High cadmium pollution risk on vegetable amaranth and a selection for pollution-safe cultivars to lower the risk

A pot experiment was carried out by growing 29 different genotypes (Amaranthus spp.) of vegetable amaranth under low- (0.12 mg·kg^-1) and middle- (0.40 mg·kg^-1) cadmium (Cd) exposure. The result showed that amaranth was vulnerable to cadmium (Cd) contamination in soil. Variations of Cd concentrations in both roots and edible parts among genotypes were significant (P<0.001) in both treatments. Cd concentrations in edible parts of the tested genotypes grown under low- and middle-Cd levels were significantly correlated (p<0.01), implying that Cd-accumulating property of amaranth is genotype-dependent. Differences in Cd chemical forms between cv. Nanxingdayemashixian (cv. Nan), a selected typical pollution-safe cultivar (Cd-PSC), and cv. Pennongjianyexian (cv. Pen), a selected typical non-Cd-PSC, under different Cd exposure conditions were compared. It was found that the alternation of Cd in F_NaCl (Cd form extracted by 1 mol·L^-1 NaCl) may be a key factor in regulating Cd accumulation of different amaranth genotypes and that the protein-binding Cd is considered to be associated with Cd translocation. The results indicated that amaranth is capable of enduring high level of Cd pollution when grown as vegetable crop, and accordingly, consuming vegetable amaranth would bring high health risk. Therefore, adopting Cd-PSC strategy would help reducing the risk of Cd pollution in amaranth. In this study, cv. Nan was identified as a Cd-PSC and recommended to be applied production practice.     

Toxicity of cadmium nanoparticles to Bacillus subtilis

The study deals with the toxicological impact of cadmium nanoparticles (Cd NPs) on Bacillus subtilis as a model Gram-positive bacterium. Cadmium oxide (CdO) NPs (～22 nm) and cadmium sulfide (CdS) NPs (～3 nm) were used in this study. Both the NPs were found to inhibit the cell viability of B. subtilis when added to the culture at mid-log phase, the viable cell number declined with increasing concentration of Cd NPs. At mid-log phase, 15 mg L^?1 CdO NPs inhibited growth by ～50%, whereas at 30 mg L^?1 growth completely ceased. Under the same conditions, CdS NPs inhibited growth by ～50% at a concentration of 8 mg L^?1, and at 20 mg L^?1 growth was completely retarded. The cells changed their morphological features to a filamentous form with increasing Cd NPs exposure time, leading to associated with clumping. NPs treated cells when stained with 4′, 6-diamino-2-phenylindole, showed filamentous multinucleated bead structure, suggesting irregularities in cell division. Increasing intracellular oxidative stress due to Cd NPs exposure might be one of the reasons for the cell morphological changes and toxicity in B. subtilis.     

纳米硫化镉量子点细胞毒性作用机制

为初步探讨硫化镉量子点(CdS QDs)的细胞毒性作用机制,采用MTT毒性实验比较了CdS QDs和常规CdS对仓鼠肺细胞(CHL)的毒性效应以及细胞内外活性氧水平.结果表明,1)在较低暴露浓度(≤20μg·mL-1)时,CdS QDs细胞毒性显著高于常规CdS,而在较高暴露浓度(>20μg·mL-1)时,两者相差不大.2)在较低暴露浓度(≤40μg·mL-1)时,添加N-乙酰半胱氨酸(NAC)可显著降低CdS QDs的细胞毒性,而在较高暴露浓度(>40μg·mL-1)时,添加NAC对CdS QDs的细胞毒性没有明显影响.添加NAC对常规CdS细胞毒性没有显著影响.综合实验结果推测CdS QDs的细胞毒性与暴露剂量有关:在低浓度(<20μg·mL-1)时,主要是活性氧的氧化损伤作用;在中等浓度(20~40μg·mL-1)时,活性氧和Cd2+的释放共同作用;在高浓度(>40μg·mL-1)时,则是Cd2+的释放占主导地位.     

双酚A对小鼠肝脏和肾脏细胞的氧化损伤

为探究双酚A(BPA)的氧化毒性,分别以剂量为20、40和80mg·kg~(-1)·d~(-1)的BPA对雄性昆明小鼠灌胃处理1周,并测定了小鼠体内活性氧自由基(ROS)水平、还原型谷胱甘肽(GSH)含量、丙二醛(MDA)含量和DNA-蛋白质交联系数(DPC)。与对照组相比,各BPA暴露组小鼠肝脏和肾脏细胞中的ROS生成量、MDA含量和DPC系数均升高,而GSH含量下降(P<0.05或P<0.01)。ROS生成量、GSH含量和DPC系数均显示出剂量-效应关系。研究表明,BPA可扰乱小鼠肝脏和肾脏细胞的氧化应激平衡,诱导细胞氧化损伤。     

植物体超氧阴离子自由基不同检测方法的比较

应用顺磁共振波谱仪(EPR)自旋捕获法、羟胺氧化法、二氢乙锭(DHE)荧光探针和硝基四氮唑蓝(NBT)原位显色法,分别检测了暴露于梯度镉(Cd)溶液2 d后的水稻幼苗根叶组织超氧阴离子自由基(O.-2)的变化水平.结果表明,0—60 mg.L-1Cd诱导了O2.-随着Cd剂量的增加而升高,高于此剂量范围则呈现下降趋势.4种方法的检测结果基本一致,但前两种方法更适用于定量O2.-的生成水平,而后两种显色方法仅能反映O2.-的变化趋势,难以精确定量.因此,可以选择性地应用4种方法揭示暴露于污染物的植物组织O2.-的响应水平.     

应用流式细胞分析技术研究溴氯海因对近头状伪蹄形藻的毒性作用

实验采用流式细胞术的检测分析方法,探究溴氯海因(BCDMH)对常见淡水藻类近头状伪蹄形藻的作用.研究结果显示BCDMH对近头状伪蹄形藻钓生长抑制作用呈明显的浓度依赖型变化.根据不同浓度细胞生长抑制的百分率计算,24、48和72 h BCDMH对近头状伪蹄形藻生长抑制作用的EC50分别为3.64、3.21和2.56 mg...     

碲化镉量子点对小鼠睾丸组织的氧化损伤（Effects of CdTe Quantum Dots on the Antioxidant Enzymes Activity and Lipid Peroxidation in Testes of Mice）

为探讨碲化镉量子点(CdTeQDs)对小鼠睾丸的急性氧化损伤作用,将20只雄性ICR小鼠随机分成4组:对照组、1d、3d、7d(3个不同时间组),采用尾静脉注射进行一次性染毒2.5μmol·kg-1CdTeQDs,对照组注射等体积生理盐水.染毒后对睾丸的脏器系数以及组织中超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、谷胱甘肽过氧化物酶(GSH-Px)活性,丙二醛(MDA)含量分别进行测定,从而检测CdTeQDs对睾丸组织的急性氧化损伤作用.结果显示,与对照组相比,随染毒时间的延长,睾丸脏器系数无显著性变化(p>0.05);GSH-Px和SOD活性随染毒时间的延长呈逐渐升高趋势;而CAT活性呈逐渐降低趋势,且与对照组差异显著(p<0.01);MDA含量显著高于对照(p<0.01),且随时间变化不大.CdTeQDs染毒可导致小鼠睾丸组织氧化损伤,其损伤程度与染毒时间之间具有一定的时间-效应关系.