibitor of the enzyme, and Hill coefficients in the order of 5 in the presence of Arg suggest that the enzyme is highly cooperative. D. carota NAGK does not bind to Arabidopsis thaliana PII affinity columns, nor does the A. thaliana PII increase NAGK specific activity, indicating its cellular location is probably different.     

Changes in phosphatidylinositol metabolism in response to hyperosmotic stress in Daucus carota L. cells grown in suspension culture.

Carrot (Daucus carota L.) cells plasmolyzed within 30 s after adding sorbitol to increase the osmotic strength of the medium from 0.2 to 0.4 or 0.6 osmolal. However, there was no significant change in the polyphosphorylated inositol phospholipids or inositol phosphates or in inositol phospholipid metabolism within 30 s of imposing the hyperosmotic stress. Maximum changes in phosphatidylinositol 4-monophosphate (PIP) metabolism were detected at 5 min, at which time the cells appeared to adjust to the change in osmoticum. There was a 30% decrease in [3H]inositol-labeled PIP. The specific activity of enzymes involved in the metabolism of the inositol phospholipids also changed. The plasma membrane phosphatidylinositol (PI) kinase decreased 50% and PIP-phospholipase C (PIP-PLC) increased 60% compared with the control values after 5 min of hyperosmotic stress. The PIP-PLC activity recovered to control levels by 10 min; however, the PI kinase activity remained below the control value, suggesting that the cells had reached a new steady state with regard to PIP biosynthesis. If cells were pretreated with okadaic acid, the protein phosphatase 1 and 2A inhibitor, the differences in enzyme activity resulting from the hyperosmotic stress were no longer evident, suggesting that an okadaic acid-sensitive phosphatase was activated in response to hyperosmotic stress. Our work suggests that, in this system, PIP is not involved in the initial response to hyperosmotic stress but may be involved in the recovery phase.     

Regulation of glutamate dehydrogenase activity by manipulation of nucleotide supply in Daucus carota suspension cultures

The enzyme glutamate dehydrogenase (GDH, EC 1.4.1.2) is ubiquitous in plant species. It is now generally accepted that the primary role of this enzyme is not assimilation of ammonium and it has been suggested that GDH may be important in provision of carbon skeletons under conditions of carbon limitation. In carrot ( Daucus carota L. Chantenay) cell suspension cultures carbon starvation results in de-repression of GDH activity. The regulation of this de-repression has not been investigated. This paper examines the possibility that the availability of adenosine nucleotides is instrumental in the regulation of GDH activity. In repressed cultures the adenosine nucleotides cAMP (0.2 m M ), AMP (0.2 m M ) and ADP (0.4 m M ) caused an increase in GDH activity of 61, 33 and 7%, respectively. ATP (0.2 m M ) had the opposite effect in maintaining repression of GDH. Under de-repressed conditions only cAMP (0.2 m M ) enhanced GDH activity (14%). Inhibition of oxidative phosphorylation using a range of inhibitors resulted in de-repression of GDH and stimulation of respiration. The results from this work indicate that exogenously applied adenosine nucleotides and electron transport inhibitors alter the GDH repression/de-repression status. Addition of these compounds alters or disrupts ATP levels, mimicking carbon depletion. This causes an increase in GDH activity, supporting the idea that GDH may provide carbon skeletons for carbon metabolism and suggesting that ATP status is important in regulation of the enzyme activity.