Heavy metal-hormone interactions in rice plants: Effects on growth,net photosynthesis,and carbohydrate distribution

The effect of external applications of gibberellins (GA₃) and abscisic acid (ABA) on the growth, carbohydrate content, and net photosynthesis of heavy metal-stressed rice plants (Oryza sativa cv. Bahía) was investigated. Treatment with cadmium (0.1 mm) and nickel (0.5 mm) inhibited rice growth and stimulated carbohydrate accumulation, especially in seeds from which seedlings were developing, stems, and first leaves. The addition of GA₃ (14 m) to the rice culture solution together with Cd or Ni partially reversed the effects of heavy metals, stimulating growth as well as mobilization of carbohydrate reserves in seeds from which seedlings had developed. GA₃ increased the sugar content in roots and second and third leaves and also modified the carbohydrate distribution pattern compared with heavy metal-treated plants. In contrast to GA₃, ABA (19 m) supplied to rice cultures potentiated the effect of heavy metals, inhibiting the growth of young leaves and the translocation of storage products from source to sink organs. In addition, sugars were accumulated in roots and second leaf but not in the third leaf, the extension in length of which was also inhibited by the treatment. Net photosynthesis rates recovered transitorily in Cd-treated plants after the addition of hormones. The possible relationship between growth and carbohydrate distribution, as well as the involvement of hormones, in the response of plant to heavy metal stress is discussed.Abbreviations 5DT 5 days after treatment - 10DT 10 days after treatment - ABA abscisic acid - GA₃ gibberellic acid - TMC total metabolizable carbohydrates     

GROWTH OF EXCISED PEA EMBRYONIC AXES ON DIFFERENT SUGARS

Excised pea embryonic axes were cultured on mineral salts plus various carbon sources. Growth continued for at least 3 wk, as measured by increased length, fresh and dry wt, sugar content, and β-amylase activity. The optimum sucrose concentration for elongation and fresh wt accumulation was 5% (w/v), although dry wt and sugar content increased in cultures containing 10 to 20%. Comparable growth was observed for axes cultured on 2% sucrose, glucose, fructose, or maltose.     

Regulation of sugar metabolism in rice (Oryza sativa L.) seedlings under arsenate toxicity and its improvement by phosphate

The effect of arsenate with or without phosphate on the growth and sugar metabolism in rice seedlings cv. MTU 1010 was studied. Arsenate was found to be more toxic for root growth than shoot growth and water content of the seedlings gradually decreased with increasing concentrations. Arsenate exposure at 20 μM and 100 μM resulted in an increase in reducing sugar content and decrease in non-reducing sugar content. There was a small increase in starch content, the activity of starch phosphorylase was increased but α-amylase activity was found to be decreased. Arsenate toxicity also affected the activities of different carbohydrate metabolizing enzymes. The activities of sucrose degrading enzymes viz., acid invertase and sucrose synthase were increased whereas, the activity of sucrose synthesizing enzyme, viz. sucrose phosphate synthase declined. The combined application of arsenate with phosphate exhibited significant alterations of all the parameters tested under the purview of arsenate treatment alone which was congenial to better growth and efficient sugar metabolism in rice seedlings. Thus, the use of phosphorus enriched fertilizers may serve to ensure the production of healthy rice plants in arsenic contaminated soils.     

Suppression and promotion of growth by ethylene in rice seedlings depends on ambient humidity

We examined the effect of ethylene on the growth of rice seedlings (Oryza sativa L.) at various degrees of humidity. Ethylene significantly suppressed the growth of shoots when applied to seedlings grown under 30% relative humidity (RH), but promoted the growth of shoots when applied to seedlings grown under 100% RH. The application of gibberellic acid (GA₃) promoted the elongation of shoots in seedlings grown under 30% and 100% RH. Ethylene inhibited the shoot elongation induced by GA₃ at 30% RH, but enhanced the elongation induced by GA₃ at 100% RH. These results indicate that ethylene can either promote or suppress the growth of rice shoots depending on ambient humidity, and that these actions of ethylene may be mediated through modulating the responsiveness of shoots to gibberellin.     

Isolation and identification of a potent allelopathic substance in rice root exudates

A search for growth inhibitors in rice root exudates was undertaken in order to clarify the allelopathic system in rice ( Oryza sativa L.). Rice seedlings inhibited the growth of cress ( Lepidium sativum L.) and lettuce ( Lactuca sativa L.) seedlings when the cress and lettuce were grown with rice seedlings. The putative compound causing the inhibitory effect of rice seedlings was isolated from their culture solution, and the chemical structure of the inhibitor was determined by spectral data as momilactone B. Momilactone B inhibited the growth of cress and lettuce seedlings at concentrations greater than 3 and 30 µ M , respectively. The concentration of momilactone B was 3.4 and 1.1 nmol per seedling in the culture solutions of husked and non-husked rice seedlings, respectively. These results suggest that rice seedlings may release momilactone B into the environment and the stress caused by the husk-treatment may increase the amount of momilactone B released. Thus, momilactone B may play an important role in rice allelopathy.     

Correlated responses of root growth and sugar concentrations to various defoliation treatments and rhythmic shoot growth in oak tree seedlings (Quercus pubescens)

Background and Aims

To understand whether root responses to aerial rhythmic growth and contrasted defoliation treatments can be interpreted under the common frame of carbohydrate availability; root growth was studied in parallel with carbohydrate concentrations in different parts of the root system on oak tree seedlings.

Methods

Quercus pubescens seedlings were submitted to selective defoliation (removal of mature leaves, cotyledons or young developing leaves) at appearance of the second flush and collected 1, 5 or 10 d later for morphological and biochemical measurements. Soluble sugar and starch concentrations were measured in cotyledons and apical and basal root parts.

Key Results

Soluble sugar concentration in the root apices diminished during the expansion of the second aerial flush and increased after the end of aerial growth in control seedlings. Starch concentration in cotyledons regularly decreased. Continuous removal of young leaves did not alter either root growth or apical sugar concentration. Starch storage in basal root segments was increased. After removal of mature leaves (and cotyledons), root growth strongly decreased. Soluble sugar concentration in the root apices drastically decreased and starch reserves in the root basal segments were emptied 5 d after defoliation, illustrating a considerable shortage in carbohydrates. Soluble sugar concentrations recovered 10 d after defoliation, after the end of aerial growth, suggesting a recirculation of sugar. No supplementary recourse to starch in cotyledons was observed.

Conclusions

The parallel between apical sugar concentration and root growth patterns, and the correlations between hexose concentration in root apices and their growth rate, support the hypothesis that the response of root growth to aerial periodic growth and defoliation treatments is largely controlled by carbohydrate availability.     

Determination of fermentable carbohydrate from the upper gastrointestinal tract by using colectomized rats.

The primary aim of this study was to characterize the carbohydrate that would be supplied to the colon for fermentation under physiological conditions. Colectomized rats were fed fiber-free diets or diets containing 5% (wt/wt) gum arabic. Four (fucose, galactose, glucosamine, and galactosamine) of 11 analyzed sugars accounted for 77% of the total sugar in ileal excreta from colectomized rats fed fiber-free diets. The three sugars in gum arabic, rhamnose, arabinose, and galactose, accounted for 84% of the total sugars in gum arabic ileal excreta. Comparisons of the sugar compositions of the ileal excreta, the water-soluble fractions of the excreta, and three gel filtration fractions of the water-soluble material with those of the water-soluble fraction of rat mucosa, the acetone-soluble fraction of pancreas, and pancreatin suggested that the major source of endogenous carbohydrate is mucin. Gum arabic increased the daily excretion of the four mucin-derived sugars (fucose, galactose, glucosamine, and galactosamine) by the colectomized rats from 473 mumol per day to 634 mumol per day. We conclude that mucin is the major endogenous carbohydrate excreted from the upper gut and that gum arabic increases the amount of this endogenous carbohydrate.     

Determination of fermentable carbohydrate from the upper gastrointestinal tract by using colectomized rats.

The primary aim of this study was to characterize the carbohydrate that would be supplied to the colon for fermentation under physiological conditions. Colectomized rats were fed fiber-free diets or diets containing 5% (wt/wt) gum arabic. Four (fucose, galactose, glucosamine, and galactosamine) of 11 analyzed sugars accounted for 77% of the total sugar in ileal excreta from colectomized rats fed fiber-free diets. The three sugars in gum arabic, rhamnose, arabinose, and galactose, accounted for 84% of the total sugars in gum arabic ileal excreta. Comparisons of the sugar compositions of the ileal excreta, the water-soluble fractions of the excreta, and three gel filtration fractions of the water-soluble material with those of the water-soluble fraction of rat mucosa, the acetone-soluble fraction of pancreas, and pancreatin suggested that the major source of endogenous carbohydrate is mucin. Gum arabic increased the daily excretion of the four mucin-derived sugars (fucose, galactose, glucosamine, and galactosamine) by the colectomized rats from 473 mumol per day to 634 mumol per day. We conclude that mucin is the major endogenous carbohydrate excreted from the upper gut and that gum arabic increases the amount of this endogenous carbohydrate.     

Polysaccharidmetabolismus in den Zellwänden wachsender Keimlinge von Phaseolus aureus

Summary Quantitative determinations of the cell wall constituents (pectin, hemicellulose and -cellulose) of growing Phaseolus aureus seedlings showed marked changes during early growth. The cell walls of the 2 to 4 days old seedlings were composed of approximately 30% -cellulose, 50% hemicelluloses and 20% pectin. After four weeks the proportion of the different fractions had changed to approximately 60% -cellulose, 30% hemicelluloses and 10% pectin. Quantitative sugar determinations on these polysaccharide fractions have shown that mainly the non-cellulosic fractions (hemicelluloses and pectin) underwent considerable changes in sugar composition during growth. The hemicelluloses contained non-cellulosic polysaccharides with a high glucose content, which were not starch. These were broken down in the cell walls during growth.In a series of experiments in which ¹⁴C-glucose was injected into the hypocotyls of four days old Phaseolus aureus seedlings, the transport of radioactivity to the different plant organs and its incorporation into the cell wall polysaccharides of the bean stem were studied. The major part of the radioactivity was incorporated into the cell wall of the stem tissue. Minor amounts were transported to the roots and leaves. Of the cell wall polysaccharides of the stem, the hemicellulosic fraction showed a higher rate of incorporation of the ¹⁴C-glucose than the -cellulose in the early stages of growth. With increasing age of the plant, radioactivity was transferred from the hemicellulosic fraction to the -cellulose, suggesting turnover of polysaccharides in the growing cell wall.     

Hydrolysis of wheat bran,rice bran and jute powder by immobilized enzymes from Macrophomina phaseolina

The stability of cellulolytic and hemicellulolytic enzymes from Macrophomina phaseolina improved on immobilization and was 1.5 to 2-fold more active against pre-treated wheat bran, rice bran or jute powder. The hydrolysis efficiency of the catalyst increased with a decrease in its particle size. About 80% (w/v) of the sugar obtained from wheat bran was assimilated by Saccharomyces sp., whereas the corresponding values for rice bran and jute powder were about 70 and 50% (w/v), respectively.     

Sodium-calcium interactions in two wheat species differing in salinity tolerance

White spruce [ Picea glauca (Moench) Voss.] seedlings were used to study the changes in cell wall composition and elasticity in mature needles before and after the resumption of growth following winter dormancy. Dormant seedlings showed high cell wall elasticity that decreased after the resumption of shoot growth. Cell wall hemicellulose content increased 3 days after planting and decreased after the buds flushed. Non-cellulosic glucose and arabinose were the sugars showing the most pronounced changes related to shoot growth. Arabinose was the most abundant sugar residue in the pectin and hemicellulose fractions and it decreased until day 10 after planting. At the same time, the levels of glucose in pectin and hemicellulose increased. The results provide evidence for cell wall carbohydrate turnover in dormant and active seedlings before and after bud flushing.     

Assessment of Allelopathic Potential of Root Exudate of Rice Seedlings

To determine the allelopathic potential of root exudate from early developmental stage of rice (Oryza sativa L), 6-d-old seedlings of eight cultivars were grown with 3-d-old alfalfa (Medicago sativa L.), cress (Lepidium sativum L.) or lettuce (Lactuca sativa L.) seedlings in Petri dishes under controlled condition. All rice cultivars (cv. Norin 8, Kamenoo, Nipponbare, Kinuhikari, Koshihikari, Sasanishiki, Yukihikari and Hinohikari) inhibited growth of roots, shoots and fresh mass of alfalfa, cress and lettuce seedlings. Effectiveness of cv. Koshihikari was the greatest and more than 60% inhibition was recorded in all bioassays, followed by that of cv. Norin 8 of which effectiveness was more than 40%.     

水稻基腐细菌毒素的分离纯化、性质和生物学作用

[目的]水稻基腐细菌毒素迄今未见报道.毒素是病原微生物重要的致病因子之一,毒素的分离纯化是研究病菌毒素功能和作用的前提和基础.[方法]通过几种层析柱的多次层析分离及对水稻 ,幼苗的生物活性跟踪测定,分离纯化水稻基腐细菌毒素;采用化学及生物化学方法,研究毒素的性质及生物学作用.[结果]获得了水稻基腐细菌毒素的一个成分T<,3>,该成分为黄色固体,溶于甲醇、正丁醇、水和甲酸;不溶于三氯甲烷、乙酸乙酯;微溶于丙酮,是非糖类和非蛋白质类物质,对紫外线敏感.毒素具有抑制水稻生根、使水稻秧苗萎蔫和对烟草细胞坏死的作用.高浓度毒素抑制水稻、玉米、番茄和烟草种子萌发,低浓度毒素则具有促进根、芽生长的作用.毒素对来自5个属的10种植物病原细菌具有抑菌活性,同时具有诱导水稻PAL和POD活性,且对抗病品种128的POD和PAL诱导活性均高于感病品种特籼13.[结论]首次建立了水稻基腐细菌毒素的分离纯化方法.该毒素具有抑制水稻幼根生长、导致秧苗萎蔫、引起烟草细胞坏死、抑制植物病原细菌和诱导水稻防卫酶活性等生物学作用.     

Hormonal Status in Wheat and Rice Seedlings under Anoxia

A comparative analysis of the effects of anoxia on growth, fresh weight gain, and phytohormones in wheat (Triticum aestivum L.) and rice (Oryza sativa L.) seedlings was performed. In both plant species, a total cessation of root growth occurred during the initial hours of anoxia. In an anaerobic environment, the fresh weight of wheat seedlings decreased. An increase in the shoot length and weight under the stress conditions was found only in rice seedlings. During the initial hours of anoxia, the level of free ABA in wheat and rice tissues increased manifold, and the accumulation of a free ABA form occurred at the expense of the hydrolysis of its bound forms. The IAA content in plant tissues also increased. In wheat, the accumulation of IAA was short, but in rice, a high hormone level was retained during the entire experiment, and, as a result, its concentration exceeded that of ABA. A level of cytokinins in the tissues of both plant species was affected by anoxia to a lesser extent than that of other phytohormones. This level somewhat decreased under anoxia similarly to the level in darkness under aeration. It is suggested that IAA accumulation in hypoxia-tolerant rice seedlings under anoxia favors maintenance of shoot growth and simultaneous inhibition of root growth. At the same time, in the hypoxia-sensitive wheat, an increase in the ABA level resulted in growth cessation.     

Gas chromatographic–mass spectrometric analysis of urinary sugar and sugar alcohols during pregnancy

A refined and simplified method has been developed for the simultaneous analysis of urinary sugar and sugar alcohols after urease treatment by using capillary gas chromatography–mass spectrometry (GC–MS). Since carbohydrate metabolism during pregnancy is considered to be diabetogenic, our interest has been concentrated on understanding the mechanism of the metabolic deviation by assessing the glucose excursion and glucose fluxes. The present study suggests that changes of the levels of glucose, sorbitol, fructose, myo-inositol, and 1,5-anhydro-D-glucitol (1,5-AG) may reflect a mild alteration in carbohydrate metabolism that goes undetected by conventional diabetic indicators.     

Potato Seed-tuber Age Affects Mobilization of Carbohydrate Reserves During Plant Establishment

During the early stages of growth, developing sprouts rely heavilyupon tuber carbohydrate reserves. Strong sprouts are producedfrom young potato (Solaman tuberosum L.) seed-tubers, whereastubers of advanced physiological age produce sprouts with reducedvigour. Single-eye seedcores from 7- and 19-month-old seed-tuberswere sprouted in order to study the effect of tuber age on carbohydratereserve mobilization. Following 24 d of growth, the same amountof total shoot dry matter was produced from both ages of seedcores.However, d. wt of individual shoots from older seedcores was93 % lower than that from younger cores, reflecting a significantloss in apical dominance with age. Furthermore, core d. wt lossper unit gain in plant d. wt was greater from 19-month-old seedcores,indicating an age-related decrease in the efficiency of reservemobilization over the growth interval. During sprouting, ratesof starch hydrolysis and subsequent increases in total solublecarbohydrates were similar for both tuber ages. Reducing sugars(mg g d. wt^–1) accumulated faster in older than in youngercores; non-reducing sugars (mainly sucrose) decreased 53% inolder seedcores over the 24 d growth interval. Non-reducingsugar content (mg g d. wt^–1, mg core^–1) of youngercores remained constant. The results suggest that older coresare either less efficient at converting glucose to sucrose (themain translocatable carbohydrate in potatoes) or have higherrates of sucrose hydrolysis (e.g. increased invertase activity)compared with younger tuber tissues during sprouting Potatoes (Solanum tuberosum L.), seed-tuber age, carbohydrate mobilization, plant growth potential     

Structural characterization and in vitro inhibitory activities in P-selectin-mediated leukocyte adhesion of polysaccharide fractions isolated from the roots of Physalis alkekengi

Selectin-mediated leukocyte initial attachment and rolling over vessel endothelial surface are crucial steps for inflammatory responses. As P-selectin is a promising target for anti-inflammation therapeutic strategy, recent works have focused on searching for more potent and non-toxic P-selectin antagonists among various natural carbohydrate products. Here, we isolated three water-soluble polysaccharide fractions (PPS-1, PPS-2 and PPS-3) from the roots of Physalis alkekengi by DEAE-cellulose and Sephacryl S-200 chromatography. Their physicochemical and structural characterizations were determined by chemical methods, GC (gas chromatography), HPLC (high performance liquid chromatography), FT-IR (Fourier transform infrared spectrometry), partial acid hydrolysis, methylation and GC-MS (gas chromatography-mass spectrometry) analyses. The inhibitory capacity of the polysaccharide fractions in P-selectin-mediated leukocyte adhesion was evaluated by flow cytometric, static adhesion and laminar flow assays. Results showed that different polysaccharide fractions possess distinct physicochemical and structural properties, including carbohydrate, protein and uronic acid contents, molecular weight, monosaccharide composition and glycosidic linkage type. Among the polysaccharide fractions, PPS-2 could effectively block the interaction between P-selectin and its native ligand.     

Quantification of indol-3-yl acetic acid in pea and maize seedlings by gas chromatography-mass spectrometry

A procedure is described for the identification and quantification of IAA in plant tissues by GC/MS analysis of the N-heptafluorobutyryl ethyl ester of IAA using [²H₅]IAA as an internal standard. The detection limit is ca 3 pmol IAA/tissue sample. By using this method, IAA levels of 30–90 pmol/g fr. wt were obtained for dark-grown Pisum sativum epicotyls and 71–199 pmol/g fr. wt for dark-grown Zea mays seedlings. When either methanol or ethanol was used as extraction solvent, some esterification of IAA during sample preparation was observed. No evidence for the natural occurrence of methyl or ethyl esters of IAA in Pisum sativum seedlings was found.     

Occurrence of acid and neutral carboxypeptidases in germinating cereals

High neutral metallocarboxypeptidase activity (EC 3.4.17) has earlier been detected in young seedlings of rice ( Oryza sativa L.) using benzyloxycarbonyl-L-phenylalanyl-L-alanine (Z-Phe-Ala) as substrate at pH 7. This finding was confirmed, and it was observed that the activity could be assayed with higher specificity and sensitivity by using Z-Gly-Ala or Z-Gly-Phe as substrate at pH 6.5–7. No corresponding activity was detected in seedlings of barley ( Hordeum vulgare L. cv. Himalaya), oats ( Avena sativa L.) or maize ( Zea mays L.). The seedlings of the four cereals possessed similar activities of acid carboxypeptidases (EC 3.4.16; hydrolysis of Z-Phe-Ala and Z-Ala-Phe at pH 5.2 and of Z-Ala-Arg at pH 5.7). However, in endosperms of germinating rice and maize these activities were only about 1–5% of those in barley and oats. A corresponding, although less pronounced, difference was evident between the scutella of the two pairs of cereals. The possible relationship between neutral carboxypeptidase activity and ability to grow in anaerobic conditions is discussed.     

Azadirachta indica and Ocimum sanctum leaf extracts alleviate arsenic toxicity by reducing arsenic uptake and improving antioxidant system in rice seedlings

In the present study the potentials of aqueous extracts of the two plants, neem (Azadirachta indica) and Tulsi (Ocimum sanctum) were examined in alleviating arsenic toxicity in rice (Oryza sativa L.) plants grown in hydroponics. Seedlings of rice grown for 8 days in nutrient solution containing 50 μM sodium arsenite showed decline in growth, reduced biomass, altered membrane permeability and increased production of superoxide anion (O2·−), H2O2 and hydroxyl radicals (·OH). Increased lipid peroxidation marked by elevated TBARS (thiobarbituric acid reactive substances) level, increased protein carbonylation, alterated levels of ascorbate, glutathione and increased activities of enzymes SOD (superoxide dismutase), CAT (catalase), APX (ascorbate peroxidase) and GPX (glutathione peroxidase) were noted in the seedlings on As treatment. Exogenously added leaf aqueous extracts of Azadirachta indica (0.75 mg mL−1, w/v) and Ocimum sanctum (0.87 mg mL−1, w/v) in the growth medium considerably alleviated As toxicity effects in the seedlings, marked by reduced As uptake, restoration of membrane integrity, reduced production of ROS, lowering oxidative damage and restoring the levels of ascorbate, glutathione and activity levels of antioxidative enzymes. Arsenic uptake in the seedlings declined by 72.5% in roots and 72.8% in shoots, when A. indica extract was present in the As treatment medium whereas with O. sanctum extract, the uptake declined by 67.2% in roots and 70.01% in shoots. Results suggest that both A. indica and O. sanctum aqueous extracts have potentials to alleviate arsenic toxicity in rice plants and that A. indica can serve as better As toxicity alleviator compared to O. sanctum.