Inactivation in vivo of basic peroxidase and increased content of H2O2 in grapevine leaves post treatment with DTT and paraquat

Substantial differences in the in vivo effect of paraquat (Pq) and DTT on basic peroxidase (GBPx) activity and on H2O2 levels were found in grapevine leaves cv. Sultana. GBPx activity decreased and H2O2 levels increased in illuminated Pq treated leaf-discs. Inactivation of GBPx and accumulation of H2O2 depended on the duration and intensity of the illumination to which discs were exposed. Since GBPx was inactivated directly by H2O2 and not by Pq in leaf extracts, and since GBPx are cytosolic isoenzymes and H2O2 is a stable molecule that can easily permeate chloroplast membranes, we concluded that Pq inactivation of GBPx in vivo is mediated by H2O2. In contrast to the effect induced by Pq, DTT directly inactivated GBPx in leaf extracts. In leaf-discs, however, it reduced GBPx activity in the absence of light, although the levels of H2O2 increased only after exposure of the discs to high irradiance, suggesting that under excess of light, a significant fraction of the photosynthetically produced electrons are dissipated through the water-water cycle and H2O2 accumulates as a consequence of GBPx inactivation.     

Utilization of the cyanobacteria Anabaena sp. ATCC 33047 in CO2 removal processes

In this paper the utilization of the cyanobacteria Anabaena sp. in carbon dioxide removal processes is evaluated. For this, continuous cultures of this strain were performed at different dilution rates; alternatives for the recovery of the organic matter produced being also studied. A maximum CO₂ fixation rate of 1.45 g CO₂ L⁻¹ day⁻¹ was measured experimentally, but it can be increased up to 3.0 g CO₂ L⁻¹ day⁻¹ outdoors. The CO₂ is mainly transformed into exopolysaccharides, biomass representing one third of the total organic matter produced. Organic matter can be recovered by sedimentation with efficiencies higher than 90%, the velocity of sedimentation being 2 · 10⁻⁴ s⁻¹. The major compounds were carbohydrates and proteins with productivities of 0.70 and 0.12 g L⁻¹ day⁻¹, respectively. The behaviour of the cultures of Anabaena sp. has been modelized, also the characteristics parameters requested to design separation units being reported. Finally, to valorizate the organic matter as biofertilizers and biofuels is proposed.     

Improving of Catalase Stability Properties by Encapsulation in Alginate/Fe3O4 Magnetic Composite Beads for Enzymatic Removal of H2O2

The aim of this study was enhancing of stability properties of catalase enzyme by encapsulation in alginate/nanomagnetic beads. Amounts of carrier (10–100 mg) and enzyme concentrations (0.25–1.5 mg/mL) were analyzed to optimize immobilization conditions. Also, the optimum temperature (25–50°C), optimum pH (3.0–8.0), kinetic parameters, thermal stability (20–70°C), pH stability (4.0–9.0) operational stability (0–390 min), and reusability were investigated for characterization of the immobilized catalase system. The optimum pH levels of both free and immobilized catalase were 7.0. At the thermal stability studies, the magnetic catalase beads protected 90% activity, while free catalase maintained only 10% activity at 70°C. The thermal profile of magnetic catalase beads was spread over a large area. Similarly, this system indicated the improving of the pH stability. The reusability, which is especially important for industrial applications, was also determined. Thus, the activity analysis was done 50 times in succession. Catalase encapsulated magnetic alginate beads protected 83% activity after 50 cycles.     

Dependency of the O2 consumption/O2 transport relationship on amino acid supply in sepsis

Summary In sepsis tissue O₂ uptake may be abnormally limited because of a depressed O₂ consumption/O₂ transport relationship. This study has been performed to assess patterns of O₂ consumption, CO₂ production and O₂ transport in septic patients undergoing total parenteral nutrition; more in particular, this study has investigated the interdependence between the patterns of blood O₂ uptake and simultaneous CO₂ release, and the availability of substrates (amino acids, glucose and fat). It has been shown that the O₂ consumption/O₂ transport relationship is significantly influenced by the exogenous amino acid load, which tends to increase O₂ uptake and O₂ consumption at any given O₂ transport, thus suggesting a favourable effect of amino acid administration on energy metabolism. The data on CO₂ production and CO₂ release, in addition to reconfirming the results of previous studies, have shown that the changes in O₂ uptake and in CO₂ production mediated by substrate doses have a quantifiable impact on blood O₂-CO₂ exchange interactions.     

Oligochitosan induced Brassica napus L. production of NO and H2O2 and their physiological function

NO (nitric oxide) and H₂O₂ (hydrogen peroxide) are important signaling molecule in plants. Brassica napus L. was used to understand oligochitosan inducing production of NO (nitric oxide) and H₂O₂ (hydrogen peroxide) and their physiological function. The result showed that the production of NO and H₂O₂ in epidermal cells of B. napus L. was induced with oligochitosan by fluorescence microscope. And it was proved that there was an interaction between NO and H₂O₂ with L-NAME (N^G-nitro-l-arg-methyl eater), which is an inhibitor of NOS (NO synthase) in mammalian cells that also inhibits plant NO synthesis, and CAT (catalase), which is an important H₂O₂ scavenger, respectively. It was found that NO and H₂O₂ induced by oligochitosan took part in inducing reduction in stomatal aperture and LEA protein gene expression of leaves of B. napus L. All these results showed that oligochitosan have potential activities of improving resistance to water stress.     

胞外ATP对AlCl3诱导的细胞死亡过程中胞内H2O2和Ca2+水平的影响及其生理机制分析

该实验以烟草悬浮细胞 BY 2 为材料,在烟草悬浮细胞中分别加入0.05、0.10、0.15、0.20 mmol·L^-1AlCl₃,以等体积去离子水处理的悬浮细胞液为对照,并依据前述实验结果选择0.15 mmol·L^-1 AlCl₃,分别添加5 mmol·L^-1 DMTU(H₂O₂ 抑制剂)、20 μmol·L^-1CaCl₂、15 μmol·L^-1 LaCl₃(Ca²⁺通道抑制剂)和50 μmol·L^-1 ATP设计多项处理,分析胞外ATP(eATP)对铝离子(Al³⁺)胁迫引起的植物细胞死亡及其胞内H₂O₂、Ca²⁺的影响,以揭示Al³⁺胁迫下植物调节细胞死亡的可能机制,进一步扩展对eATP功能的认知。结果显示：(1)随着 AlCl₃ 胁迫浓度的提高,细胞死亡水平和胞内H₂O₂水平上升,而胞内Ca²⁺和eATP水平则逐渐降低。(2)外援施加H₂O₂抑制剂 DMTU(二甲基硫脲)和Ca²⁺能够有效缓解AlCl₃诱导的细胞死亡水平的上升;而Ca²⁺通道抑制剂LaCl₃(三氯化镧)则加剧了AlCl₃胁迫下的细胞死亡。(3)在AlCl₃胁迫下对细胞添加外源ATP,能够缓解AlCl₃胁迫下胞内H₂O₂水平上升和Ca²⁺水平下降的同时,并显著降低AlCl₃胁迫导致的细胞死亡。研究表明, Al³⁺以剂量依赖的模式提升细胞死亡和细胞内H₂O₂的水平并降低胞内Ca²⁺和eATP水平,AlCl₃诱导的细胞死亡受到H₂O₂和Ca²⁺水平变化的调节,eATP可以通过调节H₂O₂与Ca²⁺水平缓解AlCl₃诱导的细胞死亡。推测Al³⁺胁迫可能通过抑制钙离子通道而破坏了细胞内H₂O₂和Ca²⁺之间的协同关系,外源ATP对Al³⁺诱导H₂O₂上升的缓解作用可能是由于其提升了细胞的抗氧化能力。     

A unique post-translational processing of an exo-β-1,3-glucanase of Penicillium sp. KH10 expressed in Aspergillus oryzae

To characterize an exo-β-1,3-glucanase (ExgP) of an isolated fungal strain with high laminarin degradation activity, identified as Penicillium sp. KH10, heterologous secretory expression of the ExgP was performed in Aspergillus oryzae. Deduced amino acid sequence of the exgP gene possibly consisted of 989 amino acids which showed high sequence similarity to those of fungal exo-β-1,3-glucanases belonging to the glycoside hydrolase (GH) family 55. Notably, the purified recombinant ExgP showed a single protein peak in the native state (by gel-permeation chromatographic analysis), but showed two protein bands in the denatured state (by SDS–polyacrylamide gel electrophoresis). These two polypeptides exhibited activity in a coexisting state even under reducing conditions, suggesting that non-covalent association of both polypeptides took place. Taken together with the nucleotide sequence information, the ExgP precursor (104 kDa) would be proteolytically processed (cleaved) to generate two protein fragments (42 and 47 kDa) and the processed products (polypeptide fragments) would be assembled each other by a non-covalent interaction. Moreover, one of the matured ExgP polypeptides was N-glycosylated by the post-translational modification.     

Regulation of the activity of glyceraldehyde 3-phosphate dehydrogenase by glutathione and H2O2

The activity lost during storage of a solution of muscle glyceraldehyde 3-phosphate dehydrogenase was rapidly restored on adding a thiol compound, but not arsenite or azide. On treatment with H₂O₂, the enzyme was partially inactivated and complete loss of activity occurred in the presence of glutathione. Samples of the enzyme pretreated with glutathione followed by removal of the thiol compound by filtration on a Sephadex column showed both full activity and its complete loss on adding H₂O₂, in the absence of added glutathione. Most of the activity was restored when the H₂O₂-inactivated enzyme was incubated with glutathione (25mM) or dithiothreitol (5mM) whereas arsenite or azide were partly effective and ascorbate was ineffective. The need for incubation for a long time with a strong reducing agent for restoration of activity suggests that the oxidized group (disulfide or sulfenate) must be in a masked state in the H₂O₂-inactivated enzyme. Analysis by SDS-PAGE gave evidence for the formation of a small quantity of glutathione-reversible disulfide-form of the enzyme. Circular dichroic spectra indicated a decrease in -helical content in the inactivated form of the enzyme. The evidence suggest that glutathione and H₂O₂ can regulate the active state of this enzyme.     

Preparation and some properties of cholesterol oxidase from Rhodococcus sp. R14-2

Rhodococcus sp. R_14-2, isolated from Chinese Jin-hua ham, produces a novel extracellular cholesterol oxidase (COX). The enzyme was extracted from fermentation broth and purified 53.1-fold based on specific activity. The purified enzyme shows a single polypeptide band on SDS-PAGE with an estimated molecular weight of about 60 kDa, and has a pI of 8.5. The first 10 amino acid residues of the NH₂-terminal sequence of the enzyme are A-P-P-V-A-S-C-R-Y-C, which differs from other known COXs. The enzyme is stable over a rather wide pH range of 4.0–10.0. The optimum pH and temperature of the COX are pH 7.0 and 50°C, respectively. The COX rapidly oxidizes 3β-hydroxysteroids such as cholesterol and phytosterols, but is inert toward 3α-hydroxysteroids. Thus, the presence of a 3β-hydroxyl group appears to be essential for substrate activity. The Michaelis constant (Km) for cholesterol is estimated at 55 μM; the COX activity was markedly inhibited by metal ions such as Hg²⁺ and Fe³⁺ and inhibitors such as p-chloromercuric benzoate, mercaptoethanol and fenpropimorph. Inhibition caused by p-chloromercuric benzoate, mercuric chloride, or silver nitrate was almost completely prevented by the addition of glutathione. These suggests that -SH groups may be involved in the catalytic activity of the present COX.     

Activation of indole-3-acetic acid oxidase from horseradish and Prunus by phenols and H2O2

The enzyme-catalysed oxidation of indole-3-acetic acid (IAA) was sytematically investigated with respect to enzyme source and cofactor influence using differential spectrophotometry and oxygen uptake measurement. Commercially-available horseradish peroxidase (HRP) and a peroxidase preparation from Prunus phloem showed identical catalytic properties in degrading IAA. There was no lag phase of IAA oxidation with any of the reaction mixtures tested. Monophenols exhibited a much stronger stimulatory effect than inorganic cofactors, but during the incubation of IAA the phenols were also gradually oxidised. Hydrogen peroxide (H₂O₂) in combination with monophenols accelerated peroxidation of the monophenol and IAA oxidation simutaneously. Since photometric determination of IAA was affected by oxidation products of dichlorophenol or phenol contamination of the enzyme preparation used, the standard IAA absorption measurements appear to be susceptible to methodological errors. Under certain incubation conditions a catalase-like activity of HRP during the course of IAA oxidation was noted and substrate inhibition was observed above 1.5 × 10^\s-4 M IAA. Some concepts concerning the mode of activation of the enzyme-catalysed IAA oxidation are deduced from the experimental results.     

Microbial corrosion monitoring by an amperometric microbial biosensor developed using whole cell of Pseudomonas sp.

A microbial biosensor was developed for monitoring microbiologically influenced corrosion (MIC) of metallic materials in industrial systems. The Pseudomonas sp. isolated from corroded metal surface was immobilized on acetylcellulose membrane and its respiratory activity was estimated by measuring oxygen consumption. The microbial biosensor was used for the measurement of sulfuric acid in a batch culture medium contaminated by microorganisms. A linear relationship between the microbial sensor response and the concentration of sulfuric acid was observed. The response time of biosensor was 5 min and was dependent on the immobilized cell loading of Pseudomonas sp., pH, temperature and corrosive environments. The microbial biosensor response was stable, reproducible and specific for sensing of sulfur oxidizing bacterial activity.     

Activation/deactivation of acetylcholinesterase by H2O2: more evidence for oxidative stress in vitiligo

Previously it has been demonstrated that the human epidermis synthesises and degrades acetylcholine and expresses both muscarinic and nicotinic receptors. These cholinergic systems have been implicated in the development of the epidermal calcium gradient and differentiation in normal healthy skin. In vitiligo severe oxidative stress occurs in the epidermis of these patients with accumulation of H2O2 in the 10(-3)M range together with a decrease in catalase expression/activity due to deactivation of the enzyme active site. It was also shown that the entire recycling of the essential cofactor (6R)-l-erythro-5,6,7,8-tetrahydrobiopterin via pterin-4a-carbinolamine dehydratase (PCD) and dihydropteridine reductase (DHPR) is affected by H2O2 oxidation of Trp/Met residues in the enzyme structure leading to deactivation of these proteins. Using fluorescence immunohistochemistry we now show that epidermal H2O2 in vitiligo patients yields also almost absent epidermal acetylcholinesterase (AchE). A kinetic analysis using pure recombinant human AchE revealed that low concentrations of H2O2 (10(-6)M) activate this enzyme by increasing the Vmax>2-fold, meanwhile high concentrations of H2O2 (10(-3)M) inhibit the enzyme with a significant decrease in Vmax. This result was confirmed by fluorescence excitation spectroscopy following the Trp fluorescence at lambdamax 280nm. Molecular modelling based on the established 3D structure of human AchE supported that H2O2-mediated oxidation of Trp(432), Trp(435), and Met(436) moves and disorients the active site His(440) of the enzyme, leading to deactivation of the protein. To our knowledge these results identified for the first time H2O2 regulation of AchE. Moreover, it was shown that H2O2-mediated oxidation of AchE contributes significantly to the well-established oxidative stress in vitiligo.     

A possible mechanism of Zn2+ uptake by living cells of Penicillium sp.

Metabolically-active mycelia of Penicillium sp. PT1 took up Zn²⁺ in a biphasic mode, involving an initial energy-dependent binding of Zn²⁺ to the cell surface, followed by a slower intracellular accumulation. The independent binding probably involved a simple ion exchange, as indicated by the pH decrease during the initial adsorption from 4.55 to 3.28. Intracellular accumulation probably involved polyphosphate precipitation as suggested by transmission electron microscopy     

H2O2 resistance is linked to the degree of fatty acid unsaturation in Streptomyces coelicolor A3(2)

In Streptomyces coelicolor A3(2), as the content of palmitoleic acid increased with decreasing growth temperature, H₂O₂ resistance decreased. Production of thiobarbituric acid-reactive substances upon H₂O₂ treatment was increased by supplementing unsaturated fatty acids. Therefore, the content of palmitoleic acid is a determining factor for the survival of Streptomyces coelicolor A3(2) subjected to H₂O₂ stress.     

基于空腔填充效应构建伯克霍尔德菌脂肪酶LipA的热稳定性突变体

【目的】中温伯克霍尔德菌胞外脂肪酶LipA在工业领域具有重要的应用价值。利用蛋白质工程技术来提高其热稳定性,对开发脂肪酶LipA酶制剂及提高其应用范围及应用效果,具有重要的意义。【方法】利用生物信息学软件Castp、Voronoia和Cave分析LipA分子中存在的空腔及其组成氨基酸残基;利用FoldX软件构建上述氨基酸残基的突变体电子文库,并基于空腔效应(体积变小)、自由能变化值(降低)和空间结构特点等对前述突变体电子文库进行筛选。从突变体电子文库中选择具有代表性的突变体,通过基因工程技术,引入突变。经诱导表达后,实验验证并筛选出热稳定性的突变体。【结果】构建了一个由58个突变体组成的电子文库;并对其中17个代表性的突变体进行了实验验证;筛选到2个热稳定性有明显提高的突变体LipA-His15Pro和LipA-Ala210Val;其叠加突变体LipA-His~(15)Pro/Ala~(210)Val的T50~(12)较野生型LipA提高了8°C,在55°C下的半衰期较野生型脂肪酶LipA提高了23.1倍。【结论】基于空腔填充技术构建热稳定性伯克霍尔德菌胞外脂肪酶LipA突变体,是一种行之有效的策略。     

Transesterification of sunflower oil to biodiesel on ZrO2 supported La2O3 catalyst

ZrO₂ supported La₂O₃ catalyst prepared by impregnation method was examined in the transesterification reaction of sunflower oil with methanol to produce biodiesel. It was found that the catalyst with 21 wt% loaded La₂O₃ and calcined at 600 °C showed the optimum activity. The basic property of the catalyst was studied by CO₂-TPD, and the results showed that the fatty acid methyl ester (FAME) yield was related to their basicity. The catalyst was also characterized by TG–DTA, XRD, FTIR, SEM and TEM, and the mechanism for the formation of basic sites was discussed. It was also found that the crystallite size of support ZrO₂ decreased by loading of La₂O₃, and the model of the solid-state reaction on the surface of La₂O₃/ZrO₂ catalyst was proposed. Besides, the influence of various reaction variables on the conversion was investigated.     

Chemical Composition and Decomposition of Silver Birch Leaf Litter Produced under Elevated CO2 and O3

Two field-growing silver birch (Betula pendula Roth) clones (clone 4 and 80) were exposed to elevated CO₂ and O₃ over three growing seasons (1999–2001). In each year, the nutrients and cell wall chemistry of naturally abscised leaf litter were analyzed in order to determine the possible CO₂- and O₃-induced changes in the litter quality. Also CO₂ and O₃ effects on the early leaf litter decomposition dynamics (i.e. decomposition before the lignin decay has started) were studied with litter-bag experiments (Incubation 1 with 1999 leaf litter, Incubation 2 with 2000 leaf litter, and Incubation 3 with 2001 leaf litter) in a nearby silver birch forest. Elevated CO₂ decreased N, S, C:P and α-cellulose concentrations, but increased P, hemicellulose and lignin+polyphenolic concentrations, C:N and lignin+polyphenolic:N in both clones. CO₂ enrichment decreased the subsequent decomposition of leaves of clone 4 transiently (in Incubations 1 and 2), whereas elevated CO₂ effects on the subsequent leaf decomposition of clone 80 were inconsistent. In contrast to CO₂, O₃ decreased P concentrations and increased C:P, but both of these trends were visible in elevated O₃ treatment only. O₃-induced decreases in Mn, Zn and B concentrations were observed also, but O₃ effects on the cell wall chemistry of leaf litter were minor. Some O₃-induced changes either became more consistent in leaf litter collected during 2001 (decrease in B concentrations) or appeared only in this litter lot (decrease in N concentrations, decrease in decomposition at the end of Incubation 3). In conclusion, in northern birch forests elevated CO₂ and O₃ levels have the potential to affect leaf litter quality, but consistent CO₂ and O₃ effects on the decomposition process remain to be validated.     

假单胞菌T1-3-2的抑菌特性及其对杉木的抗病促生作用

【背景】生物防治是“基于自然的解决方案”,有利于生态文明和可持续发展,开展生物防治技术研究的基础是明确菌株的生防作用和抑菌特性。【目的】探究杉木内生菌株T1-3-2的抑菌促生特性,为研制该菌株生防菌剂、防治杉木炭疽病(Cunninghamia lanceolata anthracnose)奠定基础。【方法】通过形态学特征、生理生化特性及16S rRNA基因序列分析,确定菌株T1-3-2的分类地位;通过平板对峙、菌落径向生长抑制率和平板倒扣等方法测定细菌及其挥发性气体和次级代谢产物的抑菌作用;同时,测定其促生作用和室内防效。【结果】菌株T1-3-2与桉生假单胞菌(Pseudomonas eucalypticola)亲缘性较近,属于假单胞菌属。该菌株对分属于6个属的10株靶标菌株具有较强的拮抗作用,尤其对炭疽菌属、拟盘多毛孢属、黑孢霉属和葡萄座腔菌属的6株靶标菌株抑制率高达80%以上。室内盆栽试验显示：菌株T1-3-2用Kings Medium B液体培养基的发酵菌液对杉木炭疽病的防效可达74.20%,同时能有效改善杉木幼苗的生长状况、增加生物量。【结论】菌株T1-3-2隶属于假单胞菌属,对杉木具有良好的抗病促生作用,是一株具有开发潜力的生防菌株。     

Influence of enhanced CO2 on growth and photosynthesis of the red algaeGracilaria sp. andG. chilensis

The influence of elevated CO₂ concentrations on growth and photosynthesis ofGracilaria sp. andG. chilensis was investigated in order to procure information on the effective utilization of CO₂. Growth of both was enhanced by CO₂ enrichment (air + 650 ppm CO₂, air + 1250 ppm CO₂, the enhancement being greater inGracilaria sp. Both species increased uptake of NO₃ ^– with CO₂ enrichment. Photosynthetic inorganic carbon uptake was depressed inG. chilensis by pre-culture (15 days) with CO₂ enrichment, but little affected inGracilaria sp. Mass spectrometric analysis showed that O₂ uptake was higher in the light than in the dark for both species and in both cases was higher inGracilaria sp. The higher growth enhancement inGracilaria sp. was attributed to greater depression of photorespiration by the enrichment of CO₂ in culture.     

Production of a novel bioflocculant by fed-batch culture of Citrobacter sp.

Production of a novel bioflocculant by a fed-batch culture of Citrobacter sp. TKF04 was investigated using acetic acid as a sole carbon source. Synthesis of the bioflocculant was favored by dissolved O₂ tension at 20% of air saturation and C/N ratio (mol acetic acid/mol ammonium) of 10:1 in the feed solution. Under optimal conditions, 4.6 g crude bioflocculant per liter broth was produced, whose flocculating activity was 22 300 units. This activity was 9 times higher than that of the control (only acetic acid was supplied).