真菌诱导子对青蒿发根细胞生长和青蒿素积累的影响

３种真菌诱导子（大菌丽花轮枝孢（Ｖｅｒｔｉｃｉｌｌｉｕｍ ｄａｈｉａｅ Ｋｌｅｂ．）、葡枝根霉（Ｒｈｉｚｏｐｕｓ ｓｔｏｌｏｎｉｆｅｒ（Ｅｈｒｅｎｂ．ｅｘＦｒ．）Ｖｕｉｌｌ）和束状刺盘孢（Ｃｏｌｌｅｔｏｒｉｃｈｕｍ ｄｅｍａｔｉｕｍ（Ｐｅｒｓ．）Ｇｒｏｖｅ）处理青蒿（Ａｒｔｅｍｉｓｉａ ａｎｎｕａＬ．）的发根,均能促进发根中青蒿素的积累,其中以大丽花轮枝孢的诱导效果最好;对细胞生长均没有明显影响,     

Effects of Fungal Elicitors on Cell Growth and Artemisinin Accumulation in Hairy Root Cultures of Artemisia annua

The artemisinin accumulation in the hairy root cultures of Artemisia annua L. was enhanced via a treatment of three fungal elicitors separately ( Verticillium dahliae Kleb., Rhizopus stolonifer (Ehrenb. ex Fr. ) Vuill and Colletotrichum dematium (Pers.) Grove). Among these three elicitors, V. dahliae had the highest inducing efficiency, but none of them manifests any noticeable effects on the cell growth of the hairy root cultures. The artemisinin content of the hairy root cultures treated with V. dahliae elicitor was 1.12 mg/g DW, which was 45% higher than the control (0.77 mg/g DW). The results showed that elicitation was dependent on the elicitor concentration, the incubation period and the physiological stage at which the hairy root cultures were treated. In addition, the authors found that for V. dahliae, the optimum concentration was 0.4 mg carbohydrate per millilitre medium, the strongest response of A. annua hairy root cultures to the elicitation was at the late exponential growth stage, and the highest artemisinin content of the hairy root cultures was on the 4th day post treatment.     

CHAPS Solubilization and Functional Reconstitution of beta-Glucan Synthase from Red Beet Root (Beta vulgaris L.) Storage Tissue

A method for the solubilization and reconstitution of red beet (1,3)-β-d-glucan synthase with the detergent 3-[(3-cholamidopropyl) dimethylammonio]-1-propane sulfonate (CHAPS) was developed. Glucan synthase was effectively solubilized from microsomal or plasma membranes by 0.6% CHAPS in the presence of EGTA and EDTA. Chelators were found essential for effective solubilization and divalent cations inhibitory. A preextraction of membranes with 0.3% CHAPS and 5 millimolar Mg²⁺ prior to the solubilization step was found to remove protein contaminants and increase the specific activity of the solubilized enzyme. Conditions for recovering activity from Sepharose 4B gel filtration columns were defined. Addition of phospholipids and low levels of CHAPS in column elution buffers resulted in complete functional reconstitution with 100% recovery of added activity. Specific activities were increased 20- to 22-fold over microsomes. Active vesicles were recovered by centrifugation. These results provide independent and direct confirmation of the enzyme's requirement for a phospholipid environment.     

不同理化因子对雪莲毛状根生长和总黄酮生物合成的影响

在 1 2MS液体培养基上研究了不同理化因子对水母雪莲毛状根生长和总黄酮生物合成的影响。实验结果表明 :氮源总浓度 (包括NH+4和NO-3)为 30mmol L ;NH⁺₄ NO^-₃比例为 5∶2 5 ;2 %蔗糖和 3%葡萄糖组合 ;0.5mg LGA₃和 0.5mg LIBA ;pH5.8;18h d的光照 (光强为 35.0.0lx) ;2.4℃ ;摇床转速为 100rmin有利于毛状根生长及总黄酮的生物合成。在此培养条件下 ,经过21d的培养毛状根生长量达到 12.8g L(DW) ,总黄酮合成量为 192.2mg L ,即总黄酮含量占毛状根干重的 15 % ,约为干重野生水母雪莲植株总黄酮含量的 2.5倍。     

农杆菌转化的小冠花发状根的诱导及其植株再生

利用野生型发根农杆菌15834菌株感染小冠花15日龄无菌苗子叶和下胚轴切段,建立了高效的发状根培养及其体细胞胚胎发生再生体系。发状根可直接从受伤的外植体表面产生,也能在外植体诱导的愈伤组织上发生,在无外源激素的MS固体和液体培养基上,转化根能自主生长,表现出典型的发根特征。用适宜浓度的乙酰丁香酮处理对数生长期的农杆菌菌液2h,感染预培养2d的子叶获得了最高的转化频率(87.4%)。在附加0.2mgL2,4_D,0.5mgLNAA和0.5mgLKT的MS培养基上,发状根能100%形成胚性愈伤组织,并于含0.5mgLKT,0.2mgLIBA和300mgL脯氨酸的MS培养基上顺序经过体细胞胚胎发育的各个典型时期,转换成完整植株。再生植株除具有发达的侧根外,其它形态特征与未转化植株未见明显的差异,但在获得的5个转化克隆中,其中1个的发状根及其再生植株叶片中有毒物质3_硝基丙酸的含量显著下降,分别为未转化对照的57.68%和58.17%。冠瘿碱纸电泳检测和rolB基因PCR扩增检测均证明农杆菌Ri质粒上的T_DNA已经整合到小冠花转化细胞的基因组中。     

水稻无侧根突变体RM109的显微结构及其根毛形态观察

水稻原品种"大力"以NaN3诱变方法获得了稳定突变体RM109.显微结构观察表明,RM109种子根外表根毛稀少且短小,无侧根发生,而"大力"品种则有侧根发生,且密生根毛.根毛观察比较显示,距种子根根端1 cm处的RM109根毛数是"大力"品种的19%,差异极显著,根直径与"大力"品种差异不显著;距根端8 cm处的RM109根毛数和根直径分别是"大力"品种的45%和79%,二者差异极显著;距根端3 cm处,RM109最大根毛长是"大力"品种的33%,差异极显著;RM109种子根根端到根毛发生区的长度,与"大力"品种的差异不显著.     

Fibrous root turnover and growth in sugar beet (Beta vulgaris var. saccharifera) as affected by nitrogen shortage

The root system of plants is subject to fast cycles of renewal and decay within the growing season. In water and/or nutrient stress conditions, this turnover may become strategic for plant survival and productivity, but knowledge about its mechanisms is still insufficient. In order to investigate the effects of nitrogen fertilization on growth and turnover of sugar beet roots, an experiment was carried out over two growing seasons in northern Italy with two levels of N supply (0, 100 kg ha^–1). Biomass production and partitioning were followed during growth, and fibrous root dynamics were inspected by means of computer-aided procedures applied to minirhizotron images.In conditions of N shortage, lower yields (storage roots) were associated with greater allocation of biomass to tap roots (final tap-root/shoot ratio = 5.6 vs. 4.1) and shallower distribution of fibrous root length density. The maximum depth of roots was not affected by N, but unfertilized plants reached it more slowly.The ratio of cumulative root dead length to produced length at the end of the growing period (TDL _max/TPL _max) was used as the most suitable approach for assessing overall root turnover. This ratio was greater in controls (0.73 vs. 0.50), which showed lower root longevity (–34% life-span on average), indicating that a greater proportion of root growth was renewed by unfertilized plants over the season.     

栽培甜菜卵细胞、合子及二细胞原胚的超微结构

为丰富被子植物生殖生物学资料, 并为甜菜相关研究提供参考, 应用透射电镜技术研究栽培甜菜（Beta vulgaris）卵细胞、合子和二细胞原胚的超微结构特征。结果如下：在成熟卵细胞中多聚核糖体数量不多, 且细胞代谢活性较弱; 初期合子内, 核仁大量合成核糖体前体物质, 胞质中多聚核糖体数目众多, 细胞代谢活性较强; 休眠期合子的核仁变小, 胞质中核糖体数量急剧减少, 仅有少量多聚核糖体, 细胞代谢活性较弱; 合子分裂前期和二细胞原胚期, 核仁显著, 胞质中核糖体的密度增加, 出现大量多聚核糖体, 细胞代谢活性较强。根据上述结果可以得出, 栽培甜菜从卵细胞成熟→合子初期→合子休眠期→合子分裂前期→二细胞原胚的超微结构变化中多聚核糖体的变化最为显著, 表现为“少→多→少→多”的数量变化过程, 反映出细胞代谢状态也经历了“弱→强→弱→强”的变化过程, 这种变化趋势与配子体世代向孢子体世代转变有关。     

栽培甜菜卵细胞、合子及二细胞原胚的超微结构

为丰富被子植物生殖生物学资料, 并为甜菜相关研究提供参考, 应用透射电镜技术研究栽培甜菜(Beta vulgaris)卵细胞、合子和二细胞原胚的超微结构特征。结果如下：在成熟卵细胞中多聚核糖体数量不多, 且细胞代谢活性较弱; 初期合子内, 核仁大量合成核糖体前体物质, 胞质中多聚核糖体数目众多, 细胞代谢活性较强; 休眠期合子的核仁变小, 胞质中核糖体数量急剧减少, 仅有少量多聚核糖体, 细胞代谢活性较弱; 合子分裂前期和二细胞原胚期, 核仁显著, 胞质中核糖体的密度增加, 出现大量多聚核糖体, 细胞代谢活性较强。根据上述结果可以得出, 栽培甜菜从卵细胞成熟→合子初期→合子休眠期→合子分裂前期→二细胞原胚的超微结构变化中多聚核糖体的变化最为显著, 表现为“少→多→少→多”的数量变化过程, 反映出细胞代谢状态也经历了“弱→强→弱→强”的变化过程, 这种变化趋势与配子体世代向孢子体世代转变有关。     

Effects of Municipal Sewage Sludge Doses on the Chlorophyll Contents and Heavy Metal Concentration of Sugar Beet (Beta vulgaris var. saccharifera)

The present study was conducted to assess the suitability of sewage sludge amendment (SSA) in soil for Beta vulgaris var. saccharifera (sugar beet) by evaluating the heavy metal accumulation and physiological responses of plants grown at a 10%, 25%, and 50% sewage sludge amendment rate. The sewage sludge amendment was modified by the physicochemical properties of soil, thus increasing the availability of heavy metals in the soil and consequently increasing accumulation in plant parts. Cd, Pb, Ni, and Cu concentrations in roots were significantly higher in plants grown at 25% as compared to 50% SSA; however, Cr and Zn concentration was higher at 50% than 25% SSA. The concentrations of heavy metal showed a trend of Zn > Ni > Cu > Cr > Pb > Cd in roots and Zn > Cu > Ni > Cr > Pb > Cd in leaves. The only instance in which the chlorophyll content did not increase after the sewage sludge treatments was 50%. There were approximately 1.12-fold differences between the control and 50% sewage sludge application for chlorophyll content. The sewage sludge amendment led to a significant increase in Pb, Cr, Cd, Cu, Zn, and Ni concentrations of the soil. The heavy metal accumulation in the soil after the treatments did not exceed the limits for the land application of sewage sludge recommended by the US Environmental Protection Agency (US EPA). The increased concentration of heavy metals in the soil due to the sewage sludge amendment led to increases in heavy metal uptake and the leaf and root concentrations of Ni, Zn, Cd, Cu, Cr, Pb, and Zn in plants as compared to those grown on unamended soil. More accumulation occurred in roots and leaves than in shoots for most of the heavy metals. The concentrations of Cd, Cr, and Pb were more than the permissible limits of national standards in the edible portion of sugar beet grown on different sewage sludge amendment ratios. The study concludes that the sewage sludge amendment in the soil for growing sugar beet may not be a good option due to risk of contamination of Cr, Pb, and Cd.     

Immunological Evidence for the Existence of a Carrier Protein for Sucrose Transport in Tonoplast Vesicles from Red Beet (Beta vulgaris L.) Root Storage Tissue

Monoclonal antibodies were raised in mice against a highly purified tonoplast fraction from isolated red beet (Beta vulgaris L. ssp. conditiva) root vacuoles. Positive hybridoma clones and sub-clones were identified by prescreening using an enzyme-linked immunosorbent assay (ELISA) and by postscreening using a functional assay. This functional assay consisted of testing the impact of hybridoma supernatants and antibody-containing ascites fluids on basal and ATP-stimulated sugar uptake in vacuoles, isolated from protoplasts, as well as in tonoplast vesicles, prepared from tissue homogenates of red beet roots. Antibodies from four clones were particularly positive in ELISAs and they inhibited sucrose uptake significantly. These antibodies were specific inhibitors of sucrose transport, but they exhibited relatively low membrane and species specificity since uptake into red beet root protoplasts and sugarcane tonoplast vesicles was inhibited as well. Fast protein liquid chromatography assisted size exclusion chromatography on Superose 6 columns yielded two major peaks in the 55 to 65-kD regions and in the 110- to 130-kD regions of solubilized proteins from red beet root tonoplasts, which reacted positively in immunoglobulin-M(IgM)-specific ELISAs with anti-sugarcane tonoplast monoclonal IgM antibodies. Only reconstituted proteoliposomes containing polypeptides from the 55- to 65-kD band took up [14C]-sucrose with linear rates for 2 min, suggesting that this fraction contains the tonoplast sucrose carrier.     

In vitro culture of petioles and intact leaves of sugar beet (Beta vulgaris)

Methods are described for obtaining explants which produce adventitious shoots, for subsequent stimulation of rooting and then transplanting using six commercial sugar-beet cultivars. The rate of adventitious shoot regeneration from petioles or intact leaf explants was affected by the source of donor plants, cytokinin type (BAP or Kin) and concentration and cultivar. Increasing the sucrose concentration of the medium from 3% to 5% or 8% had no apparent effect. Adventitious shoots could be produced directly from callus formed on the base of the petioles. In general adventitious shoots were produced on either the concave surface of the petiole or from the callus, occasionally simultaneously on both, and on the convex surface of the petiole in intact leaf explants. The highest rooting rate with 3% sucrose and 1.0 mg l^–1 NAA was obtained using half-strength MS medium. There was considerable variation in the propagules from petioles or callus indicating that this system may provide valuable somaclonal variation.Abbreviations BAP benzylaminopurine - IBA indole-3-butyric acid - GA₃ gibberellic acid - MS Murashige and Skoog medium - NAA naphthaleneacetic acid Author for correspondence     

Diversity of a Complex Centromeric Satellite and Molecular Characterization of Dispersed Sequence Families in Sugar Beet (Beta vulgaris)

BACKGROUND AND AIMS: The hypothesis was tested that pectin content and methylation degree participate in regulation of cell wall mechanical properties and in this way may affect tissue growth and freezing resistance over the course of plant cold acclimation and de-acclimation. METHODS: Experiments were carried on the leaves of two double-haploid lines of winter oil-seed rape (Brassica napus subsp. oleifera), differing in winter survival and resistance to blackleg fungus (Leptosphaeria maculans). KEY RESULTS: Plant acclimation in the cold (2 degrees C) brought about retardation of leaf expansion, concomitant with development of freezing resistance. These effects were associated with the increases in leaf tensile stiffness, cell wall and pectin contents, pectin methylesterase (EC 3.1.1.11) activity and the low-methylated pectin content, independently of the genotype studied. However, the cold-induced modifications in the cell wall properties were more pronounced in the leaves of the more pathogen-resistant genotype. De-acclimation promoted leaf expansion and reversed most of the cold-induced effects, with the exception of pectin methylesterase activity. CONCLUSIONS: The results show that the temperature-dependent modifications in pectin content and their methyl esterification degree correlate with changes in tensile strength of a leaf tissue, and in this way affect leaf expansion ability and its resistance to freezing and to fungus pathogens.     

Effects of Ca2+ and Cd2+ on the Carbohydrate Metabolism in Sugar Beet (Beta vulgaris)

Sugar beet (Beta vulgaris L. cv. Monohill) were cultivated ina nutrient solution with different combinations of Ca²⁺ (36,180, 720 or 3560µM) and Cd²⁺ (0, 1, 5 or 20µM).The dry and fresh weights, the content of Ca²⁺ and Cd²⁺ , sucrose,fructose, glucose and starch in 5-week-old plants was analysedas well as the rate of [¹⁴C]-sucrose uptake in discs from 3-month-oldstorage roots. The carbohydrate metabolism was indirectly affectedby the presence of calcium or cadmium. Cadmium caused a diminisheddry weight and carbohydrate concentration. The dry weight wasunaffected by the Ca²⁺ level but the carbohydrate distributionbetween storage and growth processes was affected; at low Ca²⁺in the tissue, the growth was retarded and the level of storagecarbohydrate increased, while at high Ca²⁺ the opposite wasfound. The [¹⁴C]-sucrose uptake decreased in tap roots cultivatedat low Ca²⁺ . Long term exposure to Cd²⁺ also decreased thesucrose uptake in tap roots. Direct Cd²⁺ addition to the assaymedium, however, increased the sucrose uptake, probably at thetonoplast, while Ca²⁺ had no transient effect on the uptake.Cadmium increased the Ca²⁺ concentration in the plant, but Ca²⁺did not affect the net-uptake of Cd²⁺. Key words: Sugar beet, cadmium uptake, calcium uptake, carbohydrate formation, growth     

Iron deficiency-induced changes in carbon fixation and leaf elemental composition of sugar beet (Beta vulgaris) plants

In this experiment we (i) tested the hypothesis that, besides decreasing leaf C fixation, lime induced iron (Fe) deficiency increases root C fixation via PEP carboxylase and (ii) assessed the Fe-induced modifications in the elemental composition of plant tissues. Sugar beet plants were grown in nutrient solutions with Fe (45 M Fe-EDTA; +Fe control) or in a similar nutrient solution without Fe (–Fe) and in presence of CaCO₃ (1.0 gL^–1), either labelled with ¹³C (20 at. %) or unlabelled. After 7 and 17 days from treatment imposition, plants were harvested and single organs analysed for total O, C, H, macro and micronutrients. ¹³C abundance was also assessed in control, unlabelled and labelled –Fe plants. Iron deficiency caused significant growth reductions; chlorophyll and net photosynthesis decreased markedly in Fe-deficient plants when compared to the controls, whereas leaf transpiration rates and stomatal conductance were not affected by Fe deficiency. Iron deficient plants had leaf biomass with lower C (2 to 4%) and higher O (3 to 5%) concentrations than +Fe plants. The ¹³C was higher (less negative) in +Fe than in –Fe unlabelled plants. Iron deficient plants grown in the nutrient solution enriched with labelled CaCO₃ absorbed a relatively small amount of labelled C, which was mainly recovered in the fine roots and accounted for less than 2% of total C gain in the 10 d treatment period. Evidences suggest that iron deficient sugar beets grown in the presence of CaCO₃ do not markedly shift their C fixation from leaf RuBP to root PEPC.     

Influence of Polyamines on Growth of Hairy Root Cultures of Witloof Chicory (Cichorium intybus L. cv. Lucknow Local) and Formation of Coumarins

The effect of polyamines (putrescine, spermidine, and spermine) was examined for growth and production of two coumarins, esculetin and esculin, in the hairy roots of chicory (Cichorium intybus L. cv. Lucknow local). Of the polyamines administered, 1.5 mm putrescine alone resulted in a 2.3-fold higher increase in the growth of hairy roots as well as in the production of esculetin and esculin, which was 3.37 times more than that of the control on day 21. The endogenous level of conjugated putrescine was more than fivefold that of free putrescine levels in untreated samples. The production of esculetin and esculin in hairy root cultures strictly correlated with growth in all of the treatments. Putrescine at 1.5 mm resulted in a greater length of primary root (18.29 ± 1.37 cm) compared with the control (10.96 ± 0.82 cm) and more secondary and tertiary roots. This study also provides insight into the morphogenetic changes that occur in roots in response to the external supply of polyamines. Received July 20, 1998; accepted January 19, 1999     

Assessment of Arsenite,Arsenate, and Chromate Phytotoxicity Based on the Activity of Seed Germination and Growth (Root & Shoot) of Various Plant Seeds

Effects of different concentrations of arsenite, arsenate, and chromate on seed germination, root length (RL), and shoot length (SL) in four seed types, chosen from preliminary tests with eight seed types, were investigated to assess the toxicity of the tested metals. The sensitivities of the four different seed types toward germination, relative RL (RRL), and relative SL (RSL) varied with each metal. In a comparison, the germination of the seeds was more sensitive to the tested metals than the other chosen endpoints (RL and SL). Arsenite was generally more restrictive to all the endpoints (germination, root, and shoot growth) than arsenate and chromate. Lactuca (garden lettuce) was also generally more sensitive to the tested metals than the other seed types. The correlation between RRL and RSL varied depending on the seed type and metal tested. However, significant correlations (r² > 0.85) of these were observed with Lactuca seeds, which appeared to be an optimal plant with respect to the tolerance of the tested metals. The differences in the toxicities of metals toward different plant species should be taken into account in the bioassessment of metals-contaminated sites. Thus, this study encourages the need to combine the three endpoints of various seeds in the evaluation of toxicities of metals.     

Direct and indirect effects of Cd2+ on photosynthesis in sugar beet (Beta vulgaris)

Sugar-beet plants ( Beta vulgaris L. cv. Monohill) were cultivated for 4 weeks in a complete nutrient solution. Indirect effects of cadmium were studied by adding 5, 10 or 20 μ M CdCl₂ to the culture medium while direct effects were determined by adding 1, 5, 20, 50 or 2 000 μ M CdCl₂ to the assay media. The photosynthetic properties were characterized by measurement of CO₂ fixation in intact plants, fluorescence emission by intact leaves and isolated chloroplasts, photosystem (PS) I and PSII mediated electron transport of isolated chloroplasts, and CO₂-dependent O₂ evolution by protoplasts. When directly applied to isolated leaves, protoplasts and chloroplasts. Cd²⁺ impeded CO₂ fixation without affecting the rates of electron transport of PSI or PSII or the rate of dark respiration. When Cd²⁺ was applied through the culture medium the capacity for, and the maximal quantum yield of CO₂ assimilation by intact plants both decreased. This was associated with: (1) decreased total as well as effective chlorophyll content (PSII antennae size), (2) decreased coupling of electron transport in isolated chloroplasts, (3) perturbed carbon reduction cycle as indicated by fluorescence measurements. Also, protoplasts isolated from leaves of Cd²⁺-cultivated plants showed an increased rate of dark respiration.     

DNA methylation of retrotransposons,DNA transposons and genes in sugar beet (Beta vulgaris L.)

The methylation of cytosines shapes the epigenetic landscape of plant genomes, coordinates transgenerational epigenetic inheritance, represses the activity of transposable elements (TEs), affects gene expression and, hence, can influence the phenotype. Sugar beet (Beta vulgaris ssp. vulgaris), an important crop that accounts for 30% of worldwide sugar needs, has a relatively small genome size (758 Mbp) consisting of approximately 485 Mbp repetitive DNA (64%), in particular satellite DNA, retrotransposons and DNA transposons. Genome‐wide cytosine methylation in the sugar beet genome was studied in leaves and leaf‐derived callus with a focus on repetitive sequences, including retrotransposons and DNA transposons, the major groups of repetitive DNA sequences, and compared with gene methylation. Genes showed a specific methylation pattern for CG, CHG (H = A, C, and T) and CHH sites, whereas the TE pattern differed, depending on the TE class (class 1, retrotransposons and class 2, DNA transposons). Along genes and TEs, CG and CHG methylation was higher than that of adjacent genomic regions. In contrast to the relatively low CHH methylation in retrotransposons and genes, the level of CHH methylation in DNA transposons was strongly increased, pointing to a functional role of asymmetric methylation in DNA transposon silencing. Comparison of genome‐wide DNA methylation between sugar beet leaves and callus revealed a differential methylation upon tissue culture. Potential epialleles were hypomethylated (lower methylation) at CG and CHG sites in retrotransposons and genes and hypermethylated (higher methylation) at CHH sites in DNA transposons of callus when compared with leaves.