The plasma membrane intactness of root-tip cells is a primary factor for Al-tolerance in cultivars of five species     

Satoru Ishikawa  Tadao Wagatsuma  Tsuyoshi Takano  Keitaro Tawaraya  Koji Oomata 《Soil Science and Plant Nutrition》2013,59(3):489-501

We investigated the role of the cell wall and plasma membrane (PM) of root-tip cells in Al tolerance in Al-tolerant and Al-sensitive cultivars of five plant species (rice, maize, pea, wheat, and sorghum). No correlation was found between the differences in Al tolerance and the cation exchange capacity of cell walls isolated from root-tips (0–1 em). Preliminary exposure to Al for 1 h was sufficient to inhibit subsequent root re-elongation in an Al-free solution, and the inhibitory effect was more pronounced in the Al-sensitive cultivars than in the Al-tolerant ones. Together with the inhibition of root re-elongation, the PM of the root-tip cells of all the Al-sensitive cultivars was more permeabilized than that of the Al-tolerant cultivars, based on the FDA-PI fluorescence staining technique. Exposure for 30 min to Al treatment at 100 µM significantly increased the PM permeability of protoplasts isolated from the root-tips for the Al-sensitive pea cultivar placed in a moderately hypotonic medium. Protoplasts from root-tip portions of all the Al-sensitive cultivars took up more Al than those of the Al-tolerant ones when treated with 100 pM Al under isotonic conditions for 30 min. The co-existence of DNP or hypotonic conditions led to a larger increase of Al uptake by the protoplasts from Al-sensitive maize cultivars. These results suggest that Al ions rapidly alter the PM of the root-tip portion in the Al-sensitive cultivars, irrespective of plant species, resulting in an increase of the PM permeability.  相似文献   

Role of water stress in differential aluminum tolerance of six sunflower cultivars grown in an acid soil     

Donald T. Krizek  Charles D. Foy  William P. Wergin 《Journal of plant nutrition》2013,36(4):387-408

Six cultivars of sunflower (Helianthus annuus L.), were screened under controlled environmental conditions for tolerance to Al stress and water stress imposed separately and in combination with one another. Plants were grown for 4 weeks in waxed cartons containing 1 kg of acid, Al‐toxic Tatum, subsoil (clayey, mixed, thermic, Typic Hapludult) at high (pH 4.3) or low (pH 6.3) Al stress. During the final 2 weeks they were also subjected to low (‐20 to ‐40 kPa) or high (‐60 to ‐80 kPa) water stress. Plant growth responses and symptoms of Al toxicity suggested that a wide range of cultivar sensitivity existed. ‘Manchurian’, ‘S‐212’, ‘S‐254’, and ‘S‐265’ were relatively tolerant to Al toxicity while cultlvars ‘Romania HS‐52’ and ‘RM‐52’ were extremely sensitive. Under high Al stress and high water stress, chloroplasts in cells from the Al‐sensitive cultivar ‘Romania HS‐52’ were smaller and contained less starch than chloroplasts from the Al‐tolerant cultivar ‘Manchurian’. Furthermore, the smaller chloroplasts tended to have fewer grana stacks per unit area than did the chloroplasts from tolerant plants. These differences were not apparent when the Al‐sensitive cultivar was grown either in the absence of Al or water stress. In general, Al‐sensitive cultivars of sunflower were more tolerant to water stress than were Al‐tolerant cultivars. Increasing the soil moisture level reduced Al toxicity in Al‐sensitive cultivars. Similarly, decreasing Al stress partially overcame the detrimental effects of high water stress. Hence, Al stress and water stress are interrelated factors which must be considered in the characterization and breeding of plants for better adaptation to acid soils.  相似文献   

Plasma Membrane Lipids Are the Powerful Components for Early Stage Aluminum Tolerance in Triticale   总被引：1，自引：0，他引：1  

Tadao Wagatsuma  Satoru Ishikawa  Matsuo Uemura  Wataru Mitsuhashi  Takeshi Kawamura  Md.  Shahadat Hossain Khan  Keitarou Tawaraya 《Soil Science and Plant Nutrition》2005,51(5):701-704

The order of aluminum (Al) tolerance in triticale lines (ST2>ST22) after re-elongation in an Al-free 0.2 mM calcium (Ca) solution for 9 h (Ca period) following 1 h pretreatment with 20 μM Al (Al period) agreed with that after 24 h of Al treatment. Permeability of the plasma membrane (PM) of root-tip cells after the Ca period was significantly increased in Al-sensitive ST22. Al was accumulated more heavily in the root-tip portion of ST22 than in that of ST2, although similar amounts of malic and citric acid anions were released from both triticale lines. We established a new system examining lipid permeability using synthesized nylon-2,8 ultrathin and porous capsules trapped previously with 0.1% (w/v) methylene blue solution and coated thereafter with PM lipid isolated from root tips by a newly developed technique. Permeability of the PM lipid measured with time in 0.2 mM Ca with or without 50 μM Al photometrically ( A ₆₈₀) was significantly greater in Al-sensitive ST22 after 5 min of Al treatment. This is the first report to directly show the primary and early role of PM lipid in Al tolerance in triticale.  相似文献   

Probing the interaction of polyphenols with lipid bilayers by solid-state NMR spectroscopy     

Yu X  Chu S  Hagerman AE  Lorigan GA 《Journal of agricultural and food chemistry》2011,59(12):6783-6789

Polyphenols are bioactive natural products that appear to act against a wide range of pathologies. Mechanisms of activity have not been established, but recent studies have suggested that some polyphenols bind to membranes. This study examined the interaction between lipid bilayers and three structurally diverse polyphenols. It was hypothesized that features of the polyphenols such as polarity, molecular size, molecular geometry, and number and arrangement of phenol hydroxyl groups would determine the tendency to interact with the bilayer. The examined compounds included a mixed polyphenol, (-)-epigallocatechin gallate (EGCg); a proanthocyanidin trimer comprising catechin-(4→8)-catechin-(4→8)-catechin (cat?; and a hydrolyzable tannin, 1,2,3,4,6-penta-O-galloyl-β-D-glucopyranose (PGG). These polyphenols were incorporated at different levels into 2H-labeled 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) multilamellar vesicles (MLVs). 31P and 2H solid-state NMR experiments were performed to determine the dynamics of the headgroup region and the hydrophobic acyl chain region of the lipid bilayer upon addition of polyphenols. The chemical shift anisotropy (CSA) width of the 31P NMR spectra decreased upon addition of polyphenols. Addition of PGG induces a dramatic reduction on the CSA width compared with the control lipid bilayer sample, whereas addition of cat? barely reduces the CSA width. The 2H quadupolar splitting of the lipids also decreased upon addition of polyphenols. At the same concentration, PGG substantially reduced the quadrupolar splitting, whereas cat? barely reduced it when compared with the control sample. From a calculation of the order parameters of the acyl chain region of the lipid bilayer, it was concluded that the hydrophobic part of the lipid bilayer was perturbed by PGG, whereas cat? did not cause large perturbations. The data suggest that the polarity of the polyphenols affects the interaction between tannins and membranes. The interactions may relate to the biological activities of polyphenols.  相似文献   

Magnetic resonance imaging of absorbed aluminum in alfalfa roots     

T. A. Campbell 《Journal of plant nutrition》2013,36(4-5):827-834

An estimated 30% of the world's arable soils are acidic and aluminum (Al) toxicity is often the primary growth‐limiting factor. Excess Al is especially undesirable in sub‐soils because it reduces rooting depth and branching and predisposes plants to drought injury. Liming the plow layer does not generally neutralize subsoil phytotoxicity and Al‐tolerant cultivars offer an alternative or supplemental solution to the problem. Genetic diversity for acid soil tolerance in alfalfa (Medicago sativa L.) is limited and a better understanding of the basic tolerance mechanisms would facilitate the design of more efficacious breeding procedures. Evidence is accumulating that organic acids and proteins elicited by Al stress may complex and detoxify Al either within, or external to, the root. Because Al is a paramagnetic element that can reduce T2 relaxation times (inter‐proton interactions) markedly, the mechanism of Al tolerance in alfalfa was investigated through T2‐based Magnetic Resonance Imaging (MRI) of young lateral root sections of an Al‐sensitive and an Al‐tolerant alfalfa clone grown in nutrient solution (0 or 111 μmol Al; pH 4.5). Root sections that developed under phytotoxic levels of Al accumulated considerable Al in the epidermis and internal root tissue. Aluminum may have been complexed by low molecular weight proteins and organic acids in the tolerant clone whereas the sensitive clone appeared to have abundant free Al; however, variation among replications indicates that free Al may still have been present in tolerant roots and that other tolerance mechanisms may also be important. Root buds accumulated little Al compared to the remainder of the root, indicating that the pronounced effects of Al on lateral root development are indirect. Magnetic Resonance Imaging images evaluated in this study provided clues to the basic mechanisms of Al tolerance in alfalfa and, with further refinement, could be used as one criterion for selecting Al‐tolerant plants.  相似文献   

植物耐铝机理研究进展   总被引：13，自引：7，他引：13  

杨建立  何云峰  郑绍建 《植物营养与肥料学报》2005,11(6):836-845

铝毒是酸性土壤上作物生产的主要限制因子,植物耐铝机理以及与耐铝有关基因的研究是近十多年来研究的热点。本文对植物耐铝的生理、遗传及分子机理的研究进展作了综述。明确了目前取得的突破性进展已使通过植物遗传育种及生物技术手段提高粮食作物耐铝性成为可能;同时,本文对今后的研究方向作了简要的讨论。  相似文献   

Potassium and sodium fertilization affects leaf nutrient content and growth of ‘Shawnee’ blackberry     

James M. Spiers 《Journal of plant nutrition》2013,36(2):297-303

Aluminum (Al) has many detrimental effects on plant growth, and shoots and roots are normally affected differently. A study was conducted to determine differences among sorghum [Sorghum bicolor (L.) Moench] genotypes with broad genetic backgrounds for growth traits of plants grown at 0,200,400,600, and 800 μM Al in nutrient solutions (pH 4.0). Genotypes were categorized into “Al‐sensitive”, “intermediate Al‐tolerant”, “Al‐tolerant”, and SC 283 (an Al‐tolerant standard). As Al increased, shoot and root dry matter (DM), net main axis root length (NMARL), and total root length (TRL) became lower than controls (0 Al). Aluminum toxicity and/or nutrient deficiency symptoms become more severe, and shoot to root DM ratios and specific RL (TRL/root DM) values also changed as Al in solution increased. Root DM had greater changes among genotypes than shoot DM, and NMARL at 400 μM Al, and TRL at 200 μM Al had greater differences among genotypes than root DM, ratings for toxicity and/or deficiency symptoms, and other DM and RL traits. The wide differences among genotypes for NMARL and TRL could be used more effectively to evaluate sorghum genotypes for tolerance to Al toxicity than the other growth traits.  相似文献   

Effect of nickel and grafting combination on yield,fruit quality,antioxidative enzyme activities,lipid peroxidation,and mineral composition of tomato          下载免费PDF全文

Pradeep Kumar  Youssef Rouphael  Mariateresa Cardarelli  Giuseppe Colla 《植物养料与土壤学杂志》2015,178(6):848-860

Soil contamination by heavy metals negatively affects crop productivity, besides representing serious threat to human health. Grafting tomato onto appropriate rootstocks may raise Ni tolerance through limiting heavy metal uptake by roots and/or its translocation to the shoot and by detoxification. A greenhouse experiment was conducted to determine the influence of long‐term Ni exposure (0, 25, or 50 µM) on crop productivity, fruit quality, leaf chlorophyll content, fluorescence, electrolyte leakage, catalase (CAT), ascorbate peroxidase (APX), and guaiacol peroxidase (GPX) activities in leaf, proline content, membrane lipid peroxidation, and mineral composition of tomato plants cv. Ikram, either self‐grafted or grafted onto three rootstocks: Black Beauty, Unifort, and Maxifort. Significant reduction in yield was observed in response to an increase in Ni concentration with more detrimental effects at 50 µM Ni. The fruit dry matter and total soluble solids content increased under severe Ni stress. The depression of crop performance under Ni toxicity was attributed to a decrease in leaf pigments (SPAD index), efficiency of PSII, macro‐ and microelements, and increase in lipid peroxidation and membrane damage. Plants grafted onto tomato rootstocks Maxifort and Unifort exhibited higher chlorophyll content, photochemical activity of PSII, antioxidant activity of APX and GPX, lower accumulation of MDA, and a better nutritional status (higher Ca and Fe, and lower Ni) in the leaf tissues in comparison with self‐grafted plants and those grafted onto Black Beauty. Plants grafted onto tomato rootstocks Unifort and especially Maxifort could minimize the nickel toxicity by improving nutritional status and detoxification processes.  相似文献   

Effects of aluminum on organic acid,sugar and amino acid composition of the root system of sorghum (Sorghum bicolor L. Moench)     

J. Cambraia  F.R. Galvani  M.M. Estevão  R. Sant'Anna 《Journal of plant nutrition》2013,36(4):313-322

The effects of aluminum on the accumulation of sugars, amino acids and organic acids in two hybrid cultivars of sorghum were studied.

The concentration of these organic compounds increased in the roots of the Al‐treated plants, mainly in the tolerant cultivar. The composition of the organic acid fraction showed a significantly higher accumulation of trans‐aconitate and malate in the tolerant cultivar as compared with the sensitive one. The higher levels of these acids in the Al‐treated plants could be interpreted as being indicative of a chelating detoxifying mechanism of aluminum in these plants.  相似文献   

Aluminum tolerances of two snapbean cultivars related to organic acid content evaluated by high‐performance liquid chromatography     

Edward H. Lee  Charles D. Foy 《Journal of plant nutrition》2013,36(12):1481-1498

High‐performance liquid chromatography (HPLC) was used to determine aluminum (Al)‐induced changes in organic acid (OA) concentrations of Al‐tolerant ‘Dade’ and Al‐sensitive ‘Romano’ snapbean cultivars. Two week old ‘Dade’ and ‘Romano’ snapbean were grown in 1/5‐strength Steinberg nutrient solution for 10 days and then subjected to 0, 2, 4, 6, and 8 mg L^‐1 Al treatments at pH 4.5 for an additional 3–15 days. Current studies confirmed earlier findings that the Dade cultivar was significantly more tolerant to Al than the Romano variety. Organic acid analyses were performed on extracts of root and leaf, and on stem exudates. The organic acids were separated on an ion exclusion column using a mobile phase of 0.01 N H₃PO₄. Individual OA were quantified with a variable wavelength detector operating at 210 nm. Aluminum stress tended to reduce the concentrations of citric, malonlc, malic, glycolic, fumaric, and acetic acids in the roots and increased the OA concentrations in stem exudates. In the presence or absence of Al stress, the Al tolerant Dade cultivar contained higher OA concentrations than did the Al‐sensitlve Romano. Aluminum stress reduced total OA levels in root extracts from Al‐sensltive Romano plants to a greater extent than in those of the Al‐tolerant Dade. Malic and citric acid concentrations were decreased more than those of the other organic acids examined. Results indicate that the Al‐tolerant Dade snapbean cultivar has a higher potential for Al‐chelation and detoxification than does the Al‐sensitive Romano. Hence, an Al‐chelation mechansism may be involved in differential Al tolerance within this species.  相似文献   

A New and Simple Technique for the Isolation of Plasma Membrane Lipids from Root-Tips     

Tadao Wagatsuma  Matsuo Uemura  Wataru Mitsuhashi  Masayoshi Maeshima  Satoru Ishikawa  Takeshi Kawamura  Tetsuya Murayama  Yoshihito Shiono  Md. Shahadat Hossain Khan  Keitarou Tawaraya 《Soil Science and Plant Nutrition》2005,51(1):135-139

It has been suggested that plasma membrane (PM) lipids play a major role in aluminum (Al) tolerance; however, no direct investigations have been carried out using PM lipids from root-tips. Here we report a new technique for PM isolation as an alternative to the laborious two-polymer phase partitioning method that is commonly applied, as follows: 1) separation of protoplasts from 1-cm root-tip portions by enzymatic digestion, 2) attachment of the purified protoplasts to glass plates coated with polylysine, 3) preparation of PM ghosts by successive burst of the attached protoplasts using three separate buffer solutions (25 mM PIPES, 5 mM EDTA, and 2 mM MgCl₂, at pH 7.0) with slow stirring for 60 s. The PMs were confirmed to be devoid of organelle membranes by fluorescence microscopy, thin layer chromatography (TLC) and western blot analysis. The PM lipids obtained were found to be useful for studies on their differential permeability and lipid composition between lines of triticale or cultivars of maize under Al stress.  相似文献   

Mineralization of Forest Soil Carbon: Interactions with Metals     

Robert Jandl  Ronald S. Sletten 《植物养料与土壤学杂志》1999,162(6):623-629

Biodegradability of natural dissolved organic compounds was tested in laboratory experiments. Organic matter was extracted from organic and mineral forest soil horizons and was isolated from soil solutions collected by suction cups. Carbon moieties were fractionated into hydrophobic acids, hydrophilic acids, and hydrophilic neutral compounds. Degradability of the organic compounds ranged from less than 5% (acid compounds) to 15% (neutral compounds). Metals (Ca, Al) and solid Al₂O₃ were added to assess the effect of complexation reactions as well as the adsorption of organic ligands to mineral surfaces on the rate of mineralization. The rate of CO₂ respiration was used to measure the degradability. Glucose was used as reference compound and we found that the addition of metals retarded its mineralization. On the contrary the degradation of natural soil organic carbon was not affected, or was even enhanced, with Ca or Al added. Adsorption of organic matter to Al₂O₃ decreased the respiration rate by one order of magnitude.  相似文献   

Genetic engineering of maize (Zea mays) for high-level tolerance to treatment with the herbicide dicamba     

Cao M  Sato SJ  Behrens M  Jiang WZ  Clemente TE  Weeks DP 《Journal of agricultural and food chemistry》2011,59(11):5830-5834

Herbicide-tolerant crops have been widely and rapidly adopted by farmers in several countries due to enhanced weed control, lower labor and production costs, increased environmental benefits, and gains in profitability. Soon to be introduced transgenic soybean and cotton varieties tolerant to treatments with the herbicide dicamba offer prospects for excellent broadleaf weed control in these broadleaf crops. Because monocots such as maize (Zea mays) can be treated with dicamba only during a limited window of crop development and because crop injury is sometimes observed when conditions are unfavorable, transgenic maize plants have been produced and tested for higher levels of tolerance to treatment with dicamba. Maize plants expressing the gene encoding dicamba monooxygenase (DMO) linked with an upstream chloroplast transit peptide (CTP) display greatly enhanced tolerance to dicamba applied either pre-emergence or postemergence. Comparisons of DMO coupled to CTPs derived from the Rubisco small subunit from either Arabidopsis thaliana or Z. mays showed that both allowed production of transgenic maize plants tolerant to treatment with levels of dicamba (i.e., 27 kg/ha) greatly exceeding the highest recommended rate of 0.56 kg/ha.  相似文献   

植物铝抗性基因及抗铝毒基因工程研究进展     

陈奇  王奇峰  陈丽梅  李昆志  玉永雄 《农业生物技术学报》2012,20(4):455-462

酸性土壤占世界可耕作土壤的30％,而铝毒是酸性土壤中植物生长和作物生产的主要限制因素.近年来,在植物中鉴定了一系列抗铝基因,如有机酸通道蛋白基因(ALMT1和MATE),ABC通道蛋白基因(STAR1和STAR2)和转录因子基因(STOP1和ART1).通过基因工程手段在植物中过表达有机酸通道蛋白基因、有机酸代谢酶基因和其他铝胁迫响应基因均获得了很大的进展.本文综述了植物抗铝基因的克隆与鉴定,以及通过遗传操作提高植物的抗铝能力.  相似文献   

Interaction of antioxidant biobased epicatechin conjugates with biomembrane models     

Lazaro E  Castillo JA  Rafols C  Rosés M  Clapés P  Torres JL 《Journal of agricultural and food chemistry》2007,55(8):2901-2905

(-)-Epicatechin conjugates with sulfur-containing moieties are strong free radical scavengers with cell-protecting activities, which may be in part modulated by their capacity to bind to biological membranes. We present here a study of the interaction of these conjugates with membrane models such as multilamellar vesicles and a phospholipid-coated silica column (immobilized artificial membrane), monitored by differential scanning calorimetry and high-performance liquid chromatography, respectively. The nonpolyphenolic moiety significantly influenced the membrane behavior of the whole molecules. Bulky and hydrophobic conjugates clearly interacted with the phospholipids and may have a tendency to penetrate into the hydrophobic core of the vesicles. In contrast, the smaller cationic 4beta-(2-aminoethylthio)epicatechin may be located at the outer interface of the lipid membrane. The outcomes from both experimental set-ups were in good agreement. The differences detected in the biological activities of the conjugates may be explained in part by their tendency to penetrate the cell membrane.  相似文献   

Higher ROS scavenging ability and plasma membrane H+‐ATPase activity are associated with potassium retention in drought tolerant tea plants     

Xianchen Zhang  Honghong Wu  Jingguang Chen  Linmu Chen  Na Chang  Gaofei Ge  Xiaochun Wan 《植物养料与土壤学杂志》2020,183(4):406-415

Drought is one of the main limiting factors resulting in the reduction of yield and quality of tea production. Our previous studies indicated that K⁺ retention was a key factor associated with alleviating drought‐induced damage in tea plants. However, the underlying mechanisms are still unclear. In the present study, drought tolerant tea plant (variety Zhongcha108) exhibited higher plasma membrane (PM) H⁺‐ATPase activity and lower negative membrane potential compared with the drought sensitive tea plant (variety Ruanzhiwulong). In addition to superior mesophyll K⁺ retention ability and higher PM H⁺‐ATPase activity, the drought tolerant tea plant exhibited lower accumulation of reactive oxygen species (ROS) than the sensitive one. Moreover, exogenous supply of Na₃VO₄ (plasma membrane H⁺‐ATPase inhibitor) and H₂O₂ (mimicking apoplastic ROS) resulted in a significantly higher K⁺ efflux in the mesophyll of the drought sensitive tea plant than the non‐treated one. Taken together, the higher ROS scavenging ability and plasma membrane H⁺‐ATPase activity were major factors contributing to the higher K⁺ retention in drought tolerant tea plants.  相似文献   

Effect of varying solution calcium or magnesium concentrations in the presence or absence of aluminum on yield and plant calcium or magnesium concentrations in wheat     

D. M. Wheeler  D. C. Edmeades 《Journal of plant nutrition》2013,36(10):2229-2245

The effect of varying solution calcium (Ca) and magnesium (Mg) concentrations in the absence or presence of 10 μM aluminum (Al) was investigated in several experiments using a low ionic strength (2.7 × 10^‐3 M) solution culture technique. Aluminium‐tolerant and Al‐sensitive lines of wheat (Triticum aestivum L.) were grown. In the absence of Al, top yields decreased when solution Ca concentrations were <50 μM or plant Ca concentrations were <2.0 mg/g. Top and root yields decreased when solution Mg concentrations were <50 μM or plant Mg concentrations were <1.5 mg/g. There were no differences between the lines in solution or plant concentrations at which yield declined. Increasing solution Ca concentrations decreased plant Mg concentrations in the tops (competitive ion effect) but increased plant Mg concentrations in the roots of wheat. This suggests that Ca is competing with Mg when Mg is transported from the roots. Increasing solution Mg concentrations decreased plant Ca concentrations in the tops and the roots (competitive ion effect). In the roots, increasing solution Mg concentrations decreased plant Ca concentrations at a lower solution Ca concentration in the Al‐sensitive line than the Al‐tolerant line. In the presence of Al, increasing solution Ca and Mg concentrations increased yield (Ca and Mg ameliorating Al toxicity). Yield increased until the sum of the solution concentrations of the divalent cations (Ca+Mg) was 2,000 μM for the Al‐tolerant line or 4,000 μM for the Al‐sensitive line. The exception was that yield decreased when solution Mg concentrations were > 1,500 μM and the solution Ca concentration was 100 μM (Mg exacerbating Al toxicity). The ameliorative effects of solution Ca or Mg on Al tolerance were not related to plant Ca or Mg concentrations per se.  相似文献   

Role of root cation‐exchange capacity in differential aluminum tolerance of lotus species     

F.P.C. Blamey  D.C. Edmeades  D.M. Wheeler 《Journal of plant nutrition》2013,36(6):729-744

Three experiments were conducted in which roots of two species of Lotus were immersed for up to 40 min in complete nutrient solutions containing 6, 15 or 25 μM Al. The two species tested were L. pedunculatus cv. Grasslands Maku (Al‐tolerant) and L. corniculatus cv. Maitland (Al‐sensitive). There was an initial rapid (< 5 min) decrease in solution Al at 25 μM Al. The effect was less marked with solution Al ≤ 15 μM. The decrease in solution Al was greater in the Al‐sensitive Maitland than in the Al‐tolerant Grasslands Maku, particularly when expressed on the basis of root fresh mass and root length. Root cation‐exchange capacity (CEC) was lower in Grasslands Maku than in Maitland, viz. 23.9 vs 36.5 mmol kg^‐1 dry mass. Maitland roots removed more Al from solution than did those of Maku on the basis of total exchange capacity.

We propose a mechanism of Al tolerance on the basis of the results of this study and of other published information, viz. that differential Al tolerance results from differences in root CEC. Aluminum‐tolerant genotypes have roots with low CEC, and high Al activities (> 20 μM in the case of Grasslands Maku) are required to precipitate the relatively highly methylated pectins associated with low CEC. In contrast, relatively low activities of Al would precipitate the pectins in plants with roots of high CEC. This would decrease the protective capacity of the pectins, enabling the toxic, monomeric Al ions to come in contact with a number of Al‐sensitive compounds or processes in the cell wall, plasmalemma, or cell cytoplasm.  相似文献   

Molecular dynamics study on the biophysical interactions of seven green tea catechins with lipid bilayers of cell membranes     

Sirk TW  Brown EF  Sum AK  Friedman M 《Journal of agricultural and food chemistry》2008,56(17):7750-7758

Molecular dynamics simulations were performed to study the interactions of bioactive catechins (flavonoids) commonly found in green tea with lipid bilayers, as a model for cell membranes. Previously, multiple experimental studies rationalized catechin's anticarcinogenic, antibacterial, and other beneficial effects in terms of physicochemical molecular interactions with the cell membranes. To contribute toward understanding the molecular role of catechins on the structure of cell membranes, we present simulation results for seven green tea catechins in lipid bilayer systems representative of HepG2 cancer cells. Our simulations show that the seven tea catechins evaluated have a strong affinity for the lipid bilayer via hydrogen bonding to the bilayer surface, with some of the smaller catechins able to penetrate underneath the surface. Epigallocatechin-gallate (EGCG) showed the strongest interaction with the lipid bilayer based on the number of hydrogen bonds formed with lipid headgroups. The simulations also provide insight into the functional characteristics of the catechins that distinguish them as effective compounds to potentially alter the lipid bilayer properties. The results on the hydrogen-bonding effects, described here for the first time, may contribute to a better understanding of proposed multiple molecular mechanisms of the action of catechins in microorganisms, cancer cells, and tissues.  相似文献   

The effect of calcium nutrition on the sterol content of tobacco roots and their susceptibility to Phytophthora parasitica var. nicotianae     

W. F. Waterfield  L. D. Moore  D. M. Orcutt 《Journal of plant nutrition》2013,36(12):1387-1400

The influence of nutrient solutions containing low (25 mg/1) and high (250 mg/1) calcium (Ca) concentrations on the total lipid, free sterol, sterol glycoside and steryl ester content and on the subsequent susceptibility of three flue‐cured tobacco cultivars to black shank, incited by Phytophthora parasitica var. nicotianae was investigated. The total lipid, total sterol and free sterol content differed appreciably among root systems of the three cultivars grown at high Ca. Roots of plants grown at low Ca contained relatively higher proportions of steryl glycosides and lower proportions of free sterols than roots of plants grown at high Ca, although the absolute sterol concentrations also differed significantly among the roots of cultivars grown at low Ca. Black shank disease development was significantly lower in roots of susceptible plants grown at low Ca than in roots of the same cultivar grown at high Ca. The innate susceptibility of the cultivars were not related to the lipid or sterol content. The reduced disease development of plants grown at low Ca appeared to be associated with changes in membrane permeability, which may be correlated with changes in the various sterol fractions.  相似文献