Oxidative cross-linking of chemically and enzymatically modified sugar-beet pectin

Hot acid-soluble pectins from sugar-beet pulp which do not gel in the presence of persulfate were submitted to hydrolysis with acid under different conditions of concentration, temperature and time, or with different combinations of enzymes. All the modified pectins have been chemically characterised and tested for their gelling capacity with persulfate ions. They varied primarily in the structure of the side-chains and only those obtained from cold acid hydrolysis and from degradation by arabino-furanosidase were able to gel. Accessibility of the feruloyl groups carried by the arabinose side-chains appeared essential for the gelling of beet pectins with persulfate.     

Synthesis of ethyl ferulate in organic medium using celite-immobilized lipase

In the present work we have evaluated synthesis of ethyl ferulate by the esterification reaction of ferulic acid and ethanol catalyzed by a commercial lipase (Steapsin) immobilized onto celite-545 in a short period of 6 h in DMSO. The immobilized lipase was treated with cross-linking agent glutaraldehyde (1%; v/v). The optimum synthesis of ethyl ferulate was recorded at 45 °C, pH 8.5 and 1:1 ratio of ethanol and ferulic acid. Co²⁺, Ba²⁺and Pb²⁺ ions enhanced the synthesis of ethyl ferulate Hg²⁺, Cd³⁺and NH⁴⁺ ions had mild inhibitory effect. The celite-bound lipase produced 68 mM of ethyl ferulate under optimized reaction conditions.     

The effect of anions on the reaction catalyzed by lupine-nodule glutamate dehydrogenase

The kinetics of the reductive amination reaction of lupine-nodule glutamate dehydrogenase (l-glutamate:NAD oxidoreductase (deaminating), EC 1.4.1.2) were found to vary with the identity of the ammonium salt which was used as a substrate. Normal Michaelis-Menten kinetics were obtained with (NH₄)₂SO₄ but when NH₄Cl or NH₄-acetate was varied apparent substrate inhibition was observed. Linear double-reciprocal plots were obtained with NH₄Cl and NH₄-acetate, however, if the concentration of Cl^? or acetate was maintained constant by adding KCl or K-acetate. Chloride and acetate were subsequently found to cause linear noncompetitive inhibition with respect to NH₄⁺ and the apparent substrate inhibition by NH₄Cl and NH₄-acetate can be explained as the result varying a substrate and a noncompetitive inhibitor in constant ratio. Other anions were also found to be inhibitors of the glutamate dehydrogenase reaction; I^? caused parabolic noncompetitive inhibition with respect to NH₄⁺ and NO₃^? caused slope-parabolic noncompetitive inhibition with respect to all three substrates of the reductive amination reaction. For the oxidation deamination reaction, Cl^? was a linear competitive inhibitor with respect to both NAD and l-glutamate whereas NO₃^? caused parabolic competitive inhibition with respect to these reactants. To explain the results, it is proposed that anions bind to an allosteric site and cause a change in some of the rate constants of the reaction. Specifically, the results are consistent with anions causing decreases in the rates of association of NADH and 2-oxoglutarate with the enzyme and an increase in the rate of dissociation of NAD.     

Remediation of Nitrobenzene Contaminated Soil by Combining Surfactant Enhanced Soil Washing and Effluent Oxidation with Persulfate

The combination of surfactant enhanced soil washing and degradation of nitrobenzene (NB) in effluent with persulfate was investigated to remediate NB contaminated soil. Aqueous solution of sodium dodecylbenzenesulfonate (SDBS, 24.0 mmol L^-1) was used at a given mass ratio of solution to soil (20:1) to extract NB contaminated soil (47.3 mg kg^-1), resulting in NB desorption removal efficient of 76.8%. The washing effluent was treated in Fe²⁺/persulfate and Fe²⁺/H₂O₂ systems successively. The degradation removal of NB was 97.9%, being much higher than that of SDBS (51.6%) with addition of 40.0 mmol L^-1 Fe²⁺ and 40.0 mmol L^-1 persulfate after 15 min reaction. The preferential degradation was related to the lone pair electron of generated SO₄•⁻, which preferably removes electrons from aromatic parts of NB over long alkyl chains of SDBS through hydrogen abstraction reactions. No preferential degradation was observed in •OH based oxidation because of its hydrogen abstraction or addition mechanism. The sustained SDBS could be reused for washing the contaminated soil. The combination of the effective surfactant-enhanced washing and the preferential degradation of NB with Fe²⁺/persulfate provide a useful option to remediate NB contaminated soil.     

Bioanode of polyurethane/graphite/polypyrrole composite in microbial fuel cells

Polyurethane (PU) foams were coated with graphite, and pyrrole monomer was subsequently polymerized onto its surface by chemical oxidization to obtain nanostructured polyurethane/graphite/polypyrrole (PU/Graph/PPy) composites, which were used for anaerobic microorganisms grown and tested as anodes in microbial fuel cells (MFC) using municipal wastewater as fuel. The effects of oxidizing agent type (ammonium persulfate and FeCl3) used in pyrrole polymerization on the performance of electrodes in MFC were studied. Composites were characterized by Fourier Transform Infrared (FTIR) spectroscopy, Scanning Electron Microscopy (SEM), and by the four-point probes to determine conductivity. It was observed from SEM analysis that globular nanostructures of PPy were formed onto PU surface with average diameters between 120 and 450 nm, which are typical of aqueous polymerization of pyrrole monomer. The highest output power density observed in MFCs was 305.5 mW/m³ for the composite synthesized using FeCl₃ as the oxidant, and 128.6 mW/m³ using the composite obtained with ammonium persulfate as oxidizing; the corresponding chemical oxygen demand (COD) removal were 48.2 and 45.5%, respectively. The calculated coulombic efficiency for PU/Graph/PPy composite obtained with FeCl₃ as oxidant was of 9.4%. Internal resistance of MFC using the composite obtained with FeCl₃ as oxidant was determined by linear sweep voltammetry (LSV) and the variable resistance (VR) methods, giving 4.8 and 2.9 kO, respectively, with average maximum power density of 237.5 mW/m³.     

阿魏酸钠对肺结核模型小鼠免疫功能及肺泡巨噬细胞吞噬功能的调控作用研究

摘要 目的：探讨与分析阿魏酸钠对肺结核模型小鼠免疫功能及肺泡巨噬细胞吞噬功能的调控作用。方法：肺结核模型小鼠(n=36)随机分为模型组、利福平组、阿魏酸钠组,每组各12只。利福平组、阿魏酸钠组分别给予100 mg/kg剂量的利福平与阿魏酸钠,模型组小鼠灌胃等量生理盐水,1次/d,给药6周,观察与记录所有小鼠的一般特征;分别于给药第2周、第4周、第6周,HE染色观察小鼠的病理特征;MDA检测试剂盒和总SOD活性检测试剂盒测定肺组织MDA水平与SOD活性;流式细胞仪检测小鼠T淋巴细胞亚群-CD3⁺T淋巴细胞、CD4⁺T淋巴细胞水平;酶联免疫法检测血清IL-6、IL-8含量;AnnexinV-FITC检测肺泡巨噬细胞凋亡率。结果：利福平组、阿魏酸钠组给药第2周、第4周、第6周的肺组织丙二醛（Malondialdehyde,MDA）水平低于模型组（P<0.05）,超氧化物岐化酶（superoxide dismutase,SOD）活性高于模型组（P<0.05）,利福平组与阿魏酸钠组对比也有明显差异（P<0.05）。利福平组、阿魏酸钠组给药第2周、第4周、第6周的血液CD3⁺T淋巴细胞、CD4⁺T淋巴细胞比例明显高于模型组（P<0.05）,阿魏酸钠组也高于利福平组（P<0.05）。利福平组、阿魏酸钠组给药第2周、第4周、第6周的血清IL-6、IL-8含量明显低于模型组（P<0.05）,阿魏酸钠组也低于利福平组（P<0.05）。利福平组、阿魏酸钠组给药第2周、第4周、第6周的肺泡灌洗液（broncho alveolar lavage fluid,BALF）巨噬细胞凋亡率明显低于模型组（P<0.05）,阿魏酸钠组也明显低于利福平组（P<0.05）。结论：阿魏酸钠在肺结核模型小鼠的应用可抑制炎症因子的表达,并改善氧化状况,还能增强小鼠的免疫功能,降低肺泡灌洗液巨噬细胞凋亡率。     

Glutamate dehydrogenase of lupin nodules: Purification and properties

Glutamate dehydrogenase, GDH (l-glutamate: NAD⁺ oxidoreductase (deaminating) EC 1.4.1.2) was purified from the plant fraction of lupin nodules and the purity of the preparation established by gel electrophoresis and electrofocusing. The purified enzyme existed as 4 charge isozymes with a MW of 270000. The subunit MW, as determined by dodecyl sulphate electrophoresis, was 45 000. On the basis of the results of the MW determinations a hexameric structure is proposed for lupin-nodule GDH. The pH optima for the enzyme were pH 8.2 for the amination reaction and pH 8.8 for the deamination reaction. GDH from lupin nodules showed a marked preference for NADH over NADPH in the amination reaction and used only NAD⁺ for the deamination reaction. Pyridoxal-5′-P and EDTA inhibited activity. The enzyme displayed Michaelis-Menten kinetics with respect to all substrates except NAD⁺. When NAD⁺ was the varied substrate, there was a deviation from Michaelis-Menten behaviour towards higher activity at high concentrations of NAD⁺.     

Environmentally friendly preparation of pectins from agricultural byproducts and their structural/rheological characterization

Apple pomace which is the main waste of fruit juice industry was utilized to extract pectins in an environmentally friendly way, which was then compared with chemically-extracted pectins. The water-based extraction with combined physical and enzymatic treatments produced pectins with 693.2 mg g⁻¹ galacturonic acid and 4.6% yield, which were less than those of chemically-extracted pectins. Chemically-extracted pectins exhibited lower degree of esterification (58%) than the pectin samples obtained by physical/enzymatic treatments (69%), which were also confirmed by FT-IR analysis. When subjected to steady-shear rheological conditions, both pectin solutions were shown to have shear-thinning properties. However, decreased viscosity was observed in the pectins extracted by combined physical/enzymatic methods which could be mainly attributed to the presence of more methyl esters, thus limiting polymer chain interactions. Moreover, the pectins which were extracted by combined physical/enzymatic treatments, showed less elastic properties under high shear rate conditions, compared to the chemically-extracted pectins.     

Preparation of polyethylene glycol/polyacrylamide adduct and utilization in cotton finishing

Highly concentrated aqueous solutions of acrylamide (Am) were polymerized in presence of polyethylene glycol (PEG) using ammonium persulfate as initiator under different conditions including ammonium persulfate concentration (0.02–0.06 g/gAm) temperature (60–95 °C), Am/PEG400 ratio (1/1–1/5 g/g), PEG molecular weight (400–6000). At optimum reaction conditions a PEG 400/PAm adduct was prepared with a % total conversion of 99.7 in 2 min using ammonium persulfate (0.05 g/gAm), Am/PEG (1/2 g/g) at 70 °C. The structure of the adduct was confirmed by FT-IR spectra. The adduct was utilized as a finishing additive for cotton fabric in presence and absence of dimethyloldihydroxy ethylene urea (DMDHEU) by the bad – dry – cure method. In absence of DMDHEU, the adduct improves the fabric tensile strength, stiffness and oily stain release rating without affect the wettability along with decreasing the fabric resiliency compared to the blank sample. Inclusion DMDHEU the finishing bath (50 g/l) results in improving the fabric resiliency and stiffness as well as decreasing the strength, wettability and oily stain release compared to those of fabric treated with adduct in absence of DMDHEU. However, at an adduct concentration of 40 g/l and in presence of 50 g/l DMDHEU the fabric properties are in general, superior to those of blank fabric.     

Micro-heterogeneity of pectins and calcium distribution in the epidermal and cortical parenchyma cell walls of flax hypocotyl

Summary Pectic polysaccharides are major components of the plant cell wall matrix and are known to perform many important functions for the plant. In the course of our studies on the putative role of pectic polysaccharides in the control of cell elongation, we have examined the distribution of polygalacturonans in the epidermal and cortical parenchyma cell walls of flax seedling hypocotyls. Pectic components have been detected with (1) the nickel (Ni²⁺) staining method to visualize polygalacturonates, (2) monoclonal antibodies specific to low (JIM5) and highly methylesterified (JIM7) pectins and (3) a combination of subtractive treatment and PATAg (periodic acid-thiocarbohydrazide-silver proteinate) staining. In parallel, calcium (Ca²⁺) distribution has been imaged using SIMS microscopy (secondary ion mass spectrometry) on cryo-prepared samples and TEM (transmission electron microscopy) after precipitation of calcium with potassium pyroantimonate. Our results show that, at the tissular level, polygalacturonans are mainly located in the epidermal cell walls, as revealed by the Ni²⁺ staining and immunofluorescence microscopy with JIM5 and JIM7 antibodies. In parallel, Ca²⁺ distribution points to a higher content of this cation in the epidermal walls compared to cortical parenchyma walls. At the ultrastructural level, immunogold labeling with JIM5 and JIM7 antibodies shows a differential distribution of pectic polysaccharides within cell walls of both tissues. The acidic polygalacturonans (recognized by JIM5) held through calcium bridges are mainly found in the outer part of the external wall of epidermal cells. In contrast, the labeling of methylesterified pectins with JIM7 is slightly higher in the inner part than in the outer part of the wall. In the cortical parenchyma cells, acidic pectins are restricted to the cell junctions and the wall areas in contact with the air-spaces, whereas methylesterified pectins are evenly distributed all over the wall. In addition, the pyroantimonate precipitation method reveals a clear difference in the Ca²⁺ distribution in the epidermal wall, suggesting that this cation is more tightly bound to acidic pectins in the outer part than in the inner part of that wall. Our findings show that the distribution of pectic polysaccharides and the nature of their linkages differ not only between tissues, but also within a single wall of a given cell in flax hypocotyls. The differential distribution of pectins and Ca²⁺ in the external epidermal wall suggests a specific control of the demethylation of pectins and a central role for Ca²⁺ in this regulation.Abbreviations Cdta diamino-1,2-cyclohexane tetra-acetic acid - PATAg periodic acid-thiocarbohydrazide-silver proteinate - PGA polygalacturonic acid - PME pectin methylesterase - RG I rhamnogalacturonan I - SIMS secondary ion mass spectrometry - TEM transmission electron microscopy     

Synchronous fluorescence determination of ferulic acid with Ce(IV) and sodium tripolyphosphate

In this study, a synchronous fluorescence detection method for ferulic acid (FA) is proposed based on a redox reaction between FA and Ce(IV) sulfate in dilute sulfuric acid medium at room temperature. It was found that FA could reduce Ce(IV) to Ce(III) in acidic medium, and sodium tripolyphosphate could further enhance the intrinsic fluorescence of the Ce(III) produced. The enhanced extent of synchronous fluorescence intensity was in proportion to the concentration of FA over the range 3.0 × 10^‐8 to 1.0 × 10^‐5 mol/L. The corresponding limit of determination (S/N = 3) was 1.3 × 10^‐8 mol/L. The proposed method was applied to the determination of sodium ferulate for injection sample with satisfactory results. Copyright © 2013 John Wiley & Sons, Ltd.     

Interactions between apple (Malus x domestica Borkh.) polyphenols and cell walls modulate the extractability of polysaccharides

Apple polyphenol (procyanidin)–cell wall interactions were investigated and their impact on polysaccharide extractability were determined. Native and oxidised procyanidins with average degrees of polymerisation of 13 and 55 were incubated with cell walls. The effect of polyphenol oxidation was evaluated according to two designs: polyphenols were chemically oxidised either before or during interaction. The extent of procyanidin binding to cell walls was assessed by the weight increase of procyanidin–cell wall complexes as compared to weights of cell walls alone. Pectins and hemicelluloses were subsequently extracted from cell walls and from cell wall–procyanidin adducts using a chelating agent (ammonium oxalate), a pectin lyase treatment and NaOH.Weight increases of complexes ranged from 20% to 29%. Weight gains increased in the following order: native, pre-oxidised, simultaneously oxidised and bound procyanidins, these different fractions were, respectively, bound to cell walls. In presence of native procyanidins, oxalate extracted less pectins, and those pectins had lower degrees of methylation, as compared to cell walls alone. When cell walls were incubated with oxidised and oxidising procyanidins, even less pectins with lower degree of methylation were extracted. Major findings indicated that procyanidins mainly bound to pectins as compared to other cell wall compounds: (1) the procyanidin adsorption to cell walls limited the depolymerisation of pectins supposedly induced by pectin lyase. Thus less pectins were extracted but their degree of methylation increased, indicative of products of lysis of pectin lyase. (2) Hemicelluloses extracted using NaOH (4 M) were more abundant in pectins when oxidised or oxidising procyanidins were complexed rather than non complexed to cell walls.     

Chemoenzymatic synthesis of feruloylated monoacyl- and diacyl-glycerols in ionic liquids

Feruloylated monoacyl- and diacyl-glycerols (FMAGs and FDAGs) are lipophilic antioxidants and potential UV absorbers. FMAGs and FDAGs were synthesized by a novel chemoenzymatic method: firstly, ferulic acid was esterified with glycerol to synthesize glyceryl ferulate, using p-toluenesulfonic acid as chemical catalyst in 1-butyl-3-methylimidazolium tetrafluoroborate ([Bmim]BF₄); secondly, glyceryl ferulate was esterified with oleic acid to synthesize FMAGs and FDAGs, using Novozym 435 as biocatalyst in 1-butyl-3-methylimidazolium hexafluorophosphate ([Bmim]PF₆). The conversion of ferulic acid and yield of glyceryl ferulate in the first reaction were both 98%. The yields of FMAGs and FDAGs in the second reaction reached 34 ± 2% and 66 ± 3%, respectively.     

Regulation of the Expression of the Photosynthetic Apparatus of Rhodobacter capsulatus Grown in Nitrogen-Limited Chemostat Cultures

Rhodobacter capsulatus was grown in chemostat cultures under different dilution rates and with ammonium ions as the limiting nutrient. The maximal growth rate (μmax) and the Monod cell growth saturation coefficient (K_s), were calculated from batch cultures grown at different concentrations of NH₄ ⁺. The experiments in chemostat were carried out at 0.25 mM (NH₄)₂SO₄, and the dilution rates were varied between 38% and 75% of μmax. The results indicated that under continuous culture conditions the cell yield coefficient (Y) (mg dry weight × μmol consumed ammonium sulfate⁻¹) decreased with increasing dilution rate (D). On the contrary, the cell yield was constant when expressed as mg cellular protein ×μmol consumed ammonium sulfate⁻¹. This occurred as a consequence of both an increase in the consumed ammonium sulfate and a simultaneous decrease in the cell biomass production at increasing growth rates. The cells produced at higher growth rates had a higher protein content per cell. The specific content of bacteriochlorophyll (Bchl) decreased (between 3 and 4 times) with increasing growth rates measured in either cells or chromatophores. However, the absorption spectra of the cells indicated that the ratio LHI (light-harvesting complex I) to LHII (light-harvesting complex II) Bchl complexes did not change. The reaction center (RC) complex content varied in parallel with the total Bchl content, yielding a constant photosynthetic unit of 65 mol Bchl × mol RC⁻¹ at different Ds. On the other hand, the uncoupled ATPase-specific activity measured in chromatophores was usually between 30% and 40% higher at the highest growth rates reached in these experiments. Received: 22 January 1996 / Accepted: 9 March 1996     

Synthesis and anticoagulant activity of the quaternary ammonium chitosan sulfates

Quaternary ammonium chitosan sulfates with diverse degrees of substitution (DS) ascribed to sulfate groups between 0.52 and 1.55 were synthesized by reacting quaternary ammonium chitosan with an uncommon sulfating agent (N(SO₃Na)₃) that was prepared from sodium bisulfite (NaHSO₃) through reaction with sodium nitrite (NaNO₂) in the aqueous system homogeneous. The structures of the derivatives were characterized by FTIR, ¹H NMR and ¹³C NMR. The factors affecting DS of quaternary ammonium chitosan sulfates which included the molar ratio of NaNO₂ to quaternary ammonium chitosan, sulfated temperature, sulfated time and pH of sulfated reaction solution were investigated in detail. Its anticoagulation activity in vitro was determined by an activated partial thromboplastin time (APTT) assay, a thrombin time (TT) assay and a prothrombin time (PT) assay. Results of anticoagulation assays showed quaternary ammonium chitosan sulfates significantly prolonged APTT and TT, but not PT, and demonstrated that the introduction of sulfate groups into the quaternary ammonium chitosan structure improved its anticoagulant activity obviously. The study showed its anticoagulant properties strongly depended on its DS, concentration and molecular weight.     

Pectinous cell wall thickenings formation—A response of moss protonemata cells to lead

Lead poisoning constitutes one of most detrimental environmental hazards to all living organisms. Plants developed a variety of avoidance and tolerance mechanisms that are activated in response to lead exposure. Plant cell walls were suggested to play important role in these reactions by creating an efficient barrier to lead entry to the protoplasts, but the molecular mechanisms involved in such shielding reaction have not been elucidated. Tip growing protomemata of Funaria hygrometrica (Hedw.) were used as model for studying effects of lead exposure on plant cell walls (CWs). Forty-eight hour-treatment 4 μM PbCl₂ resulted in the appearance of cell wall thickenings (CWTs) at the tip of the apical cell, which is the lead entry site to the cell protoplast [Krzes?owska, M., Wo?ny, A., 1996. Lead uptake localization and changes in cell ultrastructure of Funaria hygrometrica protonemata. Biol. Plant. 38, 253–259]. The nature of these thickenings differed from the one of cell wall in unexposed plants as revealed by immunolabelling with monoclonal antibodies and histochemical analyses. The most striking difference was the appearance high amount of low-esterified (JIM5 epitope) and unesterified (PAM1 epitope) homogalacturonan, which were absent from the tip cell wall of control protonemata and are known as the compounds able to bind and immobilise Pb²⁺. Furthermore, the cell wall thickenings commonly contained callose and at least two kinds of lipid compounds known as the substances preventing metal ions entry to the protoplast.Observations in transmission electron microscope (TEM) showed that CWTs contained a few distinct, varied structurally regions. The dominant one was the region of a granular structure—never found in the control CW. This region contained both the highest amount of JIM5 pectins—and the most numerous lead deposits. In many cases gold particles, identifying JIM5 pectins, appeared to be bound to lead deposits. It indicated that JIM5 pectins which accumulated in CWTs were involved in immobilisation of high amounts of Pb²⁺. Because the region of lead accumulation occupied the largest volume of the CWTs, we concluded that CWTs appear to be a very important repository for Pb²⁺ in protonemata cells. Thus, we postulate that, CWTs localized at the tip of the apical cell—the main region of lead uptake [Krzes?owska, M., Wo?ny, A., 1996. Lead uptake localization and changes in cell ultrastructure of Funaria hygrometrica protonemata. Biol. Plant. 38, 253–259] rich in JIM5 pectins, callose and lipids function as the effective barrier against lead ions penetration into the protonema protoplast.The findings substantiate previous hypotheses that lead ions can be sequestered in cell walls and point to the possibility that capacity for lead binding might increase in cell response to lead.     

Preparation, characterization and properties of superabsorbent nanocomposites based on natural guar gum and modified rectorite

Novel guar gum-g-poly(sodium acrylate)/rectorite (GG-g-PNaA/REC) superabsorbent nanocomposites were prepared in aqueous solution using guar gum (GG), partially neutralized acrylic acid (NaA), acidified rectorite (H⁺-REC) and organified rectorite (CTA⁺-REC) by cetyltrimethylammonium bromide (CTAB) as raw materials, ammonium persulfate (APS) as initiator and N,N′-methylenebisacrylamide (MBA) as crosslinker. FTIR spectra confirmed that NaA had been grafted onto GG chains and the OH groups of REC participated in polymerization reaction. Exfoliated nanocomposite was obtained for H⁺-REC and intercalated structure was formed for CTA⁺-REC as shown by XRD results. SEM observations show REC has been uniformly dispersed in polymeric matrix. Effects of HCl concentration, organification degree of CTA⁺-REC and content of REC on swelling capabilities were investigated and the swelling kinetics of nanocomposites was evaluated. Results indicate that modifying REC by acidification and organification can improve swelling properties of the resultant nanocomposites, and GG-g-PNaA/CTA⁺-REC exhibited higher swelling capability and swelling rate contrast to GG-g-PNaA/H⁺-REC.     

Strontium sorption by pectins isolated from the Sea grasses Zostera marina and Phyllospadix iwatensis

In this study, we determined the parameters of sorption of strontium ions by pectins that were isolated from the sea grasses Zostera marina and Phyllospadix iwatensis collected in the Peter the Great Bay of the Sea of Japan. The maximum strontium binding capacity and the coefficient of affinity with respect to strontium ions were significantly higher in sea grass pectins than in commercial pectin. These parameters were correlated with the etherification degree of pectins. The sea grasses studied here can be considered as a promising source of pectins for the binding and removal of strontium radioisotopes from the human body.     

Effectiveness of phenoxyl radicals generated by peroxidase/H2O2-catalyzed oxidation of caffeate, ferulate, and p-coumarate in cooxidation of ascorbate and NADH

The rate of ascorbate and nicotinamide adenine dinucleotide plus hydrogen (NADH) cooxidation (i.e., their nonenzymic oxidation by peroxidase/H₂O₂-generated phenoxyl radicals of three hydroxycinnamates: caffeate, ferulate and p-coumarate) was studied in vitro. The reactions initiated by different sources of peroxidase (EC 1.11.1.7) [isolates from soybean (Glycine max L.) seed coat, maize (Zea mays L.) root-cell wall, and commercial horseradish peroxidase] were monitored. Native electrophoresis of samples and specific staining for peroxidase activity revealed various isoforms in each of the three enzyme sources. The peroxidase sources differed both in the rate of H₂O₂-dependent hydroxycinnamate oxidation and in the order of affinity for the phenolic substrates. The three hydroxycinnamates did not differ in their ability to cooxidize ascorbate, whereas NADH cooxidation was affected by substitution of the phenolic ring. Thus, p-coumarate was more efficient than caffeate in NADH cooxidation, with ferulate not being effective at all. Metal ions (Zn²⁺ and Al³⁺) inhibited the reaction of peroxidase with p-coumarate and affected the cooxidation rate of ascorbate and the peroxidase reaction in the same manner with all substrates used. However, inhibition of p-coumarate oxidation by metal ions did not affect NADH cooxidation rate. We propose that both the ascorbate and NADH cooxidation systems can function as mechanisms to scavenge H₂O₂ and regenerate phenolics in different cellular compartments, thus contributing to protection from oxidative damage. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Treatment of Diesel-Contaminated Soil by Fenton and Persulfate Oxidation with Zero-Valent Iron

The objective of this research is to investigate Fenton and persulfate oxidation with zero-valent iron [Fe(0)] as a batch type ex-situ remediation technology for the treatment of diesel-contaminated soil. Results from batch experiments indicate that Fe(0) is a better catalyst for H₂O₂ and persulfate than Fe²⁺ for the enhancement of Fenton and persulfate oxidation in a batch system. Maximum removal was obtained after 12 h when 1 and 2 g of Fe(0) were added to hydrogen peroxide (250 mg/L) and persulfate (250 mg/L), respectively, in a soil-water system. As the amounts of Fe(0) and persulfate were increased three times at the optimal ratio, the removal of total petroleum hydrocarbon (TPH) was enhanced accordingly. More than 90% of the TPH was removed in 3 h, and the treated soil met the Korean regulation level (500 mg/kg) for TPH. Increased amounts of Fe(0) and hydrogen peroxide (up to 10 g and 1250 mg/L, respectively) also significantly enhanced degradation under the optimal conditions. The results of our study suggest that Fe(0)-assisted Fenton and persulfate oxidation in a batch reactor may be an alternative option to treat diesel-contaminated soil.