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51.
N. Tahlil A. Rada M. Baaziz J.L. Morel M. El Meray M. El Aatmani 《Biologia Plantarum》1999,42(1):75-80
Seedlings of two cultivars of zucchini (Cucurbita pepo L.) Courgette d'Italie (CI) and Courgette d'Alger (CA) were pre-treated
with various concentrations of cadmium, copper and zinc for 30 d. High accumulation of heavy metals especially in the roots
was showed. Peroxidase activity was affected according to the type of metal added, concentration, and the plant cultivar used.
In leaves and roots of the CI control plants peroxidase activities were 50 and 17 % higher than in the CA control plants.
Treatment with Cd (5 μg g−1), Cu (200 μg g−1), and Zn (500 μg g−1) increased peroxidase activities in CA but decreased it in CI both in leaves and roots. Heavy metals tested lead also to
some qualitative changes characterized by appearance of new isoforms of peroxidase. The results show the possibility to use
the activities of peroxidase as biomarkers for Cd, Cu and Zn stresses.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
52.
等电聚焦表明,北京鸭红细胞铜锌超氧化物歧化酶由等电点分别为5.0,5.3,5.9,6.1和6.5的五个主要的活性组分(电荷异构体)构成,利用分析型聚丙烯酰胺凝胶等电聚焦电泳进行电荷异构体的制备级分离,采用三氯乙酸沉淀法快速确定蛋白条带的位置,电渗洗脱法回收蛋白,获得其中两个电荷异构体,对比研究结果表明电荷异构体的活性,氨基酸组成,二级结构等性质无明显差异。 相似文献
53.
Previous work in our laboratory led to the isolation of a cadmium (Cd)-resistant variant (Cdr2C10) of the line CHO Chinese Hamster cell having a 10-fold greater resistance to the cytotoxic action of Cd2+ compared with the CHO cell. This resistance was attributed to an increased capacity of the Cd2+-resistant Cdr2C10 subline to induce synthesis of the Cd2+- and Zn2+-binding protein(s), metallothionein(s) (MT). Evidence that Cd2+ behaves as an analog of the essential trace metal, Zn2+, especially as an inducer of MT synthesis, suggested that the Cdr and CHO cell types could be employed to investigate cellular Zn2+ metabolism. In the present study, measurements were made to compare CHO and Cdr cell types for (a) growth as a function of the level of ZnCl2 added to the culture medium, (b) uptake and subcellular distribution of Zn2+, and (c) capacity to induce MT synthesis. The results of these measurements indicated that (a) both CHO and Cdr cell types grew normally (T
d≊16–18 h) during exposures to Zn2+ at levels up to 100 μM added to the growth medium, but displayed abrupt growth inhibition at higher Zn2+ levels, (b) Cdr cells incorporate fourfold more Zn2+ during a 24-h exposure to the maximal subtoxic level of Zn2+ and (c) the CHO cell lacks the capacity to induce MT synethesis while the Cdr cell is proficient in this response during exposure to the maximal subtoxic Zn2+ level. These findings suggest that (a) the CHO and Cdr cell systems will be useful in further studies of cellular Zn2+ metabolism, especially in comparisons of Zn2+ metabolism in the presence and absence of induction of the Zn2+-sequestering MT and (b) a relationship exists between cellular capacity to induce MT synthesis and capacity for cellular
Zn2+ uptake. 相似文献
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锌是中枢神经系统含量最丰富的过渡金属元素之一,对维持中枢神经系统正常生理功能具有重要作用,其稳态失衡与多种疾病有关。阿尔茨海默病是一种多病因神经退行性疾病,以β-淀粉样斑块形成和神经原纤维缠结为主要病理特征。研究表明,脑锌代谢紊乱在阿尔茨海默病发病过程中扮演重要角色,但确切机制尚不十分清楚。综述了脑锌代谢和稳态调控以及锌和锌转运蛋白参与β-淀粉样蛋白沉积与老年斑形成的病理过程,并探讨了金属一蛋白阻尼复合物如何通过恢复脑锌稳态延缓疾病进程、改善患者认知能力的治疗策略。 相似文献
56.
The enzyme sn-glycerol-1-phosphate dehydrogenase (Gro1PDH, EC 1.1.1.261) is key to the formation of the enantiomeric configuration of the glycerophosphate backbone (sn-glycerol-1-phosphate) of archaeal ether lipids. This enzyme catalyzes the reversible conversion between dihydroxyacetone phosphate and glycerol-1-phosphate. To date, no information about the active site and catalytic mechanism of this enzyme has been reported. Using the sequence and structural information for glycerol dehydrogenase, we constructed six mutants (D144N, D144A, D191N, H271A, H287A and D191N/H271A) of Gro1PDH from Aeropyrum pernix K1 and examined their characteristics to clarify the active site of this enzyme. The enzyme was found to be a zinc-dependent metalloenzyme, containing one zinc ion for every monomer protein that was essential for activity. Site-directed mutagenesis of D144 increased the activity of the enzyme. Mutants D144N and D144A exhibited low affinity for the substrates and higher activity than the wild type, but their affinity for the zinc ion was the same as that of the wild type. Mutants D191N, H271A and H287A had a low affinity for the zinc ion and a low activity compared with the wild type. The double mutation, D191N/H271A, had no enzyme activity and bound no zinc. From these results, it was clarified that residues D191, H271 and H287 participate in the catalytic activity of the enzyme by binding the zinc ion, and that D144 has an effect on substrate binding. The structure of the active site of Gro1PDH from A. pernix K1 seems to be similar to that of glycerol dehydrogenase, despite the differences in substrate specificity and biological role. 相似文献
57.
Ricardo M. Chaloub Cristiana C. P. de Magalhes Cesar P. Dos Santos 《Journal of phycology》2005,41(6):1162-1168
Zinc toxicity on photosynthetic activity in cells of Synechocystis aquatilis f. aquatilis Sauvageau was investigated by monitoring Hill activity and fluorescence. The oxygen‐evolving activity decreased to about 80% of the initial value after exposure to 0.1 mM ZnSO4 for 1 h. The PSII activity was inhibited by 40% in the presence of zinc concentrations ranging from 0.5 to 5.0 mM, suggesting that the metal effect is limited by zinc uptake. The fluorescence capacity (Fmax–F/Fmax) decreased from 0.57 to 0.35 and 0.20 in Zn‐treated cells for 15 and 60 min, respectively, thus providing evidence for rapid inactivation of electron transport at PSII. Zinc treatment promoted a rapid increase in PSII fluorescence that was counteracted by addition of 1,4‐benzoquinone, indicating that electron transfer at the reducing side of the PSII reaction center is arrested by zinc. Furthermore, a decline in the fluorescence yield could be observed after 1 h of zinc treatment as well as when Zn‐treated cells were excited in presence of 3‐(3′,4′‐dichlorophenyl)‐1,1‐dimethylurea. Under these conditions, zinc did not affect energy transfer from phycobilisomes to PSII, and the gradual quenching of PSII fluorescence may be due to a decrease in electron flow on the donor side of PSII. However, the 20% increase in the minimal fluorescence intensity (Fo) in parallel to the absence of changes in the maximal fluorescence intensity (Fmax), observed in the first hour of zinc treatment, could also suggest a metal‐induced decline in the energy transfer from PSII‐chl a antenna to the PSII reaction center. 相似文献
58.
Zinc pyrithione salvages reperfusion injury by inhibiting NADPH oxidase activation in cardiomyocytes
Kasi V Bodiga S Kommuguri UN Sankuru S Bodiga VL 《Biochemical and biophysical research communications》2011,(2):270-275
Zinc pyrithione (ZPT), has a strong anti-apoptotic effect when administered just before reperfusion. Because oxidative stress has been proposed to contribute to myocardial reperfusion injury, we tested whether ZPT can reduce the production of reactive oxygen species during reoxygenation in cultured neonatal rat cardiac myocytes and evaluated the role of NADPH oxidase in hypoxia/reoxygenation (H/R) injury. The cells were subjected to 8 h of simulated ischemia, followed by either 30 min or 16 h of reoxygenation. ZPT when started just before reoxygenation significantly reduced superoxide generation, LDH release and improved cell survival compared to H/R. Attenuation of the ROS production by ZPT paralleled its capacity to prevent pyknotic nuclei formation. In addition, ZPT reversed the H/R-induced expression of NOX2 and p47phox phosphorylation indicating that ZPT directly protects cardiomyocytes from reperfusion injury by a mechanism that attenuates NADPH oxidase mediated intracellular oxidative stress. 相似文献
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