Seasonal Dynamics of Nitrogenous Compounds in a Nitrophilic Weed II. The Role of Free Amino Acids and Proteins as Nitrogen Store in Urtica dioica

The free amino acid fraction, representing the most importantnitrogen store in the overwintering below ground plant partsof Urtica dioica, consisted mainly (up to 80%) of asparagineand arginine. While asparagine was dominant in rhizomes, upto one year old, argrnine was specifically accumulated in theolder rhizomes and roots. In spring first the nitrogen storedin asparagine and with a delay of about three weeks that inarginine was mobilized and translocated to the rapidly growingshoots. Proteins may function as nitrogen store too, in particularin the case of the seeds. In the below ground organs, however,a special storage protein, rich in amides and/or arginine, whichwould correspond to the large quantities of these amino acidsin the overwintering organs, could not be detected. (Received September 3, 1984; Accepted November 2, 1984)     

Quantification by ELISA of Cytokinins in Root-Pressure Exudates of Urtica dioica Plants Grown under Different Nitrogen Levels

ELISAs for [9R]iP, [9R]Z and (diH) [9R]Z have been worked out which, in combination with HPLC., allow the quantitative determination of cytokinins of the isopentenyladenin-, zeatin- and dihydrozeatin-type in samples of plant material. The three ELISAs are optimally applicable in the range from 0.5 to 20 pmoles of cytokinins per assay but reliable measurements can still be performed down to 0.05 pmoles. The assay has been applied to root pressure exudates obtained from Urtica dioica plants grown under controlled conditions and at different nitrogen (nitrate) levels. The predominant cytokinins of the xylem exudate were Z, Z-nucleotide, iP, [9R]iP and iP-nucleotide, while (diH)Z was present to a minor extent. The concentrations of these compounds were found to range between 0.2 and 3 pmoles per ml exudate. Interestingly, no effect of the different nitrogen nutrition on the pattern and concentration of cytokinins in the xylem exudate could be established.     

Seasonal Changes of Nitrogen Storage Compounds in a Rhizomatous Grass Calamagrostis epigeios

The seasonal dynamics in content and distribution of N-rich compounds between overwintering organs of Calamagrostis epigeios were examined. Samples were taken both from plants grown in natural conditions and in containers with controlled nutrient supply. There were significant changes in content of nitrate, free amino acids and soluble protein in all investigated plant parts during the course of a year. Amino acids showed both the highest maximum and seasonal fluctuation among the all N compounds observed and, therefore, appear to have a central role in N storage. Their content rises in the autumn, remains stable during winter and declines quickly at the beginning of spring. The most abundant amino acids in the end of winter storage period - asparagine, arginine and glutamine - constituted about 90 % of N in fraction of free amino acids. The portion of N stored in soluble proteins, however, was considerably smaller compare to both amino acids and nitrate. The amount of N stored in rhizomes of C. epigeios was smaller than in roots and stubble base before the onset of spring re-growth. This indicates that roots and stubble base are particularly important for winter N storage in this species.     

Developmental and comparative ultrastructure of glandular hairs in the two Urticaceae. I. Urtica dioica

Secretion produced by glandular hairs is deposited mainly in the periplasmic space of the head cells. It stains intensely for both proteins and polysaccharides. The ultrastructure of meristematic, differentiating, mature and senescent head cells as well as the stalk and basal cells has been described in comparison to that in other cell types of the leaf. The specific features of the head cells are the proliferation of the granular endoplasmic reticulum as well as the multiplication of the dictyosomes and mitochondria during transition to the secretion stage. However, the frequency of dictyosomes varies among secreting hairs. The ER produces neither secretory nor transition vesicles and does not anastomose with the plasmalemma. In the absence of transition vesicles, the transport of secretory proteins and enzymes of polysaccharide synthesis from the ER to dictyosomes apparently includes the cytosolic step. Dictyosomes, though not appearing hypersecretory, produce two types of smooth secretory vesicles generated by the trans Golgi reticulum. The vectorial transfer of prosecretion and membranes across the dictyosome stack proceeds via the transport (shuttle) vesicles. It is, therefore, concluded that exocytosis of smooth secretory Golgi vesicles is the sole mechanism of release of both proteins and polysaccharides. Coated vesicles occasionally seen near the plasmalemma are likely to be involved in the endocytotic membrane retrieval. The secretion product disappears during senescence of the hairs and the secretory cells undergo vacuolation by means of local autophagy.     

Seasonal Changes of the Metabolites in the Leaves, Bark and Xylem Tissues of Olive Tree (Olea europaea. L) I. Nitrogenous Compounds

The changes of total nitrogen and free amino compounds wereexamined in leaves, bark and xylem tissues of olive tree duringa complete annual cycle. In leaves total nitrogen decreasedin spring/early-summer but reached the highest level in autumn-winterperiods. In bark tissues total nitrogen fluctuations were mainlyrelated to the periodical cambial activities. In xylem tissuestotal nitrogen was detected in low levels with no fluctuationsover the year. The free amino compounds in leaves showed seasonalpeaks during the spring and autumn stem elongations, while aconsiderable restriction of their levels was detected in summer.Glutamate, aspartate, proline, alanine, serine and -aminobutyrateare the predominant amino acids detected in leaves. Glutamateand aspartate increased considerably in spring and autumn periodsbut disappeared in summer. Proline remained almost unchangedover the year. Alanine, in addition to the spring and autumnfluctuations, also fluctuated in summer, -aminobutyrate wasdetected at highest levels in winter. In bark tissues, the patternof fluctuations and the composition of the free amino compoundswere similar to those of leaves. In xylem tissues free aminocompounds were detected in high levels over the year exceptfor the drops in spring and summer cambial activity periods.Xylem was the most important reservoir for the readily transportablesoluble nitrogen being accumulated during the maturing of theproduced new xylem. Arginine, glutamine, alanine, glutamate,aspartate, serine, -aminobutyrate and proline are the most prevalentamino compounds in xylem. Arginine and glutamine showed extensiveinterchanges. Arginine increased in autumn while glutamine andalanine showed low levels in the same period. Olive tree (Olea europaea L), amino acids     

Seasonal Variation of Nitrogenous Compounds in Components of the Kiwifruit Vine

Free amino acids in 6-year-old kiwifruit vines [Actinidia deliciosa(A. Chev.) C. F. Liang et A. R. Ferguson] were measured overthe course of 1 year using components obtained from whole-vineharvests. Tissues examined from the perennial structure consistedof the wood and cortex of structural roots, wood and bark ofstem, leader and 1-year-old fruiting canes. Free acids in theannual growth (fine roots, flowers, fruit, leaves and non-fruitingshoots) were also measured. The range of amino acids extracted indicated that kiwifruitconforms to a conventional pattern of nitrogen metabolism. Acidspresent in greatest concentration depended on tissue type andsampling time. In perennial components and fine roots, arginineand glutamine were the predominant species, followed by gamma-aminobutyrate,aspartate, glutamate, alanine and valine. Generally, maximumconcentrations of all free acids were measured in a 10-weekperiod around budbreak. These same acids, plus asparagine, serineand threonine, were also prevalent in annual growth. In leaves,flowers and non-fruiting shoots, concentrations were greatestin the young tissue and declined with age. By contrast, concentrationsof arginine, asparagine and glutamine in fruit peaked approximately10 weeks after anthesis, subsequent to the cell division phaseof growth. During the year, free arginine averaged 44, 48 and 58 % of thetotal N in the fine roots, and the cortex and wood of structuralroots, respectively (the quantity of total N and amino-N inother components of the structural framework was much less thanthat in root tissue). Arginine was the principal N-containingspecies measured in xylem sap vacuum-extracted from 1-year-oldcanes over winter. During the period of vegetative growth, however,glutamine and nitrate were the principal N-transport forms present.The study highlights the importance of the fine root systemas the primary location of nitrogenous reserves in this plantand identifies arginine as the dominant N-storage form. Actinidia deliciosa (A. Chev.) C. F. Liang et A. R. Ferguson, amino acid composition, kiwifruit, nitrogen, whole-plant harvesting     

The Pitcher Plant Sarracenia purpurea Can Directly Acquire Organic Nitrogen and Short-Circuit the Inorganic Nitrogen Cycle

Background

Despite the large stocks of organic nitrogen in soil, nitrogen availability limits plant growth in many terrestrial ecosystems because most plants take up only inorganic nitrogen, not organic nitrogen. Although some vascular plants can assimilate organic nitrogen directly, only recently has organic nitrogen been found to contribute significantly to the nutrient budget of any plant. Carnivorous plants grow in extremely nutrient-poor environments and carnivory has evolved in these plants as an alternative pathway for obtaining nutrients. We tested if the carnivorous pitcher plant Sarracenia purpurea could directly take up intact amino acids in the field and compared uptake of organic and inorganic forms of nitrogen across a gradient of nitrogen deposition. We hypothesized that the contribution of organic nitrogen to the nitrogen budget of the pitcher plant would decline with increasing nitrogen deposition.

Methodology and Principal Findings

At sites in Canada (low nitrogen deposition) and the United States (high nitrogen deposition), individual pitchers were fed two amino acids, glycine and phenylalanine, and inorganic nitrogen (as ammonium nitrate), individually and in mixture. Plants took up intact amino acids. Acquisition of each form of nitrogen provided in isolation exceeded uptake of the same form in mixture. At the high deposition site, uptake of organic nitrogen was higher than uptake of inorganic nitrogen. At the low deposition site, uptake of all three forms of nitrogen was similar. Completeness of the associated detritus-based food web that inhabits pitcher-plant leaves and breaks down captured prey had no effect on nitrogen uptake.

Conclusions and Significance

By taking up intact amino acids, Sarracenia purpurea can short-circuit the inorganic nitrogen cycle, thus minimizing potential bottlenecks in nitrogen availability that result from the plant''s reliance for nitrogen mineralization on a seasonally reconstructed food web operating on infrequent and irregular prey capture.     

Seasonal Changes in Nitrogen Fractions of Coptis japonica, a Temperate Forest Evergreen Chamaephyte, and their Ecological Implications

Seasonal changes in several forms of nitrogen were investigatedin Coptis japonica, an evergreen rosette hemicryptophyte intemperate deciduous forest. The concentration of total nitrogenin rhizomes and roots decreased during the period of new shootgrowth from winter to spring. In the rhizomes, total solubleprotein stored by early summer decreased gradually until winter,coupled with an increase in free amino acids. Nitrogen was largelystored in free amino acids in the roots, especially during summer.The total soluble protein in current-year leaves decreased fromspring to summer and then increased during winter. The seasonalchanges in nitrogen components were coincident with the changein light-saturated photosynthetic rates recorded in a previousstudy. The ratio of total soluble protein to total nitrogendecreased from spring to summer and then increased from latesummer to winter in the current-year leaves. In contrast, chlorophyllcontent and the ratio of chlorophyll to total nitrogen werehigher in summer than in other seasons. The results indicatethat nitrogen was used in a manner that better utilizes thevery weak light in summer and the higher light intensities inother seasons. The major component of the free amino acid poolwas asparagine, in every organ throughout the season, exceptfor the senescent leaves. Since asparagine has a high N:C ratio,we suppose that the asparagine-dominated amino acid pool isadvantageous in the carbon-limited environment of the forestfloor.Copyright 1994, 1999 Academic Press Free amino acid composition, total nitrogen, total soluble protein, photosynthesis, evergreen hemicryptophyte     

不同氮水平下盐胁迫对大麦幼苗中某些氮化物积累的影响(简报)

在土培条件下,提高氮素供应水平和NaCl处理浓度后大麦幼苗地上部和根中的全氮,蛋白质氮和游离氨基酸总量增加;蛋白质氮占全氮的比值亦因NaCl处理浓度的增大而提高。在盐胁迫下,游离脯氨酸占氨基酸总量的百分比明显增加,而谷氨酸所占比例则下降。     

The Effect of Nitrogen Supply to Urtica dioica L. Plants on the Distribution of Assimilate Between Shoot and Roots

In this study the influence of nitrogen nutrition on the patterns of carbon distribution was investigated with Urtica dioica. The nettles were grown in sand culture at 3 levels of NO^?₃, namely 3 (low), 15 (medium) and 22 (high) mM. These levels encompassed a range within which nitrogen did not affect total biomass production. The ratio of root: shoot biomass of the low nitrogen plants was, however, significantly higher than that of the nettles grown at medium and high N supply. Carbon allocation from one leaf of each pair of leaves was examined after a ¹⁴CO₂-pulse and a subsequent ¹⁴C distribution period of one night. Only the youngest two leaf pairs did not export assimilates. Carbon (¹⁴C) export to the shoot apex and to the roots, as measured at the individual nodes responded to the nitrogen status: At medium and high nitrogen supply the 3rd, 4th and 5th leaf pairs exported to the shoot apex, while lower leaves exported to the root. At low nitrogen supply only the 3rd leaf exported towards the shoot apex. The results illustrate the plastic response of carbon distribution patterns to the nitrogen supply, even when net photosynthesis, carbon export from the source leaves and biomass production were not affected by the nitrogen supply to the plant.     

滇产粗根荨麻不同提取部位的镇痛抗炎作用研究

为探讨滇产粗根荨麻不同部位的镇痛抗炎活性,并作有效部位筛选,本文采用醋酸扭体法和角叉菜胶致大鼠足肿胀模型筛选有效部位.正丁醇部分(200 mg/kg)对醋酸诱发小鼠扭体有抑制作用与空白及溶媒对照组比较(P＜0.05);水部分(100,200,400 mg/kg)对角叉菜胶致大鼠足肿胀有明显抑制作用,与空白及溶媒对照组比较(P＜0.01);正丁醇部分(400 mg/kg)可减轻角叉菜胶致大鼠足肿胀,与空白及溶媒对照组比较(P＜0.05).滇产粗根荨麻正丁醇部分有一定的镇痛抗炎作用,水部分具较强抗炎作用.     

Induction of Morphogenesis in Geodermatophilus by Inorganic Cations and by Organic Nitrogenous Cations

Morphogenesis of Geodermatophilus strain 22-68 involves two stages, a motile rod (R form) and an irregularly shaped cluster of coccoid cells (C form). A variety of mono- and divalent cations have been found to induce R-form to C-form morphogenesis and to maintain the organism in the C form. Concentration optima for all cations exceeded 100 mM. Results indicated that uptake of cations was accompanied by extrusion of intracellular protons, causing an increase in intracellular pH. A variety of organic amines also induced morphogenesis. Organic amines were taken up in the dissociated free base form, causing the intracellular pH to rise. None of these compounds was utilized as a carbon or nitrogen source.     

刺五加丁香苷和总黄酮含量及其季节动态

本文研究了刺五加（Acanthopanax senticosus）丁香苷和总黄酮含量的季节变化。结果表明,丁香苷主要存在于茎干系统,其中在枝中的含量最高,平均含量可达2．94％。从季节动态来看,刺五加地上部分枝和茎中丁香苷的含量呈明显的季节变化,即春秋季含量较高,夏季含量较低;地下部分根和根茎中丁香苷含量的季节变化不明显。刺五加全株均含有总黄酮,刺五加地上部分总黄酮的含量呈明显的季节变化,其叶片总黄酮在5月中下旬林分郁闭之前含量最高,平均含量可达3．8％;茎干中总黄酮春季较高,夏季降低,而到晚秋时含量最高,其中枝中总黄酮平均含量可达3．75％。地下部分总黄酮含量的季节变化不十分明显。本文对丁香苷和总黄酮季节变化的原因进行了分析。     

Dynamics of Nitrogenous Assimilate Partitioning between Cytoplasmic and Vacuolar Fractions in Carrot Cell Suspension Cultures

Bulk vacuole isolation, gas chromatography-mass spectrometry,, and high-performance liquid chromatography have been used to investigate the accumulation and partitioning of assimilated nitrogen supplied as ¹⁵NH₄Cl between vacuolar and extravacuolar (cytoplasmic) fractions of protoplasts from suspension cultures of carrot (Daucus carota L. cv Chantenay). Glutamine was the most abundant amino acid in the vacuole of protoplasts from late-exponential phase cells, whereas alanine, glutamate, and γ-aminobutyric acid were located primarily in the cytoplasmic fraction. In ¹⁵N-feeding studies, newly synthesized glutamine partitioned strongly to the vacuole, whereas glutamate partitioned strongly to the cytoplasm, γ-aminobutyric acid was totally excluded from the vacuole, and alanine was distributed in both compartments. Comparison of the ¹⁵N-enrichment patterns suggests that initial assimilation to glutamine occurs within a subcompartment of the cytoplasmic fraction. The protoplast-feeding technique may be extended to investigate cytoplasmic compartmentation further.     

The Effect of Mercaptoethanol on the Activity of Enzymes of Nitrogen Metabolism in Leaves from Urtica dioica and Spinacia oleracea

The effect of mercaptoethanol at different concentrations on enzyme activity was investigated in leaves from Urtica dioica and Spinacia oleracea. The interference of mercaptoethanol with enzyme activity is dependent on the type of plant, the configuration of the enzyme and the concentration of mercaptoethanol. A stimulation of GDH (glutamate-dehydrogenase) was obtained in both species, while inhibition of GOT (glutamate-oxaloacetate transaminase) and GPT (glutamate-pyruvate transaminase) was demonstrated in Spinacia. The stimulation of GOT and GPT activity in Urtica was probably due to inhibition of phenol oxidase. Conclusions concerning the effect of mercaptoethanol on NR (nitrate reductase) activity were difficult to draw, since mercaptoethanol itself reduced nitrite and interfered with NR determination in tests in vitro. In Urtica. no activity could be obtained at all with the in vitro method, probably because an inhibitor of NR was liberated during the extraction procedure, Activity of NR could however be obtained in both species when using the in vivo method. Addition of protective agents to the extraction medium has been supposed to influence the protein extractability. In conformity with this increasing amount of fresh matter to the same volume of extraction medium resulted in decreased protein extractability. This led to differences in enzyme activity when expressed on a fresh weight basis but the specific activity remained constant.     

Cytosolic and cell-wall-bound acid invertases from leaves of Urtica dioica L.: a comparison

Two different forms of acid invertase (EC 3.2.1.26) were extracted from expanding leaves of the stinging nettle (Urtica dioica L.). One form was soluble and could be localized within the cytosol, whereas the other was ionically bound to the cell-wall and could not be detected in protoplasts. Both forms were purified, the latter to homogeneity. Western blotting with antibodies against the pure enzyme from cell walls was positive with the cell-wall enzyme but negative with the soluble form of acid invertase. Both forms are glycoproteins with identical molecular weights of 58 kDa. The K_m values for sucrose (raffinose) are 5 mM (4.8 mM) for the soluble and 1.2 mM (3.6 mM) for the cell-wall-bound enzyme. The pH optimum of the latter is slightly more acidic (4.5) than that of the soluble invertase (5.5). Both forms could easily be distinguished by their isoelectric points which were determined at pH 4.6 for the soluble and pH 9.3 for the wall-bound enzyme. When extraction and purification were carried out in the absence of protease inhibitors, both acid invertases showed microheterogeneity (multiple forms). However, with benzamidine and phenylmethylsulfonylfluoride as protease inhibitors each invertase produced only one protein band upon isoelectric focusing and gel electrophoresis, respectively.Abbreviations B benzamidine - Con A concanavalin A - FPLC fast protein liquid chromatography - IEF isoelectric focusing - kDa kilodalton - pI isoelectric point - PAGE polyacrylamide gel electrophoresis - PMSF phenylmethylsulfonylfluoride - SDS sodium dodecyl sulfate This work was supported by the Deutsche Forschungsgemeinschaft within the scope of the Sonderforschungsbereich 137.     

Crystal structure of Urtica dioica agglutinin, a superantigen presented by MHC molecules of class I and class II

BACKGROUND: Urtica dioica agglutinin (UDA), a monomeric lectin extracted from stinging nettle rhizomes, is specific for saccharides containing N-acetylglucosamine (GlcNAc). The lectin behaves as a superantigen for murine T cells, inducing the exclusive proliferation of Vbeta8.3(+) lymphocytes. UDA is unique among known T cell superantigens because it can be presented by major histocompatibility complex (MHC) molecules of both class I and II. RESULTS: The crystal structure of UDA has been determined in the ligand-free state, and in complex with tri-acetylchitotriose and tetra-acetylchitotetraose at 1.66 A, 1.90 A and 1.40 A resolution, respectively. UDA comprises two hevein-like domains, each with a saccharide-binding site. A serine and three aromatic residues at each site form the principal contacts with the ligand. The N-terminal domain binding site can centre on any residue of a chito-oligosaccharide, whereas that of the C-terminal domain is specific for residues at the nonreducing terminus of the ligand. We have shown previously that oligomers of GlcNAc inhibit the superantigenic activity of UDA and that the lectin binds to glycans on the MHC molecule. We show that UDA also binds to glycans on the T cell receptor (TCR). CONCLUSIONS: The presence of two saccharide-binding sites observed in the structure of UDA suggests that its superantigenic properties arise from the simultaneous fixation of glycans on the TCR and MHC molecules of the T cell and antigen-presenting cell, respectively. The well defined spacing between the two binding sites of UDA is probably a key factor in determining the specificity for Vbeta8.3(+) lymphocytes.     

The Role of Dissolved Organic Carbon, Dissolved Organic Nitrogen, and Dissolved Inorganic Nitrogen in a Tropical Wet Forest Ecosystem

Although tropical wet forests play an important role in the global carbon (C) and nitrogen (N) cycles, little is known about the origin, composition, and fate of dissolved organic C (DOC) and N (DON) in these ecosystems. We quantified and characterized fluxes of DOC, DON, and dissolved inorganic N (DIN) in throughfall, litter leachate, and soil solution of an old-growth tropical wet forest to assess their contribution to C stabilization (DOC) and to N export (DON and DIN) from this ecosystem. We found that the forest canopy was a major source of DOC (232 kg C ha^–1 y^–1). Dissolved organic C fluxes decreased with soil depth from 277 kg C ha^–1 y^–1 below the litter layer to around 50 kg C kg C ha^–1 y^–1 between 0.75 and 3.5m depth. Laboratory experiments to quantify biodegradable DOC and DON and to estimate the DOC sorption capacity of the soil, combined with chemical analyses of DOC, revealed that sorption was the dominant process controlling the observed DOC profiles in the soil. This sorption of DOC by the soil matrix has probably led to large soil organic C stores, especially below the rooting zone. Dissolved N fluxes in all strata were dominated by mineral N (mainly NO₃⁻). The dominance of NO₃^– relative to the total amount nitrate of N leaching from the soil shows that NO₃^– is dominant not only in forest ecosystems receiving large anthropogenic nitrogen inputs but also in this old-growth forest ecosystem, which is not N-limited.