Lipid synthesis in the laticifers of Euphorbia lathyris L. seedlings

Various solutions of labeled precursors were absorbed by the cotyledons of etiolated Euphorbia lathyris L. seedlings. Incorporation of ¹⁴C into triterpenes from [2-¹⁴C]mevalonic acid, [1-¹⁴C]acetate, [3-¹⁴C]pyruvate, [U-¹⁴C]glyoxylate, [U-¹⁴C]glycerol, [U-¹⁴C]serine, [U-¹⁴C]xylose, [U-¹⁴C]glucose, and [U-¹⁴C]sucrose was obtained. The [¹⁴] triterpenes synthesized from [¹⁴C] sugars were mainly of latex origin. [¹⁴C]mevalonic acid was only involved in terpenoid synthesis outside the laticifers. Exogenously supplied glyoxylate, serine, and glycerol were hardly involved in lipid synthesis at all. The ¹⁴C-distribution over the various triterpenols was consistent with the mass distribution of these constituents in gas liquid chromatography when [¹⁴C]sugars, [¹⁴C]acetate, and [¹⁴C]pyruvate were used. These precursors were supplied to the seedlings in the presence of increasing amounts of unlabeled substrates. The amount of substrate directly involved in lipid synthesis as well as the absolute triterpenol yield was calculated from the obtained [¹⁴C]triterpenols. The highest yield was obtained in the sucrose incorporated seedlings, being 25% of the daily increase of latex triterpenes in growing seedlings.     

续随子的组织培养与快速繁殖

本文对能源植物续随子（Euphorbia lathyris L．）进行离体培养与快速繁殖技术研究。结果表明：以种子、茎段和顶芽为外植体均能诱导获得无菌苗,其中以茎段或顶芽的芽诱导率较高;幼芽继代增殖的最佳培养基是White＋TDZ0．05mg·L。＋IBA0．01mg·L^（-1）＋0．1％活性炭,培养25d的增殖系数约为4．5;而最适生根培养基为1／2MS＋NAA1．0mg．L^（-1）＋0．1％活性炭,炼苗移栽后,成活率约为60％。培养过程中,通过控制细胞分裂素浓度能有效解决续随子培养中的玻璃化问题,添加0．1％的活性炭对缓解外植体和无菌苗褐化效果较好。     

Lipid Synthesis and Ultrastructure of the Laticifers of Etiolated Euphorbia lathyris Seedlings

In 6–14-day-old etiolated seedlings of Euphorbia lashyrisa latex triterpene synthesis of 19 µg day^–1 wasrecorded. This production was proportional to stem growth. Laticiferdistribution in the cotyledons and stem was studied. In ultra-thinsections the occurrence of many mitochondria was observed. A¹⁴C-latex triterpene synthesis was measured after ¹⁴C-glucoseand ¹⁴C-sucrose uptake by the cotyledons in which most of the¹⁴C-triterpenes were synthesized. ¹⁴C-incorporation into theselipids from [1^–14C]glucose, [6-¹⁴C]glucose and [3,4^–14points to a glycolytic catabolism of glucose prior to terpenesynthesis. The possible involvement of mitochondria in thissynthesis is discussed. Euphorbia lathyris, triterpene synthesis, laticifer, latex, mitochondria, ultrastructure     

Triterpene Biosynthesis in the Latex of Euphorbia lathyris: Calmodulin Antagonists Are Ineffective in Whole Latex

The calmodulin antagonists chlorpromazine, fluphenazine, trifluoperazine, and 2-(pentachlorophenoxy)ethyl N,N-diethylamine are not inhibitors of acetate incorporation into triterpenols (TOH) and their fatty acid esters (TE) in whole tapped latex from Euphorbia lathyris, although prior work demonstrated that these antagonists are good inhibitors of mevalonate incorporation into TOH and TE in a centrifuged pellet from the latex. Antagonist absorption into the endogenous terpene pool is the primary reason for antagonist ineffectiveness in whole latex; changes in the utilized substrate or chemical deactivation of the antagonists were ruled out as factors. A biosynthetically inactive, latex supernatant fraction containing the endogenous terpene pool was prepared. This fraction blocks antagonist action when added to the latex pellet, and proved to be a useful tool for demonstrating that inhibition of triterpene biosynthesis by a calmodulin antagonist is partially reversible.     

Enhancement of Terpenoid Biosynthesis from Mevalonate in a Fraction of the Latex from Euphorbia lathyris

A latex pellet fraction from Euphorbia lathyris incorporates mevalonate into triterpenols and their fatty acid esters. Conditions for improved incorporation were determined. CaCl₂ or CaCl₂ plus MnCl₂ stimulated biosynthesis, and the metal ion chelator, ethylenebis(oxyethylenenitrilo)tetraacetic acid (EGTA) enhanced stimulation. Ethylenediaminetetraacetic acid was almost as effective as EGTA, but phthalic acid and citric acid were relatively poor stimulators. The concentration of the Ca²⁺-EGTA complex was directly measured, and the incorporation data are best fitted by a curve that shows that the receptor for the complex is saturable. In the presence of the metal-chelate complex, the addition of fructose, 1,6-bisphosphate plus aldolase (triose-P) or malate provided additional stimulation. Incorporation was maximum at 40 micromolar R-mevalonate, and inhibition occurred at higher concentrations. The apparent K_m for R-mevalonate was 15 micromolar. Under improved reaction conditions, the rate of triterpenoid biosynthesis from mevalonate is 25 times faster than was previously observed (GJ Piazza, EJ Saggese, KM Spletzer [1987] Plant Physiol 83: 177-180).     

Triterpene Biosynthesis in the Latex of Euphorbia lathyris: Effect of Calmodulin Antagonists and Chlorinated Phenoxy Compounds

Recognized calmodulin antagonists and chlorinated phenoxyalkylamines were tested as inhibitors of mevalonate incorporation into triterpenols and their fatty acid esters in a centrifuged pellet from the latex of Euphorbia lathyris. The calmodulin antagonists, chlorpromazine (II), fluphenzine, and trifluoperazine were good inhibitors; I₅₀ values for II and trifluoperazine were 150 and 55 micromolar, respectively. Inhibition by the phenoxyalkylamines increased with increasing chlorine substitution, and I₅₀ for 2-(pentachlorophenoxy)ethyl N,N-diethylamine (IX) was 35 micromolar. The calmodulin-stimulated phosphodiesterase catalyzed hydrolysis of cAMP was used as an assay to quantitate the calmodulin antagonism of the tested compounds. Compounds II and IX were calmodulin antagonists over a concentration range similar to their effective range in the biosynthesis of triterpenes. The antagonism of the chlorinated phenoxy compounds increased in parallel to their inhibitory effect upon triterpene biosynthesis.     

Mobilization of Endosperm Reserves and Uptake of Sucrose and Valine by the Cotyledons of Euphorbia lathyris L.

Upon germination, the endosperm triacylglycerols and proteinswere converted to sucrose and amino acids. During early postgerminativegrowth, the rate of sucrose and amino acid production exceededthe rate of uptake by the cotyledons. As a result, the levelsof total amino acid and sucrose in the endosperm increased;maximum levels were reached at 7 d and 10 d after imbibition(DAI), respectively. Intact seedlings were used to measure thedevelopment of valine, arginine, glutamic acid, and sucroseuptake rate throughout the course of endosperm depletion. Maximumamino acid uptake rates were measured at around 9 DAI, the highestuptake rate for sucrose was obtained at 12 DAI (just beforedepletion of the endosperm). The daily increase of sucrose andamino acid uptake could be manipulated, by replacing the endospermwith a pre-incubation solution during 1 d. The increase in sucroseuptake in vitro was equal to that measured with intact seedlingswhen the cotyledons were pre-incubated in 10 mol m^–3 sucrose.Higher sucrose concentrations reduced the increase of sucroseuptake; at 300 mol m^–3 sucrose (corresponding to the meanendosperm sucrose concentration) sucrose uptake after pre-incubationwas even lower than before. This reduction was largely counteractedwhen the pre-incubation solution was supplemented with minerals.The development of the valine uptake was hardly affected bysucrose, but was inhibited by several amino acids. Key words: Euphorbia lathyris seedling, sucrose uptake, amino acid uptake, reserve mobilization     

Production and selected fuel properties of biodiesel from promising non-edible oils: Euphorbia lathyris L., Sapium sebiferum L. and Jatropha curcas L

A comparative study on the composition, biodiesel production and fuel properties of non-edible oils from Euphorbia lathyris L. (EL), Sapium sebiferum L. (SS), and Jatropha curcas L. (JC) was conducted. Under optimal conditions, the FAME content and yield of the three oils were greater than 97.5 wt.% and 84.0%, respectively. The best biodiesel was produced from EL due to its high monounsaturation (82.66 wt.%, Cn: 1), low polyunsaturation (6.49 wt.%, Cn: 2, 3) and appropriate proportion of saturated components (8.78 wt.%, Cn: 0). Namely, EL biodiesel possessed a cetane number of 59.6, an oxidation stability of 10.4 h and a cold filter plug point of -11 °C. However, the cetane number (40.2) and oxidative stability (0.8 h) of dewaxed SS kernel oil (DSSK) biodiesel were low due to the high polyunsaturation (72.79 wt.%). In general, the results suggest that E. lathyris L. is a promising species for biodiesel feedstock.     

The Effect of Sucrose Supply on the Energization of Amino Acid Uptake by Cotyledons of Euphorbia lathyris L

The cotyledons of Euphorbia lathyris L. take up sucrose andamino acids from the endosperm. The interaction between theuptake of sucrose and that of amino acids by cotyledons of intactseedlings was investigated. Sucrose (100 mol m^–3) reducedvaline uptake to 75% of the control rate; the active uptakecomponent of valine uptake was reduced from 45 to 25 % of thetotal uptake rate. In a reverse experiment, 100 mol m^–3valine inhibited sucrose uptake by 25%. At 500 mol m^–3sucrose, valine uptake was completely restored to the controlrate, whereas high valine concentrations failed to restore sucroseuptake. The stimulation of valine uptake by sucrose is linkedto the role of sucrose as a primary respiratory substrate. Whenthe cotyledons were bathed in sucrose concentrations rangingfrom 0 to 100 mol m^–3 (these concentrations are non-saturatingwith respect to sucrose uptake), a constant 1.8% of the sucrosetaken up was respired. The K_m of the concentration-dependentsucrose oxidation (44±6 mol m^–3) agreed reasonablywell with that for sucrose uptake (29±6 mol m^–3).When the external sucrose concentration was increased from 100to 600 mol m^–3, the sucrose uptake increased by 30% again,while sucrose oxidation was increased by 300%. This increasewas not due to an increased engagement of the alternative (cyanide-resistant)pathway for respiration. Alternative pathway, Euphorbia lathyris L., fermentation, seedling, sucrose uptake, valine uptake     

Laticifers and the classification of Euphorbia: the chemotaxonomy of Euphorbia esula L.

Laticifers and the classification of Euphorbia: the chemotaxonomy of Euphorbia esula L. Articulated and non-articulated laticifer cells represent distinctive cell types of relatively recent origin and occur in only a few families. Both types are of separate phylogenetic origin, reflecting independent evolutionary trends in the Euphorbiaceae. Supra-generic groupings of this family can be segregated into three taxonomic units using the laticifer character; with either articulated laticifers, non-articulated laticifers, or no laticifers. Such units may reflect more natural assemblages than now represented in the classification of this family. Laticifers possess chemical and morphological features of potential application as taxonomic characters to aid in delimiting species and interpreting evolutionary trends. The triterpenoid profile from latex of Euphorbia species has been shown to be diagnostic for a taxon. The qualitative and quantitative composition show a high level of stability under diverse environmental and physiological conditions indicating a genetic basis for triterpenoid synthesis. Triterpenoid profiles of known accessions of European E. esula L. and related presumptive taxa from North America readily separated them into distinctive chemotaxa that include one for E. esula L., whereas morphological features were found inadequate for separating accessions to presumptive taxa. Identification of adventive spurges in North America requires diagnostic analyses of Eurasian leafy spurges for comparison. Laticifer characters used in conjunction with relevant morphological features will provide a broadened insight into phylogenetic relationships with the Euphorbiaceae.     

Euphorbiasteroid,a component of Euphorbia lathyris L., inhibits adipogenesis of 3T3‐L1 cells via activation of AMP‐activated protein kinase

The purpose of this study is to investigate the effects of euphorbiasteroid, a component of Euphorbia lathyris L., on adipogenesis of 3T3‐L1 pre‐adipocytes and its underlying mechanisms. Euphorbiasteroid decreased differentiation of 3T3‐L1 cells via reduction of intracellular triglyceride (TG) accumulation at concentrations of 25 and 50 μM. In addition, euphorbiasteroid altered the key regulator proteins of adipogenesis in the early stage of adipocyte differentiation by increasing the phosphorylation of AMP‐activated protein kinase (AMPK) and acetyl‐CoA carboxylase. Subsequently, levels of adipogenic proteins, including fatty acid synthase, peroxisome proliferator‐activated receptor‐γ and CCAAT/enhancer‐binding protein α, were decreased by euphorbiasteroid treatment at the late stage of adipocyte differentiation. The anti‐adipogenic effect of euphorbiasteroid may be derived from inhibition of early stage of adipocyte differentiation. Taken together, euphorbiasteroid inhibits adipogenesis of 3T3‐L1 cells through activation of the AMPK pathway. Therefore, euphorbiasteroid and its source plant, E. lathyris L., could possibly be one of the fascinating anti‐obesity agent. Copyright © 2015 John Wiley & Sons, Ltd.     

Biosynthesis of Cephalosporin C: I. Factors Affecting the Fermentation

A series of complex and synthetic media have been developed that are suitable for the production of cephalosporin C and cephalosporin N by a mutant strain of Cephalosporium (C.M.I. 49,137). dl-Methionine increased the yield of both antibiotics, with more effect on cephalosporin N. l-Cystine had a greater enhancing effect on formation of cephalosporin C than on formation of cephalosporin N in synthetic media; serine increased yields of cephalosporin C under certain conditions. Disaccharides or polysaccharides appeared to be the best source for carbohydrates. No evidence was found for precursor action such as is found in penicillin fermentations. The ability of resting cells to produce antibiotic was demonstrated.     

Quantitative aspects of latex lipid synthesis in Euphoribia lathyris L. seedlings

Changes in the dry weight of the endosperm of Euphorbia lathyris L. seedlings showed that 2 mg material was taken up by the cotyledons after 10 d germination. A similar amount of sucrose could be taken up by these seedlings after removal of the endosperm. The maximum yield of latex triterpenes synthesized from this exogenously supplied substrate was in the same order of magnitude as the daily latex lipid increase in 19 g per seedling. Cotyledons and adjacent 1–2 cm segment of the hypocotyl were the most active tissues in latex trieterpene synthesis. Excised cotyledons were able to accumulate 1–1.5 mg sucrose in 48 h from a sugar concentration higher than 0.1 mol l^-1. In this period a maximum amount of 8–10 g latex triterpenes could be synthesized from this substrate. [¹⁴C]Mevalonic acid was rapidly taken up by excised cotyledons but not metabolized by the laticifers. This exogenously supplied precursor was rapidly converted to squalene and triterpenes by the adjacent tissue, and after 48 h incubation most of the ¹⁴C in the nonsaponifiable fraction was traced in the phytosterolds.     

α-Naphthalene Acetic Acid Regulated Anthocyanins,Polyphenols and Associated Enzymes in Euphorbia heterophylla L. Seedling Explant Cultures

Stem and leaf explants of Euphorbia heterophylla L. were cultured on Murashige and Skoog’s medium (MSM) supplemented with α-naphthalene acetic acid (NAA) at different concentrations. Fresh weight of callus from both the explants increased by augmenting NAA. However, rhizogenesis decreased as measured by the fresh weight of root mass. Anthocyanin and polyphenol accumulation, activities of phenylalanine ammonia lyase, peroxidase and polyphenol oxidase decreased with elevated NAA concentration. Plantlet regeneration occurred in the absence of exogenous cytokinins. Possibility of replacing hazardous synthetic food colourants by anthocyanins produced in vitro is suggested.     

大戟属药用植物的研究进展

从大戟属(Euphorbia L.)药用植物的形态解剖特征、化学成分、药理作用、临床应用及rDNA的ITS序列分析等方面,对该属植物近年来的研究报告进行了归纳综述,并指出,今后应该加强大戟属的植物结构与其主要化学成分的关系以及综合利用的研究.     

泽漆营养器官发育解剖学研究

采用石蜡切片法、半薄切片法对泽漆营养器官的发育过程进行了观察,同时对3种器官中乳汁管的分布和大小进行了分析。结果表明:泽漆根的发育类似于草本双子叶植物根的一般发育规律。初生木质部为三原型。茎的初生结构由表皮、皮层、维管束环和髓构成,其髓中有空腔,而茎的次生生长过程中维管形成层的活动短暂,仅产生少量次生维管组织,不形成周皮。叶的发育包括原分生组织、初生分生组织和成熟结构3个阶段,属于异面叶结构。泽漆乳汁管主要分布在维管束韧皮部的外侧。在3种器官中,乳汁管直径差异较大,依次为根>茎>叶。