五价砷胁迫处理对普通小球藻的急性毒性效应

为探究重金属砷在水域生态系统中的毒性作用及机制, 以典型浮游植物指示种普通小球藻(Chlorella vulgaris)为试验对象, 通过设置不同浓度As5+(0、0.1、0.5、1、1.5和2 mg/L)研究其对普通小球藻的藻密度、叶绿素a含量、细胞膜通透性、蛋白(TP)含量、活性氧自由基(ROS)含量、丙二醛(MDA)含量、总抗氧化能力(T-AOC)、总超氧化歧化酶(T-SOD)活性、三磷酸腺苷酶(ATP)活性和超微结构的影响。研究结果表明, 在96h胁迫内, 各浓度As5+处理组对普通小球藻的生长均有抑制作用, 其中2 mg/L处理组抑制率最高, 为52.9%, 96h-IC₅₀为1.94 mg/L。各处理组对藻细胞Chl.a含量也均有抑制作用, 其中2 mg/L处理组最低, 仅为对照组的31.4%。As5+浓度为1.5和2 mg/L时, 藻细胞TP和ATP含量显著降低, MDA含量为对照组的2倍和2.6倍, 细胞膜通透性高于对照的1.7倍和2倍。2 mg/L处理组ROS含量显著增加, 为对照组的4.0倍, 刺激藻细胞产生氧化应激, T-AOC和T-SOD活性显著增加, 为对照组的2.8倍和1.6倍。透射电镜(TEM)结果显示, As5+ 2 mg/L处理组会破坏藻细胞内部结构, 造成胞质空泡化, 类囊体片层结构断裂, 叶绿体结构紊乱等现象。这表明高浓度As5+对普通小球藻细胞膜和主要细胞器的结构与功能具有破坏性, 同时普通小球藻为应对污染物胁迫机体会产生氧化应激。在As5+浓度低于1.5 mg/L时普通小球藻生理生化指标所受影响相对较小。研究揭示了典型指示种普通小球藻在As5+环境胁迫中的生理生化反应, 为水环境中重金属污染的修复及制定相关环境标准提供基础数据, 进而实现水域生态系统的可持续发展与利用。     

Arsenate-induced phytochelatins in white lupin: influence of phosphate status

White lupin ( Lupinus albus L.) is adapted to environments of low pH and low available phosphorus through the development of proteoid roots. The high-affinity phosphate/arsenate uptake system is much less sensitive to downregulation by phosphate in white lupin than in other plants. Arsenate is a phosphate analogue and its toxicity to plants is intimately linked to phosphate nutrition. The synthesis of phytochelatins (PCs) has been proposed as a detoxification mechanism for arsenic (As) in plants. The aim of this research was to study PC production by lupin plants in response to As, and the impact of the arsenate–phosphate interaction on PC production. PCs were the most abundant thiols in white lupin under high As exposure, reaching levels higher than in other plants tested. Together, glutathione (GSH) and PCs were able to complex the majority of As in shoots, while an additional PC-independent mechanism might function in roots. P deficiency increased As concentrations in plant tissues, causing an increase in PC accumulation and an increase in the average size of PCs. A direct relationship was observed between PC concentrations and the level of stress caused by As, i.e. the degree of growth inhibition in plants. This study suggests a key role for PCs and GSH in As detoxification by white lupin, especially in shoots. PC analysis may be useful as an early indicator of As exposure and as a tool to assess the degree of As stress of plants, even under P deficiency.     

控制性分根区交替滴灌对苹果幼树形态特征与根系水分传导的影响

采用固定滴灌(根区一侧固定供水)、控制性分根区交替滴灌(根区两侧交替供水)和常规滴灌(紧贴幼树基部供水)3种灌水方式和3种灌水定额(固定滴灌和交替滴灌均为10、20和30 mm,常规滴灌为20、30和40 mm),对比研究了控制性分根区交替滴灌对苹果幼树形态特征与根系水分传导的影响.结果表明： 交替滴灌的根区两侧土壤出现反复干湿交替过程,常规滴灌的根区两侧土壤含水率差异不显著.在灌水定额相同时,灌水侧的土壤含水率在3种灌水方式间差异不显著.与常规滴灌和固定滴灌相比,交替滴灌显著增加了苹果幼树的根冠比、壮苗指数和根系水分传导,在30 mm灌水定额处理下,交替滴灌的根冠比分别增加31.6%和47.1%,壮苗指数增加34.2%和53.6%,根系水分传导增加9.0%和11.0%.3种灌水方式下,根干质量和叶面积均与根系水分传导呈显著线性正相关.控制性分根区交替滴灌增强了苹果幼树根系水分传导的补偿效应,促进了根系对水分的吸收利用,有利于干物质向各个器官均衡分配,显著提高了根冠比和壮苗指数.     

Glutathione-mediated Antioxidative Mechanisms in Sunflower (<Emphasis Type="Italic">Helianthus Annuus</Emphasis> L.) Cells in Response to Cadmium Stress

Cadmium (Cd) homeostasis and detoxification in sunflower (Helianthus annuus L.) cells differing in Cd sensitivity/tolerance were studied by analyzing the glutathione-mediated antioxidant mechanism vis-à-vis phytochelatin biosynthesis in vitro. Calluses exposed to Cd-shock/-acclimatization (150μM) were assayed for oxidative stress, reduced glutathione (GSH), glutathione disulfide (GSSG), phytochelatins (PCs) and reactive oxygen species (ROS). Although Cd did not induce any oxidative stress in Cd-tolerant callus (TCd), it generated oxidative stress in Cd-shock callus (SCd) both in terms of lipid peroxidation and protein oxidation. GSH/GSSG ratio remained similar to control values in the cadmium-acclimatized calluses. However, after acute treatment, there was a decline in both GSH and GSSG levels in SCd with concomitant reduction in the GSH/GSSG ratio. Analysis of PCs was performed using HPLC and mass spectrometry methods. PC concentration in TCd were approximately twice those that in SCd, showing in both cases a 1:2:1 relative proportion for PC n = 2 (PC2): PC n = 3 (PC3): PC n = 4 (PC4). Calluses growing in the presence of Cd developed an increased resistance to paraquat oxidative stress generation. These results indicated that PCs synthesis was an important mechanism for Cd detoxification in sunflower calluses, but the capacity to grow in the presence of Cd is related to the tissues ability to maintain high intracellular levels of GSH.     

Heavy metals toxicity in plants: An overview on the role of glutathione and phytochelatins in heavy metal stress tolerance of plants

Plants experience oxidative stress upon exposure to heavy metals that leads to cellular damage. In addition, plants accumulate metal ions that disturb cellular ionic homeostasis. To minimize the detrimental effects of heavy metal exposure and their accumulation, plants have evolved detoxification mechanisms. Such mechanisms are mainly based on chelation and subcellular compartmentalization. Chelation of heavy metals is a ubiquitous detoxification strategy described in wide variety of plants. A principal class of heavy metal chelator known in plants is phytochelatins (PCs), a family of Cys-rich peptides. PCs are synthesized non-translationally from reduced glutathione (GSH) in a transpeptidation reaction catalyzed by the enzyme phytochelatin synthase (PCS). Therefore, availability of glutathione is very essential for PCs synthesis in plants at least during their exposure to heavy metals. Here, I reviewed on effect of heavy metals exposure to plants and role of GSH and PCs in heavy metal stress tolerance. Further, genetic manipulations of GSH and PCs levels that help plants to ameliorate toxic effects of heavy metals have been presented.     

Accumulation, detoxification, and genotoxicity of heavy metals in Indian mustard (Brassica juncea L.)

Plants of Indian mustard (Brassica juncea L.) were exposed to different concentrations (15, 30, 60, 120 microM) of (Cd, Cr, Cu, Pb) for 28 and 56 d for accumulation and detoxification studies. Metal accumulation in roots and shoots were analyzed and it was observed that roots accumulated a significant amount of Cd (1980 microg g(-1) dry weight), Cr (1540 microg g(-1) dry weight), Cu (1995 microg g(-1) dry weight), and Pb (2040 microg g(-1) dry weight) after 56 d of exposure, though in shoot this was 1110, 618, 795, and 409 microg g(-1) dry weight of Cd, Cr, Cu, and Pb, respectively. In order to assess detoxification mechanisms, non-protein thiols (NP-SH), glutathione (GSH) and phytochelatins (PCs) were analyzed in plants. An increase in the quantity of NP-SH (9.55), GSH (8.30), and PCs (1.25) micromol g(-1) FW were found at 15 microM of Cd, however, a gradual decline in quantity was observed from 15 microM of Cd onwards, after 56 d of exposure. For genotoxicity in plants, cytogenetic end-points such as mitotic index (MI), micronucleus formation (MN), mitotic aberrations (MA) and chromosome aberrations (CA) were examined in root meristem cells of B. juncea. Exposure of Cd revealed a significant (P < 0.05) inhibition of MI, induction of MA, CA, and MN in the root tips for 24 h. However, cells examined at 24 h post-exposure showed concentration-wise recovery in all the endpoints. The data revealed that Indian mustard could be used as a potential accumulator of Cd, Cr, Cu, and Pb due to a good tolerance mechanisms provided by combined/concerted action of NP-SH, GSH, and PCs. Also, exposure of Cd can cause genotoxic effects in B. juncea L. through chromosomal mutations, MA, and MN formation.     

Optimization of culture media for large‐scale lutein production by heterotrophic Chlorella vulgaris

Lutein is a carotenoid with a purported role in protecting eyes from oxidative stress, particularly the high‐energy photons of blue light. Statistical optimization was performed to growth media that supports a higher production of lutein by heterotrophically cultivated Chlorella vulgaris. The effect of media composition of C. vulgaris on lutein was examined using fractional factorial design (FFD) and central composite design (CCD). The results indicated that the presence of magnesium sulfate, EDTA‐2Na, and trace metal solution significantly affected lutein production. The optimum concentrations for lutein production were found to be 0.34 g/L, 0.06 g/L, and 0.4 mL/L for MgSO₄·7H₂O, EDTA‐2Na, and trace metal solution, respectively. These values were validated using a 5‐L jar fermenter. Lutein concentration was increased by almost 80% (139.64 ± 12.88 mg/L to 252.75 ± 12.92 mg/L) after 4 days. Moreover, the lutein concentration was not reduced as the cultivation was scaled up to 25,000 L (260.55 ± 3.23 mg/L) and 240,000 L (263.13 ± 2.72 mg/L). These observations suggest C. vulgaris as a potential lutein source. © 2014 American Institute of Chemical Engineers Biotechnol. Prog., 30:736–743, 2014     

A new strategy to enhance glutathione production by multiple H2O2 induced oxidative stresses in Candida utilis

Effect of H(2)O(2)-induced oxidative stress on glutathione (GSH) production in Candida utilis was investigated. Based on the results that H(2)O(2) can effectively stimulate GSH accumulation but inhibit cell growth simultaneously, a novel strategy of multiple H(2)O(2) stresses with different concentrations (1 mmol/L at 4h, 2 mmol/L at 8h, and 4 mmol/L at 12h) were developed to maximize GSH production. As a result, a maximal GSH yield of 218 mg/L was achieved and a corresponding intracellular GSH content was 2.15%, which were 54.6% and 58.1% higher than the control. By further applying this strategy to 7 L fermentor, GSH yield and intracellular GSH content were 328 mg/L and 2.30%. Moreover, increased activities of catalase (CAT) and GSH reductase (GR) indicated that GSH and CAT were directly involved in protecting cell against oxidative stress by H(2)O(2).     

镉胁迫对鸡冠花种子萌发及幼苗生理生化特性的影响

采用水培法和盆栽法测定分析不同浓度Cd(0、50、100、150、200 mg/L)胁迫对鸡冠花种子萌发、幼苗生物量、叶片光合色素、渗透调节物质(可溶性蛋白、可溶性糖、脯氨酸)、丙二醛(MDA)、低分子巯基化合物(GSH、GSSG、Cys、NPT)含量以及抗氧化酶 (SOD、POD、CAT、APX)活性的影响,探讨鸡冠花耐受Cd胁迫的能力及其生理机制,为植物解毒机制提供基础资料。结果显示：(1)鸡冠花种子的发芽势、发芽率和发芽指数在低浓度Cd处理下提高,而活力指数、根长及苗长在各浓度Cd胁迫下均不同程度降低,以上指标均在低浓度(50、100 mg/L)Cd胁迫下受到显著抑制,且根长受抑制程度显著高于苗长;幼苗生物量(整株鲜重、地上部分鲜重及地下部分鲜重)在200 mg/L Cd胁迫时受到显著抑制,较对照分别下降了61.9%、58.4%和72.7%;根冠比及主根长虽未受到显著影响,但总体呈现降低趋势。(2)鸡冠花幼苗叶片叶绿素和类胡萝卜素含量在100~200 mg/L Cd胁迫下均显著降低,叶片可溶性蛋白、可溶性糖和脯氨酸含量在Cd胁迫下总体呈升高趋势,并分别在50、150、200 mg/L时显著升高。(3)鸡冠花幼苗叶片各抗氧化酶活性在Cd胁迫下呈不同变化趋势,POD和APX活性在各浓度Cd胁迫分别增加23.1%~304.2%和160.0%~280.0%;SOD活性在各浓度Cd胁迫均受到抑制,但仅在150 mg/L时显著降低43.2%;CAT活性在50~150 mg/L Cd胁迫下显著增强了46.6%~66.5%,但在200 mg/L Cd胁迫却显著降低59.5%。(4)高浓度(200 mg/L)Cd胁迫下鸡冠花幼苗叶片巯基化合物GSH、GSSG、Cys、NPT含量分别比对照上升了53.2%、164.2%、53.9%和0.79%,而GSH/GSSG比值显著降低。研究发现,鸡冠花种子萌发期和幼苗期对Cd胁迫均具有一定的耐受力,但高浓度Cd胁迫仍致使幼苗部分抗氧化酶活性降低,ROS过量积累,引起膜脂过氧化程度加深,其产物MDA含量逐渐升高;Cd胁迫促进低分子巯基化合物含量呈不同幅度的增加,但GSH/GSSG比值下降,细胞内氧化还原反应(Redox)受到抑制,导致幼苗正常生长代谢受阻,生物量持续降低。     

Comparative analysis of the contribution of phytochelatins to cadmium and arsenic tolerance in soybean and white lupin

The biosynthesis of phytochelatins (PCs) plays a crucial role in the detoxification and homeostasis of heavy metals and metalloids in plants. However, in an increasing number of plant species metal(loid) tolerance is not well correlated with the accumulation of PCs: tolerant ecotypes frequently contain lower levels of PCs than non-tolerant ecotypes. In this study we have compared the responses of soybean (Glycine max L. cv. Resnik) and white lupin (Lupinus albus L. cv. Marta) to cadmium and arsenate in order to assess the role of homophytochelatins (hPCs) in the tolerance of soybean to these toxic elements. Soybean plants treated with Cd and As showed a high contribution of homo-glutathione (hGSH) to the pool of thiols in shoots in comparison to white lupin. Higher levels of hPCs in Cd-treated soybeans compared to PCs in lupins did not prevent growth inhibition. In contrast, the role of hPCs in the detoxification mechanism to arsenate in soybean seems to be clearer, showing higher thiol concentrations and lower growth reductions than those present in lupin plants.     

普通小球藻对嗪草酮、骠马和甲草胺的敏感性研究

通过96h的毒性实验,研究了普通小球藻对3种不同作用机制农田常用除草剂嗪草酮、骠马和甲草胺的敏感性．结果表明。在实验条件下,嗪草酮、甲草胺对普通小球藻的毒性随时间的推移有加重趋势。并呈现很好的剂量效应关系;最高抑制生长浓度(嗪草酮0．24mg·L^-1,甲草胺12．8mg·L^-1)处理组的最大比增长率分别为对照组的12．38％和31．58％;骠马低浓度对普通小球藻的抑制作用不明显,并呈一定的生长促进效应,0．08mg·L^-1浓度组普通小球藻最大比增长率为对照组的111．44％,而高浓度则具有明显的生长抑制作用,并随时间推移,毒性逐渐减弱．嗪草酮、骠马和甲草胺的96hEC50分别为0．021、0．937和5．54mg·L^-1．普通小球藻对嗪草酮最敏感。其次为骠马和甲草胺．3种除草剂在实验条件下对普通小球藻叶绿素a含量的影响和对普通小球藻生长的影响相似。表现出较好的剂量．效应关系．     

Overexpression of<Emphasis Type="Italic">Arabidopsis</Emphasis> phytochelatin synthase (<Emphasis Type="Italic">atpcsi</Emphasis>) does not change the maximum capacity for non-protein thiol production induced by Cadmium

Phytochelatins (PCs) play an important role in heavy-metal homeostasis and detoxification. However, we previously reported that the overexpression of PC synthase inArabidopsis does not lead to increased tolerance of cadmium but, rather, plants show higher Cd sensitivity. Here, we compared the maximum capacity for non-protein thiol (NPT) production at various concentrations of Cd in order to estimate PC synthesis indirectly for both transgenic (pcs9) and wild-type plants. The pcs9 line produced the highest level of NPT when treated with 200 p.M Cd for 3 d. In comparison, the maximum productivity by the wild type was in response to 500 μM Cd. Nevertheless, the absolute amounts of NPT produced did not differ significantly between those two genotypes. Furthermore, exogenous application of 1 mM GSH did not dramatically change the capacity for either pcs9 or wild-type plants. These results suggest that Cd hypersensitivity in the transgenic pcs9 may not be caused by supraoptimal intracellular concentrations of PC, but may, instead, be due to overexpressed PC synthase itself because that enzyme can bind metals. This action, therefore, may lead to some unknown disruption in cellular metal homeostasis under Cd stress.     

Cadmium hyperaccumulation leads to an increase of glutathione rather than phytochelatins in the cadmium hyperaccumulator Sedum alfredii

Sedum alfredii has been reported to be a cadmium (Cd) hyperaccumulator. Phytochelatins (PCs) and other thiol (SH)-containing compounds have been proposed to play an important role in the detoxification and tolerance of some heavy metals, but it is not clear whether PCs are responsible for Cd hyperaccumulation and tolerance in S. alfredii. In this study, two geographically isolated populations of S. alfredii were studied: one population grew on an old Pb/Zn mine site, while the other on a non-mine site. The mine population of this species exhibited a stronger heavy metal tolerance than in the other population. Root-to-shoot transport of Cd was higher in population located at the mine site than at the non-mine site. Considerable amounts of Cd were accumulated in leaves and stems of mine plants, while most Cd was distributed in roots of non-mine plants. Non-protein SH in plant tissues of two populations were further investigated by a HPLC pre-column derivatization system. Upon exposure to Cd, no PCs were detected in all tissues of mine population, while an appreciable amount of glutathione (GSH) was observed in the descending order of stem>root>leaf. The concentrations of GSH consistently increased with the increase of exogenous Cd concentrations and time. On the contrary, Cd exposure strongly induced the production of PCs (mainly PC(2) and PC(3)) and GSH in plant tissues of non-mine population, and the concentrations of GSH showed an initial drop over the duration of 7-d exposure. The present results provided strong evidence that PCs are not involved in Cd transport, hyperaccumulation and tolerance in mine population of S. alfredii.     

铜对梨形环棱螺抗氧化酶活性和金属硫蛋白含量的影响

本实验采用暴露重金属的方法,研究了不同浓度硫酸铜（Cu2+ 分别为0、0.005、0.01、0.02、0.05 mg/L）在不同暴露时间（0—14d）下对梨形环棱螺（Bellamya purificata）过氧化氢酶(CAT)、超氧化物歧化酶（SOD）、谷胱甘肽硫转移酶（GST）的活性、还原性谷胱甘肽（GSH）和金属硫蛋白（MT）含量的影响,以探讨Cu2+ 对梨形环棱螺的氧化损伤及其防御作用的机理,并为水环境Cu2+ 污染的早期诊断及生态风险评价提供科学的依据。结果表明：Cu2+对梨形环棱螺肝脏和鳃中CAT、SOD、GST、GSH 和MT 均有明显影响,表现出时间剂量效应。SOD在前4天、CAT在前3天酶活性总体上表现出诱导趋势, GST在前4天酶活性处于诱导状态,随着暴露时间的延长,酶活性下降,到第5天时表现出抑制趋势;随着时间的进一步增长,至14d时, 0.005 mg/L剂量组酶活性维持在正常值附近波动, 0.01 mg/L剂量组酶活性被诱导, 0.02 mg/L剂量组酶活性在肝脏中表现为诱导而在鳃中则被抑制,0.05 mg/L剂量组酶活性被抑制。肝脏和鳃GSH含量的变化与GST相似,在短时间内表现出诱导效应,肝脏GSH在暴露的前5天、鳃GSH在暴露的前4天均处于诱导状态,随着暴露时间的延长,0.005 mg/L剂量组表现出诱导,0.05 mg/L剂量组则受到抑制。MT在整个实验期间均处于诱导状态,各剂量组在0.5d被极显著诱导,随后MT含量出现起伏波动,有上升和下降,至第14天时达到一稳定水平。其中,0.01 mg/L剂量组肝脏的MT在整个实验期间均被极显著地诱导（P <0.01）,0.01 mg/L 剂量组的鳃组织MT除第10天外也被极显著诱导（P <0.01）。在暴露14d时,除0.05 mg/L剂量组的肝脏MT外,其余处于极显著诱导状态（P <0.01）。     

Cadmium lets increase the glutathione pool in bryophytes

Glutathione (GSH) plays an important role in protecting plants from environmental stresses like oxidative stress and xenobiotics. Glutathione-derived peptides are involved in heavy metal detoxification in plants and fungi. Terrestrial and aquatic bryophytes were investigated for their biochemical response to heavy metals. The GSH pool increased significantly in the first two days after supply of 100 μmol/L Cd(II). PCs were not detected. Cd(II) also induced the enhancement of the GSH pool in the water moss Fontinalis antipyretica. Cysteine and γ-glutamyl-cysteine also increased during Cd(II) treatment, but remained on a lower level. Uptake experiments with Cd(II) showed a fast regulation of equilibrium between the Cd(II) content of the medium and the plant surface, followed by a slow migration of Cd(II) to intracellular sites. The main storage compartment of heavy metals in Fontinalis are the vacuoles, where they are precipitated as phosphates. In the cytoplasm, the S-content increased during Cd(II) exposition. EEL-spectra indicate that in the cytoplasm, Cd(II) is chelated by SH-groups. All findings support the idea that in the investigated moss species, GSH plays an essential role in heavy metal detoxification during the transport of the metals through the cytoplasm.     

Enhancing the tolerance of zebrafish (Danio rerio) to heavy metal toxicity by the expression of plant phytochelatin synthase

Phytochelatin synthase (PC synthase) catalyzes a biosynthesis of phytochelatins (PCs), which are small molecules and glutathione (GSH)-derived metal-binding peptides that are essential for the detoxification of heavy metal ions in plants, fungi and worms. In order to enhance tolerance to heavy metal cytotoxicity, mRNA coding for PC synthase from Arabidopsis thaliana (AtPCS1) was introduced into the early embryos of zebrafish. As a result, the heterogeneous expression of PC synthase and the synthesis of PCs from GSH in embryos could be detected. The developing embryos expressing PC synthase (PC-embryos) became more tolerant to Cd toxicity (500 microM exposure). PC-embryos had significantly longer apparent lethal times for 50% of the population (LT50) of 8.17+/-1.08 days, although control embryos had apparent LT50 of 5.43+/-0.66 days. These data suggest that PC synthase can function in developmental zebrafish, and that PCs are highly effective in detoxifying Cd toxicity even in the whole body of a vertebrate species.     

Phytochelatin-cadmium-sulfide high-molecular-mass complexes of Euglena gracilis

High-molecular-mass PC complexes (PC-HMWCs) constituted by phytochelatins (PCs), cadmium and sulfide are synthesized by several organisms after exposure to cadmium. In this study, PC-HMWCs were isolated from photoheterotrophic Euglena gracilis and purified to homogeneity, resulting in compounds of molecular mass 50-380 kDa depending on the CdCl2 and sulfate concentrations in the culture medium. In contrast with plants and some yeasts, PC-HMWCs from E. gracilis mainly comprise (57-75%) monothiol molecules (Cys, gamma-glutamylcysteine, GSH) and, to a lesser extent (25-43%), PCs. A similar acid-soluble thiol compound composition was found in whole cell extracts. The -SH/Cd2+ and S2-/Cd2+ ratios found in purified PC-HMWCs were 1.5 and 1.8, respectively; the (-SH + S2-)/Cd2+ ratio was 3.2. PC-HMWCs of molecular mass 60 and 100 kDa were also localized inside Percoll-purified chloroplasts, in which cadmium and PCs were mainly compartmentalized. Cadmium and sulfur-rich clusters with similar sulfur/cadmium stoichiometries to those of the purified PC-HMWCs were detected in the chloroplast and throughout the cell by energy dispersive microanalysis and atomic resolution electron microscopy. The presence of PC-HMWCs in primitive photosynthetic eukaryotes such as the protist, E. gracilis, suggests that their function as the final cadmium-storage-inactivation process is widespread. Their particular intracellular localization suggests that chloroplasts may play a major role in the cadmium-resistance mechanism in organisms lacking a plant-like vacuole.     

Oxidative stress alters membrane sulfhydryl status, lipid and phospholipid contents of crossbred cattle bull spermatozoa

Ferrous ascorbate (FeAA: FeSO4+ascorbic acid) has been used in the past by different investigators to induce oxidative stress. The optimum dose of FeAA for inducing oxidative stress by affecting thiols [total thiols (TSH), glutathione reduced (GSH), glutathione oxidized (GSSG), redox ratio (GSH/GSSG)], total lipids and phospholipids has been ascertained in the local crossbred cattle bull spermatozoa. The fractions of spermatozoa suspended in 2.9% sodium citrate were subjected to three doses of FeAA (100 microM:500 microM, 150 microM:750 microM, 200 microM:1000 microM; FeSO4:ascorbic acid), and were assessed for various parameters. On increasing the concentration of FeAA, a gradual decrease in TSH, GSH, GSH/GSSG, lipid and phospholipid levels, but increase in GSSG content were observed. It is concluded that thiol groups play an important role in antioxidation and detoxification of ROS as well as maintaining intracellular redox status. Thiol groups, thus, serve as defense mechanisms of sperm cells to fight against oxidative stress. In addition, all doses of FeAA cause leakage of lipids and phospholipids from the bull sperm membranes.     

模拟酸雨和铜复合污染对白花泡桐生理特性的影响及其解毒机制

采用盆栽方法,研究了模拟酸雨(pH分别为4.0、5.0)和Cu(0～200mg·kg-1)复合污染对白花泡桐生理特性的影响及其解毒机制.结果表明:未加Cu处理时,不同酸雨处理间,白花泡桐的叶绿素、类胡萝卜素、超氧阴离子、过氧化氢和丙二醛含量均差异不显著;100和200mg·kg-1Cu处理时,pH4.0处理的叶绿素和类胡萝卜素含量显著低于,而超氧阴离子、过氧化氢和丙二醛含量显著高于pH5.0处理.Cu处理的叶绿素a/b值明显高于未加Cu处理.随着酸雨酸度增加,叶片铜含量明显减少,而根部铜含量明显增加.pH5.0时,随Cu浓度增加,超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)和抗坏血酸过氧化物酶(APX)活性均持续增强,植物络合素和谷胱甘肽(GSH)总量均明显增加;而在pH4.0时,SOD、POD、CAT和APX活性呈先升后降,而GSH总量在Cu浓度为200mg·kg-1时明显下降.模拟酸雨加剧了高浓度Cu对白花泡桐的氧化胁迫.     

胡杨遗传转化体系的建立及抗生素浓度的优化

探讨了不同激素浓度对胡杨叶片分化以及卡那霉素、G418、羧苄青霉素和头孢霉素4种抗生素对胡杨不同培养阶段外植体生长、分化或生根的影响,确定了由农杆菌介导的胡杨遗传转化研究中抗生素种类和转化体的筛选浓度,建立了适于胡杨叶片转化的遗传转化体系。结果表明:胡杨叶片再生的最佳培养基为MS+BA0.5mg/L+NAA0.1～0.2mg/L+白砂糖25g/L+琼脂5g/L;在叶片转化筛选阶段,卡那霉素和G418的适宜浓度分别为10mg/L和7.5mg/L,羧苄青霉素和头孢霉素的适宜浓度为200～600mg/L和200～400mg/L;在抗性芽生根培养时,卡那霉素和G418分别为15～20mg/L和10～15mg/L,羧苄青霉素和头孢霉素为200～800mg/L和200～600mg/L。