Tamarix hispida metallothionein-like ThMT3, a reactive oxygen species scavenger, increases tolerance against Cd2+, Zn2+, Cu2+, and NaCl in transgenic yeast

A metallothionein-like gene, ThMT3, encoding a type 3 metallothionein, was isolated from a Tamarix hispida leaf cDNA library. Expression analysis revealed that mRNA of ThMT3 was upregulated by high salinity as well as by heavy metal ions, and that ThMT3 was predominantly expressed in the leaf. Transgenic yeast (Saccharomyces cerevisiae) expressing ThMT3 showed increased tolerance to Cd²⁺, Zn²⁺, Cu²⁺, and NaCl stress. Transgenic yeast also accumulated more Cd²⁺, Zn²⁺, and NaCl, but not Cu²⁺. Analysis of the expression of four genes (GLR1, GTT2, GSH1, and YCF1) that aid in transporting heavy metal (Cd²⁺) from the cytoplasm to the vacuole demonstrated that none of these genes were induced under Cd²⁺, Zn²⁺, Cu²⁺, and NaCl stress in ThMT3-transgenic yeast. H₂O₂ levels in transgenic yeast under such stress conditions were less than half those in control yeast under the same conditions. Three antioxidant genes (SOD1, CAT1, and GPX1) were specifically expressed under Cd²⁺, Zn²⁺, Cu²⁺, and NaCl stress in the transgenic yeast. Cd²⁺, Zn²⁺, and Cu²⁺ increased the expression levels of SOD1, CAT1, and GPX1, respectively, whereas NaCl induced the expression of SOD1 and GPX1.     

Effect of Medium Components on Bacteriocin Production by Lactobacillus Pentosus ST151BR,a Strain Isolated from Beer Produced by the Fermentation of Maize,Barley and Soy Flour

Lactobacillus pentosus ST151BR, isolated from home-brewed beer, produces a 3.0 kDa antibacterial peptide (bacteriocin ST151BR) active against Lactobacillus casei, Lactobacillus sakei, Pseudomonas aeruginosa, Enterococcus faecalis and Escherichia coli. Treatment with Proteinase K or Pronase resulted in loss of activity. Bacteriocin levels of 6400 AU/ml were recorded in MRSbb (De Man-Rogosa-Sharpe broth without Tween 80) at pH 5.5, 6.0 and 6.5. The same growth conditions at pH 4.5 yielded only 1600 AU/ml bacteriocin. Inclusion of Tween 80 in the growth medium reduced bacteriocin production by more than 50%. Growth in the presence of tryptone or tryptone plus meat extract stimulated bacteriocin production, whereas much lower activity was recorded when the bacteria were grown in the presence of meat extract, yeast extract, tryptone plus yeast extract, meat extract plus yeast extract, or a combination of tryptone, meat extract and yeast extract. MRSbb supplemented with maltose, lactose or mannose (2.0%, w/v) yielded bacteriocin levels of 6400 AU/ml. Sucrose or fructose at these concentrations reduced the activity by 50 and 75%, respectively. Growth in the presence of 4.0%(w/v) glucose resulted in 50% activity loss. Glycerol levels as low as 0.1%(w/v) repressed bacteriocin production. Addition of cyanocobalamin, ascorbic acid, thiamine and thioctic acid (1.0 mg/l) to the growth medium did not lead to an increase in bacteriocin production. This revised version was published online in July 2006 with corrections to the Cover Date.     

维生素C多聚磷酸酯对小鼠肝脏脂质过氧化物和抗氧化物酶的影响

为研究维生素C多聚磷酸酯对小鼠肝脏脂质过氧化物和抗氧化物酶的影响 ,我们设置了 4个实验组 ,采用 2 4只小鼠 ,饵料中 35 %维生素C多聚磷酸酯的添加量依次为 0、 5 0 0、 2 5 0 0和 5 0 0 0mg/kg ,喂食 4周后取其肝脏 ,用硫代巴比妥酸分光光度测脂质过氧化物的含量 ,用亚硝酸盐形成法测定超氧化物歧化酶的活性 ,用分光光度法测过氧化氢酶和谷胱甘肽过氧化物酶的活性。结果表明 ,维生素C多聚磷酸酯对小鼠肝脏脂质过氧化物没有明显影响 ,但随着维生素C多聚磷酸酯添加量的增加 ,脂质过氧化物有减少的趋势。维生素C多聚磷酸酯添加量为 2 5 0 0和 5 0 0 0mg/kg的两组 ,其超氧化物歧化酶的活性明显高于对照组和维生素C多聚磷酸酯添加量为 5 0 0mg/kg组 ;过氧化氢酶的活性明显高于对照组。维生素C多聚磷酸酯添加量为5 0 0 0mg/kg组 ,其谷胱甘肽过氧化物酶的活性明显高于其它三组。表明高剂量的维生素C多聚磷酸酯能促进小鼠抗氧化物酶的活性 ,但促进不同抗氧化物酶活性所需的维生素C多聚磷酸酯的量不同     

Effect of trace metals on ethanol production from synthesis gas by the ethanologenic acetogen, <Emphasis Type="Italic">Clostridium</Emphasis><Emphasis Type="Italic">ragsdalei</Emphasis>

The effect of trace metal ions (Co²⁺, Cu²⁺, Fe²⁺, Mn²⁺, Mo⁶⁺, Ni²⁺, Zn²⁺, SeO₄ ⁻ and WO₄ ⁻) on growth and ethanol production by an ethanologenic acetogen, Clostridium ragsdalei was investigated in CO:CO₂-grown cells. A standard acetogen medium (ATCC medium no. 1754) was manipulated by varying the concentrations of trace metals in the media. Increasing the individual concentrations of Ni²⁺, Zn²⁺, SeO₄ ⁻ and WO₄ ⁻ from 0.84, 6.96, 1.06, and 0.68 μM in the standard trace metals solution to 8.4, 34.8, 5.3, and 6.8 μM, respectively, increased ethanol production from 35.73 mM under standard metals concentration to 176.5, 187.8, 54.4, and 72.3 mM, respectively. Nickel was necessary for growth of C. ragsdalei. Growth rate (μ) of C. ragsdalei improved from 0.34 to 0.49 (day⁻¹), and carbon monoxide dehydrogenase (CODH) and hydrogenase (H₂ase)-specific activities improved from 38.45 and 0.35 to 48.5 and 1.66 U/mg protein, respectively, at optimum concentration of Ni²⁺. At optimum concentrations of WO₄ ⁻ and SeO₄ ⁻, formate dehydrogenase (FDH) activity improved from 32.3 to 42.6 and 45.4 U/mg protein, respectively. Ethanol production and the activity of FDH reduced from 35 mM and 32.3 U/mg protein to 1.14 mM and 8.79 U/mg protein, respectively, upon elimination of WO₄ ⁻ from the medium. Although increased concentration of Zn²⁺ enhanced growth and ethanol production, the activities of CODH, FDH, H₂ase and alcohol dehydrogenase (ADH) were not affected by varying the Zn²⁺ concentration. Omitting Fe²⁺ from the medium decreased ethanol production from 35.7 to 6.30 mM and decreased activities of CODH, FDH, H₂ase and ADH from 38.5, 32.3, 0.35, and 0.68 U/mg protein to 9.07, 7.01, 0.10, and 0.24 U/mg protein, respectively. Ethanol production improved from 35 to 54 mM when Cu²⁺ was removed from the medium. The optimization of trace metals concentration in the fermentation medium improved enzyme activities (CODH, FDH, and H₂ase), growth and ethanol production by C. ragsdalei.     

Growth of Thermus aquaticus and its TaqI endonuclease production

The culture behaviour of Thermus aquaticus was characterized. The response of the bacterium to various carbon (tryptone, glucose, glycerol) and nitrogen sources (yeast extract, NaNO₃, (NH₄)₂SO₄, leucine, thymine, thiamine, glutamic acid) was studied. Amino acids did not support growth, but CASTENHOLZ salt medium supplemented with yeast extract and glucose or tryptone resulted in good growth and production. A suitable medium composition giving the highest biomass concentration and enzyme yield was developed. The simple medium containing TYE-NaCl resulted in the highest biomass concentration, whereas CASTENHOLZ mineral medium supplemented with tryptone and yeast extract gave the highest specific activity and enzyme yield. The effect of inoculum age and size on growth was also investigated in order to improve the yield and process consistency. The use of shake flasks inoculated with precultures at their early or late stationary phase resulted in the same biomass concentration (0.56 ± 0.015 g/l) and similar maximum specific growth rates (0.258 ± 0.003 h^?1). Inoculum sizes between 1 and 2.5 per cent were optimal for cell growth. As the other papers on thermophilic microorganisms, including the T. aquaticus YT-1 strain, gave qualitative information on growth, the results presented here cannot be compared with others on a quantitative basis. TaqI endonuclease was purified using a 5 step protocol including cell disruption, adsorption, precipitation, column chromatography and final dialysis. The enriched fraction had a specific activity of 33,600 U TaqI endonuclease per mg protein.     

Dietary Supplementation of Zinc Nanoparticles and Its Influence on Biology,Physiology and Immune Responses of the Freshwater Prawn,Macrobrachium rosenbergii

The present study was conducted to assess the influence of dietary zinc nanoparticles (size 50 nm) on the growth, biochemical constituents, enzymatic antioxidant levels and the nonspecific immune response of the freshwater prawn, Macrobrachium rosenbergii post larvae (PL). The concentrations of dietary supplement zinc nanoparticles (ZnNPs) were 0, 10, 20, 40, 60 and 80 mg kg^?1 with the basal diet, and the level of Zn in ZnNP-supplemented diets were 0.71, 10.61, 20.73, 40.73, 60.61 and 80.60 mg kg^?1, respectively. ZnNP-incorporated diets were fed to M. rosenbergii PL (initial body weight, 0.18?±?0.02 g) in a triplicate experimental setup for a period of 90 days. ZnNP supplemented feed fed PL up to 60 mg kg^?1 showed significantly (P?<?0.05) improved performance in survival, growth and activities of digestive enzymes (protease, amylase and lipase). The concentrations of biochemical constituents (total protein, total amino acid, total carbohydrate and total lipid), total haemocyte count and differential haemocyte count were elevated in 10–60 mg kg^?1 ZnNP supplemented feed fed PL. However, the PL fed with 80 mg ZnNPs kg^?1 showed negative results. Activities of enzymatic antioxidants [superoxide dismutase (SOD) and catalase (CAT)], metabolic enzymes [glutamate–oxaloacetate transaminase (GOT) and glutamate–pyruvate transaminase (GPT)] and the process of lipid peroxidation (LPO) in the hepatopancreas and muscle showed no significant alterations in 10–60 mg kg^?1 ZnNP supplemented feed fed PL. Whereas, 80 mg ZnNPs kg^?1 supplemented feed fed PL showed significant elevations in SOD, CAT, LPO, GOT and GPT. Therefore, 80 mg ZnNPs kg^?1 was found to be toxic to M. rosenbergii PL. Thus, the study suggests that up to 60 mg ZnNPs kg^?1 can be supplemented for regulating survival, growth and immunity of M. rosenbergii.     

Secretion of Kluyveromyces lactis Cu/Zn SOD: strategies for enhanced production

The Kluyveromyces lactis Cu/Zn SOD gene (SOD1) was fused with the toxin K1 signal sequence to obtain extracellular production of superoxide dismutase. Kluyveromyces marxianus L3 and K. lactis MW98-8C strains were transformed and compared as hosts for the secretion. The effects of the media composition were evaluated: In K. lactis, the highest volumetric activity was obtained in YKK synthetic medium in the presence of Cu²⁺/Zn²⁺ cofactors (9.6 kU l⁻¹). In K. marxianus, active SOD was produced only in YPD medium supplemented with Cu²⁺ and Zn²⁺ (8.8 kU l⁻¹). In order to improve the production of secreted active SOD in K. lactis, the SOD1 copper carrier (CCS1) was overexpressed and targeted to the secretory apparatus. A positive effect was observed only when K. lactis was grown in a medium without Cu²⁺/Zn²⁺ supplement. The best performing culture conditions for K. lactis and K. marxianus recombinant strains were successfully applied to two laboratory-scale fed-batch processes, and volumetric SOD activities increased up to 19.4 and 24.1 kU l⁻¹, respectively.     

Callus Culture and Plant Regeneration from Seedling Explants of Pergularia daemia (Forsk) Chiov

Callus cultures were established from seedling explants of Pergularia daemia (Forsk) Chiov on Murashige and Skoog (MS) medium supplemented with different concentrations of auxins. Optimal callus developed from leaf explants on MS medium supplemented with 2,4-D (2 mg l^?1) + 2iP (0.1 mg l^?1), was used for morphogenesis. Adventitious shoots were regenerated (70%) from the calli on MS medium supplemented with NAA (0.1 mg l^?1)+ BAP (2 mg l^?1). Individual shoots were rooted on half strength MS medium supplemented with 0.1 mg l^?1 IBA. Plantlets with well developed roots were successfully transferred to soil and 50% of the transferred plants survived.     

Physiological and antioxidant enzyme responses to acute and chronic exposure of Laeonereis acuta (Polychaeta, Nereididae) to copper

Chronic (14 days) and acute (48 h) copper effects on the antioxidant defense system and some physiological variables of Laeonereis acuta (Polychaeta, Nereididae) were evaluated. In both assays, two nominal copper concentrations (chronic: C₁=31.25 and C₂=62.50 μg/l; acute: A₁=250 and A₂=500 μg/l) and one control group (C_c and A_c=0 μg/l) were tested. End points analyzed were antioxidant enzyme activity (catalase, CAT; superoxide dismutase, SOD; and glutathione S-transferase, GST), oxygen consumption, metahemoglobin concentration, and lipid peroxidation (LPO). In the chronic assay, CAT activity was significantly higher in worms exposed to both concentrations of copper tested (C₁=3.36±0.07 U CAT/mg protein; C₂=4.06 0.32 U CAT/mg protein) than in control worms (C_c=2.16±0.39 U CAT/mg protein). SOD activity was also increased in the two copper-exposed groups (C₁=16.85±4.22 U SOD/mg protein; C₂=38.19±4.31 U SOD/mg protein) than in control group (C_c=3.54±0.46 U SOD/mg protein). However, GST activity was increased only in worms exposed to the higher copper concentration (C₂=0.022±9.10⁻⁴ U GST/mg protein) when compared to the other groups tested (C_c=0.012±3.10⁻³ U GST/mg protein; C₁=0.016±9.10⁻⁴ U GST/mg protein). None of the physiological variables analyzed (oxygen consumption, metahemoglobin concentration, and lipid peroxidation) was affected by chronic copper exposure. In the acute assay, only GST activity was induced in worms exposed to copper. This induction was observed only in the A₁ group (0.027±2.10⁻³ U GST/mg protein) when compared to A_c (0.017±2.10⁻³ U GST/mg protein) or A₂ (0.016±7.10⁻⁴ U GST/mg protein) groups. On the other hand, lipid peroxidation was higher in A₂ (481.9±49.2 nmol CHP/g ww) than in control worms (A_c=337.9±25.0 nmol CHP/g ww). Oxygen consumption was higher in worms acutely exposed to the lower copper concentration tested (A₁=0.27±0.04 mg O₂/g ww/h) than in the higher concentration (A₂=0.14±0.01 mg O₂/g ww/h). Changes in the swimming behavior of copper-exposed animals in both assays and edemas in the body wall of worms acutely exposed to copper were also observed. Results suggest that copper exposure favors reactive oxygen species generation and that enzymatic defense system is induced under chronic exposure, preventing oxygen consumption changes and lipid peroxidation and metahemoglobin formation. However, in acutely exposed worms, in spite of a transient peak of GST activity, no induction of antioxidant enzymes occurs, leading to morphological and physiological changes.     

Purification and characterization of cyclodextrin β-glucanotransferase from novel alkalophilic bacilli

The discovery of novel bacterial cyclodextrin glucanotransferase (CGTase) enzyme could provide advantages in terms of its production and relative activity. In this study, eight bacterial strains isolated from soils of a biodiversity-rich vegetation in Egypt based on their hydrolyzing activity of starch, were screened for CGTase activity, where the most active strain was identified as Bacillus lehensis. Optimization process revealed that the using of rice starch (25 %) and a mixture of peptone/yeast extract (1 %) at pH 10.5 and 37 °C for 24 h improved the bacterial growth and enzyme activity. The bacterial CGTase was successively purified by acetone precipitation, gel filtration chromatography in a Sephadex G-100 column and ion exchange chromatography in a DEAE-cellulose column. The specific activity of the CGTase was increased approximately 274-fold, from 0.21 U/mg protein in crude broth to 57.7 U/mg protein after applying the DEAE-cellulose column chromatography. SDS-PAGE showed that the purified CGTase was homogeneous with a molecular weight of 74.1 kDa. Characterization of the enzyme exhibited optimum pH and temperature of 7 and 60 °C, respectively. CGTase relative activity was strongly inhibited by Mg²⁺, Zn²⁺, Al³⁺ and K⁺, while it was slightly enhanced by 5 and 9 % with Cu²⁺ and Fe²⁺ metal ions, respectively.     

镉胁迫对家蚕脂肪体脂质过氧化物含量及抗氧化酶活性和mRNA表达的影响

【目的】探讨鳞翅目模式昆虫家蚕Bombyx mori作为重金属污染的监测指示生物在镉胁迫下的酶反应及相关的基因表达。【方法】给家蚕幼虫期全龄添食镉(Cd²⁺), 调查不同性别家蚕5龄幼虫脂肪体中脂质过氧化物丙二醛（MDA）的含量, 超氧化物歧化酶（SOD）、 过氧化氢酶（CAT）和谷胱甘肽过氧化物酶（GSH-Px）的活性及其基因表达水平的变化。【结果】Cd²⁺胁迫对雌雄家蚕MDA 含量均具有浓度效应关系, MDA含量随Cd²⁺胁迫浓度的升高而增加。Cd²⁺胁迫下, SOD和CAT活性表现为先升后降的变化趋势, Pearson相关性分析显示SOD和CAT活性变化有显著相关性(雄: R=0.770, P=0.001; 雌: R=0.854, P=0.000）。雌性家蚕脂肪体中CAT活性变化和Cat mRNA水平的表达具有正相关性（R=0.712, P=0.003）。雄性家蚕脂肪体中GSH-Px活性随Cd²⁺胁迫浓度的升高而增加, 显示浓度 效应关系, 12.5~50 mg/kg Cd²⁺胁迫组GSH-Px活性与对照相比有显著差异（P<0.05）, 其活性和GSH-Px mRNA水平的表达具有正相关性（R=0.834, P=0.000）; 雌性家蚕脂肪体中GSH-Px活性表现为先升后降的变化趋势, 12.5 mg/kg Cd²⁺胁迫组GSH-Px活性与对照相比有显著增加（P<0.01）。【结论】结果表明, 急性镉胁迫对家蚕脂肪体有明显的毒性作用, 其作用机制与脂质过氧化加剧和抗氧化酶活性变化有关。家蚕对重金属镉的解毒机制有性别相关性。     

Role of Amino Acids in Evolution of Ethylene and Methane, and Development of Microshoots in Cajanus Cajan

In pigeonpea (Cajanus cajan L.) shoot buds were induced when cotyledonary node explants were supplemented with benzylaminopurine (BAP; 2 mg dm^–3). When 0.1 mg dm^-3 BAP and 0.01 mg dm^-3 naphtahalene acetic acid were supplemented to the medium, the 34 – 35 % of induced buds developed to microshoots. By supplementing amino acids like proline, glutamine, asparagine and L-cysteine, shoot bud development to microshoots was enhanced at least by two fold. Amongst the amino acids proline gave maximum number of microshoots per explant. With increase in concentration of amino acids, fresh mass increased but microshoot number decreased. Also methane evolution was increased by addition of amino acids, and also in medium containing more of its nitrogen in the form of ammonia. Increased evolution of methane was accompanied by reduction in evolution of ethylene, and enhancement of efficiency of microshoot development.     

Ribonuclease production of Rhizopus oryzae IFO 4697 under metal ion stress in liquid culture

 Rhizopus oryzae IFO 4697 was found to produce intracellular ribonuclease (RNase), and its growth and activity could be regulated under selected metal ion stress. The addition of Fe²⁺, Mg²⁺ and Zn²⁺ to the SLSR medium was essential to growth and RNase production. Ca²⁺ and Mo⁶⁺ stimulated RNase production. It is concluded that the addition of 100 mg/ml Ca²⁺, 5 mg/ml Mo⁶⁺, 0.7 mg/ml Zn²⁺, 2 mg/ml Fe²⁺, and 49 mg/ml Mg²⁺ to the SLSR medium was the best condition for producing RNase in high specific activity (3780 U/mg protein). This result indicates that a metal ion-regulated liquid medium is an efficient culture method for RNase production. Received: July 19, 2001 / Accepted: April 8, 2002     

Influence of a Brassinosteroid Analogue on Antioxidant Enzymes in Rice Grown in Culture Medium with NaCl

We studied the effects of a polyhydroxylated spirostanic brassinosteroid analogue (BB-16) on the activities of antioxidant enzymes in rice seedlings grown in vitro in culture medium supplemented with NaCl. Seedlings were grown in medium with 75 mM NaCl and 0.001 or 0.01 mg dm⁻³ BB-16 for 16 d or 3-d-old seedlings were exposed for 4 d to 0, 0.001 or 0.01 mg dm⁻³ BB-16 then further grown in medium with 75 mM NaCl without BB-16. Seedlings exposed to 0.01 mg dm⁻³ BB-16 for 16 d showed significant increase in the activities of catalase (CAT), superoxide dismutase (SOD) and glutathione reductase (GR) and a slight increase in ascorbate peroxidase (APX). On the other hand, 4-d exposure to BB-16 only increased SOD and CAT activities at concentration 0.001 mg dm⁻³. GR activity was not altered by this BB-16 treatment. These results indicated that BB-16, which is structurally modified in the lateral chain in relation to natural brassinosteroids, changes the activity of key antioxidant enzymes, which might confer tolerance to saline stress. This revised version was published online in July 2006 with corrections to the Cover Date.     

Accumulation and oxidative stress biomarkers in Japanese flounder larvae and juveniles under chronic cadmium exposure

This study investigated how Cd exposure affected oxidative biomarkers in Japanese flounder, Paralichthys olivaceus, at early life stages (ELS). Fish were exposed to waterborne Cd (0–48 µg L^− 1) from embryonic to juvenile stages for 80 days. Growth, Cd accumulation, activities of superoxide dismutase (SOD, EC 1.15.1.1), catalase (CAT, EC 1.11.1.6), glutathione S-transferase (GST, EC 2.5.1.18), and levels of glutathione (GSH) and lipid peroxidation (LPO) were investigated at three developmental stages. Flounder growth decreased and Cd accumulation increased with increasing Cd concentration. In metamorphosing larvae, CAT and SOD activities were inhibited and GSH level was elevated, while LPO was enhanced by increasing Cd concentrations. CAT and GST activities of settling larvae were inhibited but GSH level was elevated at high Cd concentrations. In juveniles, SOD activity and LPO level were increased but GST activity was inhibited as Cd concentration increased. Antioxidants in flounder at ELS were able to develop ductile responses to defend against oxidative stress, but LPO fatally occurred due to Cd exposure. These biochemical parameters could be used as effective oxidative biomarkers for evaluating Cd contamination and toxicity in marine environments: CAT, SOD, GSH, and LPO for metamorphosing stage; CAT, GSH, and GST for settling stage; and SOD, GST, and LPO for juvenile stage.     

A comparative study of the metal ion uptake and antioxidant enzyme activities of Fusarium equiseti and Fusarium acuminatum as a function of external magnesium concentration

The increase of Mg2+, from 1.3 to 3 microM, in growth medium of F. equiseti and F. acuminatum increased intracellular magnesium levels from 0.83 and 0.81 microM to 1.75 and 1.42 microM on the 12th day, respectively. Intracellular magnesium levels also elevated depending upon the number of incubation days. The maximum manganese levels of F. equiseti and F. acuminatum obtained in 1.6 microM Mg2+ culture medium were 0.67 and 1.23 microM, while maximum iron levels were determined to be 1.3 microM Mg2+ as 0.51 and 0.29 microM, respectively. The maximum intracellular iron and manganese levels were decreased significantly with increasing Mg2+ concentration in the culture medium and were increased depending upon the incubation period. However, intracellular zinc levels of these strains didn't change with Mg2+ concentration and incubation period.The maximum superoxide dismutase (MnSOD) activities of F. equiseti and F. acuminatum, related to increased intracellular manganese levels up to 1.6 microM Mg2+ in growth medium, were determined to be 78 and 110 IU/mg, respectively. CAT activity variations showed agreement with SOD activity and reached a maximum at 320 and 225 IU/mg under the same conditions. The minimum LPO levels of the Fusarium strains with the maximum MnSOD and CAT activities were determined as 1.2 and 0.9 nmol MDA/g., wet weight. The higher LPO level of F. equiseti grown at the same condition, in spite of 1.42-fold higher CAT activity due to the 1.41-fold lower SOD activity, as well as a 2.0-fold higher iron level, indicated increases in the generation of reactive oxygen species via the Fenton reaction.     

Mn<Superscript>2+</Superscript> enhances theanine-forming activity of recombinant glutamine synthetase from <Emphasis Type="Italic">Bacillus subtilis</Emphasis> in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Bacillus subtilis glutamine synthetase (GS) was highly expressed (about 86% of total protein) as soluble protein in Escherichia coli BL21(DE3) containing pET28a-glnA, which was induced by 0.4 mM IPTG in LB medium, and maximal theanine-forming activity of the recombinant GS induced in LB is 6.4 U/mg at a series concentration (0–100 mM) of Mn²⁺ at optimal pH 7.5. In order to get GS with high theanine-forming activity, safety, and low cost for food and pharmaceutics industry, M9-A (details are described in “Materials and methods”) and 0.1% (w/v) lactose were selected as culture medium and inducer respectively. Recombinant GS was also highly expressed (84% of total protein) and totally soluble in M9-A and the specific activity of the recombinant GS is 6.2 U/mg which is approximate to that (6.4 U/mg) induced in LB in the presence of 10 mM Mn²⁺ at optimal pH 7.5. The activity is markedly higher activated by Mn²⁺ than that by other nine bivalent cations. Furthermore, M9-B (5 μM Mn²⁺ was added into M9-A) was used to culture the recombinant strain and theanine-forming activity of the recombinant GS induced in M9-B was improved 20% (up to 7.6 U/mg). Finally, theanine production experiment coupled with yeast fermentation system was carried out in a 1.0 ml reaction system with 0.1 mg crude GS from M9-B or M9-A, and the yield of theanine were 15.3 and 13.1 g/L by paper chromatography and HPLC, respectively.     

Calcium Stimulates the Adaptation of Cultured Liquorice Cells to PEG-Induced Water Stress

Calcium may be involved in plant tolerance to water deficit by regulating antioxidant metabolism or/and water relations. This study was designed to examine whether external Ca²⁺ would stimulate drought tolerance in cultured liquorice cells. Water stress induced by 15% PEG significantly reduced fresh weight and relative water content in liquorice cells, but external Ca²⁺ markedly increased them after stress for 7 days. The activities of catalase (CAT), superoxide dismutase (SOD) declined and activity of peroxidase (POD) slowly increased during water stress imposition. External calcium significantly enhanced SOD and CAT activities, but the effect on POD activity was weak. The effect of external Ca²⁺ on water deficit tolerance in liquorice cells was not due to the osmotic adjustment in culture medium. Under nonstress conditions, external calcium slightly increased the activities of SOD, CAT, and POD. Ca²⁺ signal in liquorice cells may be different under stress and nonstress conditions. Under water stress, Ca²⁺ signal involves in reactive oxygen species transduction pathway and affects the processes participating in regulation of antioxidative enzymes; under nonstress conditions, Ca²⁺ signal coming from external calcium might not participate in ROS signal transduction pathway resulting in antioxidative defense response in liquorice cells. Less malondialdehyde was accumulated after water stress for 7 days in Ca²⁺-treated cells than in untreated cells. It was proposed that external calcium could reduce the damage of water deficit and stimulate tolerance to it in liquorice cells by mitigating oxidative stress.     

The effects of diazinon on lipid peroxidation and antioxidant enzymes in rat heart and ameliorating role of vitamin E and vitamin C

Diazinon is one of the most widely used organophosphate insecticides (OPIs) in agriculture and public health programs. Reactive oxygen species (ROS) caused by OPIs may be involved in the toxicity of various pesticides. The aim of this study was to investigate how diazinon affects lipid peroxidation (LPO) and the antioxidant defense system in vivo and the possible ameliorating role of vitamins E and C. For this purpose, experiments were done to study the effects of DI on LPO and the activities of superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), and catalase (CAT) in adult rat heart. Experimental groups were: (1) control group, (2) diazinon treated (DI) group, (3) DI+vitamins E and C-treated (DI+Vit) group. The levels of malondialdehyde (MDA) and the activities of SOD and CAT increased significantly in the DI group compared with the control group. The activity of SOD and the levels of MDA decreased significantly in the DI+Vit group compared with the DI group. The differences between the DI+Vit and control groups according to the MDA levels and the activities of both SOD and CAT were statistically significant. These results suggest that treating rats with a single dose of diazinon increases LPO and some antioxidant enzyme activities in the rat myocardium and, in addition, that single-dose treatment with a combination of vitamins E and C after the administration of diazinon can reduce LPO caused by diazinon, though this treatment was not sufficiently effective to reduce the values to those in control group.     

Improved production and properties of β-glucosidase influenced by 2-deoxy-<Emphasis Type="SmallCaps">d</Emphasis>-glucose in the culture medium of <Emphasis Type="Italic">Termitomyces clypeatus</Emphasis>

Increased production, secretion, and activity of β-glucosidase in the filamentous fungus Termitomyces clypeatus was achieved in presence of the glycosylation inhibitor 2-deoxy-d-glucose (0.05%, w/v) during submerged fermentation. Enzyme activity increased to 163 U/mL by adding mannose (2 mg/mL) to the medium. Such a high enzyme activity has not been achieved without mutation or genetic manipulation. The K_m and V_max of the enzyme in culture medium were determined to be 0.092 mM and 35.54 U/mg, respectively, with p-nitrophenyl β-d-glucopyranoside as substrate, confirming its high catalytic activity. The enzyme displayed optimum activity at pH 5.4 and 45°C. The enzyme was fairly stable between acidic to alkaline pH and retained about 75 ∼ 65% residual activities between pH 4 and 10.6 and demonstrated full activity at 45°C for 3 days. The enzyme was also stable in the presence of Zn²⁺ and Mg²⁺ and 80% of the residual activity was observed in the presence of Mn²⁺, Ca²⁺, K⁺, Cu²⁺, EDTA, and sodium azide. Around 70% of the activity was retained in the presence of 2 M guanidium HCl and 3 M urea, whereas the activity was 5 and 2 times higher in the presence of 4 mM beta-mercaptoethanol and 50 mM DTT, respectively. The enzyme obtained from the culture filtrate showed potential cellulose saccharifying ability which increased further when supplemented with commercial cellulase. Thus, this enzyme could be used without any additional downstream processing for commercial cellulase preparation and production of bioethanol or for other biotechnological applications.