苯并[a]芘和菲对缢蛏血细胞DNA损伤的研究

为研究苯并[a]芘和菲对缢蛏的毒性效应,将缢蛏(Sinonovacula constricta)分别暴露于浓度为0.45 mg·L-1、0.15 mg·L-1、0.05 mg·L-1苯并[a]芘溶液和0.45 mg·L-1、0.15 mg·L-1、0.05 mg·L-1菲的溶液中,采用单细胞凝胶电泳实验(彗星实验)技术检测不同暴露时间缢蛏血淋巴细胞的DNA损伤程度,对照组为清洁海水。结果显示,高浓度(0.45 mg·L-1)苯并[a]芘溶液和(0.45 mg·L-1)菲溶液在短期(7 d)内即可导致缢蛏血细胞显著的DNA损伤,并且随苯并芘[a]和菲浓度的增大和暴露时间的延长,DNA损伤程度增加。21 d恢复实验后,各浓度组DNA损伤又均有不同程度的恢复,但中高浓度组(0.45 mg·L-1和0.15 mg·L-1)与对照组仍显著性差异。两种多环芳烃物质对缢蛏血细胞的DNA损伤作用均存在较显著时间-剂量-效应关系。其中,苯并芘[a]对缢蛏血细胞的DNA损伤作用要高于菲。     

BDE-47对人胚肾细胞HEK293的毒理效应及作用机制

2,2’,4,4’-四溴联苯醚(BDE-47)是生物体中含量最高且毒性最强的PBDEs之一,有关BDE-47对肾细胞的毒性及其作用机制的研究仍有待补充。选取3个剂量组(低:10-6mol·L-1、中:10-5mol·L-1、高:10-4mol·L-1)及溶剂对照组,研究了BDE-47对人胚肾细胞(HEK293)的细胞凋亡率及活性氧(ROS)水平的影响;并从分子水平对细胞氧化损伤、凋亡相关蛋白(APE1及p53)及凋亡相关基因m RNA(p53、Bax、Caspase 3、Caspase 8)的表达量进行测定。实验结果显示:与对照组相比,中、高剂量组细胞凋亡率显著增加(P0.05);ROS水平在中剂量组显著上升(P0.01);随BDE-47浓度的变化,APE1蛋白表达量与细胞ROS水平存在一致性;p53、Bax、Caspase 8 m RNA表达量与BDE-47的浓度间存在剂量-效应关系。结果表明,BDE-47可诱导HEK293细胞凋亡及氧化应激,APE1可能是细胞ROS升高与细胞凋亡间重要的中介因子;BDE-47可以通过影响Caspase 8及线粒体途径中p53及Bax的表达诱导细胞凋亡。     

Hepatic effects of yttrium oxide nanoflowers: in vitro risk evaluation

Yttrium oxide nanoflowers were prepared by a hydrothermal technique, and X-ray diffraction and scanning electron microscopy were used to determine their structures. The cytotoxic and genotoxic potentials of aqueous dispersions of the nanoflowers to cultured primary rat hepatocytes were examined at concentrations up to 500 mg L^?1 for 72 h. Cell viability was determined by monitoring the reduction of 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, release of lactate dehydrogenase, and uptake of neutral red. Genotoxicity was assessed by the liver micronucleus assay. Exposure to Y₂O₃ nanoflowers at concentrations lower than 100 mg L^?1 did not lead to any cytotoxicity or genotoxicity. At higher concentrations (200, 400, and 500 mg L^?1), cell viability decreased and induction of micronuclei increased (400 and 500 mg L^?1).     

彗星实验技术及其应用

彗星实验是瑞典科学家Ostling和Johanson于1984年发明的检测毒物DNA损伤效应的方法。它经历了从最初的微电泳技术、中性彗星实验、碱性彗星实验、酶切彗星实验和双向垂直彗尾彗星实验等不断完善的发展过程。在毒理学、遗传学和环境生态科学等领域有着重要的应用,是经济合作与发展组织(OECD)和欧洲食品安全局等国际组织推荐的测定遗传毒性的方法之一。彗星实验的关键点包括单细胞悬液的制备、细胞裂解液的成分与比例,低熔点琼脂糖凝胶的浓度,电泳条件等。在典型应用领域,如蚯蚓、鱼、两栖动物、鼠和人的彗星实验很难找到标准实验方案。成功的彗星实验还需关注,实验设计时必须包括阳性对照,结果表述时必须有图为证,实验方案可能因物种或细胞而异。     

Simultaneously recovering electricity and water from wastewater by osmotic microbial fuel cells: Performance and membrane fouling

Since the concept of the osmotic microbial fuel cell (OsMFC) was introduced in 2011, it has attracted growing interests for its potential applications in wastewater treatment and energy recovery. However, forward osmosis (FO) membrane fouling resulting in a severe water flux decline remains a main obstacle. Until now, the fouling mechanisms of FO membrane especially the development of biofouling layer in the OsMFC are not yet clear. Here, the fouling behavior of FO membrane in OsMFCs was systematically investigated. The results indicated that a thick fouling layer including biofouling and inorganic fouling was existed on the FO membrane surface. Compared to the inorganic fouling, the biofouling played a more important role in the development of the fouling layer. Further analyses by the confocal laser scanning microscopy (CLSM) implied that the growth of biofouling layer on the FO membrane surface in the OsMFC could be divided into three stages. Initially, microorganisms associated with ß-D-glucopyranose polysaccharides were deposited on the FO membrane surface. After that, the microorganisms grew into a biofilm caused a quick decrease of water flux. Subsequently, some of microorganisms were dead due to lack of nutrient source, in the meantime, polysaccharide and proteins in the biofouling layer were decomposed as nutrient source, thus leading to a slow development of the biofouling layer. Moreover, the microorganisms played a significant role in the formation and development of the biofouling layer, and further studies are needed to mitigate the deposition of microorganisms on FO membrane surfaces in OsMFCs.

Open image in new window

     

长期污水处理下无植物BRC渗透性能及脱氮性能间变化规律

通过对系统渗透系数及氮素浓度变化的长期监测,考察长期污水处理条件下无植物生物滞留池(Biological Re-tention Cell,BRC)渗透性能及脱氮性能之间的变化规律.结果表明,无植物BRC在长期污水处理运行过程中,TN去除率随着渗透系数的降低而降低.脱氮效率降低是由于系统内基质堵塞导致,渗透系数降低是由于...     

重金属生物吸附研究中蜡状芽孢杆菌菌体微观形貌的原子力显微镜观察与表征

对蜡状芽孢杆菌在重金属生物吸附条件下细胞的界面形态及其变化情况进行了原子力显微镜成像观察与表征 .结果表明 ,在严格实验对照条件下未加入Pb(II)的空白菌体细胞呈杆状 ,单个细胞长约 3 3μm ,横截面分析结果为宽 1 9μm左右 ,高为 0 3～ 0 4 μm ,细胞壁表面比较光滑 ,细胞之间以竹节结构首尾相连排列成长杆状 ;吸附Pb(II)后细胞的体积则发生膨胀 ,单个细胞长约 3 9μm ,横截面分析结果为宽 3 1 μm左右 ,高约为 1 1 5 μm ,细胞壁表面变得比较粗糙 ,细胞之间较容易发生粘结 ,与对照空白菌体相比 ,细胞之间呈长杆状的竹节结构排列则变得很少 .采用截面分析曲线中形貌特征的高宽度比R对细菌细胞在云母基底表面的横向铺展变形作用进行了定量表征 (吸附铅离子后R值由 0 1 6 5变为 0 4 1 6 ) ,同时探讨了细胞在基底表面的横向铺展变形作用可能与细胞表面电荷影响细胞在基底表面的粘附性能密切相关 ,并受溶液pH、离子强度以及金属离子的暴露与吸附等外界因素影响而发生改变 .有关其详细机理 ,还有待在以后的研究工作中作进一步探讨     

聚磷菌富集实验及其内源特征探究

通过磷酸盐释放速率(PRR)测定、荧光原位杂交技术(FISH)及LIVE/DEAD细胞染色技术,分别研究了生物营养物去除(BNR)系统与富集聚磷菌(PAOs)序批式反应器(SBR)系统中PAOs在好氧环境下的衰减特征.结果表明,当富集聚磷菌SBR系统进料中碳源(三水合乙酸钠和丙酸)是以36d为一个循环周期方式投加时,即三水合乙酸钠24d和丙酸12d,系统中PAOs富集比例可达91%.测定与计算结果表明,生物营养物去除(BNR)系统与富集聚磷菌SBR系统中PAOs衰减速率分别为0.113d-1和0.181d-1,死亡速率分别为0.048d-1和0.036d-1.这说明由细胞死亡引起的PAOs数量衰减在两个系统中分别占细胞总衰减的42%(BNR)和20%(SBR),而由细胞活性降低引起的活性衰减分别占细胞总衰减的58%(BNR)和80%(SBR).由此可见,PAOs数量衰减在其细胞总衰减中只占较小一部分,而绝大部分衰减是由活性衰减所引起.     

芹菜根细胞壁对镉的吸附固定机制及其FTIR表征研究

对芹菜根细胞壁Cd的吸附固定机制开展了相关研究.芹菜根细胞壁Cd吸附的动力学实验研究表明,根细胞壁经酯化改性处理后其对Cd的累积吸附量相对降低了42.6%,经氨基甲基化改性处理后其对Cd的累积吸附量相对降低了21.0%,经果胶酶改性处理后其对Cd的累积吸附量相对降低了40.5%.同时,利用傅立叶红外光谱技术表征了芹菜根细胞壁上Cd吸附位点的官能团信息.研究结果表明,Cd主要与细胞壁纤维素、半纤维素和木质素中的羧基官能团发生结合作用,同时,根细胞壁上的蛋白质和果胶质也参与了Cd的结合.