Boron,copper, iron,manganese and zinc contents in leaves of flowering sunflower plants (Helianthus annuus,L.), grown with different boron supplies

Summary Boron, copper, iron, manganese and zinc concentrations were measured in sunflower leaves from plants grown hydroponically in a closed continuous flow system and with boron concentrations ranging from deficient to toxic. Leaves were analyzed at the stage of flower development. There was a highly significant inverse correlation between B concentration in solution and Mn concentration in leaves. Cu, Fe and Zn concentrations in the leaves were not changed by the different B levels, although the B concentration in leaves increased with an increasing concentration in solution, showing a close correlation each other.     

Molecular characterization of a blue-copper laccase, TILA, of Aspergillus nidulans

Laccases are blue-copper enzymes, which oxidize phenolic substrates and thereby reduce molecular oxygen. They are widespread within fungi and are involved in lignin degradation or secondary metabolism such as pigment biosynthesis. Many fungi contain several laccases, not all of whose functions are known. In Aspergillus nidulans one, yA, is expressed during asexual development and converts a yellow precursor to the green pigment. We identified a second laccase gene, which encodes a 66.3-kDa protein 37.6% identical to laccase I of A. nidulans. The protein harbors an N-terminal secretion signal, and three characteristic copper-binding centers. The enzyme localizes at the growing hyphal tip. The gene was therefore named tilA (=tip laccase). Deletion or overexpression of the gene had no discernible phenotype under laboratory conditions.     

Induction of iron(III) and copper(II) reduction in pea (Pisum sativum L.) roots by Fe and Cu status: Does the root-cell plasmalemma Fe(III)-chelate reductase perform a general role in regulating cation uptake?

We investigated the effects of Fe and Cu status of pea (Pisum sativum L.) seedlings on the regulation of the putative root plasma-membrane Fe(III)-chelate reductase that is involved in Fe(III)-chelate reduction and Fe²⁺ absorption in dicotyledons and nongraminaceous monocotyledons. Additionally, we investigated the ability of this reductase system to reduce Cu(II)-chelates as well as Fe(III)-chelates. Pea seedlings were grown in full nutrient solutions under control, -Fe, and -Cu conditions for up to 18 d. Iron(III) and Cu(II) reductase activity was visualized by placing roots in an agarose gel containing either Fe(III)-EDTA and the Fe(II) chelate, Na₂bathophenanthrolinedisulfonic acid (BPDS), for Fe(III) reduction, or CuSO₄, Na₃citrate, and Na₂-2,9-dimethyl-4,7-diphenyl-1, 10-phenanthrolinedisulfonic acid (BCDS) for Cu(II) reduction. Rates of root Fe(III) and Cu(II) reduction were determined via spectrophotometric assay of the Fe(II)-BPDS or the Cu(I)-BCDS chromophore. Reductase activity was induced or stimulated by either Fe deficiency or Cu depletion of the seedlings. Roots from both Fe-deficient and Cu-depleted plants were able to reduce exogenous Cu(II)-chelate as well as Fe(III)-chelate. When this reductase was induced by Fe deficiency, the accumulation of a number of mineral cations (i.e., Cu, Mn, Fe, Mg, and K) in leaves of pea seedlings was significantly increased. We suggest that, in addition to playing a critical role in Fe absorption, this plasma-membrane reductase system also plays a more general role in the regulation of cation absorption by root cells, possibly via the reduction of critical sulfhydryl groups in transport proteins involved in divalent-cation transport (divalent-cation channels?) across the root-cell plasmalemma.     

Cu(II) ion interaction with teicoplanin-vancomycin’s analog

Teicoplanin, a member of the “last chance” antibiotic family has a similar structure and the same mechanism of action as parent drug vancomycin, which is proved to be an effective binder of Cu(II) ions. However, the potentiometric and spectroscopic studies (UV-visible, CD, NMR) have shown that the modification of the N-terminal structure of the peptide backbone in teicoplanin affects considerably the binding ability towards Cu(II) ions. While vancomycin forms almost instantly the stable 3 N complex species involving the N-terminal and two amide nitrogen donors, in case of teicoplanin only two nitrogen donors derived from the N-terminal amino group and adjacent peptide bond are coordinated to Cu(II) ion within the whole pH range studied. The major factor influencing the binding mode is most likely the structure of the N-terminus of the peptide unit in the antibiotic ligand.     

Exploring the role of copper and selenium in the maintenance of normal thyroid function among healthy Koreans

BackgroundSelenium and iodine are trace elements well known to have important roles in the synthesis and metabolism of thyroid hormones. However, the effects of other trace elements on thyroid hormones are still inconclusive. We investigated the association between several trace elements and thyroid hormones.MethodsThe data of 448 subjects who were measured for both, trace elements and TSH/free T4, at the Heath Checkup Center were retrospectively reviewed. The presence of thyroiditis (from thyroid echogenicity) and thyroid nodules were reviewed in the subjects who underwent thyroid ultrasonography.ResultsBlood concentrations of manganese, copper, selenium, and molybdenum were associated with TSH or free T4. After adjusting for age, sex, BMI, smoking, and alcohol consumption, blood copper levels were positively associated with free T4 in both sexes and selenium levels were positively associated with free T4 in women. There was no association between trace elements and thyroiditis. Blood copper concentration had a weak non-linear association with the presence of thyroid nodules.ConclusionsThis study demonstrated that blood concentrations of copper and selenium were significantly associated with free T4 in healthy Korean subjects with sufficient iodine intake suggesting their role in maintaining normal thyroid function.     

Reverse regulation of hepatic ceruloplasmin production in rat model of myocardial ischemia

BackgroundCeruloplasmin (Cp) is a major copper-binding protein produced in the liver and delivers copper to extrahepatic organs. Patients with myocardial infarction are often featured by an elevation of serum copper concentrations due to copper efflux from ischemic hearts. The present study was undertaken to test the hypothesis that serum copper elevation leads to up-regulation of hepatic Cp in myocardial infarction.MethodsAdult male Sprague-Dawley rats were subjected to left anterior descending (LAD) coronary artery ligation to induce myocardial infarction. Serum copper and Cp levels, as well as changes in hepatic Cp and copper-transporting P-type ATPase (Atp7b), were determined from blood and liver samples collected on day 1, 4, or 7 after the operation.ResultsSerum copper concentrations were significantly increased on day 4 after LAD ligation, accompanied by an increase in serum Cp levels and activities. Concomitantly, the protein levels of Cp and copper exporter, Atp7b, were also significantly increased in the liver. Furthermore, inhibiting the increase of serum copper by a copper chelator, triethylenetetramine (TETA), effectively abolished the elevated Cp activity after LAD ligation.ConclusionThese results indicate that serum Cp elevation in response to myocardial ischemia most likely resulted from the increased hepatic Cp production, which in turn was more responsive to serum copper elevation than inflammatory response following myocardial ischemia.     

Copper Nitrate Catalyzed Three-Component One-Pot Synthesis of 3,4-Dihydropyrimidin-2(1H)-Ones

Abstract

An efficient synthesis of 3,4-dihydropyrimidin-2(1H)-ones from aldehydes, 1,3-dicarbonyl compounds, and urea using copper nitrate under refluxing temperature in ethanol was described. Compared with other Lewis copper salts, copper nitrate proved to be the most efficient. The advantages of the new method were good yields (61–93%), short reaction time (0.4–3 h), and inexpensive catalyst.     

1H NMR spectroscopic investigations of tissue metabolite biomarker response to Cu II exposure in terrestrial invertebrates: identification of free histidine as a novel biomarker of exposure to copper in earthworms

High resolution 1H NMR spectroscopy of biofluids, cells and tissue extracts allows rapid, non destructive analysis for a wide range of metabolites and organic compounds with minimal sample pre treatment. We have applied high resolution 1H NMR spectroscopy to investigate the biochemical effects of Cu II in two earthworm species Eisenia andrei n =78 and Lumbricus rubellus n =45 exposed under laboratory and semi field conditions respectively. The most marked metabolic response was the elevation of endogenous whole body free histidine in animals which positively correlated with increasing copper exposure and total copper burden in the semi field experiment. Histidine forms thermodynamically stable copper complexes under a wide range of physico chemical conditions and we proposed that the elevation of free histidine in response to copper challenge provides an energetically low cost detoxification mechanism. Histidine elevation may also provide a novel molecular biomarker of Cu II exposure in environmental situations.     

Analysis of Microfouling Products Formed on Metallic Surfaces Exposed in a Marine Environment

Mild steel (MS), stainless steel (SS) and copper (Cu) test panels were immersed in the surface water of Dona Paula Bay over a period of 15 d. During the immersion period data on the hydrography, nutrients and suspended matter were also collected. The suspended matter and fouling products on the MS, SS and Cu panels were analysed for organic carbon (OC), organic nitrogen (ON), chlorophyll a (chl a), protein and carbohydrate concentration and composition, and the dry weight (DW) was recorded. Compared to suspended matter, the chemical and biochemical components of the fouling products showed strong temporal and substratum related differences. The microfouling biomass (as DW, OC, ON, chl a and protein) on all the test panels generally increased over the period of immersion. Carbohydrates were more abundant in the suspended matter whereas fouling products were enriched in proteins. The contribution of protein-carbon to the total carbon increased over the period of immersion for the microfouling products on MS and SS whilst it did not show a consistent trend on Cu. Whereas, the carbohydrate-carbon contribution to the total carbon increased for the fouling products on MS, it did not exhibit a particular pattern on SS or Cu over the period of immersion. Capillary gas chromatographic analysis showed the presence of glucose, galactose, mannose, arabinose, xylose, fucose and ribose in both the fouling products and suspended matter. However, there were differences in the relative distribution of these monosaccharides in the suspended matter and the fouling products. Glucose was the most abundant monosaccharide, which showed strong temporal variations in suspended matter. In contrast, the wt % concentrations of individual monosaccharides showed large temporal differences for the fouling products, which were strongly influenced by the period of immersion and the type of test substratum. Glucose and fucose were relatively more abundant in the fouling products on SS and Cu, whilst glucose was the most abundant monosaccharide on MS. The monosaccharide and chemical composition data suggest strong temporal changes in the composition of the fouling products.     

DFT modelling of hydrogen on Cu(110)- and (111)-type clusters

Density Functional Theory (DFT) calculations using gaussian 98 have been performed on hydrogen adsorbed on clusters representing the (110) and (111) surfaces of Cu. Clusters were constructed to model different adsorption sites, and at least two different size clusters were used for each site. On the (111) surface, hydrogen prefers to adsorb in a hollow site, though with the hcp variant being favoured by the adsorption energy, and the fcc alternative by the vibrational frequencies. On the (110) surface, the "fcc" site on a (1 2 2) reconstructed surface is preferred.