Cr3+和Cd2+对普通小球藻生长及抗氧化酶活性的影响

[目的] 为探究重金属对淡水绿藻生长的影响。[方法] 选取对水质检测具有明显指示作用的普通小球藻（Chlorella vulgaris）为实验材料,CdCl₂·2H₂O和CrCl₃·7H₂O提供重金属离子,探究不同浓度Cr³⁺和Cd²⁺在单一和复合胁迫下对藻细胞浓度、叶绿素a及相关抗氧化酶活性的影响。[结果] 随着Cr³⁺和Cd²⁺浓度不断增加,藻细胞浓度呈先增长后下降趋势;叶绿素a含量呈现先下降后升高再下降的现象,浓度为1 mg/L的单一和复合胁迫下有最大值,且毒性作用表现为Cr³⁺ < Cd²⁺ < Cr³⁺+Cd²⁺;与藻细胞膜相关的丙二醛（MDA）和过氧化氢（H₂O₂）含量随着重金属离子浓度的增大而增长;重金属离子浓度低于10 mg/L时对藻细胞内抗氧化酶系统中的超氧化物歧化酶（SOD）、过氧化氢酶（CAT）和过氧化物酶（POD）表现为促进作用,而大于10 mg/L时具有抑制作用。[结论] 结果表明在单一或复合重金属胁迫下,普通小球藻会充分调动与抗逆性相关的酶来维持自身的正常生长。     

Cd2+结合肽的筛选及与重金属离子的亲和作用*

利用噬菌体随机十二肽库和亲和层析技术对重金属Cd进行亲和筛选,共获得两条Cd结合肽序列。将展示有Cd²⁺结合肽的噬菌体单克隆扩增物对不同重金属离子(Cd²⁺、Cr²⁺、Cu²⁺、Co²⁺、Zn²⁺、Ni²⁺)螯合的树脂进行亲和测定,结果表明Cu²⁺、Co²⁺、Zn²⁺、Ni^2+<     

亚硒酸钠对巨噬细胞内游离Ca2+和Mg2+的影响

用单细胞阳离子测定系统研究了SeO^2-₃对巨噬细胞内游离Ca²⁺和Mg²⁺的影响.实验结果表明:SeO^2-₃高于10^-4mol/L时,有显著的细胞毒性.SeO^2-₃对细胞的毒性作用使细胞内游离Ca²⁺和Mg²⁺的浓度升高但Ca²⁺浓度的升高速率比Mg²⁺快.还有,高于10^-4mol/L的SeO^2-₃对红细胞膜上的Ca²⁺-ATP酶活性有明显抑制作用.     

苏柳172和垂柳对Cu2+的吸收特性及有机酸影响

采用溶液培养的方法,研究了苏柳172和垂柳对Cu²⁺吸收的动力学特性及低分子量有机酸(乙酸和苹果酸)对Cu²⁺吸收的影响。结果表明:苏柳172和垂柳根系对Cu²⁺的吸收量随溶液Cu²⁺浓度的升高及吸收时间的延长而增加。苏柳172和垂柳对Cu²⁺吸收的浓度动力学曲线呈线性,非饱和曲线,可以用米氏方程很好地拟合。米氏方程拟合的结果说明,垂柳根系的Cu²⁺吸收能力要稍强于苏柳172。Cu²⁺浓度为20 μmol/L时,随着乙酸和苹果酸浓度的增加,对苏柳172和垂柳根系吸收Cu²⁺的促进作用呈先上升后下降的趋势,其中,乙酸在10:1(乙酸∶ Cu²⁺)、苹果酸在5:1(苹果酸∶ Cu²⁺)时促进作用最强。Cu²⁺在根尖区的含量远远大于成熟区,说明根尖区是吸收Cu²⁺最活跃的区域。在Cu²⁺浓度为20 μmol/L的吸收液中加入乙酸或苹果酸(有机酸∶ Cu²⁺= 10:1)时,苏柳172根尖区的Cu²⁺含量分别增加了16.5%和33.7%,根成熟区的Cu²⁺含量增加了23.7%和43.0%,但根尖区和成熟区的Cu²⁺含量比值分别是1.40 和1.39,略小于不加有机酸时的1.49。乙酸与Cu²⁺的比例为10:1时,当Cu²⁺浓度小于20 μmol/L时乙酸促进垂柳根系对Cu²⁺的吸收,当Cu²⁺浓度大于20 μmol/L时,乙酸抑制垂柳根系对Cu²⁺的吸收,抑制作用随Cu²⁺浓度的升高而加强,说明低浓度的乙酸可以促进垂柳根对Cu²⁺的吸收,而高浓度的乙酸能够抑制垂柳根吸收Cu²⁺。同时,乙酸抑制了Cu²⁺在垂柳地上部的积累,抑制作用随着Cu²⁺浓度的增加而加强,说明乙酸能够抑制Cu²⁺由根向地上部的运输。     

河豚毒素和Cd2+对Zn2+诱发爆发波放电的影响

本文用微电极细胞内电位记录、通道阻断剂和放射性同位素等技术发现,锌离子可诱发爆发波放电(BD),钠通道阻断剂——河豚毒素对BD无效应,而钙通道阻断剂——Ca²⁺则可使BD消失,Cd²⁺可使[⁶⁵Zn²⁺]_i量减少。以上结果说明,Zn²⁺诱发BD的产生机理很可能是Zn²⁺代替Ca²⁺通过钙通道进入胞内引起的。     

介质Ca2+和La3+对酿酒酵母生长的影响

采用正交实验研究了外加Ｃａ^２＋和Ｌａ^３＋对酿酒酵母生长的影响。结果表明：外加Ｃａ^２＋和Ｌａ^３＋对酿酒酵母的生长均有显著的影响,都呈现出低浓度时正效应和高浓度时负效应,当Ｃａ^２＋浓度为１ｍｍｏｌ／Ｌ及Ｌａ^３＋浓度为１５μｍｏｌ／Ｌ时酿酒酵母生长最好。     

两种大型真菌子实体对Cd2+的生物吸附特性

对两种多孔菌科大型真菌槐栓菌(Trametes robiniophila)和木蹄层孔菌(Fomes fomentarius)子实体生物吸附Cd²⁺的影响因素(包括吸附剂用量、初始pH、吸附时间、初始Cd²⁺浓度)和吸附特性进行分析。结果表明,槐栓菌和木蹄层孔菌对低浓度的Cd²⁺(10 mg/L)吸附的最适pH为6;Cd²⁺的去除率随吸附剂用量和吸附时间的增加而增大,槐栓菌和木蹄层孔菌均在吸附剂用量为2g/L时达到吸附平衡,槐栓菌在吸附时间为30 min时达到吸附平衡,而木蹄层孔菌在吸附时间为60 min时达到吸附平衡;槐栓菌和木蹄层孔菌对10 mg/L Cd²⁺的最大去除率分别为98%和94%。Langmuir等温吸附平衡模型比Freundlich等温吸附平衡模型能更好的拟合两种大型真菌对Cd²⁺的吸附过程;槐栓菌和木蹄层孔菌对10 mg/L Cd²⁺的最大吸附量分别为17.40 mg/g和8.91 mg/g。对实验数据进行动力学模型拟合可知,两种大型真菌对Cd²⁺的生物吸附过程均符合准二阶动力学模型。槐栓菌和木蹄层孔菌生物吸附低浓度Cd²⁺的化学反应机理可能为离子交换。     

Cd2+与CTAB复合污染对枫香幼苗生长与生理生化特征的影响

采用盆栽试验方法,研究了表面活性剂十六烷基三甲基溴化铵(CTAB)与重金属Cd²⁺单一及复合污染对枫香幼苗生长和生理生化指标的影响。结果表明,在单一CTAB污染条件下,较低浓度的CTAB(0.1-0.5 g/kg) 能促进枫香幼苗的生长,较高浓度的CTAB(0.5-2g/kg) 对枫香幼苗有毒害作用。在单一浓度Cd²⁺处理条件下,土壤中Cd²⁺浓度为100mg/kg时,枫香幼苗的生长受到严重的抑制。在同一浓度Cd²⁺污染土壤中,随着浇灌水中CTAB浓度的增加,枫香幼苗的株高、干重、叶片叶绿素含量和超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)活性都呈先升后降的趋势。与生长盛期比较,枫香幼苗生长末期的叶绿素含量大幅下降;由于幼苗长期处于复合污染条件下,生长末期叶片SOD、POD活性均低于生长盛期的酶活性;且随着时间推移,枫香幼苗叶片中丙二醛(MDA)积累量有所升高。     

川楝素对K+、Ca2+通道活动及细胞内Ca2+浓度的调控

川楝素是我国学者从驱蛔中药中分离、鉴定的一个三萜化合物，已证明具选择地影响神经递质释放，有效地对抗肉毒中毒，促进细胞分化、凋亡，抑制肿瘤增殖，抑制昆虫发育和取食，影响K⁺、Ca²⁺通道活动等多种生物效应. 综述了证明川楝素抑制多种K⁺通道，选择地易化L型Ca²⁺通道和进而升高胞内Ca⁺浓度的研究资料，并对川楝素产生这些生物效应的机制进行了讨论.     

稀土La3+跨PC12细胞膜行为研究

使用AR-CM-M1C阳离子测定系统,发展Fura-2荧光测定技术,将其应用于测定细胞内游离稀土离子La³⁺,并以此研究了La³⁺跨PC12细胞（大鼠嗜铬细胞瘤细胞）膜的行为.结果表明：在模拟细胞内离子组分,pH=7.05的溶液中,测得La³⁺-Fura-2的表观解离常数为3.27×10^-11 mol·L^-1.对于PC12细胞,静息条件下La³⁺不能跨越细胞膜进入胞内.与钙离子通道相关的KCl和去甲肾上腺素均不能刺激稀土La³⁺过膜.用哇巴因（ouabain）使胞内Na⁺超载后,La³⁺可过膜进入细胞内,且过膜量与胞外La³⁺浓度和胞内Na⁺超载程度有一定的浓度依赖关系,提示La³⁺可以经由Na⁺／La³⁺交换机制过膜而进入细胞内.     

Preconcentration with Bacillus subtilis–Immobilized Amberlite XAD-16: Determination of Cu2+ and Ni2+ in River,Soil, and Vegetable Samples

Solid-phase extraction (SPE) method was developed for the preconcentration of Cu²⁺ and Ni²⁺ before their determination by inductively coupled plasma optical emission spectrometry (ICP-OES). Bacillus subtilis–immobilized Amberlite XAD-16 was used as biosorbent. Effects of critical parameters such as pH, flow rate of samples, amount of Amberlite XAD-16 and biosorbent, sample volume, eluent type, and volume and concentration of eluent on column preconcentration of Cu²⁺ and Ni²⁺ were optimized. Applicability of the method was validated through the analysis of the certified reference tea sample (NCS ZC73014). Sensitivity of ICP-OES was improved by 36.4-fold for Cu²⁺ and 38.0-fold for Ni²⁺ by SPE-ICP-OES method. Limit of quantitation (LOQ) was found to be 0.7 and 1.1 ng/ml for Cu²⁺ and Ni²⁺, respectively. Concentrations of Cu²⁺ and Ni²⁺ were determined by ICP-OES after application of developed method. Relative standard deviations (RSDs) were lower than 4.9% for Cu²⁺ and 7.9% for Ni²⁺. The Tigris River that irrigates a large agricultural part of Southeast Turkey is polluted by domestic and industrial wastes. Concentrations of Cu²⁺ and Ni²⁺ were determined in water, soil, and some edible vegetables as a biomonitor for heavy metal pollution.     

In vivo and in vitro effects of copper and cadmium on the plasma membrane H+-ATPase from cucumber (Cucumis sativus L.) and maize (Zea mays L.) roots

The plasmalemma vesicles isolated from cucumber and maize roots were used to study the effect of Cu²⁺ and Cd²⁺ on the hydrolytic and proton pumping activities of ATPase. In vivo application of metal ions to the plant growth solutions resulted in stimulation of the proton transport in maize. In cucumber roots the action of metals was not the same: cadmium stimulated the H⁺ transport through plasmalemma whereas Cu²⁺ almost completely inhibited it. Copper ions decreased the hydrolytic activity of H⁺-ATPase in cucumber, without any effect on this activity in membranes isolated from maize roots. The effect of cadmium on the hydrolytic activities was opposite: ATP-hydrolysis activity in plasmalemma was not altered in cucumber, whereas in maize its stimulation was observed. The amount of accumulated metals was not the main reason of different influence of metals on H⁺-ATPase activity in tested plants. In in vitro experiments Cu²⁺ inhibited H⁺ transport in the cucumber, to a higher degree than Cd²⁺ and both metals did not change this H⁺-ATPase activity of plasmalemma isolated from corn roots. Cu²⁺ added into the incubation medium reduced the hydrolytic activity of ATPase in the plasma membrane isolated from cucumber as well as from corn roots. Cd²⁺ diminished the hydrolytic activity of ATPase in cucumber, and no effect of Cd²⁺ in the plasmalemma isolated from corn roots was found. Our results indicated different in vitro and in vivo action of both metals on H⁺-ATPase and different response of this enzyme to Cu²⁺ and Cd²⁺ in maize and cucumber.     

Effects of heavy metals on seed germination and early seedling growth of <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis>

Seed is a developmental stage that is highly protective against external stresses in the plant life cycle. In this study, we analyzed toxicity of essential (Cu²⁺ and Zn²⁺) and non-essential heavy metals (Hg²⁺, Pb²⁺ and Cd²⁺) on seed germination and seedling growth in the model species Arabidopsis. Our results show that seedling growth is more sensitive to heavy metals (Hg²⁺, Pb²⁺, Cu²⁺ and Zn²⁺) in comparison to seed germination, while Cd²⁺ is the exception that inhibited both of these processes at similar concentrations. To examine if toxicity of heavy metals is altered developmentally during germination, we incubated seeds with Hg²⁺ or Cd²⁺ only for a restricted period during germination. Hg²⁺ displayed relatively strong toxicity at period II (12–24 h after imbibition), while Cd²⁺ was more effective to inhibit germination at period I (0–12 h after imbibition) rather than at period II. The observed differences are likely to be due in part to selective uptake of different ions by the intact seed, because isolated embryos (without seed coat and endosperm) are more sensitive to both Hg²⁺ and Cd²⁺ at period I. We assessed interactive toxicity between heavy metals and non-toxic cations, and found that Ca²⁺ was able to partially restore the inhibition of seedling growth by Pb²⁺ and Zn²⁺.     

镉胁迫下硒对罗汉果组培苗光合特性的影响

实验以罗汉果组培苗为材料,室内栽培在内装市售营养土的塑料盆中,以0、10、50、100、200mg·kg-1浓度镉离子和1mg·kg-1浓度硒处理,培养20d后分析罗汉果幼苗的相关光合生理指标。结果表明:低浓度Cd2+对叶片叶绿素含量、光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)影响不大或稍有上升,但高浓度镉离子处理植株叶片的叶绿素含量、光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)明显下降;随Cd2+处理浓度的增加,叶片胞间CO2浓度(Ci)呈现上升趋势;加硒则延缓叶绿素下降,促进光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)上升,降低叶片胞间CO2浓度(Ci)。表明高浓度镉离子的毒害导致罗汉果组培苗叶片光合性能受到伤害,从而影响罗汉果幼苗生长。镉硒混合处理反映出硒对镉的毒害有缓解作用。     

Biosorption Performance of Multimetal Resistant Fungus Penicillium chrysogenum XJ-1 for Removal of Cu2+ and Cr6+ from Aqueous Solutions

Adsorption for heavy metals via biomaterials such as fungal biomass presents a practical remediation technique for polluted water. Among all known filamentous fungi, Penicillium chrysogenum is widespread in nature and can serve as a biosorbent for heavy metals. In the current study, the ability of P. chrysogenum XJ-1 to remove copper (Cu²⁺) and chromium (Cr⁶⁺) from water was evaluated. The maximum biosorption capacity of XJ-1 for Cu²⁺ reached 42.83 ± 0.57 mg g^?1 dry biomass at pH 5.0 after the equilibrium time of 1.5 h. The maximum biosorption capacity for Cr⁶⁺ at pH 3.0 reached 52.69 ± 1.68 mg g^?1 dry biomass after the equilibrium time of 1.5 h. The biosorption data of XJ-1 biomass were well fitted to the Freundlich isotherm model and the pseudo-second-order Lagergren kinetic model. Laundry powder-treated and HCl-treated XJ-1 biomass significantly enhanced its adsorption capacity to Cu²⁺ and Cr⁶⁺, respectively. HCl and NaOH were suitable desorbents for Cu²⁺/Cr⁶⁺ loading biomass, respectively. Fourier transform infrared spectroscopy analyses revealed that hydroxyl, amine, and sulfonyl groups on the biosorbent contributed to binding Cu²⁺ and Cr⁶⁺ and that carbonyl and carboxyl groups were also vital binding sites of Cu²⁺. Scanning electron microscopy and energy-dispersive x-ray (SEM-EDX) analyses confirmed that considerable amounts of metals were precipitated on the cell surface of XJ-1. Our results suggested that XJ-1 might be used to purify multimetal-contaminated water. This low-cost and eco-friendly biomass of XJ-1 seems to have a broad use in the restoration of metal-contaminated water.     

重金属铜、锌、镉复合胁迫对麻疯树幼苗生理生化的影响

该研究以Cu~(2+)、Zn~(2+)、Cd~(2+)单一胁迫为对照,探讨不同浓度的Cu~(2+)、Zn~(2+)、Cd~(2+)复合胁迫对麻疯树幼苗生理生化指标的影响。结果表明:随着Cu~(2+)、Zn~(2+)、Cd~(2+)浓度的增加,麻疯树幼苗叶片中的蛋白质(Pro)、丙二醛(MDA)含量均逐渐增加,其叶片叶绿素含量随着Zn~(2+)胁迫浓度的增加呈现出先降后升的趋势,在中等浓度(100 mg·L-1)的Zn~(2+)胁迫时含量最低、随着Cu~(2+)胁迫浓度的增加叶绿素含量先升高后降低,在Cu~(2+)浓度为200 mg·L-1时含量最高,达到1 200 mg·g-1FW; Cd~(2+)胁迫对叶绿素含量和根系活力无明显影响。根系活力在Zn~(2+)浓度为100 mg·L~(-1)时最强,随着Cu~(2+)浓度的增加而减弱。低浓度的Cu~(2+)、Zn~(2+)、Cd~(2+)对过氧化物酶活性和可溶性糖含量都具有促进作用。Cu~(2+)、Zn~(2+)、Cd~(2+)复合胁迫时对可溶性蛋白、叶绿素和丙二醛含量均无明显影响,随着复合胁迫时浓度的增加,可溶性糖含量和根系活力先增后减。这表明麻疯树对三种重金属的胁迫具有一定的抗性,过高浓度的胁迫会影响麻疯树幼苗生理生化的一些指标,但是麻疯树可以通过自身的防御系统使伤害降到最小。此外,重金属复合胁迫可以在一定程度上减轻单一胁迫对麻疯树幼苗造成的毒害作用。     

Hg2+ and Cd2+ interact differently with biomimetic erythrocyte membranes

In order to characterize the potentially deleterious effects of toxic Hg²⁺ and Cd²⁺ on lipid membranes, we have studied their binding to liposomes whose composition mimicked erythrocyte membranes. Fluorescence spectroscopy utilizing the concentration dependent quenching of Phen Green™ SK by Hg²⁺ and Cd²⁺ was found to be a sensitive tool to probe these interactions at metal concentrations ≤1 μM. We have systematically developed a metal binding affinity assay to screen for the interactions of Hg²⁺ or Cd²⁺ with certain lipid classes. A biomimetic liposome system was developed that contained four major lipid classes of erythrocyte membranes (zwitterionic lipids: phosphatidylcholine and phosphatidylethanolamine; negatively charged: phosphatidylserine and neutral: cholesterol). In contrast to Hg²⁺, which preferentially bound to the negatively charged phosphatidylserine compared to the zwitterionic components, Cd²⁺ bound stronger to the two zwitterionic lipids. Thus, the observed distinct differences in the binding affinity of Hg²⁺ and Cd²⁺ for certain lipid classes together with their known effects on membrane properties represent an important first step toward a better understanding the role of these interactions in the chronic toxicity of these metals.     

Differences in the binding modes of phytochelatin to cadmium (II) and Zinc(II) ions

An ¹H NMR (nuclear magnetic resonance) spectroscopic structural analysis of Cd²⁺ complexes formed with the pentapeptide phytochelatin, (NH₃)⁺−(ψ-Glu-Cys)₂−Gly−COO−(PC₂), at a pH of 7.5 showed that the two thiol groups of the Cys residues and either the carbonyl or amide group of the peptide bond between Glu1 and Cys1 act as possible donor groups in the complexes at Cd²⁺/PC₂ ratios up to 0.4. As the ratio increases, the carboxylate group of Glu2 and either the carbonyl or amide group of the peptide bond between Cys1 and Glu2 comes to serve as a donor group. The manner in which Cd²⁺ forms complexes with PC₂ is distinctly different from Zn²⁺ and might account for the role of phytochelatin in Cd²⁺ detoxification. Electron absorption spectrometry demonstrated that the Cd²⁺ complexes are coordinated in a tetrahedral fashion by four thiol groups and that several sulfur atoms might bridge Cd²⁺ ions, resulting in the formation of polynuclear complexes. This contrasts with Zn²⁺ complex formation, which consists exclusively of a 1:1 complex.