恶臭假单胞菌Pseudomonas putida 5-x细胞壁膜系统的Cu2+吸附性能

对1株从电镀废水中分离出的革兰氏阴性菌恶臭假单胞菌P.putida 5-x的细胞表面组分对Cu²⁺的吸附性能进行了分析研究.结果表明,分离的P.putida 5-x细胞壁膜的Cu²⁺吸附容量是完整细胞的5倍之多.细胞表面组分如肽聚糖层、细胞外膜和细胞内膜在P.putida 5-x细胞壁膜的Cu²⁺吸附过程中都发挥了作用.肽聚糖层、细胞外膜和内膜在P.putida 5-x细胞壁膜中的含量依次为细胞内膜>外膜>肽聚糖层,而它们的Cu²⁺吸附容量的大小依次为肽聚糖层>外膜>内膜.在P.putida 5-x细胞壁膜对Cu²⁺的吸附过程中,肽聚糖层贡献了不到15%的吸附容量,而细胞外膜和内膜分别贡献了30%～35%和25%～30%.P.putida 5-x细胞外膜中的磷脂含量明显比其它报道的革兰氏阴性细菌的细胞外膜高,这可能是P.putida 5-x细胞外膜具有较高Cu²⁺吸附容量的主要原因,并由此导致P.putida 5-x细胞壁膜的高Cu2+吸附容量.     

邻苯二甲酸二丁酯暴露对雄性大鼠生精细胞功能影响

观察不同剂量的邻苯二甲酸二丁酯(DBP)对成年大鼠生精细胞损伤、端粒酶和端粒酶逆转录酶(TERT)表达影响.对40只健康雄性SD大鼠随机分成4组,分别为500mg·kg-1·d-1、250mg·kg-1·d-1、50mg·kg-1·d-1 3个染毒组和1个对照组,灌胃量为5mL·kg-1体重,灌胃法连续给药6周.对体重...     

细胞自动机模拟活性污泥法污水处理过程

从活性污泥法污水处理过程的微观机理出发,建立了污水处理过程的二维细胞自动机模型,并进行仿真实验.结果表明：建立的细胞自动机模型能够实现污水处理过程的动态可视化,复现出了污水中有机物被吸附、降解及微生物生长、繁殖和衰亡的过程;仿真中还讨论了污泥颗粒粒径、有机物分子半径、温度和污泥浓度等因素对模拟结果的影响,因素灵敏度分析...     

Competition of bloom-forming marine phytoplankton at low nutrient concentrations

Competition of three bloom-forming marine phytoplankton (diatom Skeletonema costatum, and dinoflagellates Prorocentrum minimum and Alexandrium tamarense) was studied through a series of multispecies cultures with di erent nitrate (NaNO3) and phosphate (NaH2PO4) levels and excess silicate to interpret red tide algae succession. S. costatum outgrew the other two dinoflagellates in nitrate and phosphate replete cultures with 10 mol/L Na2SiO3. Under nitrate limited (8.82 mol/L NaNO3) conditions, the growth of S. costatum was also dominant when phosphate concentrations were from 3.6 to 108 mol/L. Cell density of the two dinoflagellates only increased slightly, to less than 400 and 600 cells/mL, respectively. Cell density of S. costatum decreased with time before day 12, and then increased to 4000 cells/mL (1.5 mg/L dry biomass) at NaNO3 concentrations between 88.2 and 882 mol/L with limited phosphate (0.36 mol/L NaH2PO4) levels. In addition, P. minimum grew well with a maximal cell density of 1690–2100 cells/mL (0.5–0.6 mg/L dry biomass). Although S. costatum initially grew fast, its cell density decreased quickly with time later in the growth phase and the two dinoflagellates were dominant under the nitrate-limited and high nitrate conditions with limited phosphate. These results indicated that the diatom was a poor competitor compared to the two dinoflagellates under limited phosphate; however, it grew well under limited nitrate when growth of the dinoflagellates was near detection limits.     

Effect of nutrient conditions on the toxicity of naphthalene to Chlorella pyrenoidosa

The toxicity of naphthalene to a freshwater microalga, Chlorella pyrenoidosa, and the subsequent recovery of algae from the damage were investigated under two nutrient conditions, either enriched with nitrogen (N) and phosphorus (P), or starved of N and P. Results showed that C. pyrenoidosa was more sensitive to naphthalene under N,P-enriched condition, and the inhibitory rate generally increased at first and then decreased gradually with the evaporation of naphthalene under both nutrient conditions. Enriched N, P reduced the inhibitory rate at initial naphthalene concentration of 5 and 10 mg/L, but enhanced it at 100 mg/L, at which more severe ultrastructure damages were found than those under N,P-starved condition. Observed damages included partly or totally disappearance of nucleolus, nuclear, and plasma membranes. According to the chlorophyll content and cell density measurements, C. pyrenoidosa could recover from naphthalene damage with initial concentrations 6 50 mg/L in 7 days under both nutrient conditions, while they could not recover if the initial concentration of naphthalene was at 100 mg/L. Under the N,P-starved condition, the inability of C. pyrenoidosa to recover from the naphthalene damage was consistent with the results of high inhibitory rate, low value of specific growth rate (SGR, 0.05 day??1), and the severe destruction of cell structure. However, under the N,P-enriched conditions, the observed lower inhibitory rate, higher value of SGR (0.55 day??1), and the intact cell structure of most cells suggested that algae could potentially recover from the naphthalene damage.     

海洋卡盾藻无细胞滤液对赤潮微藻的作用及其与微藻的共培养

实验模拟条件下,研究了海洋卡盾藻无细胞滤液对四种微藻生长的影响及其与东海原甲藻和塔玛亚历山大藻的共培养。结果表明:卡盾藻无细胞滤液对三角褐指藻、东海原甲藻和塔玛亚历山大藻细胞的生长速率都有显著的抑制效应(P<0.01),而对中肋骨条藻的生长抑制作用较弱,当卡盾藻滤液在高浓度(15 mL、20 mL)/40 mL下,中肋骨条藻的生长才受到显著抑制,而低浓度下没有明显影响。海洋卡盾藻与甲藻的共培养明显促进了卡盾藻的生长,抑制了甲藻的生长,对东海原甲藻的抑制作用较强。共培养的结果可能是由于海洋卡盾藻与甲藻之间存在化感作用或营养盐竞争作用,而无细胞滤液对微藻的作用表明海洋卡盾藻对微藻产生化感效应。     

聚糖原菌富集实验及其内源过程探究

细胞衰减是微生物内源过程的一个重要组成部分,可分为由细胞死亡引起的数量衰减和由细胞活性降低引起的活性衰减两部分.通过挥发性脂肪酸（VFA）吸收速率(VFAUR)测定、荧光原位杂交技术（FISH）以及LIVE/DEAD细胞染色技术,研究了富集聚糖原菌（GAOs）在序批式反应器（SBR）系统中好氧环境下的衰减特征.结果表明,当T=30℃、进料中m(COD)∶m(P)=100时,SBR系统中GAOs富集比例达94%.测定和计算表明,SBR富集系统中GAOs衰减速率和死亡速率分别为0.132 d^-1和0.034 d^-1,其数量衰减和活性衰减占其细胞总衰减比例分别为26%和74%.可见,GAOs数量衰减只占其细胞总衰减中很小一部分,而绝大部分衰减由活性衰减所引起.     

用CBMN法评价4-氯酚与富里酸对CHO细胞的毒性效应

用ＣＨＯ细胞和ＣＢＭ法对４－ＣＰ（４－氯）及春ＦＡ协同作用的细胞毒性效应进行了评价,选用的细胞学毒性参数为总微核率（ＭＮ）、含微核的双核细胞率（ＢＮＭＮ）、核分鲜明指数（ＮＯＩ）和南分裂阻断增殖指数（ＣＢＰＩ）,结果表明：ＦＡ单独处理与阴性对照组比较不引起显著性差异;４－Ｃ客ＦＡ联合处理与４－ＣＰ各浓度分别处理相比有显著性的差异;对于ＢＮＭＮ和ＮＤＩ,Ｐ〈０．０１;对于ＭＮ和ＣＢＰＩ,Ｐ〈０．０５     

放射性核素137Cs、90Sr对半滑舌鳎肝脏细胞氧化应激毒性的研究

以半滑舌鳎肝脏细胞（HTLC）为研究对象,利用噻唑蓝比色法（MTT）、乳酸脱氢酶（LDH）、活性氧自由基（ROS）和超氧化物歧化酶（SOD）等方法分析细胞活性、细胞膜完整程度以及氧化应激反应相关指标,探究海洋环境中放射性核素137Cs、90Sr的生物毒性效应。HTLC细胞活性随137Cs、90Sr活度升高呈先增加后降低的趋势,且在低活度核素作用下,细胞活性增加极其显著（p < 0.01）,137Cs对细胞膜无损伤,90Sr则使细胞膜损伤显著（p < 0.05）,但二者均能使ROS含量和SOD活性显著性增加（p < 0.05）。高活度核素作用下SOD活性均显著增加（p < 0.05）,但137Cs作用时ROS无显著变化,90Sr则使ROS显著增加（p < 0.05）。研究表明,在本实验活度条件下,137Cs和90Sr对海洋鱼类细胞无显著的生物毒性,细胞能够通过自我调节维持正常功能。90Sr能产生氧化应激反应,对膜系统造成损伤,可能影响细胞多种代谢途径,对生物体具有潜在的毒性效应。     

内质网应激在氟暴露致小鼠睾丸损伤中的作用

探讨了内质网应激在亚慢性氟暴露致小鼠睾丸损伤中的作用及分子机制.选用健康初断乳ICR雄性小鼠30只,随机分为对照组（C）、低氟组（LF）和高氟组（HF）,分别饮用自来水、5、30 mg·L^-1氟化钠水溶液90 d.亚慢性氟暴露结束后,以睾丸脏器系数、睾丸组织氧化/抗氧化酶和形态结构、精子质量、睾丸细胞凋亡、葡萄糖调节蛋白78（GRP78）、CCAAT/增强子结合蛋白同源蛋白（CHOP）、半胱氨酸天冬氨酸蛋白酶12（CASPASE-12）、半胱氨酸天冬氨酸蛋白酶3（CASPASE-3）为观测点.结果表明,与对照组比,LF组和HF组LDH、SOD、T-AOC活性下降,MDA含量上升,HF组GSH-PX活性下降,差异有统计学意义（p<0.05或p<0.01）;LF组可见细胞层次减少、间隙变大,成熟精子数量减少,HF组细胞溶解、层次紊乱,空泡化严重,少见成熟精子;LF组和HF组小鼠的精子活力降低,HF组小鼠精子数量下降,畸形率上升,差异有统计学意义（p<0.05或p<0.01）;LF组和HF组睾丸细胞凋亡指数上升,差异有统计学意义（p<0.01）;LF组和HF组Grp78、Caspase-12、Caspase-3基因表达水平上升,差异有统计学意义（p<0.05或p<0.01）.结果提示,除氧化应激以外,Caspase-12和Caspase-3基因表达异常可能是氟暴露致小鼠睾丸细胞凋亡异常的分子机制之一.